Abstract
Tropical peatlands in Southeast Asia are important ecosystems that play a crucial role in global biogeochemical cycles, with a potential for strong climate feedback loops. The degradation of tropical peatlands due to the expansion of oil palm plantations and their impact on biodiversity and the carbon balance is a global concern. The majority of conversion of Southeast Asian peatlands to agriculture has been by smallholder oil palm farmers, who follow more varied cropping systems compared to industrial plantations, and have better scope for expansion of other alternative varied cropping systems if supported and encouraged. Using previously-published data on peat physicochemical properties, biodiversity and greenhouse gas emissions from small-holder oil palm plantations, we determined that prolonged oil palm monocropping for two generations would result in loss of carbon and peat functional properties that may lead to potential declassification of peatlands. We propose intercropping during the early stages of oil palm as a wise alternative for already-existing plantations in tropical peatlands to ameliorate some of the negative environmental impacts of oil palm on the physio-chemical properties of peat. However, we emphasize the need to more fully explore the sustainability of intercropping systems throughout the life cycle of palm plantations on peatlands, and integrate with current management practices. We also emphasize the further need for research to fully assess the impacts of oil palm intercropping compared to widely-practiced oil palm monocropping. Finally, we suggest changes in government certification policies to encourage intercropping practices by smallholders.
Highlights
Tropical peatlands are important for their ecosystem services and distinct endemic biodiversity due to unique acidic, nutrient-poor, and waterlogged conditions (Sjögersten et al, 2011; Dohong et al, 2017)
Tropical peatland acts as a long-term carbon sink and plays a crucial role in global carbon cycling, with the potential for strong climate feedback loops (Dommain et al, 2014; Sjögersten et al, 2014)
Southeast Asia has the greatest proportion of tropical peatlands, with net carbon storage of 69 Gt (Page et al, 2011)
Summary
Tropical peatlands are important for their ecosystem services and distinct endemic biodiversity due to unique acidic, nutrient-poor, and waterlogged conditions (Sjögersten et al, 2011; Dohong et al, 2017). Whereas, owing to possible increased peat subsidence and the reduced, homogenous and degradable C input to soil from monocropping (Guillaume et al, 2016; Kerdraon et al, 2020), organic matter content in the second generation oil palm intercropping was ∼54%, which does not meet the required 65% defined by the regional government organizations and followed by the Roundtable on Sustainable Palm Oil (RSPO) (Firdaus et al, 2010; RSPO, 2019) It barely passes some other published definitions that describe 45% organic content requirement for tropical peatlands (Osaki et al, 2016). All of those studies suggest that increased habitat complexity with intercropping or polyculture, as a better management practice than oil palm monocropping for improving biodiversity
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