Li-Dong Shen
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Explore the profile of Li-Dong Shen including associated specialties, affiliations and a list of published articles.
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Articles
34
Citations
288
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Recent Articles
1.
Tian M, Shen L, Su W
Ying Yong Sheng Tai Xue Bao
. 2024 Oct;
35(8):2267-2281.
PMID: 39419812
Paddy fields are recognized as significant sources of methane (CH) emissions, playing a pivotal role in global climate change. Elevated atmospheric carbon dioxide (CO) concentrations (e[CO]) exert a profound influence...
2.
Yang W, Agathokleous E, Wu J, Chen H, Wu R, Huang H, et al.
Environ Sci Technol
. 2024 Oct;
58(42):18723-18732.
PMID: 39396191
Methane emissions from paddy fields can increase under future warming scenarios. Nevertheless, a comprehensive comparison of the temperature sensitivity of methane-related microbial processes remains elusive. Here, we revealed that the...
3.
Yang W, Shen L, Bai Y
Environ Res
. 2022 Dec;
219:115174.
PMID: 36584837
Freshwater wetlands, paddy fields, inland aquatic ecosystems and coastal wetlands are recognized as important sources of atmospheric methane (CH). Currently, increasing evidence shows the potential importance of the anaerobic oxidation...
4.
Ren B, Shen L, Liu X, Jin J, Huang H, Tian M, et al.
J Environ Manage
. 2022 Oct;
325(Pt A):116597.
PMID: 36308785
Currently, the influence of elevated atmospheric CO concentration (eCO) on ammonia oxidation to nitrite, the rate-limiting step of nitrification in paddy soil, is poorly known. Previous studies that simulate the...
5.
Huang H, Jin J, Shen L, Tian M, Liu X, Yang W, et al.
Ying Yong Sheng Tai Xue Bao
. 2022 Sep;
33(9):2441-2449.
PMID: 36131660
Nitrate-dependent anaerobic oxidation of methane (AOM) is a new pathway to reduce methane emissions from paddy ecosystems. The elevated atmospheric CO concentration can affect methane emissions from paddy ecosystems, but...
6.
Yang W, Wang W, Shen L, Bai Y, Liu X, Tian M, et al.
Sci Total Environ
. 2022 Jun;
838(Pt 3):156534.
PMID: 35679939
Nitrite-dependent anaerobic methane oxidation (n-damo), catalyzed by bacteria closely related to Candidatus Methylomirabilis oxyfera, links the global carbon and nitrogen cycles. Currently, the contribution of n-damo in controlling methane emissions...
7.
Tian M, Shen L, Liu X, Yang W, Jin J, Yang Y, et al.
Ying Yong Sheng Tai Xue Bao
. 2022 Feb;
33(1):239-247.
PMID: 35224946
Paddy fields are one of the most important methane sources, which have great impacts on climate change. The nitrite-dependent anaerobic methane oxidation, by NC10 phylum bacteria- Methylomirabilis oxyfera ()-like bacteria,...
8.
Shen L, Geng C, Ren B, Jin J, Huang H, Liu X, et al.
Microb Ecol
. 2022 Jan;
85(2):441-453.
PMID: 35098330
Candidatus Methanoperedens-like archaea, which can use multiple electron acceptors (nitrate, iron, manganese, and sulfate) for anaerobic methane oxidation, could play an important role in reducing methane emissions from freshwater wetlands....
9.
Tian M, Shen L, Liu X, Bai Y, Hu Z, Jin J, et al.
Sci Total Environ
. 2021 Sep;
801:149785.
PMID: 34467934
Nitrite-dependent anaerobic methane oxidation (n-damo) catalyzed by Candidatus Methylomirabilis oxyfera (M. oxyfera)-like bacteria is a new pathway for the regulation of methane emissions from paddy fields. Elevated atmospheric CO concentrations...
10.
Shen L, Yang Y, Liu J, Hu Z, Liu X, Tian M, et al.
Environ Pollut
. 2021 Jun;
286:117558.
PMID: 34119867
The elevated atmospheric CO concentration is well known to have an important effect on soil nutrient cycling. Ammonia oxidation, mediated by ammonia-oxidizing archaea (AOA) and ammonia-oxidizing bacteria (AOB), is the...