Diurnal, seasonal and annual variation in net ecosystem CO2 exchange of an alpine shrubland on Qinghai-Tibetan plateau

	Diurnal, seasonal and annual variation in net ecosystem CO2 exchange of an alpine shrubland on Qinghai-Tibetan plateau
	Zhao, Liang ; Li, Yingnian ; Xu, Shixiao ; Zhou, Huakun ; Gu, Song ; Yu, Guirui ; Zhao, Xinquan
刊名	global change biology
	2006-10-01
卷号	12 期号:10 页码:1940-1953
关键词	ecosystem respiration net ecosystem carbon exchange precipitation Qinghai-Tibetan plateau soil moisture
合作状况	其它
中文摘要	thus far, grassland ecosystem research has mainly been focused on low-lying grassland areas, whereas research on high-altitude grassland areas, especially on the carbon budget of remote areas like the qinghai-tibetan plateau is insufficient. to address this issue, flux of co2 were measured over an alpine shrubland ecosystem (37 degrees 36'n, 101 degrees 18'e; 325 above sea level [a. s. l.]) on the qinghai-tibetan plateau, china, for 2 years (2003 and 2004) with the eddy covariance method. the vegetation is dominated by formation potentilla fruticosa l. the soil is mol-cryic cambisols. to interpret the biotic and abiotic factors that modulate co2 flux over the course of a year we decomposed net ecosystem co2 exchange (nee) into its constituent components, and ecosystem respiration (r-eco). results showed that seasonal trends of annual total biomass and nee followed closely the change in leaf area index. integrated nee were -58.5 and -75.5 g c m(-2), respectively, for the 2003 and 2004 years. carbon uptake was mainly attributed from june, july, august, and september of the growing season. in july, nee reached seasonal peaks of similar magnitude (4-5 g c m(-2) day(-1)) each of the 2 years. also, the integrated night-time nee reached comparable peak values (1.5-2 g c m(-2) day(-1)) in the 2 years of study. despite the large difference in time between carbon uptake and release (carbon uptake time < release time), the alpine shrubland was carbon sink. this is probably because the ecosystem respiration at our site was confined significantly by low temperature and small biomass and large day/night temperature difference and usually soil moisture was not limiting factor for carbon uptake. in general, r-eco was an exponential function of soil temperature, but with season-dependent values of q(10). the temperature-dependent respiration model failed immediately after rain events, when large pulses of r-eco were observed. thus, for this alpine shrubland in qinghai-tibetan plateau, the timing of rain events had more impact than the total amount of precipitation on ecosystem r-eco and nee.
英文摘要	thus far, grassland ecosystem research has mainly been focused on low-lying grassland areas, whereas research on high-altitude grassland areas, especially on the carbon budget of remote areas like the qinghai-tibetan plateau is insufficient. to address this issue, flux of co2 were measured over an alpine shrubland ecosystem (37 degrees 36'n, 101 degrees 18'e; 325 above sea level [a. s. l.]) on the qinghai-tibetan plateau, china, for 2 years (2003 and 2004) with the eddy covariance method. the vegetation is dominated by formation potentilla fruticosa l. the soil is mol-cryic cambisols. to interpret the biotic and abiotic factors that modulate co2 flux over the course of a year we decomposed net ecosystem co2 exchange (nee) into its constituent components, and ecosystem respiration (r-eco). results showed that seasonal trends of annual total biomass and nee followed closely the change in leaf area index. integrated nee were -58.5 and -75.5 g c m(-2), respectively, for the 2003 and 2004 years. carbon uptake was mainly attributed from june, july, august, and september of the growing season. in july, nee reached seasonal peaks of similar magnitude (4-5 g c m(-2) day(-1)) each of the 2 years. also, the integrated night-time nee reached comparable peak values (1.5-2 g c m(-2) day(-1)) in the 2 years of study. despite the large difference in time between carbon uptake and release (carbon uptake time < release time), the alpine shrubland was carbon sink. this is probably because the ecosystem respiration at our site was confined significantly by low temperature and small biomass and large day/night temperature difference and usually soil moisture was not limiting factor for carbon uptake. in general, r-eco was an exponential function of soil temperature, but with season-dependent values of q(10). the temperature-dependent respiration model failed immediately after rain events, when large pulses of r-eco were observed. thus, for this alpine shrubland in qinghai-tibetan plateau, the timing of rain events had more impact than the total amount of precipitation on ecosystem r-eco and nee.
学科主题	生物科学
WOS标题词	science & technology ; life sciences & biomedicine
类目[WOS]	biodiversity conservation ; ecology ; environmental sciences
研究领域[WOS]	biodiversity & conservation ; environmental sciences & ecology
关键词[WOS]	carbon-dioxide exchange ; native tallgrass prairie ; soil respiration ; water-vapor ; interannual variability ; temperate grassland ; forest ; flux ; energy ; meadow
收录类别	SCI
语种	英语
WOS记录号	WOS:000240561000010
公开日期	2009-12-08
内容类型	期刊论文
源URL	[http://ir.nwipb.ac.cn/handle/363003/1317]
专题	西北高原生物研究所_中国科学院西北高原生物研究所
作者单位	1.Chinese Acad Sci, NW Plateau Inst Biol, Qinghai 810001, Peoples R China 2.Inst Geog Sci & nat Resources Res, Beijing 100101, Peoples R China
推荐引用方式 GB/T 7714	Zhao, Liang,Li, Yingnian,Xu, Shixiao,et al. Diurnal, seasonal and annual variation in net ecosystem CO2 exchange of an alpine shrubland on Qinghai-Tibetan plateau[J]. global change biology,2006,12(10):1940-1953.
APA	Zhao, Liang.,Li, Yingnian.,Xu, Shixiao.,Zhou, Huakun.,Gu, Song.,...&Zhao, Xinquan.(2006).Diurnal, seasonal and annual variation in net ecosystem CO2 exchange of an alpine shrubland on Qinghai-Tibetan plateau.global change biology,12(10),1940-1953.
MLA	Zhao, Liang,et al."Diurnal, seasonal and annual variation in net ecosystem CO2 exchange of an alpine shrubland on Qinghai-Tibetan plateau".global change biology 12.10(2006):1940-1953.