Your search keyword '"Massimo Lupascu"' showing total 2 results

1. Carbon emissions from South-East Asian peatlands will increase despite emission-reduction schemes

Author

Lahiru S. Wijedasa, Susan Page, Sean Sloan, Gopalasamy Reuben Clements, Massimo Lupascu, and Theodore A. Evans

Subjects

Conservation of Natural Resources, Peat, 010504 meteorology & atmospheric sciences, Forests, 010501 environmental sciences, 01 natural sciences, Soil, Deforestation, Environmental Chemistry, Asia, Southeastern, 0105 earth and related environmental sciences, General Environmental Science, Air Pollutants, Global and Planetary Change, Ecology, Intensive farming, Agroforestry, business.industry, Logging, Fossil fuel, Agriculture, Peat swamp forest, Carbon, Greenhouse gas, Environmental science, business

Abstract

Carbon emissions from drained peatlands converted to agriculture in South-East Asia (i.e., Peninsular Malaysia, Sumatra and Borneo) are globally significant and increasing. Here, we map the growth of South-East Asian peatland agriculture and estimate CO2 emissions due to peat drainage in relation to official land-use plans with a focus on the reducing emissions from deforestation and degradation (REDD+)-related Indonesian moratorium on granting new concession licences for industrial agriculture and logging. We find that, prior to 2010, 35% of South-East Asian peatlands had been converted to agriculture, principally by smallholder farmers (15% of original peat extent) and industrial oil palm plantations (14%). These conversions resulted in 1.46-6.43 GtCO2 of emissions between 1990 and 2010. This legacy of historical clearances on deep-peat areas will contribute 51% (4.43-11.45 GtCO2 ) of projected future peatland CO2 emissions over the period 2010-2130. In Indonesia, which hosts most of the region's peatland and where concession maps are publicly available, 70% of peatland conversion to agriculture occurred outside of known concessions for industrial plantation development, with smallholders accounting for 60% and industrial oil palm accounting for 34%. Of the remaining Indonesian peat swamp forest (PSF), 45% is not protected, and its conversion would amount to CO2 emissions equivalent to 0.7%-2.3% (5.14-14.93 Gt) of global fossil fuel and cement emissions released between 1990 and 2010. Of the peatland extent included in the moratorium, 48% was no longer forested, and of the PSF included, 40%-48% is likely to be affected by drainage impacts from agricultural areas and will emit CO2 over time. We suggest that recent legislation and policy in Indonesia could provide a means of meaningful emission reductions if focused on revised land-use planning, PSF conservation both inside and outside agricultural concessions, and the development of agricultural practices based on rehabilitating peatland hydrological function.

Published

2018

2. A pan-Arctic synthesis of CH

Author

Claire C, Treat, Susan M, Natali, Jessica, Ernakovich, Colleen M, Iversen, Massimo, Lupascu, Anthony David, McGuire, Richard J, Norby, Taniya, Roy Chowdhury, Andreas, Richter, Hana, Šantrůčková, Christina, Schädel, Edward A G, Schuur, Victoria L, Sloan, Merritt R, Turetsky, and Mark P, Waldrop

Abstract

Permafrost thaw can alter the soil environment through changes in soil moisture, frequently resulting in soil saturation, a shift to anaerobic decomposition, and changes in the plant community. These changes, along with thawing of previously frozen organic material, can alter the form and magnitude of greenhouse gas production from permafrost ecosystems. We synthesized existing methane (CH

Published

2014