Many peatlands in Europe and North America have been developed for agriculture for over a century, whilst in Southeast Asia development has largely occurred since 1990. Cultivation of drained peatlands now supports the livelihoods of large numbers of people, and the ongoing economic development of countries such as Indonesia and Malaysia. However, peat subsidence linked to plantation drainage represents both an environmental and a socio-economic challenge, associated with elevated CO2 emissions, impacts on adjacent forest habitat, and long-term changes in plantation drainability. Whilst the fundamental challenges presented by peat subsidence are broadly recognised, the long-term rates and the potential for mitigation or avoidance of subside...
Oil palm has increasingly been established on peatlands throughout Indonesia. One of the concerns is...
Tropical peatland condition across southeast Asia is deteriorating as a result of conversion to agri...
Land-use change in tropical peatland potentially results in a large amount of carbon dioxide (CO2) e...
Many peatlands in Europe and North America have been developed for agriculture for over a century, w...
Several million hectares of Indonesian peatlands have been converted to plantations, with oil palm b...
A large area of peat swamp forests has disappeared due to either legally or illegally logging, drain...
Conversion of tropical peatlands to agriculture leads to a release of carbon from previously stable,...
Disentangling land-use and climatic influences on peat subsidence, and establishing the long-term tr...
Most attention in quantifying carbon dioxide (CO2) emissions from tropical peatlands has been on lar...
Due to pressure for land, substantial areas of peat swamps in South-East Asia have been and presentl...
Carbon emissions from drained peatlands converted to agriculture in Southeast Asia (i.e. Peninsular ...
Large areas of Indonesian peatlands have been converted for agricultural and plantation forest purpo...
Carbon emissions from drained peatlands converted to agriculture in South-East Asia (i.e., Peninsula...
The conversion of tropical peatlands to oil palm plantations has affected the long-term storage stab...
Large-scale reclamation of tropical peats in tidal swamplands areas for agriculture through the inst...
Oil palm has increasingly been established on peatlands throughout Indonesia. One of the concerns is...
Tropical peatland condition across southeast Asia is deteriorating as a result of conversion to agri...
Land-use change in tropical peatland potentially results in a large amount of carbon dioxide (CO2) e...
Many peatlands in Europe and North America have been developed for agriculture for over a century, w...
Several million hectares of Indonesian peatlands have been converted to plantations, with oil palm b...
A large area of peat swamp forests has disappeared due to either legally or illegally logging, drain...
Conversion of tropical peatlands to agriculture leads to a release of carbon from previously stable,...
Disentangling land-use and climatic influences on peat subsidence, and establishing the long-term tr...
Most attention in quantifying carbon dioxide (CO2) emissions from tropical peatlands has been on lar...
Due to pressure for land, substantial areas of peat swamps in South-East Asia have been and presentl...
Carbon emissions from drained peatlands converted to agriculture in Southeast Asia (i.e. Peninsular ...
Large areas of Indonesian peatlands have been converted for agricultural and plantation forest purpo...
Carbon emissions from drained peatlands converted to agriculture in South-East Asia (i.e., Peninsula...
The conversion of tropical peatlands to oil palm plantations has affected the long-term storage stab...
Large-scale reclamation of tropical peats in tidal swamplands areas for agriculture through the inst...
Oil palm has increasingly been established on peatlands throughout Indonesia. One of the concerns is...
Tropical peatland condition across southeast Asia is deteriorating as a result of conversion to agri...
Land-use change in tropical peatland potentially results in a large amount of carbon dioxide (CO2) e...