selected publications
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article
- How does replacing natural forests with rubber and oil palm plantations affect soil respiration and methane fluxes. Ecosphere. 11. 2020
- Spatial and temporal variability of soil N2O and CH4 fluxes along a degradation gradient in a palm swamp peat forest in the Peruvian Amazon. Global Change Biology. 26:7198-7216. 2020
- Variation in Vegetation and Ecosystem Carbon Stock Due to the Conversion of Disturbed Forest to Oil Palm Plantation in Peruvian Amazonia. Ecosystems. 1-19. 2020
- Greenhouse gas emissions along a peat swamp forest degradation gradient in the Peruvian Amazon: soil moisture and palm roots effects. Mitigation and Adaptation Strategies for Global Change. 24:625-643. 2019
- Impacts of Mauritia flexuosa degradation on the carbon stocks of freshwater peatlands in the Pastaza-Marañón river basin of the Peruvian Amazon. Mitigation and Adaptation Strategies for Global Change. 24:645-668. 2019
- Is Indonesian peatland loss a cautionary tale for Peru? A two-country comparison of the magnitude and causes of tropical peatland degradation. Mitigation and Adaptation Strategies for Global Change. 24:591-623. 2019
- Linking soil respiration and water table depth in tropical peatlands with remotely sensed changes in water storage from the gravity recovery and climate experiment. Mitigation and Adaptation Strategies for Global Change. 24:575-590. 2019
- The response of soil respiration to climatic drivers in undrained forest and drained oil palm plantations in an Indonesian peatland.. Biogeochemistry. 142:37-51. 2019
- Will CO2 Emissions from Drained Tropical Peatlands Decline Over Time? Links Between Soil Organic Matter Quality, Nutrients, and C Mineralization Rates. Ecosystems. 21:868-885. 2018
- Substantial N2O emissions from peat decomposition and N fertilization in an oil palm plantation exacerbated by hotspots. Environmental Research Letters. 12:104007. 2017
- Total and heterotrophic soil respiration in a swamp forest and oil palm plantations on peat in Central Kalimantan, Indonesia. Biogeochemistry. 135:203-220. 2017
- Characterizing degradation of palm swamp peatlands from space and on the ground: An exploratory study in the Peruvian Amazon. Forest Ecology and Management. 393:63-73. 2017
- Denial of long-term issues with agriculture on tropical peatlands will have devastating consequences. Global Change Biology. 23:977-982. 2017
- How do the heterotrophic and the total soil respiration of an oil palm plantation on peat respond to nitrogen fertilizer application. Geoderma. 268:41-51. 2016
- Nitrous oxide emissions along a gradient of tropical forest disturbance on mineral soils in Sumatra. AGRICULTURE ECOSYSTEMS & ENVIRONMENT. 214:107-117. 2015
- Reviews and syntheses: Soil N 2 O and NO emissions from land use and land-use change in the tropics and subtropics: a meta-analysis. Biogeosciences. 12:7299-7313. 2015
- Development of allometric models for above and belowground biomass in swidden cultivation fallows of Northern Laos. Forest Ecology and Management. 357:104-116. 2015
- Major atmospheric emissions from peat fires in Southeast Asia during non-drought years: evidence from the 2013 Sumatran fires. Scientific Reports. 4:6112-6112. 2015
- Emissions factors: Converting land use change to CO2 estimates (Japanese) 2015
- Tree biomass equations for tropical peat swamp forest ecosystems in Indonesia. Forest Ecology and Management. 334:241-253. 2014
- Greenhouse gas emission factors for land use and land-use change in Southeast Asian peatlands. Mitigation and Adaptation Strategies for Global Change. 19:789-807. 2014
- Mud, muddle and models in the knowledge value-chain to action on tropical peatland conservation. Mitigation and Adaptation Strategies for Global Change. 19:887-905. 2014
- Implementing REDD+ (Reducing Emissions from Deforestation and Degradation): evidence on governance, evaluation and impacts from the REDD-ALERT project. Mitigation and Adaptation Strategies for Global Change. 19:907-925. 2014
- Comparison of methods for quantifying soil carbon in tropical peats 2014
- Conversion of intact peat swamp forest to oil palm plantation: Effects on soil CO2 fluxes in Jambi, Sumatra 2013
- A cost-efficient method to assess carbon stocks in tropical peat soil. Biogeosciences. 9:4477-4485. 2012
- Changes in soil CH4 fluxes from the conversion of tropical peat swamp forests: a meta-analysis. Journal of Integrative Environmental Sciences. 9:31-101. 2012
- Changes in carbon stock and greenhouse gas balance in a coffee (Coffea arabica) monoculture versus an agroforestry system with Inga densiflora, in Costa Rica. AGRICULTURE ECOSYSTEMS & ENVIRONMENT. 148:102-110. 2012
- Tropical wetlands for climate change adaptation and mitigation: science and policy imperatives with special reference to Indonesia 2012
- Stocks and fluxes of carbon associated with land use change in Southeast Asian tropical peatlands: A review. Global Biogeochemical Cycles. 25. 2011
- Principles and methods for assessing climate change mitigation as an ecosystem service in agroecosystems 2011
- Opportunities for reducing greenhouse gas emissions in tropical peatlands. Proceedings of the National Academy of Sciences of the United States of America. 107:19655-19660. 2010
- The utility of process-based models for simulating N2O emissions from soils: A case study based on Costa Rican coffee plantations. Soil Biology & Biochemistry. 41:2343-2355. 2009
- Fluxes of greenhouse gases from Andosols under coffee in monoculture or shaded by Inga densiflora in Costa Rica. Biogeochemistry. 89:329-345. 2008
- Processes responsible for the nitrous oxide emission from a Costa Rican Andosol under a coffee agroforestry plantation 2007
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dataset
- Replication Data for: Hergoualc'h, K., Hendry, D.T., Murdiyarso, D. , Verchot, L.V. 2017. Biogeochemistry 135 (3): 203-220 2017
- Replication Data for: Supplement of Reviews and syntheses: Soil N2O and NO emissions from land use and land-use change in the tropics and subtropics: a meta-analysis 2016
- Replication data for: Online supporting information for the manuscript Greenhouse gas emission factors for land use and land-use change in Southeast Asian peatlands 2013
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document
- Smoke on water: Countering global threats from peatland loss and degradation 2017
- Facteurs d’emissions: Conversion des changements d’affectation des terres en estimations de CO2 2013
- Factores de emision: Conversion del cambio en el uso de la tierra a estimaciones de CO2 2013
- Fatores de emissao: Conversao da mudanca no uso da terra em estimativas de CO2 2013
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review
- Oil palm plantations are large sources of nitrous oxide, but where are the data to quantify the impact on global warming?. Current Opinion in Environmental Sustainability. 81-88. 2020
- An appraisal of Indonesia’s immense peat carbon stock using national peatland maps: uncertainties and potential losses from conversion. Carbon Balance and Management. 12-12. 2017