Application of the Climafor baseline to determine leakage the case of Scolel Té
The acceptance of forestry-based project activities to mitigate greenhouse gases emissions has been subjected to a number of methodological questions to be answered, of which the most challenging are baseline establishment and identification of and measuring leakage. Here we pose hypotheses for and quantify leakage of the Scolel Te´ project in Chiapas, Mexico. In this project small-scale farmers are implementing forestry, agroforestry, and forest conservation activities, with carbon sequestration as one of the goals. The main leakage monitoring domain is defined as the area owned by the participating farmers or communities outside the area where the specific project activities take place. The null-hypothesis (no leakage) is that non-project land owned by the farmer or community will experience the same carbon stock changes as predicted by the regional baseline, specifically developed for the project. First we assessed the most likely causes and sources of leakage that may occur in the project. From this analysis, one type of leakage seems to be important, i.e., activity shifting. Second we estimated the leakage of a sample of participating farmers and communities. Actual land use was then compared with expected land use derived from the baseline. The Plan Vivo of each participant, complemented with readily available tools to identify the main sources and drivers of leakage are used to develop simple leakage assessment procedures, as demonstrated in this paper. Negative leakage was estimated to be negligible in this study. Incorporating these procedures already in the project planning stage will reduce the uncertainties related to the actual carbon mitigation potential of any forestry project.
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| Language: | eng |
| Subjects: | Captura de carbono, Deforestación, Conservación de bosques, Artfrosur, |
| Online Access: | https://link.springer.com/article/10.1007/s11027-006-9068-z |
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KOHA-OAI-ECOSUR:441682024-03-12T13:00:55ZApplication of the Climafor baseline to determine leakage the case of Scolel Té De Jong, Bernardus Hendricus Jozeph Doctor autor/a 2038 Esquivel Bazán, Elsa autor/a Quechulpa Montalvo, Sotero autor/a 15551 textengThe acceptance of forestry-based project activities to mitigate greenhouse gases emissions has been subjected to a number of methodological questions to be answered, of which the most challenging are baseline establishment and identification of and measuring leakage. Here we pose hypotheses for and quantify leakage of the Scolel Te´ project in Chiapas, Mexico. In this project small-scale farmers are implementing forestry, agroforestry, and forest conservation activities, with carbon sequestration as one of the goals. The main leakage monitoring domain is defined as the area owned by the participating farmers or communities outside the area where the specific project activities take place. The null-hypothesis (no leakage) is that non-project land owned by the farmer or community will experience the same carbon stock changes as predicted by the regional baseline, specifically developed for the project. First we assessed the most likely causes and sources of leakage that may occur in the project. From this analysis, one type of leakage seems to be important, i.e., activity shifting. Second we estimated the leakage of a sample of participating farmers and communities. Actual land use was then compared with expected land use derived from the baseline. The Plan Vivo of each participant, complemented with readily available tools to identify the main sources and drivers of leakage are used to develop simple leakage assessment procedures, as demonstrated in this paper. Negative leakage was estimated to be negligible in this study. Incorporating these procedures already in the project planning stage will reduce the uncertainties related to the actual carbon mitigation potential of any forestry project.The acceptance of forestry-based project activities to mitigate greenhouse gases emissions has been subjected to a number of methodological questions to be answered, of which the most challenging are baseline establishment and identification of and measuring leakage. Here we pose hypotheses for and quantify leakage of the Scolel Te´ project in Chiapas, Mexico. In this project small-scale farmers are implementing forestry, agroforestry, and forest conservation activities, with carbon sequestration as one of the goals. The main leakage monitoring domain is defined as the area owned by the participating farmers or communities outside the area where the specific project activities take place. The null-hypothesis (no leakage) is that non-project land owned by the farmer or community will experience the same carbon stock changes as predicted by the regional baseline, specifically developed for the project. First we assessed the most likely causes and sources of leakage that may occur in the project. From this analysis, one type of leakage seems to be important, i.e., activity shifting. Second we estimated the leakage of a sample of participating farmers and communities. Actual land use was then compared with expected land use derived from the baseline. The Plan Vivo of each participant, complemented with readily available tools to identify the main sources and drivers of leakage are used to develop simple leakage assessment procedures, as demonstrated in this paper. Negative leakage was estimated to be negligible in this study. Incorporating these procedures already in the project planning stage will reduce the uncertainties related to the actual carbon mitigation potential of any forestry project.Adobe Acrobat profesional 6.0 o superiorCaptura de carbonoDeforestaciónConservación de bosquesArtfrosurDisponible en líneaMitigation and Adaptation Strategies for Global Changehttps://link.springer.com/article/10.1007/s11027-006-9068-zDisponible para usuarios de ECOSUR con su clave de acceso |
| institution |
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| country |
México |
| countrycode |
MX |
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| region |
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Sistema de Información Bibliotecario de ECOSUR (SIBE) |
| language |
eng |
| topic |
Captura de carbono Deforestación Conservación de bosques Artfrosur Captura de carbono Deforestación Conservación de bosques Artfrosur |
| spellingShingle |
Captura de carbono Deforestación Conservación de bosques Artfrosur Captura de carbono Deforestación Conservación de bosques Artfrosur De Jong, Bernardus Hendricus Jozeph Doctor autor/a 2038 Esquivel Bazán, Elsa autor/a Quechulpa Montalvo, Sotero autor/a 15551 Application of the Climafor baseline to determine leakage the case of Scolel Té |
| description |
The acceptance of forestry-based project activities to mitigate greenhouse gases emissions has been subjected to a number of methodological questions to be answered, of which the most challenging are baseline establishment and identification of and measuring leakage. Here we pose hypotheses for and quantify leakage of the Scolel Te´ project in Chiapas, Mexico. In this project small-scale farmers are implementing forestry, agroforestry, and forest conservation activities, with carbon sequestration as one of the goals. The main leakage monitoring domain is defined as the area owned by the participating farmers or communities outside the area where the specific project activities take place. The null-hypothesis (no leakage) is that non-project land owned by the farmer or community will experience the same carbon stock changes as predicted by the regional baseline, specifically developed for the project. First we assessed the most likely causes and sources of leakage that may occur in the project. From this analysis, one type of leakage seems to be important, i.e., activity shifting. Second we estimated the leakage of a sample of participating farmers and communities. Actual land use was then compared with expected land use derived from the baseline. The Plan Vivo of each participant, complemented with readily available tools to identify the main sources and drivers of leakage are used to develop simple leakage assessment procedures, as demonstrated in this paper. Negative leakage was estimated to be negligible in this study. Incorporating these procedures already in the project planning stage will reduce the uncertainties related to the actual carbon mitigation potential of any forestry project. |
| format |
Texto |
| topic_facet |
Captura de carbono Deforestación Conservación de bosques Artfrosur |
| author |
De Jong, Bernardus Hendricus Jozeph Doctor autor/a 2038 Esquivel Bazán, Elsa autor/a Quechulpa Montalvo, Sotero autor/a 15551 |
| author_facet |
De Jong, Bernardus Hendricus Jozeph Doctor autor/a 2038 Esquivel Bazán, Elsa autor/a Quechulpa Montalvo, Sotero autor/a 15551 |
| author_sort |
De Jong, Bernardus Hendricus Jozeph Doctor autor/a 2038 |
| title |
Application of the Climafor baseline to determine leakage the case of Scolel Té |
| title_short |
Application of the Climafor baseline to determine leakage the case of Scolel Té |
| title_full |
Application of the Climafor baseline to determine leakage the case of Scolel Té |
| title_fullStr |
Application of the Climafor baseline to determine leakage the case of Scolel Té |
| title_full_unstemmed |
Application of the Climafor baseline to determine leakage the case of Scolel Té |
| title_sort |
application of the climafor baseline to determine leakage the case of scolel té |
| url |
https://link.springer.com/article/10.1007/s11027-006-9068-z |
| work_keys_str_mv |
AT dejongbernardushendricusjozephdoctorautora2038 applicationoftheclimaforbaselinetodetermineleakagethecaseofscolelte AT esquivelbazanelsaautora applicationoftheclimaforbaselinetodetermineleakagethecaseofscolelte AT quechulpamontalvosoteroautora15551 applicationoftheclimaforbaselinetodetermineleakagethecaseofscolelte |
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