Warming decreased and grazing increased plant uptake of amino acids in an alpine meadow

Organic nitrogen (N) uptake by plants has been recognized as a significant component of terrestrial N cycle. Several studies indicated that plants have the ability to switch their preference between inorganic and organic forms of N in diverse environments; however, research on plant community respon...

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Bibliographic Details
Main Authors: Ma, Shuang, Zhu, Xiaoxue, Zhang, Jing, Zhang, Lirong, Che, Rongxiao, Wang, Fang, Liu, Hanke, Niu, Haishan, Wang, Shiping, Cui, Xiaoyong
Format: Article in Journal/Newspaper
Language:English
Published: 2015
Subjects:
C-13-n-15-glycine
Amino Acid Uptake
Grazing
Plant Community
Qinghai-tibetan Plateau
Warming
Science & Technology
Life Sciences & Biomedicine
SOIL MICROBIAL BIOMASS
ORGANIC NITROGEN
TIBETAN PLATEAU
CARBON AVAILABILITY
INORGANIC NITROGEN
EXTRACTION METHOD
N AVAILABILITY
BOREAL FORESTS
ARCTIC TUNDRA
ROOT UPTAKE
Environmental Sciences & Ecology
Ecology
Arctic
Tundra
Online Access:http://210.75.249.4/handle/363003/5512
Description
Summary:Organic nitrogen (N) uptake by plants has been recognized as a significant component of terrestrial N cycle. Several studies indicated that plants have the ability to switch their preference between inorganic and organic forms of N in diverse environments; however, research on plant community response in organic nitrogen uptake to warming and grazing is scarce. Here, we demonstrated that organic N uptake by an alpine plant community decreased under warming with C-13-N-15-enriched glycine addition method. After 6years of treatment, warming decreased plant organic N uptake by 37% as compared to control treatment. Under the condition of grazing, warming reduced plant organic N uptake by 44%. Grazing alone significantly increased organic N absorption by 15%, whereas under warming condition grazing did not affect organic N uptake by the Kobresia humilis community on Tibetan Plateau. Besides, soil NO3-N content explained more than 70% of the variability observed in glycine uptake, and C:N ratio in soil dissolved organic matter remarkably increased under warming treatment. These results suggested warming promoted soil microbial activity and dissolved organic N mineralization. Grazing stimulated organic N uptake by plants, which counteracted the effect of warming. Organic nitrogen (N) uptake by plants has been recognized as a significant component of terrestrial N cycle. Several studies indicated that plants have the ability to switch their preference between inorganic and organic forms of N in diverse environments; however, research on plant community response in organic nitrogen uptake to warming and grazing is scarce. Here, we demonstrated that organic N uptake by an alpine plant community decreased under warming with C-13-N-15-enriched glycine addition method. After 6years of treatment, warming decreased plant organic N uptake by 37% as compared to control treatment. Under the condition of grazing, warming reduced plant organic N uptake by 44%. Grazing alone significantly increased organic N absorption by 15%, ...

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