Landscape‐Level Assessment of Topographic Influences on Organic Carbon Storage in Forests of Far Western Nepal
ABSTRACT Carbon sequestration significantly aids in mitigating climate change, with its spatial distribution greatly influenced by topographical factors. However, data on organic carbon distribution and its interaction with topographic factors inside the forest of the Far Western Region of Nepal are...
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| Format: | Article |
| Language: | English |
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Wiley
2025-04-01
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| Series: | Plant-Environment Interactions |
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| Online Access: | https://doi.org/10.1002/pei3.70039 |
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| author | Santosh GC Gandhiv Kafle Santosh Ayer Renuka Khamcha Sandip Poudel Aman Prabhakar Amrita Bhusal Prakash Lamichhane Janak Airee Terisa Sapkota |
| author_facet | Santosh GC Gandhiv Kafle Santosh Ayer Renuka Khamcha Sandip Poudel Aman Prabhakar Amrita Bhusal Prakash Lamichhane Janak Airee Terisa Sapkota |
| author_sort | Santosh GC |
| collection | DOAJ |
| description | ABSTRACT Carbon sequestration significantly aids in mitigating climate change, with its spatial distribution greatly influenced by topographical factors. However, data on organic carbon distribution and its interaction with topographic factors inside the forest of the Far Western Region of Nepal are limited. Therefore, this study aims to analyze forest carbon stock variation under different topographic variables (physiographic region, aspect, and slope) in Far‐western Nepal. In this study, stratified systematic cluster sampling was adopted with elevation, aspect, and slope as strata. A total of 181 circular plots were used for dendrometric measurements and soil sample collection. Within each plot, diameter at breast height and height of each tree (diameter at breast height ≥ 5 cm) were measured for biomass carbon assessment. Composite soil samples (0–30 cm) from each soil pit within a plot were collected for determining soil organic carbon stock. Physiographic region‐wise, our study reported the highest mean aboveground carbon (174.04 ± 29.75 ton ha−1) and belowground carbon (34.044 ± 5.95 ton ha−1) and soil organic carbon stock (150.62 ± 11.02 ton ha−1) in the Mountain and High Himal region. The East aspect exhibited the highest aboveground carbon (125.9 ± 22.34 ton ha−1) and belowground carbon (27.54 ± 3.44 ton ha−1) stocks, while the North aspect showed the highest soil organic carbon stock (96.85 ± 8.82 ton ha−1). Organic carbon stocks declined with steeper slopes, with the (0–10)° slope category recording the highest aboveground organic carbon (135.17 ± 17.87 ton ha−1), belowground carbon (27.03 ± 3.57 ton ha−1), and soil organic carbon (107.14 ± 12.51 ton ha−1) stocks. Conversely, the (30–40)° slope category exhibited the lowest organic carbon stocks across all pools. This study's findings will support accurate monitoring, reporting, and verification (MRV) processes for initiatives like reducing emissions from deforestation and forest degradation (REDD+) and enhance credibility on United National Framework Convention on Climate Change (UNFCCC) reporting on a national scale. The design and application of site‐specific management activities to optimize organic carbon storage are recommended due to the observed variability of organic carbon stock with topographic factors. |
| format | Article |
| id | doaj-art-32884b56e93d4c9dba99556d34308ae4 |
| institution | Kabale University |
| issn | 2575-6265 |
| language | English |
| publishDate | 2025-04-01 |
| publisher | Wiley |
| record_format | Article |
| series | Plant-Environment Interactions |
| spelling | doaj-art-32884b56e93d4c9dba99556d34308ae42025-08-20T03:53:22ZengWileyPlant-Environment Interactions2575-62652025-04-0162n/an/a10.1002/pei3.70039Landscape‐Level Assessment of Topographic Influences on Organic Carbon Storage in Forests of Far Western NepalSantosh GC0Gandhiv Kafle1Santosh Ayer2Renuka Khamcha3Sandip Poudel4Aman Prabhakar5Amrita Bhusal6Prakash Lamichhane7Janak Airee8Terisa Sapkota9College of Natural Resource Management (CNRM) Agriculture and Forestry University Katari NepalFaculty of Forestry Agriculture and Forestry University Hetauda NepalCollege of Natural Resource Management (CNRM) Agriculture and Forestry University Katari NepalCollege of Natural Resource Management (CNRM) Agriculture and Forestry University Katari NepalCollege of Natural Resource Management (CNRM) Agriculture and Forestry University Katari NepalCollege of Natural Resource Management (CNRM) Agriculture and Forestry University Katari NepalCollege of Natural Resource Management (CNRM) Agriculture and Forestry University Katari NepalForest Research and Training Centre Kathmandu NepalCollege of Natural Resource Management (CNRM) Agriculture and Forestry University Katari NepalCollege of Natural Resource Management (CNRM) Agriculture and Forestry University Katari NepalABSTRACT Carbon sequestration significantly aids in mitigating climate change, with its spatial distribution greatly influenced by topographical factors. However, data on organic carbon distribution and its interaction with topographic factors inside the forest of the Far Western Region of Nepal are limited. Therefore, this study aims to analyze forest carbon stock variation under different topographic variables (physiographic region, aspect, and slope) in Far‐western Nepal. In this study, stratified systematic cluster sampling was adopted with elevation, aspect, and slope as strata. A total of 181 circular plots were used for dendrometric measurements and soil sample collection. Within each plot, diameter at breast height and height of each tree (diameter at breast height ≥ 5 cm) were measured for biomass carbon assessment. Composite soil samples (0–30 cm) from each soil pit within a plot were collected for determining soil organic carbon stock. Physiographic region‐wise, our study reported the highest mean aboveground carbon (174.04 ± 29.75 ton ha−1) and belowground carbon (34.044 ± 5.95 ton ha−1) and soil organic carbon stock (150.62 ± 11.02 ton ha−1) in the Mountain and High Himal region. The East aspect exhibited the highest aboveground carbon (125.9 ± 22.34 ton ha−1) and belowground carbon (27.54 ± 3.44 ton ha−1) stocks, while the North aspect showed the highest soil organic carbon stock (96.85 ± 8.82 ton ha−1). Organic carbon stocks declined with steeper slopes, with the (0–10)° slope category recording the highest aboveground organic carbon (135.17 ± 17.87 ton ha−1), belowground carbon (27.03 ± 3.57 ton ha−1), and soil organic carbon (107.14 ± 12.51 ton ha−1) stocks. Conversely, the (30–40)° slope category exhibited the lowest organic carbon stocks across all pools. This study's findings will support accurate monitoring, reporting, and verification (MRV) processes for initiatives like reducing emissions from deforestation and forest degradation (REDD+) and enhance credibility on United National Framework Convention on Climate Change (UNFCCC) reporting on a national scale. The design and application of site‐specific management activities to optimize organic carbon storage are recommended due to the observed variability of organic carbon stock with topographic factors.https://doi.org/10.1002/pei3.70039carbon sequestrationclimate change mitigationforest biomasstopography |
| spellingShingle | Santosh GC Gandhiv Kafle Santosh Ayer Renuka Khamcha Sandip Poudel Aman Prabhakar Amrita Bhusal Prakash Lamichhane Janak Airee Terisa Sapkota Landscape‐Level Assessment of Topographic Influences on Organic Carbon Storage in Forests of Far Western Nepal Plant-Environment Interactions carbon sequestration climate change mitigation forest biomass topography |
| title | Landscape‐Level Assessment of Topographic Influences on Organic Carbon Storage in Forests of Far Western Nepal |
| title_full | Landscape‐Level Assessment of Topographic Influences on Organic Carbon Storage in Forests of Far Western Nepal |
| title_fullStr | Landscape‐Level Assessment of Topographic Influences on Organic Carbon Storage in Forests of Far Western Nepal |
| title_full_unstemmed | Landscape‐Level Assessment of Topographic Influences on Organic Carbon Storage in Forests of Far Western Nepal |
| title_short | Landscape‐Level Assessment of Topographic Influences on Organic Carbon Storage in Forests of Far Western Nepal |
| title_sort | landscape level assessment of topographic influences on organic carbon storage in forests of far western nepal |
| topic | carbon sequestration climate change mitigation forest biomass topography |
| url | https://doi.org/10.1002/pei3.70039 |
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