[HTML][HTML] A comparison of metal distribution in surface soil between wetland and farmland in the Sanjiang plain
Y Yu, C Zhan, Y Li, D Zhou, J Yu, J Yang - HydroResearch, 2023 - Elsevier
The transformation from wetland to farmland is in vigorous process to gain more grain
production. Meanwhile, restoring wetland from farmland is going on due to the important …
production. Meanwhile, restoring wetland from farmland is going on due to the important …
Three decades of shade trees improve soil organic carbon pools but not methane uptake in coffee systems
H Sun, F Zhang, ST Raza, Y Zhu, T Ye, L Rong… - Journal of …, 2023 - Elsevier
The rapid expansion of coffee plantations in tropical area at the cost of natural forest may
suppress the methane (CH 4) uptake and change the soil fertility. However, observations on …
suppress the methane (CH 4) uptake and change the soil fertility. However, observations on …
Impact of wetland conversion to cropland on ecosystem carbon budget and greenhouse gas emissions in Northeast China
Wetlands provide a huge carbon (C) sink and represent strategic areas for regulating
climate change. However, extensive wetlands have been lost since 1700, primarily for …
climate change. However, extensive wetlands have been lost since 1700, primarily for …
Role of methanotrophic communities in atmospheric methane oxidation in paddy soils
Y Zheng, Y Cai, Z Jia - Frontiers in Microbiology, 2024 - frontiersin.org
Wetland systems are known methane (CH4) sources. However, flooded rice fields are
periodically drained. The paddy soils can absorb atmospheric CH4 during the dry seasons …
periodically drained. The paddy soils can absorb atmospheric CH4 during the dry seasons …
Faster cycling but lower efficiency: A microbial metabolic perspective on carbon loss after wetland conversion to cropland
Abstract Natural wetlands store 20–30% of soil organic carbon (C) in terrestrial ecosystems.
Wetlands conversion to croplands has caused a massive loss of soil organic C; however, the …
Wetlands conversion to croplands has caused a massive loss of soil organic C; however, the …
Spatial-temporal variation in XCH4 during 2009–2021 and its driving factors across the land of the Northern Hemisphere
Methane (CH 4) is the second most significant driver of global warming, following carbon
dioxide. However, the spatial-temporal variation of CH 4 and its driving factors largely …
dioxide. However, the spatial-temporal variation of CH 4 and its driving factors largely …