Search Results - "Le, Thuong Ba"

Vascular plants regulate responses of boreal peatland Sphagnum to climate warming and nitrogen addition by Le, Thuong Ba, Wu, Jianghua, Gong, Yu

“…Boreal peatland Sphagnum may be affected by climate warming and elevated nitrogen availability directly and indirectly via altering vascular plant interaction…”
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Graminoid Removal Reduces the Increase in N2O Fluxes Due to Nitrogen Fertilization in a Boreal Peatland by Le, Thuong Ba, Wu, Jianghua, Gong, Yu, Vogt, Judith

“…The increase in nitrogen (N) deposition may affect nitrous oxide (N 2 O) emission in boreal peatlands by increasing N availability and/or altering vegetation…”
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Vegetation composition regulates the interaction of warming and nitrogen deposition on net carbon dioxide uptake in a boreal peatland by Gong, Yu, Wu, Jianghua, Roulet, Nigel, Le, Thuong Ba, Ye, Chen, Zhang, Quanfa

“…Peatlands are carbon sinks and have the potential to mitigate global warming. However, it is unclear whether peatlands will remain carbon sinks or switch to…”
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Nitrogen addition (NH4NO3) mitigates the positive effect of warming on methane fluxes in a coastal bog by Gong, Yu, Wu, Jianghua, Sey, Albert Adu, Le, Thuong Ba

“…•Warming significantly increased CH4 emission by 52%.•N addition reduced the positive effect of warming on CH4 flux.•Warming and N addition together did not…”
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Nitrous oxide fluxes of a boreal abandoned pasture do not significantly differ from an adjacent natural bog despite distinct environmental conditions by Vogt, Judith, Wu, Jianghua, Altdorff, Daniel, Ba Le, Thuong, Gong, Yu

“…Land-use conversion of pristine boreal peatlands for agricultural purposes is an ongoing process and projected to become more intensive with rising population…”
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Long-Term Warming and Nitrogen Addition Regulate Responses of Dark Respiration and Net Photosynthesis in Boreal Bog Plants to Short-Term Increases in CO2 and Temperature by Le, Thuong Ba, Wu, Jianghua, Gong, Yu, Dinh, Mai-Van

“…Boreal bog plants adapted to cold and low available nutrient conditions might be strongly affected by global changes, including elevated CO2 (eCO2), warming…”
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Warming reduces the increase in N 2 O emission under nitrogen fertilization in a boreal peatland by Gong, Yu, Wu, Jianghua, Vogt, Judith, Le, Thuong Ba

“…Peatlands are known as N O sinks or low N O sources due to nitrogen (N) limitation. However, climate warming and N deposition can modulate this limitation, and…”
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Warming reduces the increase in N2O emission under nitrogen fertilization in a boreal peatland by Gong, Yu, Wu, Jianghua, Vogt, Judith, Le, Thuong Ba

“…Peatlands are known as N2O sinks or low N2O sources due to nitrogen (N) limitation. However, climate warming and N deposition can modulate this limitation, and…”
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Counteractions between biotic and abiotic factors on methane dynamics in a boreal peatland: Vegetation composition change vs warming and nitrogen deposition by Gong, Yu, Wu, Jianghua, Le, Thuong Ba

“…•The negative effect of vascular plant absence on CH4 was mitigated under warming and N addition.•The interaction of soil T and total N elevation on CH4 was…”
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Graminoid Removal Reduces the Increase in N.sub.2O Fluxes Due to Nitrogen Fertilization in a Boreal Peatland by Le, Thuong Ba, Wu, Jianghua, Gong, Yu, Vogt, Judith

“…The increase in nitrogen (N) deposition may affect nitrous oxide (N.sub.2O) emission in boreal peatlands by increasing N availability and/or altering…”
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Long-Term Warming and Nitrogen Addition Regulate Responses of Dark Respiration and Net Photosynthesis in Boreal Bog Plants to Short-Term Increases in CO[sub.2] and Temperature by Le, Thuong Ba, Wu, Jianghua, Gong, Yu, Dinh, Mai-Van

“…Boreal bog plants adapted to cold and low available nutrient conditions might be strongly affected by global changes, including elevated CO[sub.2] (eCO[sub.2]…”
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Combination of Warming and Vegetation Composition Change Strengthens the Environmental Controls on N2O Fluxes in a Boreal Peatland by Gong, Yu, Wu, Jianghua, Vogt, Judith, Le, Thuong, Yuan, Tao

“…Climate warming and vegetation composition change are expected to influence greenhouse gas emissions from boreal peatlands. However, the interactive effects of…”
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