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Climate change mitigation through carbon dioxide (CO2) sequestration in community reserved forests of Northwest Tanzania

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dc.creator Malunguja, Gisandu K.
dc.creator Devi, Ashalata
dc.creator Kilonzo, Mhuji
dc.creator Rubanza, Chrispinus D.K.
dc.date 2021-05-06T11:57:10Z
dc.date 2021-05-06T11:57:10Z
dc.date 2020
dc.date.accessioned 2022-10-20T13:09:20Z
dc.date.available 2022-10-20T13:09:20Z
dc.identifier Malunguja, G. K., Devi, A., Kilonzo, M., & Rubanza, C. D. (2020). Climate change mitigation through carbon dioxide (CO2) sequestration in community reserved forests of Northwest Tanzania. Archives of Agriculture and Environmental Science, 5(3), 231-240.
dc.identifier http://hdl.handle.net/20.500.12661/2976
dc.identifier.uri http://hdl.handle.net/20.500.12661/2976
dc.description Abstract. Full text available at https://doi.org/10.26832/24566632.2020.050301
dc.description Forests play a key role in climate change mitigation through sequestering and storing carbon dioxide from the atmosphere. However, there is inadequate information about carbon accumulation and sequestered by community reserved forests in Tanzania. A study was carried to quantify the amount of carbon sequestered in two forests namely; Nyasamba and Bubinza of Kishapu district, northwestern Tanzania. A ground-based field survey design under a systematic sampling technique was adopted. A total of 45 circular plots (15 m radius) along transects were established. The distances between transect and plots were maintained at 550 and 300 m, respectively. Data on herbaceous C stocking potential was determined using destructive harvest method while tree carbon stocking was estimated by allometric equations. The collected data were organized on excel datasheet followed by descriptive analysis for quantitative information using Computer Microsoft Excel and SPSS software version 20, while soil samples were analyzed based on the standard laboratory procedures. Results revealed higher carbon sequestration of 102.49±39.87 and 117.52±10.27 for soil pools than plants both herbaceous (3.01±1.12 and 6.27±3.79 t CO2e/yr) and trees (5.70±3.15 and 6.60±2.88 t CO2e/yr) for Nyasamba and Bubinza respectively. The study recorded a potential variation of soil carbon sequestration, which varied across depths category (P< 0.05). However, there was no difference across sites (P>0.05) and species (P>0.05) for herbaceous and trees. The findings of this study portrayed a significantly low value for carbon stocking and sequestration potential for enhanced climate change mitigation. Therefore, proper management of community reserved forest is required to accumulate more C for enhancing stocking potential hence climate change mitigation through CO2 sequestration offsets mechanism.
dc.language en
dc.publisher Agro Environ Media (AEM)
dc.subject Climate change
dc.subject Forests
dc.subject Carbon dioxide
dc.subject Tanzania
dc.subject Northwest Tanzania
dc.subject Community reserved forests
dc.subject Reserved forests
dc.subject CO2
dc.subject Carbon offsets
dc.subject Climate change adaptation
dc.subject Forest stocking
dc.subject Sequestration potential
dc.title Climate change mitigation through carbon dioxide (CO2) sequestration in community reserved forests of Northwest Tanzania
dc.type Article


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