Recent attention has focused on the high rates of annual carbon sequestration in vegetated coastal ecosystems—marshes, mangroves, and seagrasses—that may be lost with habitat destruction (‘conversion’). Relatively unappreciated, however, is that conversion of these coastal ecosystems also impacts very large pools of previously-sequestered carbon. Residing mostly in sediments, this ‘blue...
Tropical peatlands cover an estimated 440,000 km² (~10% of global peatland area) and are significant in the global
carbon cycle by storing about 40–90 Gt C in peat. Over the past several decades, tropical peatlands have experienced
high rates of deforestation and conversion, which is often associated with lowering the...
Mangroves provide a wide range of ecosystem services, including nutrient cycling, soil formation, wood production, fish spawning grounds, ecotourism and carbon (C) storage¹. High rates of tree and plant growth, coupled with anaerobic, water-logged soils that slow decomposition, result in large long-term C storage. Given their global significance as large...
This dissertation addresses gaps of knowledge associated with how ecosystem carbon stocks and greenhouse gas emissions are affected by land use land cover change in tropical peatlands. This was the first study that paired peat swamp forests with oil palm plantations and analyzed site scale variation on greenhouse gas emissions....
The Mahakam Delta which was once among the largest mangrove forests in Indonesia, has been subjected to dramatic changes in structure and function due to massive shifts from mangrove forest to shrimp ponds and oil and gas development. To understand the impacts of mangrove loss to the greenhouse gas (GHG)...
This study focuses in providing the knowledge on carbon (C) stocks, emission and ecosystem productivity related to land use/land cover change in tropical peatlands. The field research activities were conducted for about 17 months between August 2013 to December 2015, at Pematang Gadung peat dome (peat depth up to 10.5...
Tropical peatlands cover an estimated 440,000 km² (~10% of global peatland area) and are significant in the global
carbon cycle by storing about 40–90 Gt C in peat. Over the past several decades, tropical peatlands have experienced
high rates of deforestation and conversion, which is often associated with lowering the...
Full Text:
Kurnianto, S., Warren, M., Talbot, J., Kauffman, B., Murdiyarso, D. and Frolking,
S. (2015). Carbon
Tropical peatlands cover an estimated 440,000 km² (~10% of global peatland area) and are significant in the global
carbon cycle by storing about 40–90 Gt C in peat. Over the past several decades, tropical peatlands have experienced
high rates of deforestation and conversion, which is often associated with lowering the...
Mangroves provide a wide range of ecosystem services, including nutrient cycling, soil formation, wood production, fish spawning grounds, ecotourism and carbon (C) storage¹. High rates of tree and plant growth, coupled with anaerobic, water-logged soils that slow decomposition, result in large long-term C storage. Given their global significance as large...
Full Text:
mitigation
Murdiyarso, D., Purbopuspito, J., Kauffman, J. B., Warren, M. W., Sasmito, S. D.,
Donato, D. C
Mangroves provide a wide range of ecosystem services, including nutrient cycling, soil formation, wood production, fish spawning grounds, ecotourism and carbon (C) storage¹. High rates of tree and plant growth, coupled with anaerobic, water-logged soils that slow decomposition, result in large long-term C storage. Given their global significance as large...
Full Text:
Indonesian mangrove forests for global climate change
mitigation
DanielMurdiyarso 1,8*, Joko