Abstract
The Loyalty Islands are part of the French archipelago of New Caledonia in the Southwest Pacific. In these islands, Gibbsic Ferralsols (Humic) are traditionally used for fire-fallow cultivation (FFC) by the Kanak people, but the planting of perennial orchards has been encouraged over the past two decades. The impacts of this policy on soil organic carbon (SOC) are nevertheless unknown, especially in these clay-free soils in which organic matter is the main contributor to soil fertility. SOC and permanganate oxidizable organic carbon (POXC) were studied in the soils of avocado orchards, FFC, and secondary and native forests. Mean SOC stocks are particularly high, ranging between 71.9 and 194.4 MgC ha−1 in an equivalent soil mass of 2000 Mg ha−1, but they are significantly impacted by land use. Avocado farming reduced SOC stocks by about 30% compared to forest soils, even if fields were established on secondary forests that had already experienced SOC losses. In contrast, FFC did not impact them. The POXC content decreased as the degree of soil anthropization increased; however, it was less sensitive than SOC in highlighting the impacts of land use. SOC storage can be achieved through changes in agricultural practices in avocado farming, with support for farmers in transitioning from family farming to perennial cultivation and the policy management of secondary forests designed to enhance the recovery of native forests.
Highlights
Soils represent a large stock of carbon on a global scale storing more than 2500 GtC, mostly in organic carbon form (Lal 2004)
Our study aims to evaluate the impact of land use changes on soil organic carbon (SOC) in Gibbsic Ferralsols by measuring the amount of organic carbon stored in these soils occupied by avocado orchards, fallow land, or forests, the main types of land use in Maré, and by evaluating the resulting changes in the permanganate oxidizable organic carbon (POXC) active carbon fraction
Total and labile soil organic carbon δ13C values measured on SOC ranged from −26.7 and − 18.6‰, and tended to decrease as SOC increased (Fig. 2B)
Summary
Soils represent a large stock of carbon on a global scale storing more than 2500 GtC, mostly in organic carbon form (Lal 2004). Agricultural soils, could prove to be an effective and cheap solution for climate change mitigation that can be implemented within a short time frame but on a large spatial scale. To this end, the French government has launched the 4p1000 initiative, suggesting that an increase of 4‰ of the SOC stock would remove a significant proportion of carbon dioxide (CO2) from the atmosphere, thereby partially mitigating anthropogenic GHG emissions (Minasny et al 2017; Rumpel et al 2018, 2019).
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