Fluxes of methane, carbon dioxide and nitrous oxide in an alpine wetland and an alpine grassland of the Tianshan Mountains, China

Methane (OH4), carbon dioxide (CO2) and nitrous oxide (N2O) are known to be major greenhouse gases that contribute to global warming. To identify the flux dynamics of these greenhouse gases is, therefore, of great significance. In this paper, we conducted a comparative study on an alpine grassland a...

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Bibliographic Details
Published inJournal of arid land Vol. 6; no. 6; pp. 717 - 724
Main Authors He, GuiXiang, Li, KaiHui, Liu, XueJun, Gong, YanMing, Hu, YuKun
Format Journal Article
LanguageEnglish
Published Heidelberg Science Press 01.12.2014
Subjects
Earth and Environmental Science
Geography
Physical Geography
Plant Ecology
Sustainable Development
中国
二氧化碳
氮氧化物
温室气体
甲烷
通量
高山湿地
高山草原
alpine wetland
alpine grassland
CH
Tianshan Mountains
CO
N
O
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Summary:Methane (OH4), carbon dioxide (CO2) and nitrous oxide (N2O) are known to be major greenhouse gases that contribute to global warming. To identify the flux dynamics of these greenhouse gases is, therefore, of great significance. In this paper, we conducted a comparative study on an alpine grassland and alpine wetland at the Bayinbuluk Grassland Eco-system Research Station, Chinese Academy of Sciences. By using opaque, static, manual stainless steel chambers and gas chromatography, we measured the fluxes of CH4, N2O and CO2 from the grassland and wetland through an in situ monitoring study from May 2010 to October 2012. The mean flux rates of CH4, N2O and CO2 for the experimental alpine wetland in the growing season (from May to October) were estimated at 322.4 μg/(m2.h), 16.7 μg/(m2.h) and 76.7 mg/(m2.h), respectively; and the values for the alpine grassland were -88.2 μg/(m2.h), 12.7 μg/(m2.h), 57.3 mg/(m2.h), respectively. The gas fluxes showed large seasonal and annual variations, suggesting weak fluxes in the non-growing season. The relationships between these gas fluxes and environmental factors were analyzed for the two alpine ecosystems. The results showed that air temperature, precipitation, soil temperature and soil moisture can greatly influence the fluxes of CH4, N2O and CO2, but the alpine grassland and alpine wetland showed different feedback mechanisms under the same climate and environmental conditions.
Bibliography:Methane (OH4), carbon dioxide (CO2) and nitrous oxide (N2O) are known to be major greenhouse gases that contribute to global warming. To identify the flux dynamics of these greenhouse gases is, therefore, of great significance. In this paper, we conducted a comparative study on an alpine grassland and alpine wetland at the Bayinbuluk Grassland Eco-system Research Station, Chinese Academy of Sciences. By using opaque, static, manual stainless steel chambers and gas chromatography, we measured the fluxes of CH4, N2O and CO2 from the grassland and wetland through an in situ monitoring study from May 2010 to October 2012. The mean flux rates of CH4, N2O and CO2 for the experimental alpine wetland in the growing season (from May to October) were estimated at 322.4 μg/(m2.h), 16.7 μg/(m2.h) and 76.7 mg/(m2.h), respectively; and the values for the alpine grassland were -88.2 μg/(m2.h), 12.7 μg/(m2.h), 57.3 mg/(m2.h), respectively. The gas fluxes showed large seasonal and annual variations, suggesting weak fluxes in the non-growing season. The relationships between these gas fluxes and environmental factors were analyzed for the two alpine ecosystems. The results showed that air temperature, precipitation, soil temperature and soil moisture can greatly influence the fluxes of CH4, N2O and CO2, but the alpine grassland and alpine wetland showed different feedback mechanisms under the same climate and environmental conditions.
65-1278/K
alpine wetland; alpine grassland; CH4; N2O; CO2; Tianshan Mountains
ISSN:1674-6767
2194-7783
DOI:10.1007/s40333-014-0070-0