Warning: ini_set(): A session is active. You cannot change the session module's ini settings at this time in /home/updatepublishing/public_html/journal/lib/pkp/classes/session/SessionManager.inc.php on line 69

Warning: Cannot modify header information - headers already sent by (output started at /home/updatepublishing/public_html/journal/lib/pkp/classes/session/SessionManager.inc.php:69) in /home/updatepublishing/public_html/journal/plugins/generic/citationStyleLanguage/CitationStyleLanguagePlugin.inc.php on line 478

Warning: Cannot modify header information - headers already sent by (output started at /home/updatepublishing/public_html/journal/lib/pkp/classes/session/SessionManager.inc.php:69) in /home/updatepublishing/public_html/journal/plugins/generic/citationStyleLanguage/CitationStyleLanguagePlugin.inc.php on line 479
TY - JOUR AU - Ibnmrhar, Meryem AU - Bouabdli, Abelhak AU - Baghdad, Bouamar AU - Moussadek, Rachid PY - 2023/12/08 Y2 - 2025/09/23 TI - Unlocking the potential of conservation agriculture for soil carbon sequestration influenced by soil texture and climate: A worldwide systematic review JF - Journal of Aridland Agriculture JA - jaa VL - 9 IS - SE - Articles DO - 10.25081/jaa.2023.v9.8484 UR - https://www.updatepublishing.com/journal/index.php/jaa/article/view/8484 SP - 108-131 AB - <p>Conservation Agriculture (CA) systems have gained significant attention as a sustainable cropping approach that not only improves crop yields but also contributes to climate change adaptation and mitigation through enhanced soil organic carbon (SOC) sequestration. However, a comprehensive understanding of the influence of soil texture and climate conditions on SOC sequestration under CA remains limited. To address this knowledge gap, we conducted a systematic review using the PRISMA method, analyzing data from 35 peer-reviewed articles encompassing 71 field experiments and 451 observations worldwide. Our findings demonstrate the substantial positive impact of CA on SOC sequestration, with an overall increase of approximately 78%. Remarkably, only a mere 2% of observations reported neutral effects, while 20% indicated adverse outcomes. Notably, SOC sequestration rates were highest in tropical regions experiencing dry winters, reaching an impressive 2.50 Mg/ha/year in the topsoil layers. Moreover, fine and moderate textured soils, such as clay, clay loam, loam, and clay sandy, exhibited higher SOC sequestration rates (20-27%) compared to coarse-textured soils dominated by sandy proportions (9%). These findings emphasize the significance of climate conditions and soil texture in shaping the impact of CA on SOC sequestration.</p> ER -