| dc.description.abstract | This study investigates the carbon sequestration potential in Buffel grass landscapes,
focusing on the influence of soil biophysical conditions and climate factors. The primary
objective was to assess how soil properties, such as pH, bulk density, texture, and carbon
content in above-ground biomass (AGB), below-ground biomass (BGB), and soil organic
carbon (SOC), contribute to the total carbon sequestration potential. The role of climate
factors, including temperature and precipitation, was also evaluated. A multiple linear
regression model was developed to examine the relationships between these independent
variables and total carbon (sequestered). The results showed that BGB was the strongest
predictor of carbon sequestration, followed by AGB and SOC, while soil pH and texture had
minimal impact. Although the model perfectly predicts carbon sequestration in Buffel grass
landscapes, long-term monitoring and climate data integration is recommended for further
understanding. The study suggests that adopting practices that improve below-ground biomass
and maintain healthy soil organic carbon levels could enhance carbon storage in similar
ecosystems. The findings highlight the importance of soil properties in optimizing carbon
sequestration and inform land management practices to enhance carbon storage in grassland
ecosystems and mitigate climate change. | en_US |
