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Q-2, r. 35.3.1
- Regulation respecting afforestation and reforestation projects eligible for the issuance of offset credits on privately-owned land
Table of contents
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Current Version
Full text
Updated to 29 December 2022
This document has official status.
chapter
Q-2, r. 35.3.1
Regulation respecting afforestation and reforestation projects eligible for the issuance of offset credits on privately-owned land
ENVIRONMENT QUALITY — AFFORESTATION AND REFORESTATION PROJECTS
Environment Quality Act
(chapter Q-2, ss. 46.1, 46.5 and 46.8.2)
.
Q-2
Act respecting certain measures enabling the enforcement of environmental and dam safety legislation
(chapter M-11.6, ss. 30 and 45)
.
M-11.6
11
November
17
2022
12
December
29
2022
TITLE
I
OBJECT, SCOPE AND INTERPRETATION
2022-11-17, Tit. I
M.O. 2022-11-17, Tit. I
.
1
.
With the aim of generating offset credits, whose climate benefits are equivalent to those obtained following a reduction in GHG emissions, through the temporary sequestration of carbon resulting from the creation or increase of forest cover, the object of this Regulation is to
(
1
)
determine which afforestation and reforestation projects on privately-owned land are eligible for the issuance of offset credits under section 46.8.2 of the Environment Quality Act (
chapter Q-2
);
(
2
)
set the conditions and methods applicable to such projects;
(
3
)
determine the information and documents that a person or a municipality responsible for the implementation of an eligible project or a project whose eligibility has yet to be determined must keep or file with the Minister.
2022-11-17
M.O. 2022-11-17
,
s.
1
.
2
.
In this Regulation, unless otherwise indicated by the context,
“
afforestation
”
means the activity of creating forest cover by artificial means on a lot or part of a lot assigned to non-forestry purposes; (
boisement
)
“
agroforestry-type afforestation activity
”
means an afforestation activity that involves establishing a windbreak, riparian strip or silvopasture system; (
activité de boisement de type agroforestier
);
“
anhydrous biomass
”
means biomass with a moisture level close to 0%; (
biomasse anhydre
)
“
annual crop
”
means the production of plants that complete a full biological cycle in 365 days; (
culture annuelle
)
“
baseline scenario
”
means the scenario based on all the information and data needed to define the annual changes in carbon stock in the carbon reservoirs for a project as it would have been had no project been implemented in accordance with this Regulation; (
scénario de reference
)
“
biomass
”
means all the organic mass of plant origin present per surface unit in the carbon reservoirs of a project’s living aerial biomass, living below-ground biomass and dead biomass; (
biomasse
)
“
biophysical characteristics
”
means the information and data gathered during an inventory to define the topography, soil, deposits and drainage, tree population, ligneous and non-ligneous vegetation strata and, where applicable, type of fallow land present on a lot or part of a lot used for a project and on an equivalent lot or part of a lot; (
caractéristiques biophysiques
)
“
calculation tool
”
means the calculation tool designed by the Ministère de l’Environnement et de la Lutte contre les changements climatiques to calculate the effect of a project’s GHG fluxes on radiative forcing and establish the number of offset credits to be issued pursuant to the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances (
chapter Q-2, r. 46.1
); (
outil de calcul
)
“
cap-and-trade system for emission allowances
”
means the cap-and-trade system for greenhouse gas emission allowances established by the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances; (
système de plafonnement et d’échange de droits d’émission
)
“
carbon sequestration
”
means the process that captures CO
2
from the atmosphere to store carbon in the carbon reservoirs constituted by living aerial biomass and living below-ground biomass and then in a project’s other carbon reservoirs; (
séquestration de carbone
)
“
CBM-CFS software
”
means the Carbon Budget Model of the Canadian Forest Sector, designed by Natural Resources Canada; (
logiciel MBC-SFC
)
“
DBH
”
means diameter at breast height; (
DHP
)
“
dead biomass
”
means the biomass present in woody debris and snags present on the lot or part of a lot used for a project; (
biomasse morte
);
“
deforestation
”
means the activity of harvesting trees on a lot or part of a lot assigned to forestry purposes with a long-term view to allowing other land uses; (
déboisement
)
“
DSH
”
means diameter at stump height; (
DHS
)
“
early project
”
means a project that began after 31 December 1989 but before 29 December 2022; (
projet hâtif
)
“
equivalent lot or part of a lot
”
means a lot or part of a lot that is not used for a project, but has plant or forest characteristics that are equivalent to those found on a lot or part of a lot used for a project before it is implemented, and on which the promoter has conducted a biomass inventory to gather the information and data needed to characterize the baseline scenario and project scenario for an early project; (
lot ou partie de lot équivalent
)
“
executive officer
”
means the president, chief executive officer, general manager, chief financial officer or secretary of a legal person or business corporation or any person performing a similar role or designated as such by a resolution of the board of directors; (
dirigeant
)
“
fallow land
”
means a parcel of agricultural land that has been abandoned for at least 5 years after having been cultivated, with no crops planned over the short term (3 to 5 years) but which may, occasionally, be mowed by the owner solely to control invasion by ligneous vegetation. In this Regulation, fallow land is divided into 3 categories: “grassy fallow land”, “shrubby fallow land”, and “woody fallow land”; (
friche
)
“
forest development activity
”
means an activity referred to in paragraph 1 of section 4 of the Sustainable Forest Development Act (
chapter A-18.1
); (
activité d’aménagement forestier
)
“
full stocking
”
means, when applied to regeneration, the optimal distribution coefficient for regeneration, which varies by site quality, at which all trees will occupy all available space at maturity; when applied to a forest stand, “full stocking” means a stand density at which all trees occupy all available space at maturity (
plein boisement
)
“
grassy fallow land
”
means fallow land characterized by the presence of herbaceous species covering, at ground level, 75% or more of the area to be managed. Some shrubs may be observed; (
friche herbacée
)
“
greenhouse gas
”
or
“
GHG
”
means one or more of the gases referred to in the second paragraph of section 46.1 of the Environment Quality Act (
chapter Q-2
) and the second paragraph of section 70.1 du Regulation respecting a cap-and-trade system for greenhouse gas emission allowances, namely carbon dioxide (CO
2
), methane (CH
4
), nitrous oxide (N
2
O), hydrofluorocarbons (HFCs), perfluorocarbons (PFCs), sulphur hexafluoruride (SF
6
), nitrogen trifluoride (NF
3
), chlorofluorocarbons (CFCs) and hydrochlorofluorocarbons (HCFCs); (
gaz à effet de serre
ou
GES
)
“
GHG flow
”
means the quantity of various forms of greenhouse gases, generally expressed in metric tonnes CO
2
equivalent or in metric tonnes GHG, entering or leaving a carbon reservoir or resulting from the combustion of a fossil fuel; (
flux de GES
)
“
initial context for a project
”
means the information and data gathered during the initial characterization of a project to define the history of land uses and, where applicable, the silvicultural management strategies or natural disturbances that led to the vegetative and forest characteristics observed prior to the implementation of the project; (
contexte d’intégration du projet
)
“
initial inventory
”
means all the information and data gathered on a lot or part of a lot for a project and, where applicable, on an equivalent lot or part of a lot to determine the carbon stock in the carbon reservoirs for a project at the project start date or, for an early project, at the project filing date; (
inventaire initial
)
“
issuance inventory
”
means all the information and data gathered on a lot or part of a lot for a project in order to establish the outcome of the project at the end of a reporting period; (
inventaire de délivrance
)
“
living aerial biomass
”
means all the living organic epigeal biomass of plant origin present in the tree, shrub, grass and moss vegetation strata of the lot or part of a lot for a project; (
biomasse aérienne vivante
)
“
living below-ground biomass
”
means the biomass present in the large roots and fine roots of the ligneous species present on the lot or part of a lot used for a project; (
biomasse souterraine vivante
)
“
lot or part of a lot assigned to forestry purposes
”
means a lot or part of a lot where timber production is mandatorily or temporarily possible. This category includes both productive and unproductive forest lots and parts of forest lots; (
lot ou partie de lot à vocation forestière
)
“
lot or part of a lot assigned to non-forestry purposes
”
means a lot or part of a lot, with or without an ecological characterization, where timber production is mandatorily or temporarily excluded. Such lots or parts of lots, with less than 25% of cover density, are generally used for purposes other than forestry. This type of lot or part of a lot is described as agricultural, assigned to non-forestry purposes or anthropogenic, depending on the characteristic degree of disturbance, from barely disturbed to extremely disturbed. The notion of disturbance is connected to a human activity that changes the physical characteristics of the environment such as deposit, deposit depth, drainage and slope, and therefore the resilience of the forest; (
lot ou partie de lot à vocation non forestière
)
“
privately-owned land
”
means land that is not land in the domain of the State pursuant to the Act respecting the lands in the domain of the State (
chapter T-8.1
); (
terre du domaine privé
)
“
productive forest lot or part of a lot
”
means a lot or part of a lot able to produce 30 m
3
or more of ligneous matter per hectare in less than 120 years. Such lots or parts of lots are said to be assigned to forestry purposes because they are occupied by forest stands, and include natural forest, tended forest and planted forest; (
lot ou partie de lot forestier productif
)
“
professional
”
means a professional within the meaning of section 1 of the Professional Code (
chapter C-26
); (
professionnel
)
“
project aggregation
”
means a grouping of several eligible projects under the responsibility of the same promoter; (
agrégation de projets
)
“
project characterization
”
means an activity performed at various project implementation stages to gather all the data and information needed to describe the project, create or update baseline scenarios and project scenarios, and determine the project outcome; (
caractérisation d’un projet
)
“
project outcome
”
means the calculation showing the net GHG fluxes resulting from a comparison of the GHG fluxes for a project scenario with the GHG fluxes for a baseline scenario in order to determine the radiative effect of those fluxes and the number of offset credits to be issued to a promoter pursuant to the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances; (
bilan de projet
)
“
project scenario
”
means a scenario based on all the information and data needed to define the annual changes in carbon stock in the carbon reservoirs for a project when a project is implemented in accordance with this Regulation; (
scénario de projet
)
“
promoter
”
means a person or municipality responsible for the implementation of a project eligible for the issuance of offset credits; (
promoteur
)
“
radiative forcing
”
means the variation in radiation (the difference between incoming irradiance and outgoing irradiance, expressed in W m
–2
) at the tropopause or upper limit of the atmosphere due to a change in an external climate change factor; (
forçage radiatif
)
“
reforestation
”
means an activity to reconstitute forest cover by artificial means on a lot or part of a lot assigned to forestry purposes; (
reboisement
)
“
reporting period
”
means a continuous period, within an eligibility period, during which the atmospheric CO
2
removals or offset credits corresponding to atmospheric CO
2
removals attributable to a project eligible for the issuance of offset credits are quantified pursuant to this Regulation for the issue of offset credits; (
période de declaration
)
“
shrubby fallow land
”
means fallow land characterized by the presence of shrub species with a current height of less than 1.5 to 2 m covering, at ground level, more than 25% of the area to be managed; (
friche arbustive
)
“
snag
”
means a standing dead tree, whether whole or not, at a given stage of decomposition; (
chicot
)
“
soil
”
means the part of the soil composed of organic matter, namely litter, fibre and humus, and part of the upper layer of the surface mineral horizon; (
sol
)
“
timber forest products
”
means products created through the primary or secondary processing of logs. Timber forest products are subdivided into timber forest products with a short, medium or long lifespan. They include saw wood, particle board, veneer, plywood, pulp and paper, cardboard and energy products such as granules, firewood and biofuels; (
produits forestiers ligneux
)
“
unproductive forest lot or part of a lot
”
means a lot or part of a lot that is unable to produce 30 m
3
or more of ligneous matter per hectare in less than 120 years. This category includes all lots or parts of lots with a density below 25% and a height that does not exceed 10 m at maturity at age 120. A stand less than 120 years old may be considered as an unproductive forest stand when its density is below 25% and there is no sign that the cover will densify. If a major disturbance has affected a productive forest stand, the stand must have reached at least 40 years of age before being considered an unproductive forest lot or part of a lot; (
lot ou partie de lot forestier improductif
)
“
woody fallow land
”
means fallow land characterized by the presence of tree species over 2 m in height covering, at ground level, less than 25% of the area to be managed. (
friche arborée
)
2022-11-17
M.O. 2022-11-17
,
s.
2
.
TITLE
II
ELIGIBILITY
2022-11-17, Tit. II
M.O. 2022-11-17, Tit. II
.
CHAPTER
I
ELIGIBILITY CONDITIONS
2022-11-17, c. I
M.O. 2022-11-17, c. I
.
3
.
A project is eligible for the issuance of offset credits under section 46.8.2 of the Environment Quality Act (
chapter Q-2
), for the eligibility period provided for in Chapter II of this Title, if it involves either implementing an afforestation or reforestation activity or implementing a combination of such activities on a single lot or part of a lot and if it meets the following conditions:
(
1
)
the project is implemented by a promoter registered for the cap-and-trade system for greenhouse gas emission allowances in accordance with section 7 or 8 of the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances (
chapter Q-2, r. 46.1
), if the promoter is domiciled in Québec in the case of a natural person or has an establishment in Québec in other cases;
(
2
)
the carbon sequestrations attributable to the project are realized on the promoter’s initiative, without the promoter being required to do so when the project is filed in accordance with Title IV by a law or regulation, an authorization, an order made under a law or regulation, or a court decision.
2022-11-17
M.O. 2022-11-17
,
s.
3
.
4
.
For the purposes of section 3, an afforestation or reforestation project must meet the following conditions
(
1
)
it is implemented in Québec;
(
2
)
it is implemented on privately-owned land;
(
3
)
it relies on the use of indigenous forest species that are locally sourced and ecologically adapted to the lot or part of a lot for the project.
The use of non-local genotypes or non-indigenous species, for example in assisted migration, is authorized provided that a member of the Ordre des ingénieurs forestiers du Québec attests that, based on knowledge or experience, the invasive nature of the species is not an issue or, if it is, that it can be controlled and that effective mitigation measures have been put in place;
(
4
)
no credits are issued for it for activities under another GHG emissions offset program to compensate for GHG emissions;
(
5
)
the promoter has completed an initial characterization for the project in accordance with Chapter II of Title III;
(
6
)
except for a project that includes agroforestry-type afforestation activities in an agricultural zone or a project designed to restore a degraded or abandoned site, any afforestation activity for the project is carried out on a lot or part of a lot assigned to non-forestry purposes that has not been developed or used for a continuous period of at least 10 years immediately prior to the project;
(
7
)
any agroforestry-type afforestation activity for the project is carried out on a lot or part of a lot that was used for an annual crop prior to the project start date;
(
8
)
any reforestation activity for the project is carried out on a lot or part of a lot assigned to forestry purposes when the project begins;
(
9
)
in the case of a reforestation project,
(
a
)
it targets fill planting to ensure full stocking on the lot or part of a lot for the project;
(
b
)
it includes a reforestation activity that is not included in the forest producer’s current forest development plant and is not part of a silvicultural prescription at the project start date;
(
c
)
its goal is not to convert a low-density natural stand into a rapid-growth plantation.
An ecosystem with a cover density of less than 25% is considered to be a low-density natural stand;
(
10
)
in an agricultural zone, a project carried out on previously-cultivated agricultural land that includes an afforestation or reforestation activity, or both, must have received a positive assessment from the Ministère de l’Agriculture, des Pêcheries et de l’Alimentation concerning the potential for agricultural development of the managed area and recommending afforestation or reforestation.
2022-11-17
M.O. 2022-11-17
,
s.
4
.
5
.
An early project must be filed with the Minister for an analysis of its eligibility not later than 60 months following the date of coming into force of this Regulation.
In other cases, a project must be filed not later than 2 years following the year in which it begins.
2022-11-17
M.O. 2022-11-17
,
s.
5
.
6
.
In the case of an early project, only an afforestation activity is eligible as part of an offset credit project pursuant to this Regulation.
2022-11-17
M.O. 2022-11-17
,
s.
6
.
CHAPTER
II
ELIGIBILITY PERIOD
2022-11-17, c. II
M.O. 2022-11-17, c. II
.
7
.
For the purposes of this Regulation,
“
eligibility period
”
means the period during which a project remains eligible, subject to compliance with the eligibility conditions in force on the project filing date provided for in Title IV.
2022-11-17
M.O. 2022-11-17
,
s.
7
.
8
.
The eligibility period corresponds to the actual duration of the project and begins on the project start date.
In the case of an early project, the project start date must be before 29 December 2022. It is either
(
1
)
the year in which site preparation work for the planting of seedlings or sowing of seeds began; or
(
2
)
the year in which site the planting of seedlings or sowing of seeds began, if the project involved no site preparation work.
In other cases, the project start date is the year in which the initial inventory began in accordance with Chapter III of Title III, in other words the year in which the survey plan begins on the lot or part of a lot used for the project.
2022-11-17
M.O. 2022-11-17
,
s.
8
.
CHAPTER
III
GENERAL CONDITIONS APPLICABLE TO THE IMPLEMENTATION OF AN ELIGIBLE PROJECT
2022-11-17, c. III
M.O. 2022-11-17, c. III
.
9
.
Every forest engineer hired by a promoter to complete the characterization stage of the baseline scenario and project scenario and the project outcome determination stage must be a member of the Ordre des ingénieurs forestiers du Québec and have, and be able to show, relevant expertise in forest growth and the simulation of changes in the biomass carbon stock of an ecosystem.
2022-11-17
M.O. 2022-11-17
,
s.
9
.
10
.
The promoter must send a notice, within 30 days, to inform the Minister if
(
1
)
the promoter terminates a project or a project aggregation; or
(
2
)
the promoter transfers responsibility for the implementation of a project or a project aggregation to another promoter.
The notice mentioned in the first paragraph must include the following information and documents:
(
1
)
for the termination of a project or a project aggregation referred to in subparagraph 1 of the first paragraph:
(
a
)
the date of termination of the project or a project aggregation;
(
b
)
the reason for terminating the project or a project aggregation;
(
c
)
the project code;
(
d
)
where applicable, an estimate of the offset credits that will be requested by the promoter for the reporting period during which the termination is planned in accordance with the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances (
chapter Q-2, r. 46.1
);
(
e
)
a declaration by the promoter or the promoter’s representative that all the information provided is accurate and complete;
(
2
)
for a transfer referred to in subparagraph 2 of the first paragraph:
(
a
)
the scheduled date of the transfer of the project or a project aggregation;
(
b
)
the name of the transferee and all the information needed to identify the transferee, including the number of the general account opened by the Minister for the transferee under section 14 of the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances following the transferee’s registration for the cap-and-trade system for emission allowances;
(
c
)
the project code;
(
d
)
where applicable, an estimate of the offset credits that will be requested by the promoter and transferee for the reporting period during which the transfer is planned in accordance with the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances;
(
e
)
a declaration by the promoter and transferee, or their representatives, that all the information provided is accurate and complete.
2022-11-17
M.O. 2022-11-17
,
s.
10
.
11
.
The promoter must use the forms or templates available on the website of the Ministère de l’Environnement et de la Lutte contre les changements climatiques to submit the information or documents required pursuant to this Regulation.
2022-11-17
M.O. 2022-11-17
,
s.
11
.
12
.
The promoter must meet a copy of any information and document required to be submitted pursuant to this Regulation for the duration of the project and for a minimum period of 7 years from the project end date.
The information and documents must be legible, dated and revised as needed and be kept in good condition and in a readily accessible place for the duration of the project.
The promoter must also keep any other information and documents required to quantify the atmospheric CO
2
removals and determine the outcome of the project for the duration of the project and for a minimum period of 7 years following the project end date.
The documents and information referred to in this section must also be provided to the Minister on request.
2022-11-17
M.O. 2022-11-17
,
s.
12
.
TITLE
III
DEFINITION OF AN ELIGIBLE PROJECT AND QUANTIFICATION APPROACHES
2022-11-17, Tit. III
M.O. 2022-11-17, Tit. III
.
CHAPTER
I
PROJECT BOUNDARIES AND GHG FLUXES ATTRIBUTABLE TO THE PROJECT
2022-11-17, c. I
M.O. 2022-11-17, c. I
.
13
.
Tables 1 and 2 below show the carbon reservoirs and the activities and natural processes affecting the carbon content of the reservoirs that must be taken into account by the promoter
(
1
)
when the initial inventory is conducted in accordance with Chapter III of Title III for the filing of the project with the Minister;
(
2
)
when the issuance inventory is conducted in accordance with Chapter III of Title III for the filing of an issuance request for offset credits;
(
3
)
when any other inventory is conducted to update the project.
2022-11-17
M.O. 2022-11-17
,
s.
13
.
14
.
For the purposes of this Regulation,
(
1
)
an annual carbon stock cannot contribute, beyond a 100-year period following its sequestration, to the determination of the number of offset credits to be issued;
(
2
)
GHG fluxes can only be considered as attributable to an eligible project for the quantification provided for in this Title if they have not already been covered by the issuance of offset credits under the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances (
chapter Q-2, r. 46.1
) or the issuance of credits under another program to compensate for GHG emissions;
(
3
)
in the case of an early project, the promoter may include sequestrations in the project outcome if they are realized after 31 December 1989 but before 29 December 2022.
However, when the issuance of offset credits has already been requested for carbon sequestrations under another GHG emissions offset program, the promoter may include those sequestrations in the project outcome if
(
a
)
when the project is filed with the Minister, the credits for which the promoter intends to consider carbon sequestrations in the project outcome are no longer available to compensate for GHG emissions in the program for which they were issued.
The promoter must, if intending to consider the credits in the project outcome, cancel the credits and provide proof that they can no longer be used to compensate for GHG emissions under the former program to compensate for GHG emissions;
(
b
)
the credits for which the promoter intends to consider carbon sequestrations in the project outcome must not have been sold or redeemed otherwise than between the person to whom the program to compensate for GHG emissions issued the credits and the promoter of the project implemented pursuant to this Regulation;
(
4
)
for the purposes of this Regulation, in the case of an early project, only the effect of GHG fluxes on radiative forcing after 31 December 2006 may lead to the issuance of offset credits.
Table 1 Overview of the approaches used to determine the carbon stock present in a project’s carbon reservoirs
Carbon reservoir
Approach used to determine the carbon stock
Living aerial biomass
The carbon stock present in this reservoir is estimated using the measurements made for the initial inventory and the issuance inventory in accordance with Division III of Chapter III of this Title.
The information and data from the inventories, which are needed to simulate the annual changes in carbon in the reservoir for the baseline scenario and project scenario, must be entered into the CBM-CFS software.
Living below-ground biomass
The initial carbon stock present in this reservoir is estimated using Table 7.
The results of the calculations are entered into the CBM-CFS software to simulate carbon changes in the baseline scenario and project scenario.
For the issuance inventory, the carbon stock present in this reservoir is determined by the CBM-CFS software based on the information and data used to update the baseline scenario and project scenario.
Dead biomass
The carbon stock present in this reservoir is estimated using the measurements made for the initial inventory and the issuance inventory in accordance with Division III of Chapter III of this Title.
The information and data from the inventories, which are needed to simulate the annual changes in carbon in the reservoir for the baseline scenario and project scenario, must be entered into the CBM-CFS software.
Soil
The carbon stock present in this reservoir is estimated using the measurements made for the initial inventory and the issuance inventory provided for in Division IV of Chapter III of this Title and analyzed in the laboratory in accordance with Schedule C.
The information and data from the inventories, which are needed to simulate the annual changes in carbon in the reservoir for the baseline scenario and project scenario, must be entered into the CBM-CFS software.
The promoter must include this reservoir in the inventory and quantification when more than 25% of the area of the lot or part of a lot for the project is disturbed by site preparation work to plant seedlings or sow seeds.
Timber forest products
The carbon stock present in this reservoir is estimated by the CBM-CFS software using the results from the simulation of annual changes in the carbon contained in the reservoir of merchantable timber in the baseline scenario and project scenario.
The promoter must enter the results of this estimate into the calculation tool in accordance with Division III of Chapter IV of this Title to determine the effect of processing the volume of timber into timber forest products on radiative forcing.
Table 2 Overview of the anthropogenic activities and natural processes to be taken into consideration to determine the project outcome
Anthropogenic activity or natural process
GHG
Description
Construction and maintenance work on a network of trails and roads existing at the project start date or to be developed during the project
CO
2
GHG fluxes associated with the deforestation of a portion of the lot or part of a lot for the project to maintain the network of trails and roads existing at the project start date or to be developed.
Included only when the project has a leakage for a reporting period, in accordance with the Chapter VII of this Title.
Site preparation work to plant seedlings or sow seeds (for example, scarifying)
CO
2
GHG fluxes associated with soil disturbances.
The promoter must measure the effect of the soil disturbance in accordance with Division IV of this Chapter III and Schedule C. Once the effect of soil disturbance on the carbon reservoir in the soil has been measured, the promoter must enter the result into the CBM-CFS software.
Included only when more than 25% of the area of the lot or part of a lot for the project is disturbed by site preparation work to plant seedlings or sow seeds.
Spreading of inorganic nitrogenous fertilizer
N
2
O
GHG fluxes associated with the application of organic or inorganic nitrogenous fertilizer.
The promoter must complete equation 8 and enter the result in the calculation tool.
Plantation release as part of plantation maintenance
CO
2
GHG fluxes associated with the decomposition of competing biomass.
The CBM-CFS software applies the silvicultural strategy entered by the promoter and distributes the carbon fluxes between reservoirs based on the type of treatment.
Precommercial thinning of the plantation as part of precommercial management work
CO
2
GHG fluxes associated with the decomposition of the saplings removed.
The CBM-CFS software applies the silvicultural strategy entered by the promoter and distributes the carbon fluxes between reservoirs based on the definition of the treatment.
Partial or total harvest of merchantable volumes of timber for processing
CO
2
GHG fluxes associated with the harvesting of some or all of the trees in the plantation.
The CBM-CFS software applies the silvicultural strategy entered by the promoter and distributes the carbon fluxes between reservoirs based on the definition of the treatment.
Use of fossil fuels for the purposes of the project
CO
2
GHG fluxes associated with the combustion of fossil fuels, in particular gasoline and diesel fuel, for the implementation of the silvicultural strategy associated with the project.
CH
4
N
2
O
The promoter must complete equations 9 and 10 and enter the result in the calculation tool.
Carbon leakage
CO
2
GHG fluxes associated with the deforestation of an area belonging to the owner of the lot or part of a lot for the project.
The promoter must determine if there is a leakage by completing equations 11.1 and 12.
In the event of a leak, the promoter must calculate the carbon stock returned to the atmosphere for the baseline scenario and project scenario using the CBM-CFS software.
Included only when the project has a leak for a reporting period, in accordance with Chapter VII of this Title.
Timber forest products
CO
2
GHG fluxes associated with the transfer of part of the living aerial biomass to timber forest products and their degradation.
Soil
CO
2
GHG fluxes associated with the transfer of part of the biomass to the carbon reservoir in the soil.
Biomass
CO
2
Fluxes associated with the transfer of CO
2
from the atmosphere to living biomass and dead biomass.
Table 3 – Conversion table to be used to determine the carbon stock present in the carbon reservoirs for a project
From
To
1 t anhydrous biomass
0.5 t carbon
1 t carbon
3.667 t CO
2
1 acre
0.4046 ha
1 ha
10,000 m²
2022-11-17
M.O. 2022-11-17
,
s.
14
;
I.N. 2023-01-01
.
CHAPTER
II
PROJECT CHARACTERIZATION
2022-11-17, c. II
M.O. 2022-11-17, c. II
.
15
.
At the project filing stage and before filing a project with the Minister in accordance with Title IV, the promoter must produce an initial characterization for the project
(
1
)
to define the initial context for the project
(
a
)
by identifying the history of land uses on the lot or part of a lot for the project over a period of at least 10 years immediately preceding the project start date;
(
b
)
where applicable, by outlining the history of all forest development activities of an afforestation or reforestation type carried out on the lot for the project over a period of at least 10 years immediately preceding the project start date;
(
c
)
where applicable, by defining the silvicultural strategy applied prior to the project start date that resulted in the biological characteristics of the cartographical strata observed on the lot or part of a lot for the project, including a list of silvicultural treatments, their description and their effects.
For an early project, the promoter must present the silvicultural strategy planned and carried out since the project start date and describe the context and forest-related and other objectives that led to the planting of seedlings on the lot or part of a lot for the project and the voluntary nature of the actions taken that led to its implementation;
(
d
)
where applicable, by defining the site preparation methods applied prior to the planting of seedlings or sowing of seeds in connection with the lot or part of a lot for the project and the area affected or to be affected by the site preparation activity compared to the area of the lot or part of a lot for the project.
In the case of an early project, at the project filing stage, if the promoter is unable to define the site preparation mode and the area affected or to be affected by the activity, the promoter must conduct an inventory of the soil carbon reservoir on the lot or part of a lot for the project, and also when filing an issuance request;
(
e
)
by producing one or more maps of the lot for the project with, as a minimum, the following layers:
i
.
the outline of the lot for the project and the areas managed for the project;
ii
.
the road and trail network;
iii
.
the hydrographic network;
iv
.
the outline of land assigned to non-forestry purposes, ecoforest stands and adjacent lots;
The geographical entities for the project, such as the outline of each ecoforest stand, must be numbered and described in a table accompanying the map or maps. The table must include, for each entity shown on the map, its number on the map, a description of the ecoforest stratum, and its surface area in hectares.
All the maps in the report must have a scale, a key, the cardinal points and, as the base layer, an aerial photograph or satellite image with a spatial resolution making it possible to distinguish transitions between contrasting geographic entities such as a forest and a road. The resolution of the maps for the project must make it possible to perform a quick analysis of the attributes connected with the project.
(
f
)
by producing 2 images taken from aerial photographs or analogical or digital satellite images, the first showing the project lot at least 10 years before the project start date and the second showing the project lot at a date as close as possible to the project start date. The images must indicate the boundaries of the lot for the project and the boundaries of adjacent lots.
The interpreted images must come from an analogical aerial photograph at a scale of 1: 15 000 or better, a digital aerial photograph with a spatial resolution of 30 cm or better, or a satellite image with a spatial resolution of 50 cm or better. The promoter must include the photograph used, in.jpg, .tif or PDF format, with the project plan or project report. The image must be accompanied by georeferencing information and the source of the image, in Word file format;
(
g
)
in the case of an afforestation or reforestation project in an agricultural zone, a summary and a copy of the analysis of agricultural potential for the management area carried out by the Ministère de l’Agriculture, des Pêcheries et de l’Alimentation;
(
2
)
to define the biophysical characteristics observed at the project start date on the or part of a lot for the project and, where applicable, on the equivalent lot, including the definition in the project plan provided for in Chapter III of Title IV;
(
3
)
to conduct an initial inventory for the lot or part of a lot for the project and, where applicable, for the equivalent lot using the methodology in Chapter III of this Title.
A promoter may decide to not use the methodology in Chapter III of this Title; in such a case, the promoter must use an inventory methodology that is documented and approved by a member of the Ordre des ingénieurs forestiers du Québec.
The inventory method used must meet the requirements of sections 20 and 21 of Chapter III of this Title. When submitting a project plan or project report, the promoter must present the inventory methodology used and show that it meets the requirements of sections 20 and 21 of Chapter III of this Title;
(
4
)
to determine the evolution of the carbon stock present in the carbon reservoirs for the project.
2022-11-17
M.O. 2022-11-17
,
s.
15
.
16
.
At the project report stage, the promoter must, where applicable, update the data and information presented for the previous project characterization as needed for the project report stage, as follows:
(
1
)
by completing the issuance inventory for the lot or part of a lot for the project using the methodology in Chapter III of this Title;
(
2
)
by determining the carbon stock present in the project’s carbon reservoirs.
2022-11-17
M.O. 2022-11-17
,
s.
16
.
CHAPTER
III
INVENTORY
2022-11-17, c. III
M.O. 2022-11-17, c. III
.
DIVISION
I
GENERAL
2022-11-17, Div. I
M.O. 2022-11-17, Div. I
.
17
.
The inventory of the lot or part of a lot for the project and, where applicable, of the equivalent lot must be conducted using the methodology in Chapter III of this Title. The aim of the inventory is to gather the information and data need to create a project and define the baseline scenario and project scenario which, using the CBM-CFS software, will then be used to simulate the annual changes in the carbon stock in accordance with Chapter IV of this Title.
2022-11-17
M.O. 2022-11-17
,
s.
17
.
18
.
The results of an inventory must be compiled and recorded in a compilation report signed by a member of the Ordre des ingénieurs forestiers du Québec.
2022-11-17
M.O. 2022-11-17
,
s.
18
.
19
.
The inventory must be conducted by survey unit, and each survey unit must contain a sampling unit. The promoter must ensure that each cartographic stratum identified on the lot or part of a lot for the project contains at least one sampling unit.
2022-11-17
M.O. 2022-11-17
,
s.
19
.
20
.
The sampling method used must be of the stratified random or systematic type.
In the case of an agroforestry-type project to create a windbreak or riparian strip, when it is not appropriate to proceed as above, the promoter must define an alternative method to objectively and randomly define the number and location of the sampling units. The alternative method must be documented and approved by a member of the Ordre des ingénieurs forestiers du Québec.
2022-11-17
M.O. 2022-11-17
,
s.
20
.
21
.
Information and data for the inventory of the carbon in living aerial biomass, dead biomass and, where applicable, the soil must be gathered at the following times:
(
1
)
in the case of an early project, at the same time as the activities needed to ensure completeness at the project filing stage in order to determine the initial carbon stock in the reservoirs of the lot or part of a lot for the project and of the equivalent lot and thereby establish the starting point for the simulation of the baseline scenario and project scenario provided for in Chapter IV of this Title; or
(
2
)
in other cases, before any site preparation work to plant seedlings or sow seeds in order to determine the initial carbon stock in the reservoirs of the lot or part of a lot for the project and thereby establish the starting point for the simulation of the baseline scenario and project scenario provided for in Chapter IV of this Title; and
(
3
)
at the end of each reporting period, within the meaning of section 2, in order to determine annual changes in the carbon stock in the reservoirs of the lot or part of a lot used for the project during that period and then to calculate the project outcome as provided for in Chapter VIII of this Title, using data from the report generated by the CBM-CFS software;
(
4
)
all measuring and other equipment used for the inventory of the lot or part of a lot for the project pursuant to this Chapter must be used in accordance with the manufacturer’s instructions, be maintained in good working order and work reliably when used.
2022-11-17
M.O. 2022-11-17
,
s.
21
.
DIVISION
II
SURVEY PLAN
2022-11-17, Div. II
M.O. 2022-11-17, Div. II
.
§
1
. —
General
2022-11-17, Sd. 1
M.O. 2022-11-17, Sd. 1
.
22
.
The planned and revised survey plan must be signed by a member of the Ordre des ingénieurs forestiers du Québec.
2022-11-17
M.O. 2022-11-17
,
s.
22
.
§
2
. —
Determination of the required number of sample plots
2022-11-17, Sd. 2
M.O. 2022-11-17, Sd. 2
.
23
.
The number of sample plots associated with an inventory must be determined based on the variations in biophysical characteristics present on the lot or part of a lot for the project and carried out using a survey methodology documented in the survey plan and approved by a member of the Ordre des ingénieurs forestiers du Québec.
2022-11-17
M.O. 2022-11-17
,
s.
23
.
24
.
For carbon reservoirs in living aerial biomass and dead biomass, the number of sample plots in a sampling stratum must allow the achievement of an inventory data precision rate of at least 90% and a confidence level of 90% (α = 10%).
For a carbon reservoir in the soil, the number of sample plots in a sampling stratum must allow the achievement of an inventory data precision rate of at least 90% and a confidence level of 75% (α = 25%).
2022-11-17
M.O. 2022-11-17
,
s.
24
.
§
3
. —
Sampling unit
2022-11-17, Sd. 3
M.O. 2022-11-17, Sd. 3
;
I.N. 2023-01-01
.
25
.
The promoter must establish a network of sample plots for the inventory as follows:
(
1
)
for the initial inventory for an early project, the promoter must establish a network of temporary sample plots on the equivalent lot for the project and a network of permanent sample plots on the lot or part of a lot for the project;
(
2
)
for the initial inventory for other types of projects, the promoter must establish a network of temporary sample plots on the lot or part of a lot for the project when a site preparation treatment is applied before the planting of seedlings or sowing of seeds.
For an issuance or update inventory, the promoter must establish a network of permanent sample plots on the lot or part of a lot for the project.
2022-11-17
M.O. 2022-11-17
,
s.
25
.
26
.
A sampling unit is made up of a variable-radius plot and 10 micro-plots. Each plot and micro-plot must be georeferenced. Each sampling unit must be laid out as indicated in the diagram in Schedule A.
In the case of an agroforestry-type project to create a windbreak or riparian strip, for which the use of a variable-radius plot is not appropriate, the promoter must use an alternative sample plot arrangement to measure the trees, woody debris and snags on the lot or part of a lot for the project. The alternative method used must be documented and approved by a member of the Ordre des ingénieurs forestiers du Québec.
2022-11-17
M.O. 2022-11-17
,
s.
26
.
27
.
To establish a network of temporary sample plots, the promoter must identify the centre of the plots and micro-plots listed using a non-permanent pin and label.
To establish a permanent network of sample plots, the promoter must identify the centre of the variable-radius plots and micro-plots listed using a permanent aluminum pin and label.
In all cases, the label must indicate the number of the sample route and sample plot, the date and the name of the person responsible for gathering data from each plot and micro-plot.
Where applicable, the promoter must also identify the places where a soil sample was taken in micro-plots 4 and 6 of each sample plot with a pin and label that, depending on whether the first or the second paragraph applies, are permanent or non-permanent. In addition to the information listed in the third paragraph, the pin must indicate the number of the soil sample.
2022-11-17
M.O. 2022-11-17
,
s.
27
.
DIVISION
III
INVENTORY OF LIVING AERIAL BIOMASS AND DEAD BIOMASS
2022-11-17, Div. III
M.O. 2022-11-17, Div. III
.
§
1
. —
General
2022-11-17, Sd. 1
M.O. 2022-11-17, Sd. 1
.
28
.
The promoter may limit measurements to those needed to estimate the merchantable volume of trees in the plantation, snags and woody debris during the initial inventory of the lot or part of a lot for an early project.
2022-11-17
M.O. 2022-11-17
,
s.
28
.
§
2
. —
Data gathering
2022-11-17, Sd. 2
M.O. 2022-11-17, Sd. 2
.
29
.
Data gathering for an inventory of the carbon reservoirs in living aerial biomass and dead biomass must comply with the procedure set out in Tables 4, 5 and 6.
Table 4 – Variables to be measured for the inventory of carbon reservoirs of living aerial biomass
Variable
When measured
Data gathered
Threshold to be respected for data gathering
Data acquisition method
Regeneration
Initial inventory
• Distribution coefficient
Height > 30 cm
Field inventory
• Species
Groups of sample plots
Trees
Initial inventory
• Species
Height > 1.3 m
Field inventory
Issuance inventory
• Number
Variable-radius plot
• DBH class (2 cm classes)
DBH (1.3 m)
Biomass Shrub: Schedule B
• Height
DSH (15 cm from ground)
• Basal area
Shrubs
Initial inventory
• Number
Height < 1.3 m
Field inventory
• DSH class (2 cm class)
DSH (15 cm from ground) (2 cm class)
Groups of sample plots
• Species
Biomass Shrub: Schedule B
Grasses, mosses, seedlings and shrubs of less than 1.3 m
Initial inventory
Cover class (0-25%, 25-50%, 50-75%, 75-100%) – all heights combined
Height < 1.3 m
Field inventory
Height < 50 cm by 25 cm class
Groups of plots
Default value for 100% cover
7.5 tonnes anhydrous biomass/ha
To be multiplied by actual herbaceous cover (ha)
Table 5 – Variables to be measured for the inventory of carbon reservoirs of dead biomass
Variable
When measured
Data gathered
Threshold to be respected for data gathering
Data acquisition method
Woody debris and snags
Initial inventory
Species
Snag: Height > 1.3 m
Field inventory
Issuance inventory
Number
Variable-radius plot to measure snags caught by the prism
Snags: DBH
Decomposition class:
Woody debris: average diameter; length
Woody debris: Diameter > 9 cm diameter class
1. Tree that died recently with twigs but without needles/leaves
Decomposition class
2. Tree without twigs but with branches
At the initial inventory, snags must be marked but not measured
3. Tree with large branches only
At the issuance inventory, only unmarked snags and woody debris must be measured
4. Snag without branches
Woody debris: measurement taken within the variable-radius plot delimited by the last tree caught by the prism
Table 6 – DBH classes for the inventory of carbon reservoirs of living aerial biomass and dead biomass
DBH class
DBH value
2
1 < DBH ≤ 3 cm
4
3 < DBH ≤ 5 cm
6
5 < DBH ≤ 7 cm
8
7 < DBH ≤ 9 cm
10
9 < DBH ≤ 11 cm
...
… < DBH ≤ … cm
2022-11-17
M.O. 2022-11-17
,
s.
29
.
§
3
. —
Estimate of living below-ground biomass for the initial inventory
2022-11-17, Sd. 3
M.O. 2022-11-17, Sd. 3
.
30
.
The promoter must estimate the initial quantity of living below-ground biomass using data from the initial inventory of living aerial biomass and the equations in Table 7 below. The promoter must enter this information and data into the CBM-CFS software.
Table 7 – Information used to estimate living below-ground biomass during the initial inventory
Variable
Method used to estimate the initial quantity of biomass
Tree roots
Calculation
Softwoods: Root biomass = 0.222 × tree biomass obtained following compilation of the initial inventory
Hardwoods: Root carbon biomass = 1.576 + 0.615 × tree biomass obtained following compilation of the initial inventory
Shrub roots
Calculation
Shrubs: root biomass =1.5750 + 0.615 × shrub biomass obtained following compilation of the initial inventory
Grass roots
Default value for 100% cover
15.0 tonnes biomass/ha
To be multiplied by the actual herbaceous cover (ha) obtained during the initial inventory
2022-11-17
M.O. 2022-11-17
,
s.
30
.
DIVISION
IV
SOIL CARBON INVENTORY
2022-11-17, Div. IV
M.O. 2022-11-17, Div. IV
.
§
1
. —
General
2022-11-17, Sd. 1
M.O. 2022-11-17, Sd. 1
.
31
.
Except in the case of an agroforestry-type afforestation project, the soil carbon inventory of the lot or part of a lot for a project must be conducted at the time of the initial inventory and issuance inventory when more than 25% of the lot or part of a lot is disturbed by site preparation work to plant seedlings or sow seeds.
2022-11-17
M.O. 2022-11-17
,
s.
31
.
§
2
. —
Data collection
2022-11-17, Sd. 2
M.O. 2022-11-17, Sd. 2
.
32
.
Soil sampling must be conducted as follows:
(
1
)
3 successive samples of around 10 cm, including surface litter (LFH horizon), must be taken to a depth of about 30 cm around micro-plots 4 and 6 of the plan in Schedule A;
(
2
)
once a sample has been taken and before the next sample is taken, the promoter must measure the depth of the hole to the nearest 0.25 cm, to ascertain the depth of the soil taken for each of the 3 samples;
(
3
)
the samples must be taken using a volumetric probe with a diameter of at least 5 cm for quantitative sampling. When it is impossible to take a volumetric sample, the soil samples must be taken using a Dutch auger;
(
4
)
the colour of each soil sample must be determined using a Munsell soil colour chart;
(
5
)
each successive soil sample must be stored in a bag or rigid container before being sent to the laboratory for analysis, on which the promoter must inscribe the cruise line number and sample plot number, sample number and sampling zone (0-10, 10-20 and 20-30);
(
6
)
the promoter must, in particular, enter the cruise line number and sample plot number, the sample number, the sampling zone (0-10, 10-20 and 20-30) and the soil colour code in the compiled inventory report for the project;
(
7
)
the distance between 2 samples taken during different sampling campaigns must be at least 1 m.
2022-11-17
M.O. 2022-11-17
,
s.
32
.
33
.
The steps in the soil sampling process and the associated variables used to calculate the quantity of soil carbon in the laboratory are described in the table in Division I of Schedule C.
2022-11-17
M.O. 2022-11-17
,
s.
33
.
§
3
. —
Analysis of soil samples
2022-11-17, Sd. 3
M.O. 2022-11-17, Sd. 3
.
34
.
All the soil samples taken must undergo combustion analysis or laser induced breakdown spectroscopy (LIBS) at a laboratory accredited pursuant to section 118.6 of the Environment Quality Act (
chapter Q-2
) or, if no laboratory is accredited for sample analysis, by a laboratory that is compliant with ISO/CEI 17025, “General requirements for the competence of testing and calibration laboratories” distributed jointly by the International Organization for Standardization and the International Electrotechnical Commission.
2022-11-17
M.O. 2022-11-17
,
s.
34
.
35
.
When analyzing the samples, the laboratory must follow the steps presented in the table in Division II of Schedule C. It must also follow the steps for the analysis of variables used to calculate soil carbon set out in Division III of Schedule C.
2022-11-17
M.O. 2022-11-17
,
s.
35
.
CHAPTER
IV
SIMULATION OF THE ANNUAL CHANGE IN CARBON STOCK IN THE CARBON RESERVOIRS FOR A PROJECT
2022-11-17, c. IV
M.O. 2022-11-17, c. IV
.
DIVISION
I
GENERAL CONDITIONS
2022-11-17, Div. I
M.O. 2022-11-17, Div. I
.
36
.
The annual change in carbon stock in the carbon reservoirs for a project must be simulated for the baseline scenario and project scenario using the most recent updated version of the CBM-CFS software and the calculation tool.
The simulation must be consistent with the information and data collected and compiled at the various project stages.
2022-11-17
M.O. 2022-11-17
,
s.
36
.
37
.
The simulation of the annual change in carbon stock in the carbon reservoirs for a project must make it possible to
(
1
)
define and compare the annual change in the carbon stock under the baseline scenario and the project scenario;
(
2
)
produce the data needed to establish the net result of the project’s radiative effect and the number of offset credits to be issued pursuant to the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances (
chapter Q-2, r. 46.1
).
2022-11-17
M.O. 2022-11-17
,
s.
37
.
38
.
The simulation of the baseline scenario and project scenario must
(
1
)
when the project is filed, cover a period of at least 100 years from the data collection data for the initial inventory;
(
2
)
at the end of each reporting period, be updated for a simulation period of at least 100 years.
2022-11-17
M.O. 2022-11-17
,
s.
38
.
39
.
When a natural or anthropogenic disturbance occurs during a reporting period, the promoter must
(
1
)
include the effect of the disturbance in the project scenario;
(
2
)
include the effect of the disturbance in the baseline scenario only when it could have occurred if the project had not existed.
The effect of the disturbance must be included in a scenario either during the year in which it occurs or at the end of a reporting period.
2022-11-17
M.O. 2022-11-17
,
s.
39
.
40
.
The baseline scenario for a project cannot be amended after the project’s eligibility has been confirmed by the Minister, except in the case of an update needed to include the effect of a natural disturbance mentioned in section 39. The same applies in the case of an agroforestry-type afforestation project, for an update needed to take into account developing knowledge about the real evolution of carbon stock resulting from the implementation of the agricultural strategy characterizing the baseline scenario.
2022-11-17
M.O. 2022-11-17
,
s.
40
.
41
.
The promoter cannot amend the information and data entered into the CBM-CFS software and the calculation tool if they have been used to apply for the issuance of offset credits when including a natural or anthropogenic disturbance or performing an update at the end of a reporting period in the project scenario and, where applicable, in the baseline scenario.
2022-11-17
M.O. 2022-11-17
,
s.
41
.
42
.
For the duration of the project, the promoter must keep a register of the modifications made to the baseline scenario and project scenario, including in particular a summary description of the main modifications made to the information and data entered into the CBM-CFS software and the calculation tool for the initial characterization and the updating of the baseline scenario and project scenario.
The information in the register must be kept for a minimum period of 7 years from the project end date and be made accessible, for consultation, by the persons responsible for verifying the project.
2022-11-17
M.O. 2022-11-17
,
s.
42
.
DIVISION
II
GROWTH CURVE
2022-11-17, Div. II
M.O. 2022-11-17, Div. II
.
§
1
. —
Selection of the growth curve for merchantable volume in the baseline scenario
2022-11-17, Sd. 1
M.O. 2022-11-17, Sd. 1
.
43
.
To simulate the baseline scenario, the promoter must
(
1
)
for an afforestation project on a lot or part of a lot assigned to non-forestry purposes, select a growth curve representing the annual change in the merchantable volume of each cartographic stratum in the baseline scenario from among those shown in the tables in Division II of Schedule D;
(
2
)
for an agroforestry-type afforestation project, generate a growth curve based on the initial carbon stock measured in the carbon reservoir in the soil before the project was established. The baseline scenario for this type of project involves reproducing, for each year during the simulation period, the initial carbon stock measured before the project was established;
(
3
)
for a reforestation project on a lot or part of a lot assigned to forestry purposes or on a lot or part of a lot assigned to non-forestry purposes, generate or select a growth curve from a growth model for each cartographic stratum in the baseline scenario.
The growth curve generated or selected must be representative of the effects of land uses and management and the effects of the biophysical characteristics of the lot or part of a lot for the project on the increase in biomass and carbon.
2022-11-17
M.O. 2022-11-17
,
s.
43
.
§
2
. —
Selection of the growth curve for merchantable volume in the project scenario
2022-11-17, Sd. 2
M.O. 2022-11-17, Sd. 2
.
44
.
To simulate the project scenario, the promoter must generate or select a growth curve from a growth model for each cartographic stratum in the project scenario.
The growth curve generated or selected must be representative of the effects of land uses and management and of the effects that the biophysical characteristics of the lot or part of a lot for the project have on the increase in biomass and carbon.
2022-11-17
M.O. 2022-11-17
,
s.
44
.
45
.
For an agroforestry-type afforestation project, the promoter must generate or select a growth curve to represent the change in the biomass and carbon content of all the grass, shrub and tree species used for the project.
The generation or selection of the growth curve must be supported by a document showing all the data or methods used to represent the change in the biomass and carbon content of all the species used for the project, including a notice signed by a member of the Ordre des ingénieurs forestiers du Québec concerning the valid and robust nature of the data and methods used by the promoter.
2022-11-17
M.O. 2022-11-17
,
s.
45
.
§
3
. —
Method used to define the age of the cartographic strata in the baseline scenario and project scenario
2022-11-17, Sd. 3
M.O. 2022-11-17, Sd. 3
.
46
.
To position the initial total anhydrous biomass on the growth curve for the baseline scenario, the anhydrous biomass in each plant stratum must be converted into merchantable volume using the information in Schedule E.
2022-11-17
M.O. 2022-11-17
,
s.
46
.
47
.
The age of each cartographic stratum in the baseline scenario and project scenario must be defined
(
1
)
in the case of the baseline scenario for a lot or part of a lot assigned to non-forestry purposes, based on the merchantable volume calculated in accordance with section 45 in relation to the growth curve selected to represent the change in the merchantable volume for a cartographic stratum; or
(
2
)
in the case of the baseline scenario for a lot or part of a lot assigned to forestry purposes, based on the measurements of dominant height, basal area and number of stems in relation to the growth curve selected to represent the change in the merchantable volume for a cartographic stratum; and
(
3
)
in the case of the project scenario, based on the year of the planting of seedlings or sowing of seeds.
2022-11-17
M.O. 2022-11-17
,
s.
47
.
48
.
The promoter must ensure that the measures implemented on the lot or part of a lot for the project are consistent with the age-volume relationship for the selected growth curve. The promoter must also adjust the growth curve if any inconsistency is observed, and document the adjustments made.
2022-11-17
M.O. 2022-11-17
,
s.
48
.
DIVISION
III
TIMBER FOREST PRODUCTS
2022-11-17, Div. III
M.O. 2022-11-17, Div. III
.
49
.
When the baseline scenario and project scenario are simulated, the promoter must enter into the CBM-CFS software the actual or, if this is not possible, the estimated percentage of the volume of timber harvested that will be processed into timber forest products during a reporting period.
The percentage must be determined taking into account the information and data gathered during inventories before and after the treatment and when all stems in the 10 cm and over diameter class are scaled.
2022-11-17
M.O. 2022-11-17
,
s.
49
.
50
.
The promoter must enter into the calculation tool the data generated by the CBM-CFS software concerning the reservoir in the merchantable volume of softwood and hardwood species.
2022-11-17
M.O. 2022-11-17
,
s.
50
.
51
.
The calculation tool defines the carbon stock contained in timber forest products and their radiative effect by applying, to the results generated by the CBM-CFS software, the values from the distribution matrix by product and the half-life for timber forest products shown in Division I of Schedule F.
The promoter may use a distribution matrix rate by product that is different from the default matrix in the calculation tool.
2022-11-17
M.O. 2022-11-17
,
s.
51
.
52
.
The carbon stock contained in timber forest products is calculated by the calculation tool using equation 6:
Equation 6
C
(t+1)
= e
-k
× C
(t)
+
1 – e
-k
× I
(t)
k
Where:
C
(t+1)
= Carbon stock, in metric tonnes, sequestered in a type of timber forest product;
t = Year after processing;
e = Napier’s constant = 2.71828;
k = Constant annual rate at which the quantity of timber forest products degrades and completes its lifecycle. k = ln(2)/t1/2 where t1/2 is the half-life of a timber product for a specific final use;
The value of parameters k and e
-k
for predicting the annual change in the quantity of a product category over time is determined in Division II of Schedule F.
The promoter may determine a value for parameters k and e
-k
and for half-life that are different from the values in Division II of Schedule F. A change in the value of parameters k and e
-k
and half-life must be entered in the calculation tool and supported by a supporting document. The supporting document must set out the reasons that justify the change and, where applicable, the methods used to define the value of parameters k and e
-k
and half-life. It must include a notice signed by a member of the Ordre des ingénieurs forestiers du Québec concerning the valid and robust nature of the value of parameters k and e
-k
and half-life used for the forest products resulting from the processing of the volumes of timber harvested on the lot or part of a lot for the project.
A promoter that is unable to justify the change in the value of parameters k and e
-k
and half-life in connection with the forest products resulting from the processing of the volumes of timber harvested on the lot or part of a lot for the project must use the most conservative value for the parameters k and e
-k
and half-life set out in Division II of Schedule F, based on the similarity between the characteristics of the timber forest products resulting from the processing of the volumes of timber harvested on the lot or part of a lot for the project and those of the timber forest products presented in Division II of Schedule F.
C(t) = Quantity, in metric tonnes, of carbon harvested and processed into timber forest products at the start of year t. The product of C(t) and e
-k
describes the carbon retained in timber products from year t to year t+1;
I(t) = Accumulation of timber products (in mass of carbon) at time t from new harvesting or recycled timber products. The product of the equation corresponds to the carbon contained in I(t) maintained as a timber product at the end of year t after decomposition. The value is determined using the provincial matrix of distribution rates by product in Division I of Schedule F, except where the promoter uses a different matrix as provided for in the second paragraph of section 51.
2022-11-17
M.O. 2022-11-17
,
s.
52
.
DIVISION
IV
SPECIAL PROVISIONS FOR THE SIMULATION OF THE ANNUAL CHANGE IN CARBON STOCK IN THE CARBON RESERVOIRS FOR AN EARLY PROJECT
2022-11-17, Div. IV
M.O. 2022-11-17, Div. IV
.
§
1
. —
General conditions
2022-11-17, Sd. 1
M.O. 2022-11-17, Sd. 1
.
53
.
The following provisions apply to an early project, in addition to the requirements set out in Divisions I to III of this Chapter that apply to all projects.
2022-11-17
M.O. 2022-11-17
,
s.
53
.
54
.
When an early project is filed, the annual change in carbon stock in the baseline scenario and project scenario must be simulated using the data gathered during the initial inventory on the equivalent lot and the lot or part of a lot for the project. The simulation must include
(
1
)
a reconstitution period for the annual change in the carbon stock for the project between the year in which the project began and the year in which it is filed;
(
2
)
a period representing the annual change in the carbon stock for the project over 100 years following the year of filing.
2022-11-17
M.O. 2022-11-17
,
s.
54
.
§
2
. —
Conditions applicable to the baseline scenario concerning the initial state of the carbon reservoirs and changes within those reservoirs, except the soil reservoir
2022-11-17, Sd. 2
M.O. 2022-11-17, Sd. 2
.
55
.
The promoter must determine the initial state of the carbon reservoirs, except the soil reservoir, using the data gathered during the initial inventory, on the basis of an equivalent lot or part of a lot.
Once the values have been determined, the promoter must link them to the growth curve selected to show the change in the merchantable volume for a cartographic stratum, and must adjust the growth curve if any inconsistency is observed.
2022-11-17
M.O. 2022-11-17
,
s.
55
.
56
.
The equivalent lot or part of a lot must be selected using a comparative photo-interpretation analysis, which must
(
1
)
for the lot or part of a lot for the project, be based on an analogical or digital aerial photograph or a satellite image showing it before the implementation of the project. The photograph or image must be taken at a date as close as possible to the year of planting of seedlings or the sowing of seeds;
(
2
)
for the equivalent lot or part of a lot, be based on an analogical or digital aerial photograph or a satellite image showing the land to be inventoried. The photograph or image must be taken at a date as close as possible to the year in which the comparative photo-interpretation analysis takes place;
(
3
)
define the category of fallow land and the characteristics of the plant strata, in particular the types of species present, their density class and average height on the lot or part of a lot for the project;
(
4
)
show that there is no statistically significant difference between the lot or part of a lot for the project and the equivalent lot or part of a lot with respect to the category of fallow land, within the meaning of this Regulation, and the biophysical characteristics of the strata defined from the comparative analysis of the analogical or digital aerial photographs or satellite images.
For the purposes of subparagraph 4 of the first paragraph, a difference is “statistically significant” when the value obtained by a chi-squared test is below 0.05.
2022-11-17
M.O. 2022-11-17
,
s.
56
.
§
3
. —
Conditions applicable to the baseline scenario and project scenario concerning the initial state of the soil carbon reservoir
2022-11-17, Sd. 3
M.O. 2022-11-17, Sd. 3
.
57
.
The initial quantity of the carbon stock in the soil carbon reservoir is determined using equation 7. The result of the equation must be entered into the CBM-CFS software for the simulation of the baseline scenario and project scenario.
Equation 7
C
SoilRef
= ((Year
inv
– 1990) x 0,0167 + 1) × tC
soilDP/ha
Where:
C
SoilRef
= Carbon stock present in the soil, in metric tonnes of carbon per hectare, at the start date of an early project;
Year
inv
= Year when the inventory to determine the initial carbon stock in the soil was done;
0.0167 = Annual rate of carbon accumulation in the soil following site preparation work;
1 = Term linking the estimated carbon stock present at the start of the early project with the measured carbon stock present in the soil of the lot or part of a lot for the project;
tC
soilDP/ha
= Carbon stock in the soil carbon reservoir, in metric tonnes of carbon per hectare, determined using the compiled value of the carbon stock obtained following the analysis of soil samples taken during the initial inventory of the lot or part of a lot for the project.
2022-11-17
M.O. 2022-11-17
,
s.
57
.
§
4
. —
Conditions applicable to the project scenario
2022-11-17, Sd. 4
M.O. 2022-11-17, Sd. 4
.
58
.
The promoter must determine the initial state of the carbon reservoirs in the project scenario for an early project using the data gathered during the initial inventory on the lot or part of a lot for the project.
2022-11-17
M.O. 2022-11-17
,
s.
58
.
59
.
For the reconstituted portion of the growth curve of merchantable volume in the project scenario, the annual change in the carbon stock in all the carbon reservoirs for the project must be simulated using the information and data gathered during the initial inventory of the lot or part of a lot for the project.
The promoter must ensure consistency between the measurements made for the initial inventory and the age-volume relation for the growth curve selected, and must adjust the growth curve if any inconsistency is observed.
2022-11-17
M.O. 2022-11-17
,
s.
59
.
CHAPTER
V
CALCULATION OF DIRECT EMISSIONS OF NITROUS OXIDE ATTRIBUTABLE TO THE FERTILIZATION OF THE LOT OR PART OF A LOT FOR THE PROJECT
2022-11-17, c. V
M.O. 2022-11-17, c. V
.
60
.
GHG fluxes must be taken into account at the end of a reporting period for the baseline scenario and project scenario to ensure that the result of the calculation is entered into the most recent updated version of the calculation tool and considered in the project outcome.
2022-11-17
M.O. 2022-11-17
,
s.
60
.
61
.
For a project to afforest a lot or part of a lot in an active agricultural zone, the promoter must determine the quantity of inorganic nitrogenous fertilizer that would have been used had the managed area remained under cultivation. This value is determined by calculating the average quantity of fertilizer used over the last 5 years before the project was established.
2022-11-17
M.O. 2022-11-17
,
s.
61
.
62
.
The promoter must calculate the direct emissions of nitrous oxide attributable to the spreading of quantities of inorganic nitrogenous fertilizer on the lot or part of a lot for the project at the end of a reporting period using equation 8, to ensure that the result of the calculation is entered into the most recent updated version of the calculation tool:
Equation 8
N
2
O
Spreadingi
= (N
FERTi
× EC
BASE
) ×
44
28
Where:
N
2
O
Spreadingi
= Emissions from the spreading of nitrogenous fertilizer of type
i
(kg N/year);
i
= Type of inorganic nitrogenous fertilizer (synthetic fertilizer);
N
FERTi
= Quantity of nitrogen from nitrogenous fertilizer of type
i
,
kg N spread
(kg N/year);
EC
BASE
= Base emission coefficient = 0.012 kg N
2
O-N/kg N;
44
= Conversion coefficient, N-N
2
O to N
2
O.
28
2022-11-17
M.O. 2022-11-17
,
s.
62
.
CHAPTER
VI
CALCULATION OF DIRECT CARBON DIOXIDE EMISSIONS ATTRIBUTABLE TO THE USE OF FOSSIL FUELS
2022-11-17, c. VI
M.O. 2022-11-17, c. VI
.
63
.
GHG fluxes must be taken into account at the end of a reporting period for the baseline scenario and project scenario to ensure that the result of the calculation is entered into the most recent updated version of the calculation tool and considered in the project outcome.
2022-11-17
M.O. 2022-11-17
,
s.
63
.
64
.
The promoter must calculate the direct GHG emissions attributable to the use of fossil fuels when implementing a silvicultural strategy on the lot or part of a lot for the project using the following equations:
Equation 9
Where:
FFE
CO2
= Total CO
2
emissions attributable to the consumption of fossil fuels, in metric tonnes;
z = Number of types of fossil fuel;
c = Type of fossil fuel, gasoline (regular or premium) or diesel;
FF
c
= Total quantity of fossil fuel
c
consumed, in litres;
EF
CO2,C
= CO
2
emission factor for fossil fuel
c
as set out in Table 27-1 of Schedule A.2 QC.27.7 of the Regulation respecting mandatory reporting of certain emissions of contaminants into the atmosphere (
chapter Q-2, r. 15
), in kilograms of CO
2
per litre;
10
-3
= Conversion factor, grams to metric tonnes.
Equation 10
Where:
FFE
CH4,C
= Total CH
4
emissions attributable to the consumption of fossil fuels, in metric tonnes;
z = Number of types of fossil fuel;
c = Type of fossil fuel, gasoline (regular or premium) or diesel;
FFc = Total quantity of fossil fuel
c
consumed, in litres;
EF
CH4,C
= CH
4
emission factor for fossil fuel
c
as set out in Table 27-1 of Schedule A.2 QC.27.7 of the Regulation respecting mandatory reporting of certain emissions of contaminants into the atmosphere, in grams of CH
4
per litre;
10
-6
= Conversion factor, grams to metric tonnes.
Equation 11
Where:
FFE
N2O,C
= Total N
2
O emissions attributable to the consumption of fossil fuels, in metric tonnes;
z = Number of types of fossil fuel;
c = Type of fossil fuel, gasoline (regular or premium) or diesel;
FF
c
= Total quantity of fossil fuel
c
consumed, in litres;
EF
N2O,C
= N
2
O emission factor for fossil fuel
c
as set out in Table 27-1 of Schedule A.2 QC.27.7 of the Regulation respecting mandatory reporting of certain emissions of contaminants into the atmosphere, in grams of N
2
O per litre;
10
-6
= Conversion factor, grams to metric tonnes.
2022-11-17
M.O. 2022-11-17
,
s.
64
.
65
.
The promoter must calculate the quantity of fossil fuels consumed, using the following equation:
Equation 10.1
Where:
FF
c
= Total volume of fossil fuel of type
c
used during a reporting period, in litres;
c = Type of fossil fuel, either gasoline or diesel;
y = Number of treatment families;
t = Treatment family as indicated in the table in Schedule H;
CF
c
= Consumption factor for fossil fuel of type
c
as set out in the table in Schedule H, in litres/ha;
Surface area = Total surface area on which a treatment family is applied, in ha.
2022-11-17
M.O. 2022-11-17
,
s.
65
;
I.N. 2023-01-01
.
CHAPTER
VII
CARBON LEAKAGE
2022-11-17, c. VII
M.O. 2022-11-17, c. VII
.
66
.
The promoter must determine if a leak has been generated by the project at the end of a reporting period.
2022-11-17
M.O. 2022-11-17
,
s.
66
.
67
.
A carbon leakage is generated by a project when, during a reporting period, the deforestation rate for all the lots and parts of lots belonging to the owner of the lot or part of a lot for the project, obtained using equation 11.1, is greater than the deforestation rate for private land in the municipality where the project is implemented, obtained using equation 12.
2022-11-17
M.O. 2022-11-17
,
s.
67
;
I.N. 2023-01-01
.
68
.
At the start and at the end of each reporting period, the promoter must define the surface area of all privately-owned lots or parts of lots assigned to forestry purposes in the municipality where the project is implemented.
The promoter must indicate the result in the project plan and, if applicable, in the project report and indicate the sources and approach used to quantify the result.
2022-11-17
M.O. 2022-11-17
,
s.
68
.
69
.
When it is impossible to establish the deforestation rate for private land in the municipality where the project is implemented at the end of a given reporting period using equation 12, the minimum deforestation rate for the lots belonging to the owner of the lot or part of a lot that is applicable to an issuance period is 2%.
2022-11-17
M.O. 2022-11-17
,
s.
69
.
70
.
When a carbon leakage is generated during a reporting period, the promoter must quantify, in the CBM-CFS software, the effect of deforestation on all the areas deforested on the carbon reservoirs for the project on lots belonging to the owner of the lot or part of a lot for the project.
Equation 11.1
R
P
=
(Aps - Ape)
× 100
Asp
Where:
R
p
= Deforestation rate for lots belonging to the owner of the lot or part of a lot for the project;
Aps = At the start of a reporting period, total surface areas of lots or parts of lots assigned to forestry purposes that are located on lots or parts of lots belonging to the owner of the lot or part of a lot for the project implemented pursuant to this Regulation;
Ape = At the end of a reporting period, total surface areas of the lots or parts of lots assigned to forestry purposes that are located on lots or parts of lots belonging to the owner of the lot or part of a lot for the project implemented pursuant to this Regulation.
Equation 12
R
m
=
(Ams - Ame)
× 100
Ams
Where:
R
m
= Deforestation rate for private land in the municipality where the project is implemented at the end of a given reporting period;
Ams = At the start of a reporting period, surface area of the lots or parts of lots assigned to forestry purposes on private land in the municipality where the project is implemented pursuant to this Regulation;
Ame = At the end of a reporting period, surface area of the lots or parts of lots assigned to forestry purposes on private land in the municipality where the project is implemented pursuant to this Regulation.
2022-11-17
M.O. 2022-11-17
,
s.
70
;
I.N. 2023-01-01
.
CHAPTER
VIII
PROJECT OUTCOME
2022-11-17, c. VIII
M.O. 2022-11-17, c. VIII
.
71
.
The promoter must, to determine the project outcome, enter into the most recent updated version of the calculation tool the information and data obtained pursuant to Title III.
2022-11-17
M.O. 2022-11-17
,
s.
71
.
72
.
For an update to the project outcome and an issuance request, the promoter must keep the data obtained pursuant to Title III and entered into the calculation tool that are covered by the issuance request. In addition, the promoter may not modify the data at a later date.
2022-11-17
M.O. 2022-11-17
,
s.
72
.
73
.
For an issuance request, the whole of the radiative effect from the processing of the volumes harvested and processed during a reporting period must be taken into account when determining the project outcome.
2022-11-17
M.O. 2022-11-17
,
s.
73
.
74
.
For an early project put in place before 31 December 2006, the promoter must define the reporting period for the project to cover the period beginning on the project start date and ending in 2006.
2022-11-17
M.O. 2022-11-17
,
s.
74
.
75
.
The project outcome is determined by the calculation tool by subtracting the results for the project scenario obtained using equations 13 to 18 below from the results for the baseline scenario obtained using the same equations:
Equation 13
Equation 14
Equation 15
Equation 16
Equation 17
Equation 18
2022-11-17
M.O. 2022-11-17
,
s.
75
.
TITLE
IV
PROJECT FILING
2022-11-17, Tit. IV
M.O. 2022-11-17, Tit. IV
.
CHAPTER
I
GENERAL
2022-11-17, c. I
M.O. 2022-11-17, c. I
.
76
.
A promoter must file a project with the Minister, after completing the stages such as the initial inventory and the simulation, within the time limits set in section 5.
The filing of a project involves the simultaneous transmission of the project notice provided for in Chapter II of this Title, the project plan provided for in Chapter III of this Title and the verification report on the project plan provided for in Chapter III of Title VII.
2022-11-17
M.O. 2022-11-17
,
s.
76
.
77
.
Within 90 days of receiving a complete project the Minister, in a written communication with the promoter, confirms or rejects
(
1
)
the project’s eligibility, in accordance with the eligibility conditions set out in Chapter I of Title II;
(
2
)
the validity of the initial inventory and the baseline scenario.
When a project’s eligibility is confirmed by the Minister, a project code is assigned and forwarded to the promoter.
2022-11-17
M.O. 2022-11-17
,
s.
77
.
CHAPTER
II
PROJECT NOTICE
2022-11-17, c. II
M.O. 2022-11-17, c. II
.
78
.
The project notice includes, in particular, the following information and documents:
(
1
)
the information needed to identify the promoter and the promoter’s representative, if any;
(
2
)
the number of the general account opened by the Minister for the promoter under section 14 of the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances (
chapter Q-2, r. 46.1
) following the promoter’s registration for the cap-and-trade system for emission allowances;
(
3
)
the date of the project notice;
(
4
)
information relating to the location of the project, including the regional county municipality, the municipality, the cadastral designation and, where applicable, the street address of the lot;
(
5
)
a brief description of the project including, in particular, the following information:
(
a
)
the project type, whether an afforestation project, a reforestation project, or both;
(
b
)
whether or not the project is an early project;
(
c
)
whether or not the project is or will be part of an aggregation and, if so, the name of the aggregation;
(
d
)
the total surface area of the lot for the project;
(
e
)
the surface area of the lot affected by an afforestation activity, the surface area affected by a reforestation activity and, where applicable, the cumulative area affected when the project involves both types of activity;
(
f
)
the project start date when known or, when not known, an estimate;
(
g
)
the estimated duration of the project;
(
h
)
the estimated start and end dates of the reporting periods for the entire estimated duration of the project;
(
i
)
an estimate of the number of offset credits to be issued for each reporting period and the total number of offset credits for the entire duration of the project;
(
6
)
the information needed to identify the owner of the lot or part of a lot for the project and the relevant information if it belongs to the promoter;
(
7
)
a declaration by the promoter or the promoter’s representative that the information and documents provided are accurate.
2022-11-17
M.O. 2022-11-17
,
s.
78
.
CHAPTER
III
PROJECT PLAN
2022-11-17, c. III
M.O. 2022-11-17, c. III
.
79
.
Every project plan verified in accordance with Title VII in which the verifier has noted errors, omissions or inaccuracies in connection with the characterization of the baseline scenario or the results of the simulation of carbon change in the reference scenario must be corrected by the promoter before the project is filed with the Minister.
2022-11-17
M.O. 2022-11-17
,
s.
79
.
80
.
The project plan must include, in particular, the following information and documents:
(
1
)
the information needed to identify the promoter and the promoter’s representative, if any;
(
2
)
when the promoter has engaged, or expects to engage, the services of a professional or another person to prepare or implement the project,
(
a
)
the information needed to identify that professional or person;
(
b
)
a summary of the tasks that will be assigned to that professional or person;
(
3
)
the date of the project plan;
(
4
)
information relating to the location of the project, including the regional county municipality, the municipality, the cadastral designation and, where applicable, the street address of the lot:
(
5
)
an exhaustive description of the project, including
(
a
)
the project type, whether an afforestation project, a reforestation project, or both;
(
b
)
whether or not the project is an early project;
(
c
)
whether or not the project is or will be part of an aggregation and, if so, the name of the aggregation;
(
d
)
the project objectives in terms of carbon offset and forest management;
(
e
)
the total surface area of the lot for the project, including the area assigned to forestry purposes and the area assigned to non-forestry purposes;
(
f
)
the surface area of the lot affected by an afforestation activity, the surface area affected by a reforestation activity and, where applicable, the cumulative area affected when the project involves both types of activity;
(
g
)
the project start date when known or, when not known, an estimate including an indication of how the estimate was determined;
(
h
)
the estimated duration of the project;
(
i
)
the estimated start and end dates of the reporting periods for the entire estimated duration of the project;
(
j
)
the information needed to identify the owner of the lot or part of a lot for the project and the relevant information if it belongs to the promoter;
(
k
)
where applicable, information on the owner’s registration as a forest producer associated with the project, if the owner is not the promoter, and the owner’s forest producer number;
(
6
)
a demonstration that the project meets the eligibility conditions set out in Chapter I of Title II, including a copy of any relevant document;
(
7
)
information on the initial characterization for the project, including the elements listed in section 15 and their justification;
(
8
)
a presentation of all the work performed to complete an initial inventory for the lot or part of a lot for the project including in particular the elements connected with the planning, gathering and compilation of data for the inventory and their justification, such as the determination of the number of sample plots for the initial inventory, where applicable, the coefficient of the prism used for the inventory of the variable-radius plot, a summary of the survey plan as planned and revised, and a summary of the results from the compilation of the initial inventory;
(
9
)
a copy of the survey plan, as planned, signed by a member of the Ordre des ingénieurs forestiers du Québec and of the survey plan as revised following the completion of the initial inventory for the project. The copy must include
(
a
)
information on the survey units and sampling units planned on the lot or part of a lot for the project, including the number of the sample cruise line and sample plots, their location and the starting point for each route;
(
b
)
a copy of the shape file presenting the survey plan as planned and revised following the completion of the inventory and the information needed to identify and locate each cruise line and each sample plot measured;
(
10
)
a copy of the compilation report for the initial inventory, signed by a member of the Ordre des ingénieurs forestiers du Québec, and of all the inventory data files, along with those used to compile the inventories and the files for all the compilation results;
(
11
)
where applicable, a copy of the report on soil sample analyses for the project prepared by the laboratory responsible for analyzing the samples;
(
12
)
a presentation of the baseline scenario and project scenario including all relevant information, the data on which it is based and its justification, and a presentation of the annual results and results for each reporting period from the simulations of annual changes in the carbon stock in each scenario, along with all the data and hypotheses used to generate the information and the data needed for the simulation of the baseline scenario and project scenario and all the results from those simulations;
(
13
)
a presentation of the annual results and results for each reporting period for the project outcome, including all relevant information and its justification;
(
14
)
where applicable, the missing data and information used, along with a document justifying the data, information or methods used to compensate for missing data, including a notice signed by a member of the Ordre des ingénieurs forestiers du Québec concerning the complementary nature of the missing data and information used for the project;
(
15
)
a copy of the files for the project generated by the CBM-CFS software to simulate the annual change in the carbon stock in the carbon reservoirs under the baseline scenario and project scenario;
(
16
)
a copy of the calculation tool used to define the project outcome including all the data and hypotheses used to characterize the baseline scenario and project scenario;
(
17
)
a declaration signed by the promoter or the promoter’s representative stating that no offset credits have been issued for the atmospheric CO
2
removals targeted by the project plan under the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances (
chapter Q-2, r. 46.1
) and that no credits have been issued under another GHG emissions offsetting program or will be issued under such a program;
(
18
)
in addition to the requirements set out in this section, in the case of an early project, the promoter must provide the information needed to identify the early project as registered for another program to offset GHG emissions including, in particular, the information needed to identify the program. In addition, a promoter who wishes to consider, in the project outcome, atmospheric CO
2
removals for which offset credits have been issued under another program to offset GHG emissions must provide the following information:
(
a
)
the project start date, as defined in this Regulation, and the date of its registration under the GHG emissions offset program;
(
b
)
the total number of credits issued, by vintage;
(
c
)
the total number of credits issued, by vintage, that are sold to a third party and the total number of credits, by vintage, that have not yet been used to offset GHG emissions, along with the information needed to identify the credits, such as the serial or equivalent numbers and the vintage;
(
d
)
the total number of credits issued, by vintage, that are still in the possession of the original project promoter;
(
e
)
the total number of credits issued, by vintage, and the number of GHG removal, in metric tonnes CO
2
equivalent, that will be considered in the project outcome when the project is filed and when applications for issuance are made;
(
f
)
the information needed to identify the credits for which the promoter wishes to consider atmospheric CO
2
removals in the project outcome, including the serial number or equivalent and the vintage;
(
19
)
in the case of an early project, when credits have been issued for the atmospheric CO
2
removals considered in the project outcome under another GHG emissions offset program, the promoter must show that
(
a
)
the credits issued to the promoter of the original project and the related GHG removal taken into account in the project outcome have never been used to offset a GHG emission under another GHG emissions offset program or a voluntary offset initiative.
The promoter must submit an official document from the authorities responsible for the initial program showing compliance with the obligation. In addition, the authorities for the GHG emissions offset program must provide a list of the credits concerned with their serial numbers and vintages;
(
b
)
the credits issued to the promoter of the original project have not been sold or redeemed otherwise than as a transaction between the person to whom the GHG emissions offset program issued the credits and the promoter of the project implemented pursuant to this Regulation.
The promoter must submit an official document from the authorities responsible for the initial program showing that the current holder is the first and only owner of the carbon credits issued and that they have never been sold or purchased by a person other than the promoter. In addition, the authorities for the program to offset GHG emissions must provide a list of the credits concerned with their serial numbers and vintages;
(
c
)
the carbon credits issued to the promoter of the original project and the related atmospheric CO
2
removals taken into account in the project outcome pursuant to this Regulation have been withdrawn, cancelled or invalidated in the course of activities under the former carbon credits program and are no longer available to offset a GHG emission under the initial issuance program.
The promoter must submit an official document from the authorities responsible for the initial program showing compliance with the obligation and specifying the number of credits cancelled and the identification number and vintage of each credit cancelled.
The promoter must report to the Minister all the questions, actions and decisions raised or taken by the authorities responsible for the carbon credits program in connection with the validity of the project, the validity of the outcomes or the credits issued in the course of the activities under that program;
(
20
)
when the promoter is not the owner of the lot or part of a lot for the project, a declaration by the owner authorizing the implementation of the project by the promoter and undertaking not to apply, with respect to the atmospheric CO
2
removals covered by the project plan, either for offset credits under the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances or for credits under GHG emissions offset program;
(
21
)
a declaration signed by the member of the Ordre des ingénieurs forestiers du Québec responsible for supervising the project plan stating that the information and documents produced under the engineer’s responsibility are complete and accurate;
(
22
)
a declaration signed by the promoter or the promoter’s representative stating that the project will be implemented in accordance with this Regulation and that the documents and information provided are complete and accurate;
(
23
)
when the environmental impacts of the project have been assessed, a summary of the analysis and its conclusions;
(
24
)
a copy of every authorization needed for the implementation of the project;
(
25
)
the information provided for in paragraph 3 of section 81 concerning financial and fiscal assistance received during the implementation of the project;
(
26
)
the information needed to identify the members of the Ordre des ingénieurs forestiers du Québec involved in the project filing stage.
Where a document signed by a member of the Ordre des ingénieurs forestiers du Québec is required, it must be accompanied by the information needed to identify the forest consultant employing that member;
(
27
)
the name and function of each person involved in drawing up the project plan;
(
28
)
the date and the signature of the promoter or the promoter’s representative.
2022-11-17
M.O. 2022-11-17
,
s.
80
;
I.N. 2023-01-01
.
TITLE
V
PROJECT MONITORING
2022-11-17, Tit. V
M.O. 2022-11-17, Tit. V
.
81
.
Throughout the project implementation period, the promoter must record the following information and documents in an events register:
(
1
)
the project title and code;
(
2
)
information and documents relating to a natural or anthropogenic disturbance, including in particular
(
a
)
the actual or estimated date on which the disturbance occurred;
(
b
)
the type of natural or anthropogenic disturbance;
(
c
)
one or more maps of the lot showing and locating the areas disturbed with, as a minimum, the following layers: the outline of the lot and the areas managed for the project, the road network, the hydrographic network, the outline of the disturbed areas, the areas assigned to non-forestry purposes, forest stands and adjacent lots. The geographical entities for the project, such as the outline of each forest stand, must be numbered and described in a table accompanying the map or maps. The table must include, for each entity shown on the map, its number on the map and a summary description including the name of the ecoforest stratum and its surface area in hectares.
All the maps in the report must have, as the base layer, an aerial photograph or satellite image with a spatial resolution making it possible to distinguish transitions between contrasting geographic entities such as a forest, a disturbance and a road. The resolution of the maps for the project must make it possible to perform a quick analysis of the attributes connected with the project;
(
d
)
the number of hectares affected by the disturbance and a description of the methodology used to assess it;
(
e
)
in the case of a natural disturbance, an estimate of the merchantable volume of timber affected in cubic metres and the methodology used;
(
f
)
in the case of an anthropogenic disturbance caused by a forest management activity:
i
.
the type of forest development activity;
ii
.
a description of the forest development activity and its effect on the project, in particular on the growth curve;
iii
.
the documents justifying the forest development activity, including in particular the silvicultural prescriptions and the pre- and post-treatment inventory reports;
iv
.
the merchantable volume of timber, in cubic metres, affected by the forest development activity and the methodology used;
v
.
where applicable, a description of the volume of timber harvested including, where applicable, proof of sale, the destination of each volume of timber harvested and the data, hypotheses and references used by the promoter to define the distribution matrix by product to replace the provincial matrix set out in Division I of Schedule;
(
g
)
any other information specifying the consequences of the disturbance for the carbon reservoirs;
(
3
)
information and documents on the financial and fiscal assistance received during the project, including in particular
(
a
)
the type of financial or fiscal assistance;
(
b
)
the amount of the financial or fiscal assistance;
(
c
)
the date on which the financial or fiscal assistance was obtained;
(
d
)
the conditions for receiving the financial or fiscal assistance;
(
e
)
the reason for requesting financial or fiscal assistance;
(
f
)
the information needed to identify each program, organization and donor;
(
4
)
in the case of an early project, information and documents on the GHG emissions offset program, including in particular
(
a
)
a copy of the project plan or its equivalent as submitted to the authorities for the program to offset GHG emissions, to justify the project’s eligibility;
(
b
)
a copy of the project reports or their equivalent as submitted to the authorities for the program to offset GHG emissions, to justify the issuance of carbon credits to the person responsible for the project;
(
c
)
a copy of the project verification reports or their equivalent, completed by a third party and submitted to the authorities for the GHG emissions offset program to justify the issuance of carbon credits to the project promoter or, where applicable, a copy of the project verification reports or their equivalent completed by the authorities of the GHG emission offset program to justify the issuance of carbon credits;
(
d
)
the information and data used for the calculations to establish the number of credits issued under another program to offset GHG emissions;
(
e
)
all the data files used for inventories and to compile inventories for the carbon reservoirs for the project;
(
f
)
all the data and hypotheses used to simulate the baseline scenario and project scenario and the results of the simulations;
(
5
)
all the data files for the inventories and those used to compile inventories of the project’s carbon reservoirs;
(
6
)
all the data and hypotheses used to simulate the baseline scenario and project scenario and the results of the simulations;
(
7
)
the information needed to identify the person who recorded the information in the register, along with the person’s function and signature, the signature of the promoter or the promoter’s representative, and the date on which the information was recorded.
2022-11-17
M.O. 2022-11-17
,
s.
81
.
TITLE
VI
PROJECT REPORT
2022-11-17, Tit. VI
M.O. 2022-11-17, Tit. VI
.
82
.
The promoter must file a project report for each reporting period not later than 8 months after the end of the period.
2022-11-17
M.O. 2022-11-17
,
s.
82
.
83
.
Every report plan that has been verified in accordance with Title VII in which the verifier has noted errors, omissions or inaccuracies must be corrected by the promoter before any request for the issuance of offset credits under the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances (
chapter Q-2, r. 46.1
).
2022-11-17
M.O. 2022-11-17
,
s.
83
.
84
.
The project report must include the following information and documents in particular:
(
1
)
where applicable, updates to the information and documents that have changed since the project was filed or since the last issuance request;
(
2
)
where applicable, a detailed description of all the changes made to the planning and implementation of the project since the project was filed or since the last issuance request;
(
3
)
the project code assigned by the Minister when confirming the project’s eligibility;
(
4
)
the information needed to identify the promoter and, where applicable, the promoter’s representative;
(
5
)
where the promoter has relied, during the reporting period, on the services of a professional or another person to prepare or implement the project,
(
a
)
the information needed to identify the professional or person;
(
b
)
a summary of the tasks that were, or will be, assigned to the professional or person;
(
c
)
where applicable, a declaration by the professional or person stating that the information and documents filed are complete and accurate;
(
6
)
the date of the project report;
(
7
)
information relating to the location of the project, including the regional county municipality, the municipality, the cadastral designation and, where applicable, the street address of the lot;
(
8
)
a summary description of the project, including the following information:
(
a
)
the project type, whether an afforestation project, a reforestation project, or both;
(
b
)
whether or not the project is an early project;
(
c
)
whether or not the project is or will be part of an aggregation and, if so, the name of the aggregation;
(
d
)
the project objectives as regards carbon offsetting and forest development;
(
e
)
the total surface area of the lot for the project, including the area assigned to forestry purposes and the area assigned to non-forestry purposes;
(
f
)
the surface area of the lot affected by an afforestation activity, the surface area affected by a reforestation activity and, where applicable, the cumulative area affected when the project involves both types of activity;
(
g
)
the project start date;
(
h
)
the estimated duration of the project;
(
i
)
the start and ends dates of the reporting period covered by an applicant for the issuance of offset credits and the estimated start and end dates of future reporting periods;
(
j
)
the information needed to identify the owner of the lot or part of a lot for the project and the relevant information if it belongs to the promoter;
(
k
)
where applicable, information on the owner’s registration as a forest producer associated with the project, if the owner is not the promoter, and the owner’s forest producer number;
(
9
)
a presentation of all the work performed to complete the issuance inventory for the lot or part of a lot for the project including, in particular, the elements connected with the planning, gathering and compilation of data for the inventory and their justification, such as the determination of the number of sample plots for the issuance inventory, the coefficient of the prism used for the inventory of the variable-radius plot, a summary of the survey plan as planned and revised, and a summary of the results from the compilation of the initial inventory;
(
10
)
a copy of the survey plan, as planned, signed by a member of the Ordre des ingénieurs forestiers du Québec and of the survey plan as revised following the completion of the issuance inventory for the project. The copy must include:
(
a
)
information on the survey units and sampling units planned for the lot or part of a lot for the project, including the number of cruise line and sample plots, their location and the starting point for each route;
(
b
)
a copy of the shape file presenting the revised survey plan once the inventory has been conducted and the information needed to identify and locate each route and each sample plot measured;
(
11
)
a copy of the compilation report for the initial inventory, signed by a member of the Ordre des ingénieurs forestiers du Québec, and of all the inventory data files, along with those used to compile the inventories and the files for all the compilation results;
(
12
)
where applicable, a copy of the report on soil sample analyses for the project prepared by the laboratory responsible for analyzing the samples;
(
13
)
a presentation of the changes made to the project scenario and, where applicable, to the baseline scenario, including all relevant information, the data on which it is based and its justification, and a presentation of the annual results and results for each reporting period from the simulations of annual changes in the carbon stock in each scenario, along with all the data and hypotheses used to generate the information and the data needed for the simulation of the project scenario and baseline scenario and all the results from those simulations;
(
14
)
a presentation of the annual results and results for each reporting period for the project outcome, including their constitutive elements and justification;
(
15
)
where applicable, the missing data and information used, along with a document justifying the data, information or methods used to compensate for missing data, including a notice signed by a member of the Ordre des ingénieurs forestiers du Québec concerning the complementary nature of the missing data and information used for the project;
(
16
)
a copy of the files for the project generated by the CBM-CFS software to simulate the annual change in the carbon stock in the carbon reservoirs under the baseline scenario and project scenario;
(
17
)
a copy of the calculation tool used to define the project outcome including all the data and hypotheses used to characterize the baseline scenario and project scenario;
(
18
)
a declaration signed by the promoter or the promoter’s representative stating that no offset credits have been issued for the GHG removal and effects mentioned in the project report under the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances (
chapter Q-2, r. 46.1
) and that no credits have been issued under another GHG emissions offset program or will be issued under such a program;
(
19
)
when the promoter is not the owner of the lot or part of a lot for the project, a declaration by the owner authorizing the implementation of the project by the promoter and undertaking not to apply, with respect to the GHG fluxes covered by the project plan, either for offset credits under the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances or for credits under another GHG emissions offset program;
(
20
)
a declaration signed by the promoter or the promoter’s representative stating that the promoter still owns the effects of the carbon sequestrations for which the offset credits have been requested;
(
21
)
when a change in owner occurs during the reporting period covered by the project report and when the promoter is not the owner of the lot or part of a lot for the project, a declaration by the new owner authorizing the implementation of the project by the promoter and undertaking not to apply, with respect to the atmospheric CO
2
removals and effects covered by the project report, either for offset credits under the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances or for credits under another GHG emissions offset program;
(
22
)
a declaration signed by the member of the Ordre des ingénieurs forestiers du Québec responsible for supervising the project report stating that the information and documents produced under the engineer’s responsibility are complete and accurate;
(
23
)
a declaration signed by the promoter or the promoter’s representative stating that the project has been implemented in accordance with this Regulation and that the documents and information provided are complete and accurate;
(
24
)
when the environmental impacts of the project have been assessed, a summary of the analysis and its conclusions;
(
25
)
a copy of every authorization needed for the implementation of the project;
(
26
)
the information provided for in paragraph 3 of section 81 concerning the financial and fiscal assistance received during the reporting period;
(
27
)
the information needed to identify the members of the Ordre des ingénieurs forestiers du Québec involved in the implementation of the project during the reporting period covered by the project report, and the role of each member;
(
28
)
the name and function of each person involved in drafting the project report;
(
29
)
the date and signature of the promoter or the promoter’s representative.
When a document signed by a member of the Ordre des ingénieurs forestiers du Québec is required, it must be accompanied by the information needed to identify the forest consultant that employs that member.
2022-11-17
M.O. 2022-11-17
,
s.
84
.
TITLE
VII
VERIFICATION
2022-11-17, Tit. VII
M.O. 2022-11-17, Tit. VII
.
CHAPTER
I
GENERAL CONDITIONS
2022-11-17, c. I
M.O. 2022-11-17, c. I
.
85
.
The promoter must entrust the verification of a project plan or project report to a verification organization accredited under ISO 14065 by an accreditation body belonging to the International Accreditation Forum in Canada or the United States and according to an ISO 17011 program, with respect to the sector of activity for the project.
Despite the first paragraph, the verification of a project plan or project report may be entrusted to a verification organization that is not yet accredited, provided it is accredited in accordance with the first paragraph in the year following the verification of the project plan or project report.
2022-11-17
M.O. 2022-11-17
,
s.
85
.
86
.
The promoter may entrust the verification of a project plan or project report to a verification organization in accordance with section 85 if the organization, the verifier designated by that organization to carry out the verification and the other members of the verification team
(
1
)
have not acted for the promoter, in the 3 preceding years, as a consultant for the purpose of developing the project, calculating GHG emission reductions, or determining the radiative effect outcome or the number of credits to be issued that are attributable to the project for the promoter;
(
2
)
if a promoter files requests for issuance on an annual basis, have not verified project reports covering more than 6 consecutive reporting periods for the project being verified.
If the promoter files requests for issuance biannually, the verifier and members of the verification team must not have verified project reports covering more than 3 consecutive reporting periods for the project being verified.
In other cases, the verifier and members of the verification team must not have verified project reports covering more than 2 consecutive reporting periods for the project being verified.
In addition, when the promoter wishes to have the project plan or project report verified by a verification organization other than the organization that verified the project report for the preceding reporting period, the verification organization to which the verification is entrusted, the verifier designated by that organization to carry out the verification and the other members of the verification team, must not have verified a project plan or project report covering the 3 preceding reporting periods for that project.
2022-11-17
M.O. 2022-11-17
,
s.
86
.
87
.
The verifier designated by the verification organization must be a member of the Ordre des ingénieurs forestiers du Québec.
2022-11-17
M.O. 2022-11-17
,
s.
87
.
88
.
The verifier designated must form a verification team to perform tasks under the verifier’s supervision. The verification team, as a minimum, include one member of the Order des ingénieurs forestiers du Québec and have relevant experience in each of the following sectors: forest operations and management, forest inventories, statistics, forest growth, and the simulation of annual changes in the carbon stock of the biomass in an ecosystem.
2022-11-17
M.O. 2022-11-17
,
s.
88
.
89
.
In addition to the requirements of the standards ISO 14064-3 and ISO 14065 concerning conflicts of interest, the promoter must ensure that none of the following situations exists between the promoter, its officers, the verification organization and the members of the verification team referred to in section 86:
(
1
)
a member of the verification team or a close relative of that member has personal ties with the promoter or one of its officers;
(
2
)
during the 3 years preceding the year of the verification, one of the members of the verification team was employed by the promoter;
(
3
)
during the 3 years preceding the year of the verification, one of the members of the verification team provided the promoter with one of the following services:
(
a
)
the design, development, commissioning or maintenance of a data inventory or data management system for GHG emissions from the establishment or facility of the promoter or, where applicable, for data on electricity or fuel transactions;
(
b
)
the design, planning, implementation or supervision of a forest development project or a project to offset GHG emissions through forest development;
(
c
)
the development of GHG emission factors, or the design and development of other data used for quantification purposes for any GHG emission reductions or atmospheric CO
2
removals;
(
d
)
a consultation concerning GHG emission reductions or atmospheric CO
2
removals from the atmosphere, in particular the design of an energy efficiency or renewable energy project and the assessment of assets relating to greenhouse gas sources, sinks and reservoirs;
(
e
)
the preparation of manuals, guides or procedures connected with the reporting of the promoter’s GHG emissions under the Regulation respecting mandatory reporting of certain emissions of contaminants into the atmosphere (
chapter Q-2, r. 15
);
(
f
)
consultation in connection with a GHG allowances market, including
i
.
brokerage, with or without registration, while acting as a promoter or subscriber on behalf of the promoter;
ii
.
advice concerning the suitability of a GHG emissions transaction;
iii
.
the holding, purchase, sale, negotiation or withdrawal of emission allowances referred to in the second paragraph of section 46.6 of the Environment Quality Act (
chapter Q-2
);
(
g
)
a consultation in the field of health and safety and environmental management, including a consultation leading to ISO 14001 certification;
(
h
)
actuarial consulting, bookkeeping or other consulting services relating to accounting documents or financial statements;
(
i
)
a service connected with data management systems for a project of the promoter that is eligible for the issuance of offset credits;
(
j
)
an internal audit of GHG emissions;
(
k
)
a service provided in connection with litigation or an inquiry into GHG emissions;
(
l
)
a consultation for a GHG emissions reduction project or a atmospheric CO
2
removals project carried out in accordance with this Regulation or the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances (
chapter Q-2, r. 46.1
);
(
4
)
the independent verification examiner has previously provided the promoter with a verification service or other services referred to in subparagraph 3 for the reporting periods covered by the verification.
The existence of one of the situations described in the first paragraph or contravening section 83 is considered to be a conflict of interest that invalidates the verification.
For the purposes of this section, a close family member of a member of the verification team is that person’s spouse, child, spouse’s child, mother or father, mother’s or father’s spouse, child’s spouse or spouse’s child’s spouse.
2022-11-17
M.O. 2022-11-17
,
s.
89
.
CHAPTER
II
CONDUCT OF THE VERIFICATION
2022-11-17, c. II
M.O. 2022-11-17, c. II
.
90
.
In addition to the requirements of ISO 14064-3, the verification of a project plan or project report must be carried out in accordance with the conditions and methods set out in this Chapter and in compliance with the provisions of the Professional Code (
chapter C-26
).
2022-11-17
M.O. 2022-11-17
,
s.
90
.
91
.
For the purposes of a project verification, the promoter and, where applicable, the owner of the lot or part of a lot for the project must give the verifier all information and documents needed for the verification and provide access to the lot or part of a lot for the project.
2022-11-17
M.O. 2022-11-17
,
s.
91
.
92
.
When the verifier and the verifier’s team carry out a project verification, they must visit the lot or part of a lot for the project and, where applicable, the equivalent lot, in the company of the promoter. In the case of a project aggregation, the verifier and the verifier’s team must also comply with the condition set out in section 111.
The visit of the lot or part of a lot must allow the verifier and the verifier’s team, if applicable, to observe the implementation of the project, its carrying out and its satisfactory progress, as well as any change made to the project since the preceding verification.
2022-11-17
M.O. 2022-11-17
,
s.
92
.
93
.
The verifier must verify a project when it is filed and when a request for the issuance of offset credits is made. The verification of a project must
(
1
)
be carried out in accordance with a detailed verification plan including, in particular, a specific survey plan to verify the measures taken by the promoter to estimate the state of the carbon stock in the reservoirs.
The survey plan used by the verifier to verify the measures taken by the promoter to estimate the state of the carbon stock in the reservoirs must provide for the verification of at least 10% of the sample plots for the project or the greater or of at least 3 sample plots, whichever is greater. The sample plots verified must be selected at random and taking the risk of error into account;
(
2
)
include a verification of the measures taken by the promoter during inventories. The verification of the measures taken by the promoter must confirm that the parameters of the table in Schedule G are met. For a project aggregation, the verifier and the verifier’s team must also comply with the parameters of section 112.
Except for an early project, during the verification of a project plan the measures taken by the promoter during an inventory must be verified before seedlings are planted or seeds sown.
During the verification of a project report, the measures taken by the promoter during an inventory must be verified in the same year as the year in which they are taken by promoter. The verification date for the measures must be as close as possible to the date on which the promoter took the measures;
(
3
)
ensure that each sample plot verified is identified by a label must be attached to the pin indicating the centre of each variable-radius plot and micro-plot. The label must be weatherproof and specify the date of the verification and the name of the verifier responsible for the verification;
For the verification of an agroforestry-type project, each sample plot verified must be identified by a label attached to the pin indicating the centre of each plot and micro-plot. The label must be weatherproof and specify the date of the verification and the name of the verifier responsible for the verification;
(
4
)
ensure that every measurement instrument or other equipment used for verification purposes is used in accordance with the manufacturer’s instructions, is maintained in good working order and works reliably when used.
2022-11-17
M.O. 2022-11-17
,
s.
93
.
94
.
The verifier must verify the following elements in particular when verifying the project plan:
(
1
)
the description of the initial context for the project;
(
2
)
the biophysical characteristics of the lot;
(
3
)
the initial inventory of the lot or part of a lot for the project;
(
4
)
the definition of the baseline scenario;
(
5
)
the results of the simulation of the annual change in carbon stock in the baseline scenario using the MBC-SCF software and the radiative effect outcome noted in the software;
(
6
)
in the case of an early project, the requirements for the recognition of carbon sequestrations that occur after 31 December 1989 but before 29 December 2022.
The characterization, the simulation of the annual change in the carbon stock for the project scenario and the annual GHG flow outcome for the project are an optional part of the verification.
2022-11-17
M.O. 2022-11-17
,
s.
94
.
95
.
In addition to the elements in section 94, the verifier must verify the following elements in particular when verifying the project report:
(
1
)
any changes made to the characterization and simulation in the baseline scenario, and to the radiative effect outcome;
(
2
)
the characterization, the reconstitution of the growth curve in merchantable volume for the reporting period and the simulation in the project scenario;
(
3
)
the project outcome.
2022-11-17
M.O. 2022-11-17
,
s.
95
.
96
.
The verifier must conduct the verification in a way that allows the verifier to conclude, with reasonable assurance, that the project plan or project report meets the conditions of this Regulation and that the GHG fluxes attributable to the project as quantified and reported in the project plan and project report contain no significant errors, omissions or inaccuracies.
For the purposes of this Regulation,
“
significant errors, omissions and inaccuracies
”
means any errors, omissions and inaccuracies in the determination of the project outcome that are recorded in the project plan and in the project report for a reporting period that, individually or as an aggregate, result in an over-estimate or under-estimate of atmosphérique CO
2
removals greater than 5%.
2022-11-17
M.O. 2022-11-17
,
s.
96
.
97
.
When, during the verification, the verifier notes an error, omission or inaccuracy in the quantification of the GHG fluxes attributable to the project or in the determination of the project outcome, or non-compliance with a condition of this Regulation, the verifier must inform the promoter.
2022-11-17
M.O. 2022-11-17
,
s.
97
.
98
.
If, following the verification of the project plan or project report, as the case may be, the verifier concludes that it meets the conditions of this Regulation and contains no significant errors, omissions or inaccuracies, the verifier gives the promoter a positive verification notice attesting, with reasonable assurance,
(
1
)
in the case of a project plan, that the initial characterization of the lot or part of a lot for the project, the characterization of the baseline scenario, the results of the simulation of carbon change in the reservoirs for the baseline scenario, and the radiative effect outcome associate with the baseline scenario, contain no significant errors, omissions or inaccuracies and that the project plan meets the conditions of this Regulation;
(
2
)
in the case of a project report, that the quantification of GHG fluxes attributable to the project and the determination of the project outcome contain no significant errors, omissions or inaccuracies and that the project plan meets the conditions of this Regulation.
2022-11-17
M.O. 2022-11-17
,
s.
98
.
99
.
If, following the verification of the project plan or project report as the case may be, the verifier notes a failure to comply with a condition, the verifier must
(
1
)
in the case of a project plan, assess its impact on the eligibility of the project, the validity of the initial inventory and the characterization of the baseline scenario and determine if it leads to significant errors, omissions or inaccuracies;
(
2
)
in the case of a project report and with respect to a condition relating to the quantification of GHG fluxes that cannot be corrected by the promoter, assess its impact on the GHG fluxes recorded in the project report and determine if its leads to significant errors, omissions or inaccuracies.
If the failure to comply with a condition relating to the quantification of GHG fluxes cannot be corrected by the promoter but does not lead to significant errors, omissions or inaccuracies, and if the verifier concludes that the other conditions of the Regulation have been met and that there are no significant errors, omissions or inaccuracies, the verifier gives the promoter a positive verification opinion.
2022-11-17
M.O. 2022-11-17
,
s.
99
.
CHAPTER
III
VERIFICATION REPORT FOR A PROJECT PLAN OR PROJECT REPORT
2022-11-17, c. III
M.O. 2022-11-17, c. III
.
100
.
Every verification of a project plan or project report must be recorded in a verification report. For a project aggregation, a verification report may record the verification of more than one project report.
The verification report for a project plan or project report must include the following information and documents in particular:
(
1
)
the information needed to identify the verification organization and the verifier designated to carry out the verification, the other members of the verification team, with their respective roles in the verification of the project plan or project report, and the independent examiner;
(
2
)
the information needed to identify the accrediting organization that accredited the verification organization for the verification, the sector of activity covered by the accreditation of the verification organization, and the period of validity of the accreditation;
(
3
)
information on the project, including the information needed to identify the promoter and, where applicable, the project code;
(
4
)
the verification plan and a description of its objectives and the activities completed by the verifier to verify the project plan and project report, along with all exchanges of information between the verifier and the promoter for the purposes of the verification;
(
5
)
the period during which the verification was conducted and the date of any visit to the lot or part of a lot for the project and, where applicable, to the equivalent lot;
(
6
)
the survey plan for the verification of the initial inventory or, as the case may be, the issuance inventory carried out by the verifier;
(
7
)
the percentage precision of the initial inventory or, as the case may be, the issuance inventory calculated by the verifier;
(
8
)
the results of the verification based on the elements to be taken into consideration during the verification of the measures provided for in Schedule G;
(
9
)
where applicable, the results of the verification of the soil carbon inventory at each sampling point including
(
a
)
the calculations for the carbon stock;
(
b
)
the satellite geolocation of the sampling points verified;
(
c
)
the 95% Dbm and Dbo confidence interval;
(
d
)
the precision of the values for soil carbon stock on a mass of mineral soil basis (Q
corrected
);
(
e
)
where applicable, a comparative table showing the soil colour code determined by the verifier and the soil colour code determined by the promoter for each soil sample verified with a description of the sampling point, including the promoter’s route number, the micro-plot number and the number of the soil sample taken by the promoter;
(
10
)
a list of all errors, omissions or inaccuracies noted in the quantification of GHG emissions or atmospheric CO
2
removals attributable to the project and all failures to comply with a condition of this Regulation, including the following information concerning them:
(
a
)
their description;
(
b
)
the date on which the promoter was informed of them;
(
c
)
where applicable, a description of the action taken by the promoter to correct them and the date on which the action was taken;
(
d
)
in the case of a failure to comply with a condition relating to the quantification of GHG fluxes and the determination of the project outcome that cannot be corrected by the promoter, an assessment of the impact of each on the quantification of GHG fluxes and the determination of the project outcome and a notice from the verifier concerning the significant errors, omissions and inaccuracies within the meaning of the second paragraph of section 96 that may have occurred as a result;
(
11
)
where applicable, the version and date of the project plan or project report revised during the verification;
(
12
)
a copy of the verification notice given to the promoter pursuant to sections 98 and 99, along with the justifications for the notice;
(
13
)
a declaration by the verification organization and verifier that the verification was conducted in accordance with this Regulation and ISO 14064-3;
(
14
)
a declaration concerning conflicts of interest, including
(
a
)
the information needed to identify the verification organization, the members of the verification team and the independent examiner, and the sector of activity covered by the accreditation of the verification organization;
(
b
)
a copy of the organization chart for the verification organization;
(
c
)
a declaration signed by a representative of the verification organization attesting that the conditions of sections 86 and 89 have been met and that the risk of conflict of interest is acceptable;
(
15
)
a description of the experience of the members of the verification team in connection with the project;
(
16
)
the name and function of every person involved in the drafting of the verification report;
(
17
)
the date and the signature of the verifier;
(
18
)
in addition to the above requirements, the verification report for a project report which must include the following information and documents in particular:
(
a
)
the reporting period covered by the verification and the quantity of offset credits to be issued to the promoter that are attributable to the project for the reporting period verified;
(
b
)
where applicable, a notice concerning the accuracy of the percentage of timber harvested entered into the CBM-CFS software;
(
c
)
where applicable, a notice concerning the inclusion in the baseline scenario and project scenario of events entered in the events register;
(
d
)
where applicable, a notice concerning the accuracy of the results of the calculation used to determine the presence of a leak pursuant to Chapter VII of Title III;
(
e
)
when the verifier concludes that errors, omissions or inaccuracies have occurred in the quantification of GHG fluxes and the determination of the project outcome, the determination of the annual and total quantities of GHG fluxes in metric tonnes CO
2
equivalent, and the determination of the number of offset credits to be issued to the promoter that, in the verifier’s opinion, are actually attributable to the project.
2022-11-17
M.O. 2022-11-17
,
s.
100
;
I.N. 2023-01-01
.
TITLE
VIII
SPECIAL PROVISIONS CONCERNING A PROJECT AGGREGATION
2022-11-17, Tit. VIII
M.O. 2022-11-17, Tit. VIII
.
101
.
A promoter who creates a project aggregation must submit a summary of the aggregation to the Minister. The summary must include the following information and documents in particular:
(
1
)
the information needed to identify the promoter and the promoter’s representative;
(
2
)
a brief description of the aggregation;
(
3
)
a summary of the aggregation including the following information in particular:
(
a
)
the estimated or actual number of projects in the aggregation;
(
b
)
a list of the codes for each project in the aggregation;
(
c
)
the estimated start and end dates of the reporting periods for the estimated duration of the aggregation;
(
d
)
the start and end dates for the aggregation when known, or an estimate. The start date for an aggregation is the start date for a project in the aggregation that is furthest in the past. The end date for a project aggregation is the end date for a project in the aggregation that is furthest in the future;
(
e
)
an estimate of the total number of offset credits to be issued for each reporting period and the total number of offset credits to be issued for the duration of the aggregation;
(
4
)
the signature of the promoter and, where applicable, the promoter’s representative, with the date of signing.
2022-11-17
M.O. 2022-11-17
,
s.
101
.
102
.
A promoter who wishes to add a project to an aggregation whose eligibility has yet to be confirmed by the Minister must file the project in the usual manner set out in Title IV.
Once the eligibility of the project has been confirmed by the Minister, the promoter must submit a project modification notice to the Minister to include the project in the aggregation and update the information in the project notice provided for in section 78 and in the summary of the aggregation provided for in section 101.
2022-11-17
M.O. 2022-11-17
,
s.
102
.
103
.
The promoter must notify the Minister when a project is withdrawn from an aggregation and continued, within 30 days of the withdrawal. The notice submitted must update the information contained in the project notice provided for in section 78 and in the summary of the aggregation provided for in section 101.
2022-11-17
M.O. 2022-11-17
,
s.
103
.
104
.
The promoter must notify the Minister when a project is terminated, within 45 days of the termination. The promoter must then submit a notice to the Minister including the information prescribed for the notice of termination provided for in section 10 and updating the information contained in the project notice provided for in section 78 and the summary of the aggregation provided for in section 101.
The promoter must include a report on the state of forest stands drawn up by a member of the Ordre des ingénieurs forestiers du Québec when the project has not been verified to ensure the compliance of the measures taken by the promoter in accordance with Schedule G during the last request for the issuance of offset credits.
2022-11-17
M.O. 2022-11-17
,
s.
104
.
105
.
The promoter must notify the Minister when an aggregation is terminated, within 45 days of the termination.
The promoter must include with the notice a report on the state of the forest stands completed by a member of the Ordre des ingénieurs forestiers du Québec for projects that have not been verified to ensure the compliance of the measures taken by the promoter during the inventory for the last issuance of offset credits.
2022-11-17
M.O. 2022-11-17
,
s.
105
.
106
.
The report on the state of forest stands referred to in the second paragraph of sections 104 and 105 must include the following information and documents in particular:
(
1
)
the date of the report;
(
2
)
the project code;
(
3
)
the information needed to identify the promoter, as entered in the general account opened by the Minister for the transferee under section 14 of the Regulation respecting a cap-and-trade system for greenhouse gas emission allowances (
chapter Q-2, r. 46.1
) following the transferee’s registration for the cap-and-trade system for emission allowances, and the name of the person responsible for the project;
(
4
)
the period during which the verification was conducted and the date of the visit of the lot or part of a lot for the project;
(
5
)
the name and function of the persons involved in assessing the state of the forest stands;
(
6
)
a description of the activities carried out by a member of the Ordre des ingénieurs forestiers du Québec to assess the state of the forest stands;
(
7
)
an image interpreted from an analogical aerial photograph at the scale of 1: 15 000 or better, an image from a digital aerial photograph with a spatial resolution of 30 cm or better, or a satellite image with a spatial resolution of 50 cm or better, taken at a date as close as possible to the date of the notice provided for in section 103 or 104, showing the lot for the project;
(
8
)
the results of the interpretation of the analogical aerial photograph, digital aerial photograph or satellite image. The interpretation must, in particular, focus on the following elements:
(
a
)
stand density;
(
b
)
tree height;
(
c
)
the presence or absence of natural or anthropogenic disturbances. When a disturbance is noted, the promoter must specify the year, the cause of the disturbance, the area affected by the disturbance, and the impact of the disturbance on the project outcome;
(
d
)
a conclusion as to whether the forest capital on the lot or part of a lot for the project, when the comparative analysis is performed, is sufficient to support the project outcome declared at the last issuance request for offset credits and to ensure that the credits issued are able to cancel the effect, quantified over 100 years, of the presence in the atmosphere of one metric tonne of CO
2
emissions;
(
e
)
the date and the signature of the member of the Ordre des ingénieurs forestiers du Québec who drew up the report.
2022-11-17
M.O. 2022-11-17
,
s.
106
.
107
.
When the conclusion of the report on the state of the forest stands is positive, the Minister withdraws the project from the aggregation and, where applicable, terminates the project and notifies the promoter.
2022-11-17
M.O. 2022-11-17
,
s.
107
.
108
.
When the conclusion of the report on the state of the forest stands is negative, the promoter must conduct a new inventory, draw up a new project report, and file a new issuance request for offset credits.
The new issuance request must update the project outcome. It must cover the period beginning on the start date of the reporting period covered by the preceding issuance request for offset credits and ending on the date of the inventory conducted to correct the project outcome for the reporting period.
2022-11-17
M.O. 2022-11-17
,
s.
108
.
109
.
When an issuance request for offset credits is filed, the promoter may request the issuance of offset credits for some or all of the projects in an aggregation.
The promoter must file with the Minister an inventory, a project report and a verification report only for the projects covered by the issuance request.
2022-11-17
M.O. 2022-11-17
,
s.
109
.
110
.
The promoter must plan and conduct the initial inventory and issuance inventory for all areas managed for the purposes of the projects covered by an issuance request for offset credits.
The 90% precision threshold for inventories and the confidence levels provided for in section 24 apply to all areas managed for the purposes of the projects covered by an issuance request for offset credits.
2022-11-17
M.O. 2022-11-17
,
s.
110
.
111
.
The verifier must plan and conduct a verification inventory of all the areas managed for the purposes of the projects covered by an issuance request for offset credits.
2022-11-17
M.O. 2022-11-17
,
s.
111
.
112
.
When an issuance request is filed, the verifier must visit the lots or parts of lots for at least 30% of the projects covered by the application.
2022-11-17
M.O. 2022-11-17
,
s.
112
.
113
.
When the first issuance request for offset credits is filed, the verifier must verify, in accordance with Schedule G, the measures taken by the promoter for at least 30% of the projects covered by the application.
The verifier must, in the verification report, provide an explanation of the way in which projects were selected to meet the 30% threshold.
2022-11-17
M.O. 2022-11-17
,
s.
113
.
114
.
For each period for the issuance of offset credits following the first issuance request, the verifier must determine the projects to be included to meet the threshold provided for in section 113 by prioritizing the selection of projects among those for which measures have never been verified for a preceding issuance request.
2022-11-17
M.O. 2022-11-17
,
s.
114
.
115
.
The verification notice submitted to the Minister following an issuance request for offset credits and its conclusion apply to all the projects in the aggregation covered by the application.
2022-11-17
M.O. 2022-11-17
,
s.
115
.
TITLE
IX
ADMINISTRATIVE AND PENAL PROVISIONS
2022-11-17, Tit. IX
M.O. 2022-11-17, Tit. IX
.
CHAPTER
I
MONETARY ADMINISTRATIVE PENALTIES
2022-11-17, c. I
M.O. 2022-11-17, c. I
.
116
.
A monetary administrative penalty of $500 in the case of a natural person or $2,500 in other cases may be imposed on any person who
(
1
)
in contravention of this Regulation, refuses or fails to file any notice, information, report or other document, or fails to produce it within the required time;
(
2
)
contravenes the first and third paragraphs of section 12, the first paragraph of section 85 or section 91;
(
3
)
contravenes any other requirement of this Regulation, if no other monetary administrative penalty is otherwise specified for that contravention by this Title or by the Environment Quality Act (
chapter Q-2
).
2022-11-17
M.O. 2022-11-17
,
s.
116
.
117
.
A monetary administrative penalty of $1,000 in the case of a natural person or $5,000 in other cases may be imposed on any person who contravenes paragraph 4 of section 21 or section 86.
2022-11-17
M.O. 2022-11-17
,
s.
117
.
CHAPTER
II
PENAL SANCTIONS
2022-11-17, c. II
M.O. 2022-11-17, c. II
.
118
.
Every person who
(
1
)
refuses or fails to file any notice, information, report or other document, or fails to produce it within the required time;
(
2
)
contravenes the first, second and third paragraphs of section 12, the first paragraph of section 85 or section 91;
(
3
)
contravenes any other requirement of this Regulation, if no other monetary administrative penalty is otherwise specified for that contravention by this Title or by the Environment Quality Act (
chapter Q-2
);
commits an offence and is liable, in the case of a natural person, to a fine of $3,000 to $100,000 and, in other cases, to a fine of $3,000 to $600,000.
2022-11-17
M.O. 2022-11-17
,
s.
118
.
119
.
Every person who contravenes paragraph 4 of section 21 or section 86 commits an offence and is liable, in the case of a natural person, to a fine of $6,000 to $250.000 and, in other cases, to a fine of $25,000 to $1,500,000.
2022-11-17
M.O. 2022-11-17
,
s.
119
.
120
.
Every person who, for the purposes of this Regulation, communicates to the Minister information that is false or misleading commits an offence and is liable, in the case of a natural person, to a fine of $5,000 to $500,000 or, despite article 231 of the Code of Penal procedure (
chapter C-25.1
), to a maximum term of imprisonment of 18 months, and, in other cases, to a fine of $15,000 to $3,000,000.
2022-11-17
M.O. 2022-11-17
,
s.
120
.
TITLE
X
FINAL PROVISION
2022-11-17, Tit. X
M.O. 2022-11-17, Tit. X
.
121
.
(Omitted).
2022-11-17
M.O. 2022-11-17
,
s.
121
.
SCHEDULE A
(
ss. 26 and 32
)
Layout of a sample plot and soil sampling points
2022-11-17
M.O. 2022-11-17
,
Sch. A
.
SCHEDULE B
(
s. 29
)
Allometric equations used to estimate the aerial biomass of certain species present on a sample plot
Parameter values
Equation
b
o
b
1
a
15
b
15
Reference
Abies balsamea
A5, A6
72.715
2.25
0.0684
1.1302
Roussopoulos
2
Loomis 1979; Ker 1984
Abies balsamea
A1
0.1746
2.1555
Ker 1984
Acer pensylvanicum
A4
-3.518
2.878
Telfer 1969
Acer rubrum
A1
0.197
2.1933
Ker 1984
Acer rubrum
A4
-4.194
2.094
Telfer 1969
Acer saccharum
A1
0.1599
2.3376
Ker 1980
Acer saccharum
1
A4
-4.194
2.094
Telfer 1969
Acer spicatum
A5, A6
73.182
2.259
0.1645
1.0485
Roussopoulos
2
Loomis 1979
Acer spicatum
A1
0.204
2.2524
Whittaker
2
al. 1979
Alnus rugosa
A5, A6
63.28
2.38
0.1409
1.0225
Roussopoulos and Loomis 1979
Alnus rugosa
A1
0.2612
2.2087
Young
2
al. 1980
Amelanchier sp
2
A5, A6
71.534
2.391
0.0142
1.1037
Roussopoulos
2
Loomis 1979
Amelanchier sp.
A1
0.2612
2.2087
Young
2
al. 1980
Betula alleghaniensis
A2
-1.8337
2.1283
Ker 1980
Betula papyrifera
AS, A6
73.316
2.279
0.713
1.0452
Roussopoulos and Loomis 1979; Ker 1984
Betula papyrifera
A1
0.1545
2.3064
Ker 1984
Cornus stolonifera
A5, A6
74.114
2.457
0.0243
1.0828
Roussopoulos
2
Loomis 1979
Cornus stolonifera
3
A1
0.0616
2.5094
Perala
2
Alban 1994
Corylus cornuta
A5, A6
62.819
2.42
0.1894
0.9226
Roussopoulos
2
Loomis 1979
Crataegus sp.
A5, A6
63.28
2.38
0.1409
1.0225
Roussopoulos
2
Loomis 1979
Crataegus sp.
A1
0.2612
2.2087
Young
2
al. 1980
Diervilla lonicera
A5, A6
14.211
1.217
0.1062
0.8818
Roussopoulos
2
Loomis 1979
Fagus grandifolia
A1
0.1958
2.2538
Ker 1980
Fagus grandifolia
A4
-3.647
2.906
Telfer 1969
Juniperus communis
A3
59.205
2.202
Smith
2
Brand 1983
Larix laricina
A1
0.0946
2.3572
Ker 1980
Lonicera canadensis
A4
-2.427
2.77
Telfer 1969
Nemopanthus mucronatus
A4
-3.04
2.819
Telfer 1969
Picea abies
A1
0.0777
2.472
Harding and Grigal 1985
Picea glauca
A1
0.0777
2.472
Harding and Grigal 1985
Picea glauca
A5, A6
65.757
2.287
0.0715
1.1241
Roussopoulos
2
Loomis 1979
Picea abies
A5, A6
65.757
2.287
0.0715
1.1241
Roussopoulos and Loomis 1979
Picea mariana
A1
0.1683
2.1777
Ker 1980
Picea mariana
A3
0.5072
1.9246
Wagner
2
Ter-Mikaelian 1999
Picea rubens
4
A1
0.166
2.2417
Freedman et al. 1982
Picea rubensd
A3
0.5072
1.9246
Wagner
2
Ter-Mikaelian 1999
Pinus banksiana
A1
0.152
2.273
Ker 1980
Pinus banksiana
A3
0.1694
2.3002
Wagner
2
Ter-Mikaelian 1999
Pinus resinosa
A1
0.0847
2.3503
Ker 1980
Pinus resinosa
A3
0.1219
2.4618
Wagner
2
Ter-Mikaelian 1999
Pinus strobus
A1
0.1617
2.142
Ker 1980
Pinus strobus
A3
0.1404
2.2918
Wagner
2
Ter-Mikaelian 1999
Populus balsamifera
56
A5, A6
46.574
2.527
0.1294
1.0517
Roussopoulos
2
Loomis 1979
Populus tremuloides
A1
0.1049
2.391
Ker 1984
Populus tremuloides
A4
-2.92
2.715
Telfer 1969
Prunus pensylvanica
A5, A6
68.041
2.237
0.1151
1.0676
Roussopoulos
2
Loomis 1979
Prunus pensylvanica
A1
0.1556
2.1948
Young
2
al. 1980
Prunus sp.
A5, A6
68.041
2.237
0.1151
1.0676
Roussopoulos
2
Loomis 1979
Prunus virginiana
A1
0.2643
1.7102
Young et
2
1980
Prunus virginiana
A3
9.934
2.92
Brown 1976
Quercus rubra
A1
0.1335
2.422
Perala
2
Alban 1994
Quercus rubra
A4
-2.299
2.649
Telfer 1969
Ribes sp.
A3
49.001
3.112
Brown 1976
Rubus idaeus
A3
43.992
2.86
Brown 1976
Salix sp.
A1
0.0616
2.5094
Perala
2
Alban 1994
Salix sp.
A4
-1.519
2.325
Telfer 1969
Sorbus americana
A5, A6
44.394
3.253
0.0263
1.1373
Roussopoulos
2
Loomis 1979
Sorbus americanca
7
A1
0.1556
2.1948
Young
2
al. 1980
Thuja occidentalis
A5, A6
68.423
1.863
0.1853
1.0906
Roussopoulos and Loomis 1979; Ker 1984
Thuja occidentalis
A1
0.1148
2.1439
Ker 1980
Vaccinium angustifolium
A4
-3.978
3.706
Telfer 1969
Viburnum alnifolium
A4
-4.079
3.243
Telfer 1969
Viburnum cassinoides
A4
-2.613
2.774
Telfer 1969
Explanatory note:
6 different equations are used to determine the biomass of aerial ligneous vegetation (B) (DBH: diameter at breast height; DSH: diameter at stump height; D15: diameter at height of 15 cm).
[A1]
B
=
b
0
× DBH
b1
[A2]
8
ln
B
=
b
0
+ b
1
× ln DBH
[A3] B =
b
0
× DSH
b1
[A4] ln
B
=
b
0
+ b
1
× ln DSH
[A5]
B
=
b
0
× D15
b1
[A6] D15 = (DSH – a
15
)/b
15
1
The equation for
A. rubrum
is used.
2
The equation for
A. rugosa
is used.
3
The equation for
Salix sp
. is used.
4
The equation for
P.mariana
is used.
5
The equation for
Populus sp
. is used.
6
The equation for
P.mariana
is used.
7
The equation for
P. pensylvanica
is used.
8
To obtain the value B, the result of the equation must be converted to an exponent.
2022-11-17
M.O. 2022-11-17
,
Sch. B
.
SCHEDULE C
(
ss. 14, 33 and 35
)
Soil carbon calculation method
DIVISION I
SOIL SAMPLING STEPS AND VARIABLES OBTAINED
Soil sampling step
Variable obtained during sampling
Locate on the ground, using a metal peg, each soil sampling point on sample plot (n = 2, see diagram in Schedule A).
Physical location and geolocation by satellite
Take volumetric samples at 3 depths (0-10 cm, 10-20 cm and 20-30 cm) for each of the 2 sampling points.
V
t
For each sample taken, measure the depth reached by the probe.
E
h
Assess the overall percentage of soil stoniness, in other words the percentage of the soil comprising stones with a diameter greater than that of the probe. This value should not change from one sample to another.
f
m’
Determine the colour of each soil sample taken using a Munsell soil colour chart.
CodeMunsell
DIVISION II
LABORATORY ANALYSIS STEPS AND VARIABLES OBTAINED
(
1
)
The laboratory report must show that the steps in the table below have been completed and described the calibration process for the apparatus used to measure carbon in the soil samples.
Laboratory step
Variable obtained
Note the mass of the initial sample
M
i
Dry the soil samples at room temperature (≈ 21 °C, ≈ 48-72 h).
---
For samples analyzed using Laser Induced Breakdown Spectroscopy (LIBS), dry the soil samples at ≈ 37 °C, ≈ 12 h.
Determine the total mass of the dry sample (g).
M
t
Separate fine soil particles (diam < 2 mm) from coarse soil particles (diam > 2 mm) in each sample by sieving. Crush clay soils to 2.5 mm.
---
For samples analyzed using Laser Induced Breakdown Spectroscopy (LIBS), crush and sieve the soil samples to 2 mm.
Determine the mass of the fine soil sample (g).
M
f
Determine the moisture content of the dry sample (on the basis of the anhydrous mass of the soil at 105° C).
% H
Determine the mass density of the sample knowing the % H, M
t
and the value of the input variables in equation 27 (below)
Db
For samples analyzed using Laser Induced Breakdown Spectroscopy (LIBS), place ≈ 40 g of soil in a cup and compress to 1500 psi.
---
Determine the percentage of organic matter using the loss-on-ignition method for the sample (%) at 375° C or using Laser Induced Breakdown Spectroscopy (LIBS).
F
o
Crush a fraction of the sample to <150 μm (100 Mesh). (necessary for the C dose of a LECO-brand device)
---
This step is not required if the samples are analyzed using a LaserAg-brand device.
Determine the organic carbon concentration of the sample by ignition (using, for example, a LECO brand device [%; g/kg or mg/kg or ppm; on the basis of the anhydrous mass of the soil at 105° C]) or by Laser Induced Breakdown Spectroscopy (LIBS) [%].
C
h
DIVISION III
CALCULATION OF SOIL CARBON
(
1
)
Soil carbon is calculated using equation 19:
Equation 19
Where:
Q = Sum of the content of an element in each soil horizon to the selected depth, by hectare (metric tonnes/ha);
k = Scale factor (k = 0.1 if “C” is expressed in g/kg or k = 0.0001 if “C” is expressed in mg/kg or ppm);
h = Number of horizons (3 for samples taken at 0-10 cm, 10-20 cm and 20-30 cm depth);
T
eh
= Effective thickness of fine soil (soil without stones or coarse fragments) in horizon h (cm), calculated using equation 20;
D
bh
= Apparent density of horizon h (g/cm
3
), calculated using equation 22 or, in other cases, using equation 23;
C
h
= Concentration of carbon in fine soil (g/kg or mg/kg or ppm) of sample h.
Equation 20
E
eh
= E
h
× (1 – f
m
) × (1 – f’
m
)
Where:
E
eh
= Effective thickness of fine soil in the sample (cm);
E
h
= Measured thickness of the sample (here, the measured thickness of the soil sample (~10 cm));
f’
m
= Fraction of the soil composed of stones, assessed in the field (stoniness; 0.00);
f
m
= Average fraction by volume of coarse fragments in the volumetric sample (0.00), calculated using equation 21.
Equation 21
f
m
=
(M
t
– M
f
)
P
m
× V
t
Where:
f
m
= Average fraction by volume of coarse fragments in the volumetric sample (0.00);
M
t
= Total dry mass of the volumetric sample (g);
M
f
= Dry mass of fine soil (g);
ρm = Density of coarse fragments (presumed to be equal to 2.65 g/cm
3
for stones);
V
t
= Total volume of the sample (depending on the probe used, cm
3
).
Equation 22
D
b
=
[(100 – %H) × M
f
]
100 × [V
t
× (1 – f
m
)]
Where:
D
b
= Apparent observed density of individual samples taken using a volumetric probe g/cm
3
);
%H = Moisture content of the air-dried sample (%);
M
f
= Dry mass of fine soil (g);
V
t
= Total volume of the sample (depending on the probe used, cm
3
);
f
m
= Average fraction by volume of coarse fragments in the volumetric sample (0.00), calculated using equation 21.
Equation 23
D
b
=
D
bm
× D
bo
F
o
× D
bm
+ (1 – F
o
) × D
bo
Where:
D
b
= Apparent calculated density of individual samples taken using a Dutch auger g/cm
3
);
D
bm
= Constant: apparent density of mineral soil without organic matter (g/cm
3
);
D
bo
= Constant: apparent density of organic matter without mineral content (g/cm
3
);
F
o
= Proportion of organic matter observed in individual samples after analysis of the organic matter (0.00);
The values D
bm
et D
bo
may be estimated using all the D
b
and F
o
data for soils from the same plantation and equation 23. The values of the constants D
bm
and D
bo
in equation 23 may be calculated using statistical software.
DIVISION IV
CORRECTION OF CARBON STOCK IN SOIL
(
1
)
The carbon stock in the soil must be corrected using equation 24 to establish any change during a reporting period.
The average mineral soil mass (M) obtained during the first sampling campaign must be used during subsequent sampling campaigns as a reference to calculate the average variation in carbon stock and the 90% confidence interval for soil carbon stock.
Equation 24
Q
corrected
= Q + k (T
a
× D
b
× C
III
)
Where:
Q = Sum of the content of an element in each soil horizon to the selected depth, by hectare (metric tonnes/ha), calculated using equation 19;
k = Scale factor (k = 0.1 if “C” is expressed in g/kg or k = 0.0001 if “C” is expressed in mg/kg or ppm);
T
a
= Additional thickness (or, if negative, surplus thickness) of the last sample at the base of the soil profile to be added to the carbon stock (cm), calculated using equation 25;
D
b
= Apparent observed or calculated density of individual samples (here, the sample is extracted at a depth of 20-30 cm) (g/cm
3
);
C
III
= Concentration of the element in fine soil from the last sample at the base of the soil profile sampled (here, the sample is extracted at a depth of 20-30 cm) (g/kg or mg/kg or ppm).
Equation 25
T
a
=
(M
0
– M
t
) × 0.01
D
bIII
Where:
T
a
= Additional thickness (or, if negative, surplus thickness) from the last sample at the base of the soil profile sampled to be added to the carbon stock (cm);
D
bIII
= Apparent density, measured (equation 22) or calculated (equation 23), of the last sample (~20-30 cm) at the base of the soil profile sampled (g/cm
3
);
M
0
= Total mass of reference mineral soil at time t = 0 (metric tonnes/ha);
M
t
= Total mass of mineral soil from sample point at time t = 20 years or more (metric tonnes/ha).
Equation 26
Where:
M = Mass of mineral soil to the depth (E
eh
) selected (metric tonnes/ha);
D
bm
= Apparent density of mineral soil without organic matter (g/cm
3
);
E
eh
= Effective thickness of fine soil in the sample (cm), calculated using equation 20;
h = number of horizons (3 for samples taken at depths of 0-10, 10-20 and 20-30 cm).
2022-11-17
M.O. 2022-11-17
,
Sch. C
.
SCHEDULE D
(
s. 43
)
Selection of the growth curve for the baseline scenario and tables showing the annual change in merchantable volume on fallow land by bioclimatic subdomain and potential vegetation groups
(
1
)
The tables in Division II of this Schedule contain the data needed to define the growth curve for the baseline scenario in the CBM-CFS software for a project on a lot without forest cover.
The growth curve selected must be representative of the biophysical characteristics and species present at the time of the initial inventory.
(
2
)
For the purposes of this Schedule, a lot without forest cover includes lots used for non-forestry purposes and unproductive forest land.
DIVISION I
POTENTIAL VEGETATION GROUPS
(
1
)
The codes FE_ MJ_ MS_ RB_ RS_ RE_ in the tables in Division II of this Schedule represent potential vegetation groups. The composition of the groups is determined in the tables below.
Table 1 – Name and code of stands based on the composition of dominant species in the stand (Hardwood species on rich sites (FE_))
Designation
Code
Red oak stand
FC1
Maple stand with bitternut hickory
FE1
Maple stand with linden
FE2
Maple stand with yellow birch
FE3
Maple stand with yellow birch and beech
FE4
Maple stand with eastern hop-hornbeam
FE5
Maple stand with red oak
FE6
Table 2 – Name and code of stands based on the composition of dominant species in the stand (Hardwood species on mesic sites (MJ_))
Designation
Code
Black ash stands with fir
MF1
Yellow birch stands with fir and sugar maple
MJ1
Yellow birch stands with fir
MJ2
Fir stand with yellow birch
MS1
Table 3 – Name and code of stands based on the composition of dominant species in the stand (Mixed species (MS_))
Designation
Code
Black spruce stand with trembling aspen
ME1
Fir stand with white birch
MS2
Fir stand with red maple
MS3
Fir stand with mountain white birch
MS4
Fir stand with red maple
MS6
Table 4 – Name and code of stands based on the composition of dominant species in the stand (Softwood species on rich sites (RB_))
Designation
Code
White spruce stand or cedar stand resulting from agriculture
RB1
Maritime white spruce stand
RB2
White spruce stand resulting from browsing by white-tailed deer (Anticosti island)
RB5
Table 5 – Name and code of stands based on the composition of dominant species in the stand (Softwood species on mesic sites (RS_))
Designation
Code
Spruce stand with red spruce
RR1
Fir stand with black spruce
RS2
Fir stand with black spruce and sphagnum moss
RS3
Fir stand with mountain black spruce
RS4
Fir stand with red spruce
RS5
Fir stand with maritime black spruce
RS7
Table 6 – Name and code of stands based on the composition of dominant species in the stand (Softwood species on poor sites (RE_))
Designation
Code
Black spruce stand with lichens
RE1
Black spruce stand with moss or heathland
RE2
Black spruce stand with sphagnum moss
RE3
White pine or red pine stand
RP1
Table 7 – Name and code of stands based on the composition of dominant species in the stand (Fir stand with thuya (RS1))
Designation
Code
Fir stand with thuya
RS1
DIVISION II
TABLES SHOWING ANNUAL CHANGE IN MERCHANTABLE VOLUME ON FALLOW LAND BY BIOCLIMATIC SUBDOMAIN AND POTENTIAL VEGETATION GROUPS
(
1
)
The data used to create the growth curve for the baseline scenario used in the CBM-CFS software must be selected from the tables in this Division.
Tables 1 to 18 show merchantable volume on woody fallow land, Table 19 shows merchantable volume on shrubby fallow land and Table 20 shows merchantable volume on grassy fallow land.
(
2
)
The table to be used must be selected on the basis of the bioclimatic subdomain and potential vegetation group on the lot used for the project. The potential vegetation group can be deduced from the vegetation in neighbouring forests.
(
3
)
In Tables 1 to 4, the percentage coverage provided by the tree stratum and must be assessed to select the data representing the annual change in merchantable volume.
Coverage is
(
1
)
low from 0% to 8%;
(
2
)
medium from more than 8% to 15%;
(
3
)
high from more than 15% to 25%.
(
4
)
For the purposes of the tables in this Division, with respect to bioclimatic subdomains,
“1” means maple stands with bitternut hickory;
“2 West” means maple stands with linden, western sector;
“2 East” means maple stands with linden, eastern sector;
“3 West” means maple stands with yellow birch, western sector;
“3 East” means maple stands with yellow birch, eastern sector;
“4 West” means fir stands with yellow birch, western sector;
“4 East” means fir stands with yellow birch, eastern sector;
“5 West” means fir stands with moss, western sector;
“5 East” means fir stands with white birch, eastern sector.
Table 1 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
4 East/ 4 West
5 East
5 West
Potential vegetation groups
RS/RE
RS/RE
RS/RE
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
Age
High
Medium
Low
High
Medium
Low
High
Medium
Low
1
0
0
0
0
0
0
0
0
0
5
0
0
0
1
0
0
1
0
0
10
3
2
0
3
1
0
3
1
0
15
8
5
1
8
2
0
8
3
0
20
15
10
3
15
5
1
15
6
1
25
25
17
6
24
10
3
24
11
3
30
36
25
10
35
17
5
34
19
5
35
49
34
14
46
25
9
47
28
9
40
64
44
20
59
35
14
59
38
14
45
79
55
26
72
46
20
73
49
20
50
94
66
33
86
57
27
87
61
27
55
109
77
40
99
69
35
101
73
36
60
124
89
48
112
80
44
114
85
44
65
138
100
56
125
91
53
128
96
54
70
151
111
64
137
102
63
140
107
64
75
164
122
71
149
112
73
152
116
73
80
175
132
79
160
121
82
163
125
83
85
185
141
87
169
129
91
174
132
92
90
195
150
94
178
136
100
183
139
101
95
203
158
101
187
141
108
191
144
109
100
210
165
107
194
146
115
199
148
116
Table 2 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with mixed forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
4 East / 4 West
5 East
Potential vegetation groups
MS_ / RB_
MS_ / RB_
Merchantable volume
(m³/ha)
Merchantable volume
(m³/ha)
Age
High
Medium
Low
High
Medium
Low
1
0
0
0
0
0
0
5
0
0
0
0
0
0
10
2
2
2
2
2
2
15
7
6
6
5
6
6
20
14
12
11
12
12
11
25
24
19
17
21
19
17
30
36
28
25
33
28
25
35
49
38
33
46
38
33
40
63
49
41
62
49
41
45
78
60
50
78
60
50
50
93
71
59
94
71
59
55
108
82
68
110
82
68
60
122
93
77
125
93
77
65
135
104
85
139
104
85
70
146
114
92
151
114
92
75
157
123
99
162
123
99
80
166
132
105
172
132
105
85
174
139
110
180
139
110
90
181
146
115
186
146
115
95
186
152
119
191
152
119
100
190
158
123
194
158
123
Table 3 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with mixed forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
5 West
Potential vegetation groups
MS_ /RB_
Merchantable volume (m³/ha)
Age
High
Medium
Low
1
0
0
0
5
0
0
0
10
2
2
0
15
6
5
1
20
14
9
3
25
24
15
5
30
36
23
8
35
50
31
12
40
65
40
17
45
81
50
23
50
96
60
30
55
111
71
37
60
125
81
44
65
137
92
51
70
149
102
59
75
158
112
67
80
167
122
74
85
173
131
81
90
178
140
88
95
182
148
94
100
184
156
100
Table 4 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
4 East / 4 West
4 East /4 West
5 East / 5 West
5 East / 5 West
Potential vegetation groups
MS_
RB_
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
Age
High
Medium
Low
High
Medium
Low
1
0
0
0
0
0
0
5
2
1
1
2
1
1
10
10
4
3
10
4
3
15
22
10
7
22
10
7
20
37
18
12
37
18
12
25
53
27
19
53
27
19
30
69
38
26
69
38
26
35
84
49
33
84
49
33
40
98
60
41
98
60
41
45
111
71
48
111
71
48
50
122
82
55
122
82
55
55
131
91
62
131
91
62
60
139
99
69
139
99
69
65
145
106
75
145
106
75
70
149
112
80
149
112
80
75
151
117
85
151
117
85
80
152
121
90
152
121
90
85
152
123
93
152
123
93
90
151
125
97
151
125
97
95
149
126
99
149
126
99
100
146
126
101
146
126
101
Table 5 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood, mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
1
2 East
2 West
3 East
3 West
Potential vegetation groups
FE_
FE_
FE_
FE_
FE_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
0
5
1
1
1
1
1
10
4
4
4
6
5
15
9
9
9
12
12
20
17
16
17
21
20
25
26
26
26
31
31
30
37
37
37
42
42
35
48
49
48
54
54
40
61
62
61
66
66
45
74
75
74
78
79
50
87
89
87
90
91
55
100
103
100
102
104
60
113
116
113
113
115
65
125
130
125
124
126
70
137
142
137
134
137
75
148
154
148
143
146
80
159
165
159
152
155
85
168
176
168
160
163
90
177
185
177
167
170
95
185
194
185
173
177
100
192
202
192
179
182
Table 6 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood, mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
4 East
4 West
5 East
5 West
Potential vegetation groups
FE_
FE_
FE_
FE_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
5
1
1
1
1
10
3
5
4
4
15
8
10
9
9
20
15
18
16
16
25
23
27
24
24
30
33
36
34
34
35
44
46
45
45
40
56
56
56
56
45
69
66
67
67
50
81
76
78
78
55
93
85
90
90
60
106
94
100
100
65
117
102
111
111
70
129
109
120
120
75
139
115
129
129
80
149
121
137
137
85
158
126
145
145
90
166
130
152
152
95
174
134
157
157
100
180
136
163
163
Table 7 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood, mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
1
2 East
2 West
3 East
3 West
Potential vegetation groups
MJ_
MJ_
MJ_
MJ_
MJ_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
0
5
1
1
1
1
1
10
4
4
4
6
5
15
9
10
9
12
12
20
17
18
17
21
20
25
26
27
26
31
31
30
37
38
37
42
42
35
48
50
48
54
54
40
61
62
61
66
66
45
74
75
74
78
79
50
87
88
87
90
91
55
100
101
100
102
104
60
113
114
113
113
115
65
125
127
125
124
126
70
137
138
137
134
137
75
148
150
148
143
146
80
159
160
159
152
155
85
168
170
168
160
163
90
177
179
177
167
170
95
185
188
185
173
177
100
192
195
192
179
182
Table 8 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood, mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
4 East
4 West
5 East
5 West
Potential vegetation groups
MJ_
MJ_
MJ_
MJ_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
5
1
1
1
1
10
3
5
4
4
15
8
10
9
9
20
14
18
16
16
25
23
27
24
24
30
33
36
34
34
35
44
46
45
45
40
56
56
56
56
45
68
66
67
67
50
80
76
78
78
55
93
85
90
90
60
105
94
100
100
65
117
102
111
111
70
128
109
120
120
75
139
115
129
129
80
149
121
137
137
85
158
126
145
145
90
166
130
152
152
95
173
134
157
157
100
180
136
163
163
Table 9 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood, mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
1
2 East
2 West
3 East
3 West
Potential vegetation groups
MS_
MS_
MS_
MS_
MS_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
0
5
1
1
1
1
1
10
4
4
4
3
3
15
9
9
9
8
8
20
16
16
16
14
14
25
24
24
24
22
22
30
34
34
34
32
32
35
44
44
44
42
42
40
55
55
55
53
53
45
66
66
66
64
64
50
77
77
77
75
75
55
87
87
87
85
85
60
97
97
97
95
95
65
106
106
106
104
104
70
114
114
114
113
113
75
122
122
122
121
121
80
128
128
128
127
127
85
134
134
134
133
133
90
139
139
139
138
138
95
143
143
143
142
142
100
146
146
146
146
146
Table 10 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
4 East
4 West
5 East
5 West
Potential vegetation groups
MS_
MS_
MS_
MS_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
5
2
0
0
1
10
6
3
2
4
15
11
7
4
10
20
18
14
9
19
25
25
22
15
28
30
33
32
23
39
35
42
42
31
51
40
51
53
41
63
45
59
64
52
74
50
68
74
63
85
55
77
85
74
95
60
86
94
85
104
65
94
103
96
113
70
102
111
106
120
75
110
118
116
126
80
117
124
125
131
85
124
128
134
135
90
131
132
142
139
95
137
136
149
141
100
143
138
155
142
Table 11 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood, mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
1
2 East
2 West
3 East
3 West
Potential vegetation groups
RB_
RB_
RB_
RB_
RB_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
0
5
1
1
1
1
1
10
4
4
4
3
3
15
9
9
9
8
8
20
16
16
16
14
14
25
24
24
24
22
22
30
34
34
34
32
32
35
44
44
44
42
42
40
55
55
55
53
53
45
66
66
66
64
64
50
77
77
77
75
75
55
87
87
87
85
85
60
97
97
97
95
95
65
106
106
106
104
104
70
114
114
114
113
113
75
122
122
122
121
121
80
128
128
128
127
127
85
134
134
134
133
133
90
139
139
139
138
138
95
143
143
143
142
142
100
146
146
146
146
146
Table 12 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
4 East
4 West
5 East
5 West
Potential vegetation groups
RB_
RB_
RB_
RB_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
5
2
0
0
1
10
6
3
2
4
15
11
7
4
10
20
18
14
9
19
25
25
22
15
28
30
33
32
23
39
35
42
42
31
51
40
51
53
41
63
45
59
64
52
74
50
68
74
63
85
55
77
85
74
95
60
86
94
85
104
65
94
103
96
113
70
102
111
106
120
75
110
118
116
126
80
117
124
125
131
85
124
128
134
135
90
131
132
142
139
95
137
136
149
141
100
143
138
155
142
Table 13 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood, mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
1
2 East
2 West
3 East
3 West
Potential vegetation groups
RS_
RS_
RS_
RS_
RS_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
0
5
0
0
0
0
0
10
2
2
2
1
1
15
5
5
5
4
4
20
10
10
10
7
7
25
16
16
16
13
13
30
24
24
24
19
19
35
32
32
32
27
27
40
42
42
42
35
35
45
52
52
52
44
44
50
62
62
62
54
54
55
73
73
73
64
64
60
83
83
83
75
75
65
94
94
94
85
85
70
104
104
104
95
95
75
114
114
114
105
105
80
123
123
123
114
114
85
132
132
132
123
123
90
140
140
140
132
132
95
148
148
148
140
140
100
155
155
155
147
147
Table 14 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
4 East
4 West
5 East
5 West
Potential vegetation groups
RS_
RS_
RS_
RS_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
5
0
0
0
0
10
2
1
1
1
15
6
3
3
3
20
11
7
6
7
25
18
12
11
13
30
26
19
18
21
35
35
27
26
31
40
45
36
35
43
45
56
46
45
56
50
67
57
56
70
55
78
68
67
84
60
89
79
78
97
65
100
89
90
111
70
110
99
101
123
75
120
109
112
135
80
130
118
122
145
85
138
126
132
154
90
147
133
141
162
95
154
139
149
168
100
161
145
157
173
Table 15 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood, mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
1
2 East
2 West
3 East
3 West
Potential vegetation groups
RE_
RE_
RE_
RE_
RE_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
0
5
0
0
0
0
0
10
2
2
2
1
1
15
5
5
5
4
4
20
10
10
10
7
7
25
16
16
16
13
13
30
24
24
24
19
19
35
32
32
32
27
27
40
42
42
42
35
35
45
52
52
52
44
44
50
62
62
62
54
54
55
73
73
73
64
64
60
83
83
83
75
75
65
94
94
94
85
85
70
104
104
104
95
95
75
114
114
114
105
105
80
123
123
123
114
114
85
132
132
132
123
123
90
140
140
140
132
132
95
148
148
148
140
140
100
155
155
155
147
147
Table 16 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
4 East
4 West
5 East
5 West
Potential vegetation groups
RE_
RE_
RE_
RE_
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
5
0
0
0
0
10
1
1
1
1
15
3
3
3
2
20
6
7
6
6
25
11
12
11
10
30
17
19
18
17
35
24
27
26
25
40
32
36
35
34
45
41
46
45
44
50
50
57
56
55
55
60
67
67
66
60
70
78
78
78
65
80
88
90
89
70
89
98
101
100
75
99
108
112
110
80
108
116
122
120
85
117
124
132
129
90
125
131
141
136
95
132
138
149
143
100
139
143
157
149
Table 17 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood, mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
1
2 East
2 West
3 East
3 West
Potential vegetation groups
RS1
RS1
RS1
RS1
RS1
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
0
5
1
1
1
1
1
10
3
5
5
5
5
15
7
13
13
13
13
20
13
25
25
25
25
25
21
39
39
39
39
30
29
56
56
56
56
35
39
75
75
75
75
40
50
95
95
95
95
45
61
116
116
116
116
50
73
138
138
138
138
55
84
160
160
160
160
60
96
181
181
181
181
65
107
202
202
202
202
70
117
222
222
222
222
75
127
241
241
241
241
80
137
259
259
259
259
85
146
276
276
276
276
90
154
292
292
292
292
95
161
306
306
306
306
100
168
318
318
318
318
Table 18 – Growth curve values (merchantable volume in m³/ha) on woody fallow land with softwood, mixed or hardwood forest cover based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
4 East
4 West
5 East
5 West
Potential vegetation groups
RS1
RS1
RS1
RS1
Age
Merchantable volume (m³/ha)
Merchantable volume (m³/ha)
1
0
0
0
0
5
0
0
0
0
10
2
2
1
1
15
5
5
2
2
20
10
10
5
5
25
18
18
9
9
30
27
27
14
14
35
39
39
19
19
40
51
51
25
25
45
64
64
32
32
50
78
78
39
39
55
93
93
46
46
60
107
107
53
53
65
121
121
60
60
70
135
135
67
67
75
147
147
74
74
80
159
159
80
80
85
170
170
85
85
90
180
180
90
90
95
189
189
95
95
100
197
197
99
99
Table 19 – Growth curve values (merchantable volume in m³/ha) on shrubby fallow land based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
1 / 2 East /2 West / 3 East /3 West/ 4 East / 4 West / 5 East /5 West
Potential vegetation groups
FE_/ MJ_/ MS_ /RB_/ RS_ /RE_ /RS1
Age
Merchantable volume (m³/ha)
1
0
5
0
10
1
15
1
20
2
25
2
30
3
35
4
40
5
45
5
50
6
55
7
60
8
65
9
70
10
75
11
80
12
85
13
90
14
95
15
100
16
Table 20 – Growth curve values (merchantable volume in m³/ha) on grassy fallow land based on bioclimatic subdomains and potential vegetation groups
Bioclimatic subdomains
1 / 2 East /2 West / 3 East /3 West/ 4 East / 4 West / 5 East /5 West
Potential vegetation groups
FE_/ MJ_/ MS_ /RB_/ RS_ /RE_ /RS1
Age
Merchantable volume
1
0
5
1
10
1
15
1
20
1
25
2
30
2
35
2
40
2
45
2
50
2
55
3
60
3
65
3
70
3
75
3
80
3
85
4
90
4
95
4
100
4
2022-11-17
M.O. 2022-11-17
,
Sch. D
.
SCHEDULE E
(
s. 46
)
Conversion of anhydrous biomass in each plant stratum into merchantable volume
DIVISION I
TABLE FOR THE CONVERSION OF ANHYDROUS BIOMASS ON WOODY FALLOW LAND INTO MERCHANTABLE VOLUME
(
1
)
For the purposes of this Division,
“Ecozone 7” and “Ecozone 8” mean the ecozones representing the ecological subdivisions in the CBM-CFS software;
“BOP” means white birch;
“PET” means trembling aspen;
“EPB” means white spruce;
“TMA” means anhydrous metric tonne.
Ecozone 7
Ecozone 8
BOP
PET
EPB
BOP
PET
EPB
Biomass (TMA)
Biomass (TMA)
Biomass (TMA)
Biomass (TMA)
Biomass (TMA)
Biomass (TMA)
Merchantable volume m³/ha
0.0
0.0
0.0
0.0
0.0
0.0
0.0
1.8
1.1
1.5
0.8
1.0
1.5
0.5
3.1
2.0
2.7
1.5
1.9
2.8
1.0
4.3
2.7
3.8
2.2
2.6
4.1
1.5
5.4
3.5
4.8
2.9
3.3
5.9
2.0
6.4
4.2
5.8
3.6
4.0
8.1
2.5
7.3
4.9
6.7
4.2
4.7
10.9
3.0
8.2
5.6
7.7
4.9
5.4
14.0
3.5
9.1
6.3
8.6
5.6
6.1
17.3
4.0
10.0
7.1
9.5
6.2
6.8
20.6
4.5
10.9
7.8
10.4
6.9
7.5
23.8
5.0
11.7
8.6
11.2
7.5
8.3
26.7
5.5
12.5
9.4
12.0
8.1
9.0
29.2
6.0
13.3
10.1
12.9
8.7
9.8
31.3
6.5
14.1
10.9
13.7
9.3
10.5
33.0
7.0
14.9
11.6
14.4
9.9
11.2
34.4
7.5
15.6
12.3
15.2
10.5
11.9
35.3
8.0
16.4
13.0
16.0
11.0
12.6
36.0
8.5
17.1
13.7
16.7
11.6
13.3
36.4
9.0
17.8
14.3
17.5
12.1
13.9
36.7
9.5
18.5
15.0
18.2
12.6
14.6
36.7
10.0
19.3
15.6
19.0
13.2
15.2
36.6
10.5
20.0
16.2
19.7
13.7
15.8
36.4
11.0
20.7
16.8
20.4
14.2
16.4
36.2
11.5
21.3
17.4
21.1
14.7
17.0
35.9
12.0
22.0
18.1
21.9
15.2
17.6
35.7
12.5
22.7
18.7
22.6
15.7
18.2
35.4
13.0
23.4
19.3
23.3
16.2
18.8
35.1
13.5
24.0
19.9
23.9
16.7
19.4
34.9
14.0
DIVISION II
EQUATIONS USED TO CONVERT ANHYDROUS BIOMASS ON SHRUBBY FALLOW LAND OR GRASSY FALLOW LAND INTO MERCHANTABLE VOLUME
(
1
)
The following equations must be used to convert total anhydrous biomass (t) on shrubby fallow land or grassy fallow land that includes below-ground and epigeal biomass into merchantable volume brut (m³):
Equation 21
Volume
grassy
(m
3
) = 0.0013x
2
+ 0.3253x
Equation 22
Volume
shrubby
(m
3
) = 0.0032x
2
+ 0.6891x
Where:
x: anhydrous biomass in metric tonnes
2022-11-17
M.O. 2022-11-17
,
Sch. E
.
SCHEDULE F
(
ss. 51, 52 and 81
)
Simulation of the carbon present in timber forest products – determination of the parameters “I
(t)
”, “K” and “e
-k
” in equation 6
DIVISION I
VALUE OF PARAMETER “I
(t)
”
(
1
)
Unless modified by the promoter, the value of the parameter I
(t)
in equation 6 is determined using the table below. The variable corresponds to the value from the provincial matrix of distribution rates by forest product, based on age, for the fir, spruce, jack pine and larch species group.
Value of parameter “I
(t)
” in equation 6
Age of stand
Timber forest product
0
10
20
30
40
50
60
70
80
90
100 to 160
Sawn timber
n/a
n/a
n/a
0.19
0.43
0.49
0.52
0.44
0.60
0.64
0.58
Particle board *
n/a
n/a
n/a
0.02
0.06
0.07
0.07
0.07
0.07
0.07
0.07
Veneer and plywood *
n/a
n/a
n/a
0.02
0.06
0.07
0.07
0.07
0.07
0.07
0.07
Pulp and paper, cardboard
n/a
n/a
n/a
0.68
0.44
0.38
0.35
0.42
0.28
0.25
0.30
Energy products (granules, logs, biofuels, etc.)
n/a
n/a
n/a
0.11
0.07
0.06
0.06
0.07
0.05
0.04
0.05
* The products “particle board” and “plywood” are mutually exclusive. The promoter must determine which of the two matches the reality of the project.
DIVISION II
VALUE OF PARAMETERS “K” AND “e
-k
” AND HALF-LIFE
(
1
)
The value of parameters K and e
-k
and half-life in equation 6 of section 46 is determined using the table below. The parameters are used to define the annual change in carbon stock in various categories of timber forest products.
Value of parameters K and e
-k
in equation 6
Timber forest product
k
e
-k
Half-life
Sawn timber
0.02
0.98
35
Particle board
0.03
0.97
20
Veneer and plywood
0.03
0.97
20
Pulp and paper, cardboard
0.28
0.76
2.5
Energy products (granules, logs, biofuels, etc.)
0.69
0.50
1
2022-11-17
M.O. 2022-11-17
,
Sch. F
.
SCHEDULE G
(
ss. 93, 100 and 113
)
Elements to be taken into account when verifying the measures taken by a promoter during the initial inventory and issuance inventory
(
1
)
The table in this Schedule presents the elements to be taken into account by the verifier when verifying the project plan and project report with respect to the measures taken during the initial inventory and issuance inventory.
In addition to these elements, the verifier must define the soil colour using a Munsell soil colour chart and a soil sample taken at a distance of 10 cm from where the promoter took soil samples. The soil sample must be taken using the methodology prescribed for the taking of samples by the promoter.
(
2
)
For the purposes of the table in this Schedule,
“DiN” means the difference between the number of stems inventoried by the promoter (NbtigeP) and the number of stems inventoried by the verifier (NbtigeV), as an absolute value;
“DiE” means the sum of the differences between the number of stems inventoried by the promoter and the number of stems inventoried by the verifier for each species, as an absolute value;
“DiD” means the sum of the differences between the number of stems inventoried by the promoter and the number of stems inventoried by the verifier for diameter class, as an absolute value;
“P” means a promoter;
“V” means a verifier.
Subject
Accepted deviations and errors
Attributed errors
Possible errors
Tolerance limit (%)
Lot / Sample plot
Surface area of strata (map verification)
Deviation ≤ ± 5%
0
Number of strata
5%
Deviation > ± 5%
1
Positioning of sample plot (in the field – with satellite geolocation; if the sample plot has not moved compared to the survey plan)
Distance ≤ ± 10 m
0
Number of sample plots
9%
Distance > 10 m
1
Positioning of the sample plot group (in the field with satellite geolocation; if the sample plot has not moved compared to the survey plan)
Distance ≤ ± 50 cm
0
Number of sample plots
18%
Distance > 50 cm
1
Regeneration - Coefficient of distribution
Number of stems
DiN = |NbtigeP – NbtigeV|
DiN
Maximum of total of P or total of V
12%
Number of stems per species
DiE = |NbtigeP – NbtigeV| (by species)
(DiE–DiN) /2
Minimum of total of P or total of V
9%
Trees > 130 cm in height (commercial)
Number of stems by species
DiE = |NbtigeP – NbtigeV| (by species)
(DiE – DiN) /2
Minimum of total of P or total of V
8%
Height (3 dominant, codominant, intermediate trees per sample plot)
In softwoods
Total number of observations
8%
Deviation ≤ 1 m
0
Deviation > 1 m
1
In hardwoods
Deviation ≤ 10%
0
Deviation > 10%
1
Number of stems
DiN = |NbtigeP – NbtigeV|
DiN
Maximum of total of P or total of V
8%
Number of stems per DBH class (2 cm classes)
DiD = |NbtigeP – NbtigeV| (per DBH class)
(DiD – DiN) /2
Minimum of total of P or total of V
8%
Shrub strata > 130 cm in height (non-commercial)
Number of stems
DiN = |NbtigeP – NbtigeV|
DiN
Maximum of total of P or total of V
15%
Number of stems by species
DiE = |NbtigeP – NbtigeV| (by species)
(DiE – DiN) /2
Minimum of total of P or total of V
15%
DSH height (2 cm)
DiD = |NbtigeP – NbtigeV| (per DBH class)
(DiD – DiN) /2
Minimum of total of P or total of V
15%
Stratum of grass, moss, seedling, and trees below 130 cm in height
Cover class (25% classes)
Same
0
Total number of observations
10%
Different
1
Snags
Number of snags
DiN = |NbtigeP – NbtigeV|
DiN
Maximum of total of P or total of V
15%
Number of snags by condition class
Same
0
Total number of observations
10%
Different
1
Soil
Volume of sample (measured in the laboratory)
More than 100 cm
3
1
Total number of observations
0%
Less than 100 cm
3
0
Stoniness class
Same
0
Total number of observations
0%
Different
1
Positioning of sub-sample
Distance ≤ ± 50 cm
0
Total number of observations
10%
Distance > 50 cm
1
2022-11-17
M.O. 2022-11-17
,
Sch. G
.
SCHEDULE H
(
s. 65
)
Fossil fuel consumption factors per hectare based on family of silvicultural treatment
Family of silvicultural treatment
Consumption factor (litres/ha)
Fossil fuel
Site preparation
107.6
Diesel
Planting of seedlings
28.5
Gasoline*
Tending operations
34.3
Gasoline*
Commercial thinning of softwoods
504.2
Diesel
Partial cutting of hardwoods
420.8
Diesel
Final cutting of hardwoods
796.3
Diesel
Partial cutting of softwoods
491.5
Diesel
Final cutting of softwoods
1019.1
Diesel
* “Gasoline” includes both “Regular” and “Premium” gasoline.
2022-11-17
M.O. 2022-11-17
,
Sch. H
.
REFERENCES
M.O. 2022-11-17, 2022 G.O. 2, 4021
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