SCR_PDD_Cristalino_v2.1-Without_track_change.pdf

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Cristalino Carbon Removal Project

Document Prepared by JFC Ativos Ambientais Ltda.

Project Title Cristalino Carbon Removal Project

Version 2.1

Date of Issue 30-April-2024

Prepared By JFC Ativos Ambientais Ltda.

Address: Rua Elvira Ferraz, 250, Cj. 601 – Vila Olímpia, São Paulo -
SP, Brazil – Postal Code 04552-040

Contact Telephone: +55 11 97237 5851

Email: [email protected]

Website: https://www.futurecarbon.com.br/
 SOCIALCARBON – Project Description

Contents

1. Project Details............................................................................... 4
1.1 Summary Description of the Project.................................................................................... 4
1.2 Sectoral Scope and Project Type........................................................................................ 5
1.3 Project Eligibility................................................................................................................... 6
1.4 Project Design.................................................................................................................... 10
1.5 Project Proponent............................................................................................................... 11
1.6 Other Entities Involved in the Project................................................................................. 12
1.7 Ownership........................................................................................................................... 14
1.8 Project Start Date............................................................................................................... 14
1.9 Project Crediting Period..................................................................................................... 17
1.10 Project Scale and Estimated GHG Emission Reductions or Removals......................... 17
1.11 Description of the Project Activity.................................................................................... 19
1.12 Project Location................................................................................................................ 22
1.13 Conditions Prior to Project Initiation................................................................................. 28
1.14 Compliance with Laws, Statutes and Other Regulatory Frameworks............................ 52
1.15 Participation under Other GHG Programs....................................................................... 54
1.16 Other Forms of Credit....................................................................................................... 55
1.17 Additional Information Relevant to the Project................................................................ 55

2. Safeguards.................................................................................. 63
2.1 Local Stakeholder Consultation......................................................................................... 63
2.2 Summary of Safeguarding Assessment............................................................................ 79

3. Application of Methodology....................................................... 88
3.1 Title and Reference of Methodology.................................................................................. 88
3.2 Applicability of Methodology............................................................................................... 88

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 SOCIALCARBON – Project Description

3.3 Project Boundary................................................................................................................ 91
3.4 Social, Economic and Environmental Impacts.................................................................. 95
3.5 Baseline Scenario............................................................................................................... 98
3.6 Additionality...................................................................................................................... 100
3.7 Methodology Deviations................................................................................................... 113

4. Quantification of GHG Emission Reductions and Removals 113
4.1 Baseline Emissions.......................................................................................................... 113
4.2 Project Emissions............................................................................................................. 114
4.3 Leakage............................................................................................................................ 125
4.4 Net GHG Emission Reductions and Removals............................................................... 126

5. Monitoring................................................................................. 129
5.1 Data and Parameters Available at Validation.................................................................. 129
5.2 Data and Parameters Monitored for Verification............................................................. 131
5.3 Data Monitored for Broader Sustainability Components................................................. 139
5.4 Monitoring Plan................................................................................................................. 148

6. SOCIALCARBON Indicators..................................................... 158
6.1 Indicators at Point Zero.................................................................................................... 158
6.2 Performance at Point Zero............................................................................................... 177
6.3 Performance Hexagon..................................................................................................... 178

Appendix 1: Safeguarding Assessment....................................... 179
Appendix 2: Methodological Procedures for LU/LC Cover Change
Analysis.......................................................................................... 202
Appendix 3: Procedures for defining the Project as small-scale237

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 SOCIALCARBON – Project Description

1. Project Details

1.1 Summary Description of the Project
Project name Cristalino Carbon Removal Project

Project Type Scope 14 - Afforestation and reforestation

SCM0003: Methodology for Carbon Removal in Private Conservation
Applied Methodology
Areas - Version 1.01

Host Country Brazil

Latitude -9°35′35″ S

Longitude -55°54′4″ W

In a climate crisis scenario, countries worldwide have made efforts to establish mutual commitments to
limit the advance of global temperature resulting from human GHG emissions and mitigate its effects.
Maintaining, recovering, and restoring areas with native vegetation cover are crucial to achieving these
objectives.
In this context, although Brazil has about 66% of its territory covered by native vegetation 2, the quality of
this vegetation has declined over the years, which denotes the need for conservation efforts in these
areas. As a result of a study conducted by MapBiomas 3, it was identified that at least 8.2% of the Brazilian
native vegetation cover was secondary in 2020, indicating that there was some type of clear-cutting,
burning, or use for agriculture or pasture in the past. Additionally, the advance in deforestation has

1 Available at:.
2 MAPBIOMAS. 2022. Evolução da cobertura e uso da terra (1985-2021). Brazil. Available at:. Last visit: 28/11/2022.
3 MAPBIOMAS. Destaques do Mapeamento Anual de Cobertura e Uso da Terra no Brasil entre 1985 a 2021. Coleção 7.0.
Available at:. Last
visit: 12/22/2022.

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 SOCIALCARBON – Project Description

already resulted in a loss of 15 million hectares of the Brazilian forest area from 2010 to 2020 4, affecting
both primary and secondary areas in the recovery process. The expansion of areas destined for
agriculture and livestock, as well as predatory extractive activities and fires caused by human action,
have contributed to this scenario.
The main objective of the Cristalino Carbon Removal Project is to contribute to the carbon removal from
the atmosphere associated with the maintenance of managed primary formations and managed
secondary formations, more specifically forest formations, in a project area of 6,513.09 hectares. This
area is located on a private property, named “Cristalino Reserve”, located between the municipalities of
Alta Floresta and Novo Mundo, in the state of Mato Grosso, Brazil, southeast of the Amazon biome. The
total property area is 7,225.88 hectares.
In order to measure the carbon removals from the atmosphere, the Methodology for Carbon Removal in
Private Conservation Areas V1.0 - SCM0003 was adopted, which presents a procedure to determine the
annual removal of CO2 from the atmosphere by areas of native vegetation located in private properties.
It is expected that, with the carbon project, it will be possible to expand the monitoring of the area, hiring
new professionals to work in the surveillance, biodiversity monitoring and other conservation activities.
In addition to the project’s ecological and carbon benefits, a proportion of the carbon credits generated
will be dedicated to improving the quality and resilience of the forest, aiming at the propagation of
environmental awareness, generation of alternative sources of income and environmental education
actions. The SOCIALCARBON Standard indicators will assess and monitor the project's contribution to
social and environmental activities encompassing six resources: Biodiversity; Nature; Financial; Human;
Social and Carbon Resources.
The contribution of this project is expected to be 111,7185 tCO2e in carbon removals over the 10-year
project lifetime (29-March-2022 to 28-March-2032), with an annual average of 11,172 tCO2e.

1.2 Sectoral Scope and Project Type
The sectoral scope applicable to the project is “Afforestation and reforestation” (Scope 14). The AFOLU
project category is “Afforestation, Reforestation and Revegetation” (ARR). This is not a grouped project.

4FAO. 2020. Global Forest Resources Assessment 2020: Main report. Rome. Available at:.
Last visit: 25/10/2022.
5 Buffer applied.

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 SOCIALCARBON – Project Description

1.3 Project Eligibility
According to the SOCIALCARBON Methodology Requirements v1.0, for Afforestation, Reforestation and
Revegetation (ARR) projects, eligible ARR activities are those that increase carbon sequestration and/or
reduce GHG emissions by establishing, increasing or restoring vegetative cover (forest or non-forest)
through the planting, sowing or human-assisted natural regeneration of woody vegetation. Thus, the
project is eligible under the scopes of the SOCIALCARBON Standard, following the SOCIALCARBON
Standard v6.16 sections 3.2 and Appendix 1.

Cristalino Carbon Removal Project
Eligibility Conditions
justification of Eligibility

Projects shall meet all applicable rules and The project meets all applicable rules,
requirements set out under the SOCIALCARBON requirements and principles set out under the
Standard, including this document. Projects shall SOCIALCARBON Standard, as detailed in
be guided by the GHG-Information Principles set sections Project Eligibility and Application of
out in Section 2.3. Methodology.

Projects shall apply methodologies eligible under
the SOCIALCARBON Standard. Methodologies The applied methodology is SOCIALCARBON
shall be applied in full, including the full SCM0003 - Methodology for Carbon Removal in
application of any tools or modules referred to by Private Conservation Areas, v1.3. The Applicability
a methodology. The list of methodologies and Conditions are detailed on section 3.2. The
their validity periods is available on the methodology is applied in full, including the full
SOCIALCARBON website. application of tools referred to by the methodology.

Projects and the implementation of project The project activity involves human conservation
activities shall not lead to the violation of any activities. These activities are eligible under
applicable law, regardless of whether or not the Brazilian law according to conditions set out in
law is enforced. sections 1.14 and 3.6.
Where projects apply methodologies that permit
the project proponent its own choice of model
(see the SOCIALCARBON Standard document
‘Definitions’ for definition of model), such model Not applicable. This project applies the model
shall meet with the requirements set out in the required by SCM0003 Methodology.
SOCIALCARBON Standard document
SOCIALCARBON Methodology Requirements
and it shall be demonstrated at validation that the

6Available at:

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 SOCIALCARBON – Project Description

Cristalino Carbon Removal Project
Eligibility Conditions
justification of Eligibility

model is appropriate to the project circumstances
(i.e., use of the model will lead to an appropriate
quantification of GHG emission reductions or
removals).

Where projects apply methodologies that permit
the project proponent its own choice of third party
default factor or standard to ascertain GHG
This project applies third party default factors
emission data and any supporting data for
recommended by SCM0003 Methodology, which
establishing baseline scenarios and
meet with the requirements set out in the
demonstrating additionality, such default factor or
SOCIALCARBON Standard document
standard shall meet with the requirements set out
SOCIALCARBON Methodology Requirements.
in the SOCIALCARBON Standard document
SOCIALCARBON Methodology Requirements.

Projects shall preferentially apply methodologies
that use performance methods (see the
SOCIALCARBON Standard document
SOCIALCARBON Methodology Requirements
for further information on performance methods) Not applicable. This project applies project method
where a methodology is applicable to the project for determining both additionality and the crediting
that uses a performance method for determining baseline, according to SCM0003 Methodology
both additionality and the crediting baseline (i.e., requirements.
a project shall not apply a methodology that uses
a project method where such a performance
method is applicable to the project).

Where the rules and requirements under an
approved GHG program conflict with the rules The project applies approved SOCIALCARBON
and requirements of the SOCIALCARBON methodology and tools. The project shall take
Standard, the rules and requirements of the precedence to the rules and requirements of
SOCIALCARBON Standard shall take SOCIALCARBON Standard over other approved
precedence. GHG Program.

Where projects apply methodologies from
approved GHG programs, they shall comply with
any specified capacity limits (see the
The project applies approved SOCIALCARBON
SOCIALCARBON Standard document
methodology and tools. The project shall take
‘Definitions’ for definition of capacity limit) and
precedence to the rules and requirements of
any other relevant requirements set out with
SOCIALCARBON Standard over other approved
respect to the application of the methodology
GHG Program.
and/or tools referenced by the methodology
under those programs.

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 SOCIALCARBON – Project Description

Cristalino Carbon Removal Project
Eligibility Conditions
justification of Eligibility

Where SOCIALCARBON issues new
requirements relating to projects, registered
projects do not need to adhere to the new
requirements for the remainder of their project
crediting periods (i.e., such projects remain Project was designed under SOCIALCARBON
eligible to issue SCUs through to the end of their Standard v6.1. Any new requirements shall be
project crediting period without revalidation adhered to at project crediting period renewal (i.e
against the new requirements). The new ten years from Project Start Date).
requirements shall be adhered to at project
crediting period renewal, as set out in Section
3.8.7.

There are currently four AFOLU project
categories eligible under the SOCIALCARBON
Standard, as defined in Appendix 1 Eligible
AFOLU Project Categories below: afforestation,
reforestation and revegetation (ARR),
agricultural land management (ALM), reduced
emissions from deforestation and degradation This is an eligible AFOLU project category under
(REDD), and wetland restoration and the SOCIALCARBON Standard: Afforestation,
conservation (WRC). Further specification with Reforestation and Revegetation (ARR).
respect to eligible activities which may be
included within methodologies approved under
the SOCIALCARBON Standard can be found in
the SOCIALCARBON Standard document
SOCIALCARBON Methodology Requirements.

Where projects are located within a jurisdiction
covered by a jurisdictional REDD+ program,
project proponents shall follow the requirements
in this document and the requirements related to This project is not located within a jurisdiction
nested projects set out in the SOCIALCARBON covered by a jurisdictional REDD+ program.
Standard document Jurisdictional and Nested
REDD+ Requirements.

Where an implementation partner is acting in
partnership with the project proponent, the
implementation partner shall be identified in the
project description. The implementation partner All implementation partners, in addition to their
shall identify its roles and responsibilities with roles and responsibilities, are described in the
respect to the project, including but not limited to, Project Description, sections 1.5 and 1.6.
implementation, management and monitoring of
the project, over the project crediting period.

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 SOCIALCARBON – Project Description

Cristalino Carbon Removal Project
Eligibility Conditions
justification of Eligibility

Activities that convert native ecosystems to
generate GHG credits are not eligible under the
SOCIALCARBON Standard. Evidence shall be
provided in the project description that any ARR,
ALM and WRC project areas were not cleared of This project does not convert native ecosystems to
native ecosystems to create GHG credits (e.g., generate GHG. The project area only contains
evidence indicating that clearing occurred due to native vegetation for a minimum of 10 years before
natural disasters such as hurricanes or floods). the Project Start Date.
Such proof is not required where such clearing or
conversion took place at least 10 years prior to
the proposed project start date.

Activities that drain native ecosystems or
degrade hydrological functions to generate GHG
credits are not eligible under the
SOCIALCARBON Standard. Evidence shall be
This project does not occur on wetlands and does
provided in the project description that any
not drain native ecosystems or degrade
AFOLU project area was not drained or
hydrological functions.
converted to create GHG credits. Such proof is
not required where such draining or conversion
took place prior to 3 January 2022.

The project proponent shall demonstrate that
project activities that lead to the intended GHG
benefit have been implemented during each
verification period in accordance with the project
The project proponent will demonstrate that project
design. Where no new project activities have
activities that lead to the intended GHG benefit
been implemented during a verification period,
have been implemented during each verification
project proponents shall demonstrate that
period in accordance with the Project Design.
previously implemented project activities
continued to be implemented during the
verification period.

For all REDD, ALM and WRC project types, the
project proponent shall, for the duration of the
project, reassess the baseline every 10 years Not applicable. This is an Afforestation,
and have this validated at the same time as the Reforestation and Revegetation (ARR) project.
subsequent verification.

Where ARR, ALM or REDD project activities
occur on wetlands, the project shall adhere to
Not applicable. The project activity does not occur
both the respective project category
on wetlands.
requirements and the WRC requirements, unless
the expected emissions from the soil organic

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 SOCIALCARBON – Project Description

Cristalino Carbon Removal Project
Eligibility Conditions
justification of Eligibility

carbon pool or change in the soil organic carbon
pool in the project scenario is deemed below de
minimis or can be conservatively excluded as set
out in the SOCIALCARBON Standard document
SOCIALCARBON Methodology Requirements,
in which case the project shall not be subject to
the WRC requirements.

Projects shall prepare a non-permanence risk
report in accordance with the SOCIALCARBON
Standard document AFOLU Non-Permanence
Risk Tool at both validation and verification. In
the case of projects that are not validated and
verified simultaneously, having their initial risk
assessments validated at the time of
The project has conducted a non permanence risk
SOCIALCARBON project validation will assist
analysis according to the SOCIALCARBON
SCU buyers and sellers by providing a more
Standard Document AFOLU Non-Permanence
accurate early indication of the number of SCUs
Risk Tool for validation and shall prepare the report
projects are expected to generate. The non-
during subsequent verifications.
permanence risk report shall be prepared using
the SOCIALCARBON Non-Permanence Risk
Report Template, which may be included as an
annex to the project description or monitoring
report, as applicable, or provided as a stand-
alone document.

Eligible ARR activities are those that increase
carbon sequestration and/or reduce GHG The project activity increases carbon
emissions by establishing, increasing or restoring sequestration by establishing, increasing or
vegetative cover (forest or non-forest) through restoring vegetative cover through human-
the planting, sowing or human-assisted natural assisted natural regeneration of woody vegetation.
regeneration of woody vegetation. Eligible ARR The procedure adopted and described by
projects may include timber harvesting in their SCM0003 to define the project area ensures that it
management plan. The project area shall not be shall not be cleared of native ecosystems within
cleared of native ecosystems within the 10-year the 10-year period prior to the project start date, as
period prior to the project start date, as set out in set out in the SOCIALCARBON Standard
the SOCIALCARBON Standard document document SOCIALCARBON Standard.
SOCIALCARBON Standard.

1.4 Project Design
This project was developed as a single installation of an activity.

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 SOCIALCARBON – Project Description

Eligibility Criteria
Not applicable. This is not a grouped project.

1.5 Project Proponent
Organisation name JFC Ativos Ambientais Ltda. (Future Carbon Removals)

Flávio Silva Ojidos

Marcelo Hector Sabbagh Haddad
Mariana Urrestarazu de Freitas
Contact person
Pedro de Sá Petit Lobão

Thiago de Avila Othero

Yasmin Cristina Hess

Flávio Silva Ojidos – Project Coordinator

Marcelo Hector Sabbagh Haddad – Technical Consultant

Mariana Urrestarazu de Freitas – Technical Analyst
Title
Pedro de Sá Petit Lobão – Technical Coordinator

Thiago de Avila Othero – Technical Consultant

Yasmin Cristina Hess – Technical Analyst

Rua Elvira Ferraz, no 250, Cj. 601 – Vila Olímpia, São Paulo - SP, Brazil
Address
– Postal Code 04552-040

Telephone +55 11 97237-5851

Email [email protected]

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 SOCIALCARBON – Project Description

1.6 Other Entities Involved in the Project
Floresta Amazônica Hotel Turismo Ltda.
Organisation name
Registry nº 01.046.325/0001-78

Role in the project Owner of Lote Cristalino

Contact person Alexandre Da Riva Carvalho

Title Partner

Av. Teles Pires, 2001, Centro, Alta Floresta - MT, Brazil – Postal Code:
Address
78580-000

Telephone +55 11 94348 1515

Email [email protected]

Proflora Gestão Patrimonial Ltda.
Organisation name
Registry nº 51.476.345/0001-57

Role in the project Owner of Lote São Sebastião e Santa Maria I

Contact person Alexandre Da Riva Carvalho

Title Director

Av. Teles Pires, 2001, Setor C, Alta Floresta - MT, Brazil – Postal
Address
Code: 78580-000

Telephone +55 11 94348 1515

Email [email protected]

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 SOCIALCARBON – Project Description

Sociedade de Conservação Cristalino Ltda.
Organisation name
Registry nº 07.351.285/0001-54

Role in the project Owner of Lote São Sebastião e Santa Maria II and Lote São Luiz

Contact person Vitoria Da Riva Carvalho

Title Managing Partner

Avenida Perimetral Oeste nº 2001, Centro, Alta Floresta - MT, Brazil –
Address
Postal Code: 78580-000

Telephone +55 66 9645 9144

Email [email protected]

Fundação Ecológica Cristalino
Organisation name
Registry nº 03.177.684/0001-90

Role in the project Implementation of socio-environmental activities

Contact person Vitoria Da Riva Carvalho

Title President

Avenida Perimetral Oeste nº 2001, Setor C, Alta Floresta - MT, Brazil –
Address
Postal Code: 78580-000

Telephone +55 66 9645 9144

Email [email protected]

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 SOCIALCARBON – Project Description

1.7 Ownership
The project area is located at the municipalities of Alta Floresta and Novo Mundo, Southeastern Amazon
biome, in the state of Mato Grosso, and is composed by the following four properties:

1. Lote Cristalino - Registration nº.14.017/ Livro nº 2-BR, owned by Floresta Amazônica Hotel
Turismo Ltda., incorporated under the Brazilian laws, with head office at Av. Teles Pires, 2001,
Centro, Alta Floresta - MT, Postal Code: 78580-000, Registry nº 01.046.325/0001-78,
represented by its partner, Alexandre Da Riva Carvalho.

2. Lote São Sebastião e Santa Maria I - Registration nº 1.235/ Livro nº 2-BR, owned by Proflora
Gestão Patrimonial Ltda., incorporated under the Brazilian laws, with head office at Av. Teles
Pires, 2001, Setor C, Alta Floresta - MT, Postal Code: 78580-000, Registry nº
51.476.345/0001-57, represented by its director, Alexandre da Riva Carvalho.

3. Lote São Sebastião e Santa Maria II - Registration nº 481/ Livro nº 2-BR, owned by Sociedade
de Conservação Cristalino Ltda., incorporated under the Brazilian laws, with head office at
Avenida Perimetral Oeste nº 2001, Centro, Alta Floresta - MT, Brazil, Postal Code: 78580-000,
Registry nº 07.351.285/0001-54, represented by its managing partner Vitoria Da Riva
Carvalho.

4. Lote São Luiz - Registration nº 14.553/ Livro nº 2-BR, owned by Sociedade de Conservação
Cristalino Ltda., incorporated under the Brazilian laws, with head office at Avenida Perimetral
Oeste nº 2001 Centro, Alta Floresta - MT, Brazil, Postal Code: 78580-000, Registry nº
07.351.285/0001-54, represented by its managing partner Vitoria Da Riva Carvalho.

The four properties composing the Cristalino Carbon Removal Project area are owned by three different
ownerships. It is important to note that "Lote São Sebastião and Santa Maria I" correspond to a single
property, as do "Lote São Sebastião and Santa Maria II". These properties have similar names but
correspond to two properties owned by different owners. This information is also presented in figure 1
and table 1, subsection 1.12 Project Location. The documents proving the land title and ownership of the
properties will be made available to the auditors during the validation process.

1.8 Project Start Date
The Cristalino Reserve is owned by the Da Riva family for about 30 years and its goal is to contribute to
the conservation of biodiversity and sustainable development of the Cristalino River region, Southeastern
Amazon biome, state of Mato Grosso. Despite conservation efforts in partnership with the Cristalino

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 SOCIALCARBON – Project Description

Ecological Foundation (FEC), it has always been difficult to find funding to ensure the maintenance of
conservation activities.
In 2008, the Management Plan for the Private Reserve of Natural Heritage (RPPN)7 Cristalino I, II and III
was prepared by FEC, but there were difficulties in planning, financing and, consequently, implementing
the priority actions. The Management Plan of RPPN Lote Cristalino was approved on 04-May-2017 by
the Chico Mendes Institute for Biodiversity Conservation (ICMBio). Drafted and sent for approval by the
National Environment Fund (FNMA) – responsible for funding the plan –- in 2010, its review lasted about
seven years until the last version was sent to ICMBio in 2016, culminating with the subsequent approval
on 04-May-2017. The RPPN Lote Cristalino Management Plan was then adopted as a single
management tool for the four areas that compose the Cristalino Reserve.
However, due to lack of funding, which were intensified during the Covid-19 pandemic, the
implementation of conservation activities within the Cristalino Reserve – such as biodiversity monitoring,
surveillance, environmental education, and scientific research – which are guided by the Management
Plan, could only start a few years later.
One of the main specific objectives of the aforementioned Management Plan is to protect the endangered
mammal species recorded in the Cristalino Reserve – citing, among them, the jaguar (Panthera onca) –
by habitat maintenance and repression of hunting. In this sense, taking into account the jaguars' need
for large living spaces, it is important to understand the number of jaguars that use the property area and
its surroundings, as well as their ecological needs and the relationship with humans in the area to support
objective and realistic decision making in the protection of fauna and local habitats in the Cristalino
Reserve and the Cristalino region. In this sense, the Management Plan presents the Research and
Monitoring Programme, which aims to expand the production of knowledge about the biotic and abiotic
environment in the Cristalino Reserve, with a view to using it to justify and promote the conservation of
the diversity of the Cristalino region. Three of its priority themes are: i) conducting faunal research with
broad spatial needs; ii) conducting in-depth studies on top predators; and iii) conducting in-depth studies
on the current flagship species (white-faced capuchin monkey and jaguar) or other possible new flagship
species. However, no action had been implemented for jaguar protection due to lack of resources.
With regard to jaguar records, the Management Plan shows that only six records (of footprints) of jaguars
were obtained, three of them outside the boundary of the Cristalino Reserve. However, within the
Cristalino Reserve area, a jaguar was seen by local guides in 2008, indicating that the property area was
the territory of only one individual. Taking into account the management guidelines established in the
Management Plan with regard to the protection of jaguars and the development of research and studies
on this species, at the end of 2019 the organization obtained funding for the Looking for Jaguar Project
from the NGO LATA Foundation8, aiming to identify and monitor the jaguar community (Panthera onca)

7 Private Reserve of Natural Heritage (RPPN) is a category of conservation unit created voluntarily by the landowner. When
the area is categorized as RPPN, the owner is committed to nature conservation, without land expropriation. The only
activities permitted are scientific research activities and visitation for tourist, recreational and educational purposes. The
benefits of the private reserve are preference in the analysis of applications to acquire rural credit, tax benefits and the
possibility of cooperation with private and public entities in the protection, and management of the land.
8 Lata Foundation. Cristalino Foundation – Brazil. Available at: https://latafoundation.org/projects/cristalino-foundation/

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 SOCIALCARBON – Project Description

in the Cristalino Reserve by camera traps. The cameras trap were purchased on 04-June-2020, but due
to the constraints of the Covid-19 pandemic, which had its worsening still in the first half of 2020 in Brazil,
the implementation of the project in the Cristalino Reserve was postponed. The installation of 17 camera
traps was carried out on 29-March-2022, which marks the first implementation activity defined by the
Management Plan within the project area, thus defining the project start date.
The Cristalino region is considered one of the richest biodiversity regions of the Brazilian Amazon, with
a high concentration of endemic and endangered species. As foreseen in the Management Plan, the
collection of biological and ecological data, as well as monitoring the populations of these species is of
great importance to guide conservation activities. It is worth mentioning this activity that marked the
project start date brought as initial results of biodiversity monitoring by camera traps in the Cristalino
Reserve during 60 days the recording of 28 species, 21 of mammals, 6 birds and 1 reptile, besides 12
records of puma (Puma concolor) and 5 jaguars (Panthera onca), being possible to identify four male
individuals of the latter species. The initial results of the Looking for Jaguar Project increased by four
times the number of jaguar specimens recorded in the Cristalino Reserve, which can be seen as a
significant increase in the property's conservation value for this endangered species.
With the return of face-to-face activities, after the restrictions of the pandemic, the advertising of the A
Day in the Forest Project on social networks was also resumed in March 2022. The project was
established in 2008 to serve the schools within the municipality of Alta Floresta and wider areas. It
consists of a workshop which currently takes place once a week during term time, receiving approximately
30 children and teachers at a time. The workshops include breakfast, lunch and fruit for the children, as
well as activities including nature trails and dynamic activities based around the flora and fauna of the
ecosystem. The objective is to develop the children’s awareness of the forest and the importance of
preservation and conservation. This project is in alignment with the Management Plan, since one of its
specific objectives is to continue and increase dissemination and environmental education activities
aimed at conserving the biodiversity in the lower Cristalino region, having as its main target audience
students and visitors.
Also in March 2022, training was offered to people interested in being monitors of FEC’s Environmental
Education projects, such as undergraduate students in the biological area. The training was held between
31-March-2022 and 01-April-2022 and had a workload of 20 hours.
The conservation activities in the Cristalino Reserve gained prominence and in June 2022 FEC was
selected to participate in the Reforça 2.0 Programme, an NGO acceleration and social transformation
programme.
On 29-August-2022 to 13-September-2022, FEC purchased equipment for brigades and hired five people
trained in forest fire prevention as a response to the fires that started on 13-August-2022 in the Cristalino
I and II State Parks, located in the surrounding region of the Cristalino Reserve. The fire lasted for a
month and affected 5,080 hectares of native vegetation in the Parks and surrounding areas, rural
properties and houses. It is noteworthy that the effective fire brigade of the region was composed of only

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three brigade members and there was no adequate equipment to fight the fire 9. This action is in alignment
with the Management Plan, since it presents the Protection and Enforcement Programme, which aims to
structure an inspection team and facilities in the Cristalino Reserve to ensure the integrity of its natural
and human resources. In this regard, one of the expected outcomes is a structured firefighting scheme.
Furthermore, in September 2022, the Cristalino Reserve hired employees to clean trails, totalling 5.4 km,
to improve conditions for the development of monitoring and surveillance activities on the project area.
In this sense, it is evaluated that the effective beginning of the Looking for Jaguar Project, marked by the
installation of camera traps on 29-March-2022, is configured as the first milestone for effective
conservation activities in the Cristalino Reserve, according to the specific objectives and priority actions
of the Management Plan. After this event, FEC resumed other important conservation activities that are
aligned with the priority actions of the Management Plan: i) the dissemination of A Day in the Forest
Project, which encourages environmental education in the region; and ii) the support to the prevention
and combat of fire in the surrounding conserved areas by purchasing equipment and hiring firefighters.
Thus, 29-March-2022 was defined as the project start date for this project activity.

1.9 Project Crediting Period
The project has a crediting period of 10 years, from 29-March-2022 until 28-March-2032. According to
SocialCarbon Standard v 6.1 “(…) the project crediting period shall be 10 years, which may be renewed
at most ten times with a total project crediting period not to exceed 100 years.”

1.10 Project Scale and Estimated GHG
Emission Reductions or Removals

Project Scale

Project X

9Prizibisczki, C. Fogo já atingiu mais de 5 mil hectares dos parques Cristalino I e II, no Mato Grosso.
https://oeco.org.br/noticias/fogo-ja-atingiu-mais-de-5-mil-hectares-dos-parques-cristalino-i-e-ii-no-mato-grosso/

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Large project

Year Estimated GHG removals (tCO2e)10

From 29th March to 31st December 2022 8,507

2023 11,423

2024 11,393

2025 11,342

2026 11,299

2027 11,258

2028 11,005

2029 10,965

2030 10,962

2031 10,958

From 1st January to 28th March 2032 2,605

10 Buffer Applied.

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Total estimated Removals 111,718

Total number of crediting years 10

Average annual Removals 11,172

1.11 Description of the Project Activity
The main objective of the present project is the conservation of private areas within Alta Floresta and
Novo Mundo municipalities, state of Mato Grosso, Amazon biome, Brazil. This will be achieved by the
maintenance of “managed primary formations” and “managed secondary formations” of native
vegetation, arising from anthropogenic activities of GHG removal. The project area presents 6,513.09
hectares of native vegetation, more specifically managed primary and secondary forest formations. The
total property area is 7,225.88 hectares.
The main mitigation action of the project is to conserve native vegetation by the implementation and
expansion of monitoring and protection of the area, fire prevention activities, partnerships with
researchers and the inclusion of surrounding communities in the project activities, with emphasis on
expanding biodiversity conservation and promoting socio economic benefits to the surrounding
communities, in addition to promoting environmental awareness and professional training.
It is important to mention that the State of Mato Grosso, the federal unit where the project area is located,
does not have a jurisdictional REDD+ program in operation. For clarification purposes, it is worth
mentioning that Mato Grosso has legislation (state law 9.878/2013) establishing the State REDD+
System, with the "objective of promoting the progressive, consistent and sustained reduction of
greenhouse gas emissions resulting from deforestation and forest degradation, as well as conservation,
sustainable forest management and the maintenance and increase of forest carbon stocks".
This law defined various "instruments" to make the system operational, including: "REDD+ Preparation
and Support Programs, Projects and Actions", "Registration of REDD+ Projects and Actions" and
"Municipal, National and International Cooperation".
However, among the instruments mentioned above, the government of Mato Grosso had implemented
the REM MT Program (Global Program REDD Early Movers). This program is the result of cooperation
between the Mato Grosso State government and the governments of Germany and the United Kingdom
and, in general, has the principle of allocating financial benefits to the government of Mato Grosso as a
result of achieving targets for reducing illegal deforestation.

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The expected GHG removals that will be generated by this project activity are 111,718 tCO2e during the
crediting period (29-March-2022 until 28-March-2032).
The project proponent carries out significant conservation activities on the properties that make up the
project area, which can be described as “anthropogenic GHG removals activities” and therefore qualify
as carbon removal on managed lands (IPCC, 200611), according to SCM0003 Methodology.
The project proponent expects to expand the conservation and social environmental activities from the
revenue generated from the carbon credits, with a view to improving the conservation of the Cristalino
Reserve and, on a larger scale, of the Cristalino region, and involve the surrounding communities in the
process.
The conservation and socio-environmental activities carried out within the RPPNs and their surroundings
are conducted by the Ecological Cristalino Foundation (FEC), a non-governmental organization
responsible for managing the RPPNs. FEC aims to conserve and protect natural areas and spearhead
programs and projects within and around the Cristalino Reserve. With the carbon project, FEC will be
responsible for implementing and expanding socio-environmental actions on-site. While the Future
Carbon team is responsible for guiding the implementation of the actions. Four major areas of
conservation and social environmental activities can be described: i) environmental education; ii)
biodiversity research and monitoring; iii) participation in councils, commissions, and forums; and iv)
surveillance and monitoring of the area.
The environmental education activities undertaken in the project area that will be expanded include:
i) A Day in the Forest Project: workshops held by the Cristalino Ecological Foundation (FEC), which aims
to put children in direct contact with the Amazon Rainforest and develop the children’s awareness of the
forest and the importance of preservation and conservation. The intention with the Carbon Project is to
double the number of children in the workshops.
ii) Stories of the Forest Project: storytelling is carried out for children from six to eight years of age from
schools in the municipality of Alta Floresta, aiming at raising environmental awareness among children.
The intention with the Carbon Project is to increase the number of workshops.
The biodiversity research and monitoring12 activities include the following themes: meteorology,
environmental analytical chemistry, entomology, botany, ecology and mycology. Course Completion
Papers, Master's and Doctoral Theses and scientific articles are published nationally and internationally.
The Carbon Project revenue is needed to maintain the facilities to receive the researchers, provide
transport and food, and with greater investment, increase the number of researchers in the area. The
following projects stand out:
i) The Cristalino Fungi Project: aims to know the diversity of macroscopic fungi in the region and to draw
future goals for applied studies in the areas of Biological Sciences, Agrarian and Health. Furthermore,

11 IPCC – Intergovernmental Panel On Climate Change. 2006 IPCC Guidelines for National Greenhouse Gas Inventories.
National Greenhouse Gas Inventories Programme. Kanagawa: Institute for Global Environmental Strategies, 2006. Available
at: https://www.ipcc-nggip.iges.or.jp/public/2006gl/.
12 Some of the research already published can be publicly accessed at: http://www.fundacaocristalino.org.br/sobre-a-

fundacao/relatorios-e-documentos/

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researchers from Brazilian and foreign universities are involved, helping in the identification and
description of possible new species for science. Expeditions are carried out to collect samples and the
publication of photographic guides and scientific articles. The species already collected from the first
collection of the Mato Grosso Amazon Region to be included in the Mycological Collection of the Federal
University of Santa Catarina (UFSC, in Portuguese) - MICOLAB/UFSC.
ii) Biodiversity Monitoring of the Cristalino RPPNs: aims to study and monitor the biodiversity of the
Cristalino Reserve using Birds, Mammals, Frugivorous Butterflies and Woody Plants as target species.
Data collection expeditions are carried out where to catalogue and identify several endemic and/or
threatened species of the region.
iii) Looking for Jaguar: with LATA Foundation support, aims to identify and monitor the jaguar (Panthera
onca) population in the Cristalino Reserve using camera traps.
In the project area, field classes are held every six months from the following universities: Mato Grosso
State University - UNEMAT, Mato Grosso Federal Institute - IFMT, Mato Grosso Federal University -
UFMT, Rio de Janeiro State University - UERJ, as well as state and municipal schools and social
institutions in Alta Floresta/MG. The revenue from the Carbon Project will allow to provide better
conditions, such as facilities and meals, in order to welcome students and increase the number of
participants.
The participation in councils, committees and forums include:
i) Cristalino State Park Consultative Council - PEC I and II: participation in ordinary and extraordinary
meetings of the PEC I and II, acting to assist in the Park's management decision-making;
ii) Mato Grosso State Environment Council - CONSEMA;
iii) Mato Grosso Inter-institutional Commission for Environmental Education - CIEA;
iv) Mato Grosso Climate Change Forum - FMMC;
v) Conselho Municipal de Desenvolvimento e Meio Ambiente de Alta Floresta - CONDEMA;
vi) Alta Floresta Environmental Forum.
Noteworthy is the existence of a Management Council, which meets annually to discuss the management
of the Cristalino Reserve, the goals and budget planning for the activities to be carried out.
The surveillance and monitoring actions include: i) hiring brigades for actions related to preventing and
fighting forest fires; and ii) daily patrols by security guards, boatmen and local guides throughout the
Cristalino Reserve. The challenge of hiring brigade members to fight fire is the lack of training for
residents of the region. With the revenue from the Carbon Project, the intention is to facilitate the training
of people in the region who are interested in this activity.
Moreover, the monitoring required by SCM0003 via Geographic Information System (GIS) will help with
the monitoring and conservation of the area.
Therefore, in addition to the conservation of native vegetation, this project aims to improve and quantify
its social and environmental benefits by the SOCIALCARBON indicators, which measure the contribution

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of carbon projects to sustainability and aims to provide high integrity benefits in each one. The
SOCIALCARBON indicators are based on six main resources: Biodiversity; Natural; Financial; Human;
Social and Carbon.
In this sense, it is expected to increase the number and quality of monitoring methods and biodiversity
conservation activities, as well as expand social and environmental education, women inclusion in
community activities and community inclusion in the project area based on the generation of jobs, such
as local monitors, fire brigades and security guards. There is also an evaluation of the project's
performance in relation to its correspondence with the Sustainable Development Goals. The monitoring
of the conservation and social environmental activities will be based on the monitoring parameters,
besides being verified in each SOCIALCARBON Monitoring Report.

1.12 Project Location
The Cristalino Reserve (Figure 1) is located in the municipalities of Alta Floresta and Novo Mundo, in the
state of Mato Grosso, in the Centre-West region of Brazil and in the southeastern Amazon biome.
Belonging to the “North Mato-Grossense” Mesoregion, Alta Floresta and Novo Mundo’s population in
2021, according to the Brazilian Institute of Geography and Statistics (IBGE), was estimated in 61,650
inhabitants. Their territorial areas sum up around 14,755 km 2.
Regarding its geographical limits, it is noteworthy: to the north, Cristalino State Park (PEC); to the south,
the Teles Pires River (municipality of São Manoel); to the east, the Cristalino River; and to the west, the
Cristalino State Park and the Teles Pires River (municipality of São Manoel).
The headquarters of the Reserve is located in Alta Floresta, about 830 km from the capital of the state of
Mato Grosso, Cuiabá, and the municipality can be accessed by land via the BR-163 and MT-208
highways, both paved. There is also a 2,500 metre-long airstrip in the town, considered the second largest
in the Centre-West region, with two daily flights from Cuiabá. To access the Cristalino Reserve, it is
necessary to drive about 29 km along the unpaved MT-325 highway for approximately 60 minutes to the
Cristalino Farm, on the banks of the São Manoel River. From this point onwards, access to the main
office is by boat, along the above-mentioned river, for about 30 minutes, up to the Cristalino River - where
it is possible to access the Cristalino Eco Lodge Hotel. There is also the possibility 664of accessing the
Reserve by air taxi, considering the existence of an airfield for landing at the Cristalino Reserve.
In accordance with SOCIALCARBON Standard requirements, stipulated in Methodology SCM0003,
version 1.0, the project area include only native vegetation, more specifically “managed primary
formations” for a minimum of 20 years prior to the project start date and “managed secondary formations”
for a minimum of 10 years prior to the project start date. It is important to note that the project area was
not cleared of native ecosystems to create GHG credits, as all areas included as project area have not
been cleared for at least 10 years prior to the project start date. Furthermore, in order to define the project
area, areas within Cristalino Reserve that were defined as “managed primary formations” and “managed
secondary formations”, given the applicability conditions defined by SCM0003, more specifically primary
and secondary forest formation, were identified and utilized to compose the project area.

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The total property area is 7,225.88 hectares and the project area is 6,513.09 hectares.
Table 1 and figure 1 below show the location of the project area. Geodetic coordinates of the project
location have been submitted separately as a KML file.

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Figure 1. Project Locamotion

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Table 1. Project Location

Ownership Properties Centroid location coordinates

Floresta Amazônica Hotel
Lote Cristalino -9°36′47″ S ; -55°56′17″ W
Turismo Ltda.

Proflora Gestão Lote São Sebastião and Santa
-9°37′30″ S ; -55°54′32″ W
Patrimonial Ltda. Maria I

Sociedade de
Lote São Sebastião and Santa
Conservação Cristalino -9°35′17″ S ; -55°54′4″ W
Maria II
Ltda.

Sociedade de
Conservação Cristalino Lote São Luiz -9°33′22″ S ; -55°52′59″ W
Ltda.

The Cristalino Reserve is located in an area of historic environmental importance from the local to the
global level, in view of its insertion in the Mato Grosso Amazon, more specifically in the immediate
surroundings of the Cristalino State Park (PEC), a conservation unit (UC) of full protection (according to
Federal Law No. 9.985/200013) included in the Southern Amazon Conservation Corridor (CEAM). The
environmental relevance of the PEC is due, above all, to the protection granted to the springs and courses
of the Cristalino, Rochedo and Nhandu rivers, in addition to its vast diversity in fauna and flora species –
having been considered one of the richest biodiversity regions in the Amazon Biome due to its location
in a transition zone between the savannah and the Amazon forest.
In addition, almost the entire area of the Cristalino Reserve is classified as a Priority Area for the
Conservation, Sustainable Use and Benefit Sharing of Biodiversity by the Ministry of the Environment, in
the "extremely high" category.
The extent of the environmental relevance of the Cristalino Reserve is noteworthy, which was translated
into the recognition of 4 (four) Private Natural Heritage Reserves (RPPNs), a category of UC that is also
included in the SNUC. The relevance of RPPNs lies, among other aspects, in their capacity to integrate
civil society and public authorities in the quest for the conservation of Brazilian ecosystems 14.

13 BRAZIL. Federal Law Nº 9.985, of 18 July 2000. Regulamenta o art. 225, § 1o, incisos I, II, III e VII da Constituição Federal,
institui o Sistema Nacional de Unidades de Conservação da Natureza e dá outras providências. Brasília, DF: Federal Official
Gazette, 2000.
14 SOUZA, J.L. Perguntas e respostas sobre Reserva Particular do Patrimônio Natural. Instituto Chico Mendes de
Conservação da Biodiversidade – ICMBio. Brasília, 2012. Available at:
https://www.icmbio.gov.br/portal/images/stories/comunicacao/downloads/perguntaserespostasrppn.pdf.

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Figure 2. Protected Areas and Settlements surrounding the Project Area

Currently, the following activities are developed in the Cristalino Reserve: i. research (Cristalino Flora
Program and Project Pedopaisagens); ii. management; iii. visitation (ecotourism activity); and iv.
surveillance and monitoring (control of hunting, fishing, livestock, pesticide use, deforestation and other
irregular activities). The area is home to the Cristalino Ecological Foundation (FEC), a non-governmental
organisation created in 1999, headquartered in the municipality of Alta Floresta, with its activities directed
to the Cristalino region, especially the municipalities surrounding the Park, promoting initiatives for
conservation and sustainable use of natural resources in the Amazon, environmental education,
sustainable socioeconomic development, creation of economic alternatives, minimizing environmental
impacts, research and monitoring in the region. The Cristalino Eco Lodge Hotel is also located in the
area, an ecotourism enterprise in operation since 1992, committed to responsible tourism aligned with
conservation.

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In April 2007, the Cristalino Ecological Institute and the FEC initiated, together with SEMA-MT, the
creation of the RPPNs Cristalino I, II and III15, which form a complex of preserved areas together with the
Cristalino State Park and the RPPN Lote Cristalino. Despite having been created almost seven years
ago, most of the actions suggested in the RPPN Management Plan of the Cristalino State Park were
never implemented until the project start date, with scarce funding for visitation activities, environmental
education and research. Nevertheless, FEC has faced difficulties in maintaining conservation activities
due to lack of funding and the degradation pressures that have intensified in the region.
The occupation of the northern Mato Grosso State was initially encouraged by the Brazilian Federal
Government itself in the 1970s, which resulted in significant degradation of native vegetation. Currently,
most of this region is deforested with isolated fragments of remnants. In recent years, important remnants
of primary and secondary vegetation have been inserted in conservation units, which form a large mosaic.
Despite being legally protected, this vegetation is still threatened by deforestation and illegal burning.
During the 2000s, the project region has been deforested for the expansion of farming and ranching
activities, in the so-called "Arc of Deforestation". This pressure is expected to continue, given the
globalisation of markets in the Amazon region and the international development policies planned for the
region16. For the first time in 20 years, in August 2022, the Cristalino State Park suffered from intense
fires that consumed 7,000 hectares, in addition to 3,300 hectares in the surrounding area 17 – which
remains as one of the only protected areas able to stop the advance of degradation in the region.
Deforestation in the “Legal Amazon”18 in 2022 was 11,568 km², the equivalent to over 1.6 million soccer
fields. Mato Grosso was the third state that most destroyed the biome in the period, being responsible
for 16.5% of the total deforestation detected, which corresponds to 1.906 km² 19. The Northern and
Northwestern regions of Mato Grosso state, south of the Amazon biome, correspond to the portions
where there was a concentration of deforestation in Mato Grosso state in 2022 – being important to
highlight that the project area is located in the Northern portion of the Mato Grosso state. Among the
Conservation Units of Integral Protection, the most affected one was Cristalino State Park II, with 4.7 km²
of deforestation in August-2022, besides the fire episodes in the same month in the Cristalino I and II

15 These correspond to Lote São Sebastião and Santa Maria I, Lote São Luiz and Lote São Sebastião and Santa Maria II,
respectively. However, RPPN Cristalino II (Lote São Luiz) is still in the approval stage, which has not affected the conservation
of the area, in which the same conservation activities as in the other areas are taken.
16
Nepstad, D. C.; C. M. Stickler e O. T. Almeida. 2006. Globalization of the Amazon Soy and Beef Industries: Opportunities for
Conservation. Conservation Biology 20(6):1595-1603.
17 Prizibisczki,
C. Parque loteado: grilagem de terras públicas já atinge 74% do Cristalino II. ((o))eco. 13 Oct. 2022. Available at:
https://oeco.org.br/reportagens/parque-loteado-grilagem-de-terras-publicas-ja-atinge-74-do-cristalino-ii/
18Denomination commonly used for the region covered by the Amazon Economic Development Plan, comprising the states of
Acre, Pará and Amazonas, Amapá, Roraima and Rondônia, and also the areas of the state of Mato Grosso north of the 16th
parallel, the state of Goiás north of the 13th parallel and the state of Maranhão west of the 44th meridian, as set forth in Federal
Law nº. 5,173/1966. Available at: http://www.planalto.gov.br/ccivil_03/leis/l5173.htm. Last access: 09-March-1966.
19 ICV - Instituto Centro de Vida. Características do Desmatamento na Amazônia Mato-Grossense em 2022. Available at:
https://www.icv.org.br/website/wp-content/uploads/2022/12/caracteristicas-do-desmatamento-amazonia-mato-grossense-
2022-1.pdf. Last access: 22-March-2023.

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State Parks, which lasted for a month and affected 5,080 hectares of native vegetation in the Parks and
surrounding areas.
Therefore, it is noted that the recent increase in deforestation in the region, with emphasis on the
degradation in the Cristalino State Park, bordering the Cristalino Reserve, demonstrates the relevance
of the project activity implemented after the project start date as extremely necessary to promote
conservation and ensure carbon removal.

1.13 Conditions Prior to Project Initiation
The present project activity has not been implemented to generate carbon removals for the purpose of
their subsequent reduction, removal, or destruction. On the other hand, the project aims to combine
carbon removals and socio-environmental activities, which will promote the maintenance of native
vegetation combined with alternative income generation from sustainable practices.

It is worth highlighting that the project area is formed by forest areas for 10 years before the project start
date, despite the pressure for land use change in the zone. Furthermore, despite being subject to
deforestation and the common economic activities such as livestock and agricultural plantations, among
others, such activities were not carried out in the project area for the last 10 years prior to the project start
date. Thus, the project activity meets the SOCIALCARBON Standard criteria as described at the
SCM0003 Applicability conditions: areas where there have been changes in the land use and cover
(“conversion” to alternative land use) within the 10 (ten) years prior to the project start date) are
considered ineligible for the project.
The general characteristics of the project area are described below, having as main source the
Management Plan of RPPN Lote Cristalino and the Management Plans of RPPNs Cristalino I, II and III.

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Climate

According to Conti & Furlan (2003)20, the entire northern region and part of the central-western region of
the Mato Grosso state have humid equatorial or sub-humid equatorial climates. Although the average
temperatures are above 24°C in the entire region (except in restricted portions of the Guianas Plateau),
the rainfall regime presents important differences. In the whole Western Amazon, there are annual totals
higher than 2,500 mm and absence of a dry season. On the other hand, there is a sub-humid diagonal
that extends from Roraima to the south of Pará and north of Mato Grosso, reaching Rondônia and part
of Acre, whose pluviometric averages are less high, presenting alternation of the dry and rainy seasons
and characterizing a Sub-humid Equatorial climate.

According to Nimer (1989)21, the climate in the north-northwest of Mato Grosso state is Equatorial Hot
Humid, although it presents a strong concentration of rainfall in the summer and a marked reduction in
winter like the tropical climates, predominant in the rest of the state. The average annual precipitation in
the region of the municipalities of Alta Floresta and Novo Mundo is 2,500 to 2,750 mm and the average
annual temperatures are between 24ºC and 26ºC.

The climate in the north of Mato Grosso state, where is located the project area, according to Köppen
(1948)22 is of continental equatorial type (Am, Figure 3), with a defined dry season, with four to five dry
months (May to September). Annual rainfall varies from 1,800 to 2,700 mm, with an average of around
2,400 mm.

20 Conti, J.B. & Furlan, S.A. 2003. Geoecologia: o clima, os solos e a biota. In: Ross, J.L.S. (org.). Geografia do Brasil. Edusp,
São Paulo. p. 67-207.
21 Nimer, E. 1989. Clima. In: Duarte, A.C. (coord.) Geografia do Brasil, volume 1. Região Centro-Oeste. IBGE, Rio de Janeiro.

p. 23-34.
22 Köppen, W.P. 1948. Climatologia. Fondo de Cultura Económica, México. 478 p.

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Figure 3 – Köppen-Geiger Climate Classification to the state of Mato Grosso

Hydrography

The Cristalino Reserve is located on the left bank of the Cristalino River which, like the Teles Pires River,
is part of the same hydrographic basin occupying an area of approximately 146,600 km 2, including the
states of Mato Grosso and Pará (Figure 4). The Cristalino River can be divided into three stretches. The
first one goes from its sources in the State of Pará (Serra do Cachimbo) to the border with Mato Grosso.
In this stretch called "high Cristalino", the river flows north-south and is "embedded", with a strong current
and many rapids, waterfalls and stone slabs.

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Figure 4 – Hydrographic basin of the project region in level 5 of otto-basin code system

The part of the “medium Cristalino” starts from the state border, with the river flowing in an east-west
direction, and changes characteristics, presenting a slower current, with a large number of meanders,
lakes and bays. The stone slabs are scarcer and during the dry season small sandy beaches appear on
the inside of the meanders. This stretch measures 46 km in a straight line and, following the curves of
the river, the distance covered is more than 100 km. Along this stretch, on both banks of the river, there
is an alluvial plain of deposited sediments, which is flooded during the annual floods. The width of this
plain varies from less than 100 to 500 m. In this stretch, the tributary streams of the Cristalino also present
meanders and floodplains, tending to transform into swamps when dammed by the flooding of the
Cristalino (MMA, 200223).

In the “low Cristalino” section, the river abruptly changes its direction and characteristics, starting to flow
again in the north-south direction and becoming again embedded between rocky banks, without
significant alluvial plain. The current is stronger and the riverbed is full of stones. Several rapids, including
Lemon Waterfall (in portuguese, Cachoeira do Limão), occur in this stretch, which is 28 km long and

23MMA – Ministério do Meio Ambiente. Biodiversidade brasileira: avaliação e identificação de áreas e ações prioritárias para
conservação, utilização sustentável e repartição dos benefícios da biodiversidade nos biomas brasileiros. Brasília: Ministério do
Meio Ambiente, 2002. 404p.

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extends to the mouth of the Cristalino on the Teles Pires River (MMA, 2002), the left bank of this stretch
is located the Cristalino RPPNs. It is noteworthy that in the study area, all the vegetation on the banks of
the river (about 6 km) is intact, which maintains the entire balance of water cycles.

Figure 5 – Hydrographic basin of project area in level 5 of otto-basin code system

The water catchment areas of the rivers of the Amazon basin are quite diversified, having distinct
characteristics both in relation to the type of vegetation, as well as the type of soil, relief, erosion
processes and amount of rainfall. These rivers can be classified, in a general way, in relation to the colour
of their waters. Sioli & Klinge (1962)24 present a classification that differentiates the rivers of the Amazon
into three types of water: white, black and clear. The main causes of these variations would be changes
in the amount of suspended sediments and dissolved organic matter, resulting mainly from the natural
characteristics of the river catchment area. The Cristalino River fits into the category of black water rivers.
They originate in podzolic soils, which are more sandy or sandy-clayey. The colour of the water is due to

24 Sioli, H & Klinge, H. 1962. Solos, tipos de vegetação e águas na Amazônia. Bol. Mus. Paraense Emílio Goeldi (avulsa).

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the dissolution of humic acids, as this type of soil does not retain organic matter. In addition, dark waters
also come from swampy regions, where organic matter from flooded forests is carried by rivers (Junk &
Furch 1985, 1997)25. The intensity of the colour of the water varies according to the catchment areas of
the rivers, the amount of dissolved organic matter and the season of the year, with the rivers being darker
at the beginning of the rainy season due to the accumulation of organic substances in the dry seasons.
The dense forest cover makes erosion processes smaller, with a low amount of suspended sediments
(Nóbrega, 2005)26.

The annual rise and fall of water is a response to the distribution of rainfall, which is quite heterogeneous
in the Amazon region. The rainy season begins in the western part of the Amazon basin and progressively
moves eastwards. From the quantitative point of view of the Amazon's resources, it can be said that the
amount of rainfall and its distribution are closely linked to the vegetation cover, formed in most of the
region by forest ecosystems.

The Cristalino river basin is relatively small and heavy rains in its headwaters cause temporal variations
in the water level during floods. In the months of January to March, periods of greater precipitation, the
river level can rise by more than one meter in a few hours or in a few days when the headwaters cease
to rain.

The peak of the flood occurs in March, and the water recedes between April and May, draining igapós
(flood forest), isolating the lakes again, and exposing small sandy beaches on the bends of the river
(Campello et al. 2002a27). At this time when the water is going down, the caves are dry, forming a mud
rich in organic matter, conducive to the life of many animals at the base of the food chain and,
consequently, larger animals come to these places to feed.

The annual dynamics of river discharge has been identified as a key factor that characterizes the
seasonality of Amazonian environments. Fluctuating river discharge causes flooding of marginal areas
and expansion of freshwater areas, with changes in water characteristics. From these periodically flooded
areas comes a large part of the energy base that sustains aquatic resources (Nóbrega, 2005). In this
sense, the preservation of the vegetation cover of the area, as well as the non-alteration of the natural
hydrological cycles, are essential to guarantee the maintenance of the populations of aquatic organisms.

25 Junk, W. J. & Kunch, K. 1997. Physicochemical conditions in the floodplains. In: Junk, W.J. (ed.). The Central Amazon
Floodplain. Springer, Nova Iorque.
26 Nóbrega, I. W. 2005. Análise espectral de sistemas aquáticos de Amazônia para identificação de componentes opticamente

ativos. Dissertação de Mestrado. INPE – Instituto de Pesquisas Espaciais, São José dos Campos. 87 p.
27 Campello, S., Georgiadis, G., Richter, M., Buzzetti, D., Dalponte, J., Araújo, A.B., Peres Jr., A.K.P. Brandão, R.A. & Machado,

F. 2002. Diagnóstico do Parque Estadual Cristalino. Ministério do Meio Ambiente, Secretaria de Coordenação da Amazônia.
Brasília, DF.

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Geology, Topography and Soils

According to Ross (2003)28, the Cristalino region is located in the great South-Amazonian Marginal
Depression, which was generated by intense erosive processes on the borders of the Amazon Basin,
during the Tertiary and Quartenary. Its genesis is similar to the North-Amazonian Marginal Depression.
It is marked by relief with slightly convex tops, with altitudes between 100 and 400 m, increasing from
north to south. A striking characteristic is the presence of residual relief represented by granitic intrusions
of the Precambrian (South Amazonian Residual Plateaus), which determine relief forms on hills with
convex tops with discontinuous distribution.

According to Brasil & Alvarenga (1989)29, the southern Amazonian depression shows structural and
lithological complexity. The rock substrate is represented by lithologies that range from the Archean to
the Upper Proterozoic. The striking feature of this depression is the intense dissection of the relief, which
leveled distinct structures due to successive erosive phases. The geological framework is clearly
visualized through many relief forms which are adapted to faulting and folding. Examples of these events
include the grabens (i.e. flat-bottomed depressions of tectonic origin) of Cachimbo and Caiabis, and the
Juruena-Teles Pires structural high ground. These structures are topographically inverted and masked
by intense erosion. As a result, the landforms are dissected, lowered and levelled by a drainage hierarchy
following a dendritic pattern.

According to the database of National Institute for Space Research - INPE (in Portuguese, Instituto
Nacional de Pesquisas Espaciais) the area is covered by flat terrain (0-3%) and smooth wavy (3-8%), in
the most of the area, followed by wavy and strongly wavy terrain, in hills in a disperse way. The first
corresponds to the set of flattened forms that occupy a summit position within the regional relief. They
are identified by their wide area of occurrence, presenting low declivities and low drainage density.
Another striking characteristic of this relief is its very thick clay surface cover, with ferruginous crusts at
its base. The second relief, more wavy, includes the forms that occur in the transition areas between the
flattening systems, characterized by dissected areas in erosive edges, which can be found staggered in
patamares in the area (Figure 6) and occurring dispersedly throughout Mato Grosso.

28 Ross, J.L.S. 2003. Os fundamentos da geografia da natureza. In: Ross, J.L.S. (org.). Geografia do Brasil. Edusp, São Paulo.
p. 13-65.
29 Brasil, A.E. & S.M. Alvarenga. 1989. Relevo. In: Duarte, A.C. (coord.). Geografia do Brasil, volume 1. Região Centro-Oeste.

IBGE, Rio de Janeiro. p. 53-72.

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Figure 6 – Relief Map in the project area

The north of Mato Grosso is located in the Amazon Craton, of Archean age rocks that form a crystalline
basement. This is exposed in the great depressions of the relief interrupted by residual plateaus. 30 The
set of faults that affect the crystalline basement in the northern region of Mato Grosso are oriented
northwest-southeast and northeast-southeast, constituting structural highs and lows. The latter form
graben type basins, which during the Middle Proterozoic hosted several types of sedimentary rocks that
serve as limits between the structural highs. These occur between the Caiabis Mountains and the Parecis
Plateau, and between the Cachimbo and Caibis Mountains.

Two geological formations occur in the project area, according to Secretary of the Environment of the
State of Mato Grosso, Teles Pires, which covers almost all of it and Colíder that occurs only in a narrow
strip close to the bank of the Teles Pires River. The Teles Pires Formation is represented in the State of

30Del'Arco, J.O. & Bezerra, P.E.L. 1989. Geologia. In: Duarte, A.C. (coord.) Geografia do Brasil, volume 1. Região Centro-
Oeste. IBGE, Rio de Janeiro. Pp. 35-51.

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 SOCIALCARBON – Project Description

Mato Grosso by almost two dozen granitic bodies with circular outlines, occuring indistinctly throughout
the entire exposure belt of the Iriri Group. The Colíder Formation is a volcanic belt that is linked to the
Juruena plutonic volcanic arc. Among its main components are spills of acidic rhyolitic vitrophyritic and
microporphyritic lavas, rhyodacites and dacites, and intermediate andesitic, porphyritic lavas, with
frequent intercalations of pyroclastic and epiclastic deposits.

According to Mineral Resources Research Company (in Portuguese, Companhia de Pesquisa de
Recursos Minerais), the east of the project area is located in Clastic, plutonic, chemistry, volcanoclastic,
volcanic rocks, which represents the largest part of the area. The midwest of the project area corresponds
only to clastic rocks (Figure 7).

Figure 7 – Geological Map in the project area

The project area has 3 main types of soil formations, as shown in Figure 8. The most represented soil is
Rld20, which is the acronym for Neossolos Litolicos Distroficos, Argisols Vermelho-Yellows Dystroficos
and Outcrops of Rocks, located in the northwest portion of the area. Neosols comprise shallow soils,

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 SOCIALCARBON – Project Description

where generally the sum of the horizons on the rock does not exceed 50 cm, and are normally associated
with more sloping reliefs. Limitations to use are related to the shallow depth, presence of rock and the
steep slopes associated with the areas where these soils occur. These factors limit the growth of plant
roots, the use of agricultural machinery and increase the risk of erosion. They are usually indicated for
the preservation of flora and fauna, but in some regions, it appears that these soils are used , as in the
states of São Paulo and Minas Gerais, for the production of coffee and corn; with corn, beans and
soybeans in Santa Catarina and with viticulture and pasture in the State of Rio Grande do Sul. The term
dystrophic is the third level classification for low fertility soil.31 The characteristics of the Dystrophic Litholic
Neosol of a shallow and little fertile soil, demonstrate the importance of maintaining the forest cover and
native vegetation for its conservation. The Red-Yellow Argisols present clay accumulation horizon,
textural B, with red-yellowish colors due to the presence of the mixture of hematite and goethite iron
oxides. They are deep and very deep soils; well structured and well drained. There is a predominance of
surface horizon A of the moderate and prominent type, they mainly have a medium/clayey texture, and
may present, to a lesser extent, a medium/medium and medium/very clayey texture. They also have low
to very low natural fertility, with a strongly acidic reaction and low activity clays.32 The rocky outcrop is a
type of terrain and not a soil class, and comprises exposures of different types of rocks, soft or hard, bare
or with reduced proportions of detrital materials not classifiable as soil.33

The second most predominant soil formation in the project area, located in the southeastern portion, is
represented by the acronym AR3, in which the compositions are the same as those of Rld20, but with
different representation. Rocky outcrop are the most present, followed by by Dystrophic Litholic Neosols
and Dystrophic Red-Yellow Argisols. And in the south of the project area there is a small portion of the
PVAd24 soil formation, represented by Dystrophic Red-Yellow Argisols, Dystrophic Red-Yellow Latosols
and Dystrophic Red-Yellow Latosols. Dystrophic Red-Yellow Argisols, as mentioned in the previous
paragraph, present clay accumulation horizon, textural B with yellowish-red colors and low fertility. The
Red-Yellow Latosols are identified in extensive dispersed areas throughout the Brazil National territory
associated with reliefs, flat, smooth wavy or wavy. They occur in well-drained environments, being very
deep and uniform in color, texture and structure characteristics at depth. They are widely used for
agriculture and livestock, and when dystrophic, they present chemical limitations in depth to the
development of the root system. Another limitation to the use of this soil class is the low amount of water
available to plants.34 The red latosols show accentuated red colors, due to the higher contents and nature
of the iron oxides present in the original material in well-drained environments, and uniform color, texture
and structure characteristics in depth. They are identified in extensive areas in the Midwest, South and
Southeast regions of the country, being responsible for a large part of the country's grain production, as

31 Santos, H. G.; Zaroni, M. J.; Almeida, E. P. C. Neossolos Litólicos. EMBRAPA. 2021. Avaiable at:
https://www.embrapa.br/agencia-de-informacao-tecnologica/tematicas/solos-tropicais/sibcs/chave-do-
sibcs/neossolos/neossolos-litolicos. Last visit: 01-June-2023.
32 Silva, M. S. L.; Neto, M. B. O. Argissolos Vermelho-Amarelos. EMBRAPA. 2021. Avaiable at: https://www.embrapa.br/agencia-

de-informacao-tecnologica/territorios/territorio-mata-sul-pernambucana/caracteristicas-do-territorio/recursos-
naturais/solos/argissolos-vermelho-amarelos. Last visit: 01-June-2023.
33 Santos et al. Sistema Brasileiro de Classificação de Solos. 5 edição. Brasília, DF. Embrapa, 2018.
34 Almeida, E. P. C.; Santos, H. G.; Zaroni, M. J. Latossolos Vermelho-Amarelos. EMBRAPA. 2021. Avaiable at:

https://www.embrapa.br/agencia-de-informacao-tecnologica/tematicas/solos-tropicais/sibcs/chave-do-
sibcs/latossolos/latossolos-vermelho-amarelos. Last visit: 01-June-2023.

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 SOCIALCARBON – Project Description

they occur predominantly in areas of flat and gently undulating relief, providing agricultural
mechanization. To a lesser extent, they can occur in areas of wavy relief.35

Figure 8. Soil Map in the project area

In order to assure methodology compliance, it was analyzed the presence of peatlands. For such
assessment, it was used the mentioned IBGE and Embrapa soil databases and publications on Brazil’s
soil classification36.

The vector files and publications presenting soil types within Brazil by IBGE and Embrapa points out the
occurrence of peatlands is not typical at mineral soil types, and also informs the soil types present in the

35 Santos, H. G.; Zaroni, M. J. Latossolos Vermelhos. EMBRAPA. 2021. Avaiable at:https://www.embrapa.br/agencia-de-
informacao-tecnologica/tematicas/solos-tropicais/sibcs/chave-do-sibcs/latossolos/latossolos-vermelhos. Last visit: 01-June-
2023.
36 Available at: https://www.embrapa.br/solos/busca-de-publicacoes/-/publicacao/1094003/sistema-brasileiro-de-classificacao-

de-solos. Last visit: 25-May-2023.

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 SOCIALCARBON – Project Description

project area are mineral, thus without peat. The occurrence of peats in specific types of soils is also
reinforced by IBGE publication named “Pedology Technical Manual” 37. In this manual, peats are related
to organic soil types, a soil type which is not presented in the project area, as shown in the soil image
above. Thus, the occurrence of peatlands, which is typical of organic material soil types, is not present
within the project area.

Socio-economic conditions

The socio-economic conditions of the two municipalities that compose the project area are described
below38:

Alta Floresta – MT

Brazilian Census (2010): 49,164 habitants
Estimated (2021): 52,105 habitants
Population
Residents in rural areas (2010): 42,718
Residents in urban areas (2010): 6,446

Land occupation The demographic density is 5.48 hab/km²

The main land use for the municipality is forest
vegetation (419,090.46 ha). It is noteworthy in
Land Use second place is pasture (415,830.98 ha), with a
difference of only 0.39% of total area for the main
land use.

The GDP per capita of the municipality is
R$30,101.46. The average income is of 2.1
minimum wages, and 25.2% of the population is
categorized to carry out a professional activity
(formal or informal, paid or not). This puts the city
Economy
in the State ranking, 98/141 and 19/141,
respectively. 33.3% of the population lives in
families with monthly income of up to half a
minimum wage per person. The main agricultural
product of this municipality is soya.

The municipality has 98% of its 6-14 years
Education
population in school.

37 Available at https://biblioteca.ibge.gov.br/visualizacao/livros/liv95017.pdf. Last visit: 25-May-2023.
38All information provided in this section comes from IBGE surveys and can be consulted at.

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The average infant mortality rate in the city is 12.3
Health
deaths per thousand livebirths.

Only 17% of households have adequate
sanitation; 37.7% of urban households are
located on public roads with trees and 3% on
Infrastructure
public roads with adequate urbanization
(presence of manhole, sidewalk, paving and
curb).

The municipality HDI is 0.714. The state HDI is
Human Development Index (HDI)
0.736.

Novo Mundo – MT

Brazilian Census (2010): 7,332 habitants
Estimated (2021): 9,545 habit