%0 Journal Article
%T Biomass carbon stocks and their changes in northern China＊s grasslands during 1982每2006
%A WenHong Ma
%A JingYun Fang
%A YuanHe Yang
%A Anwar Mohammat
%J Science China Life Sciences
%@ 1869-1889
%D 2010
%I 
%R 10.1007/s11427-010-4020-6
%X Grassland covers approximately one-third of the area of China and plays an important role in the global terrestrial carbon (C) cycle. However, little is known about biomass C stocks and dynamics in these grasslands. During 2001每2005, we conducted five consecutive field sampling campaigns to investigate above-and below-ground biomass for northern China＊s grasslands. Using measurements obtained from 341 sampling sites, together with a NDVI (normalized difference vegetation index) time series dataset over 1982每2006, we examined changes in biomass C stock during the past 25 years. Our results showed that biomass C stock in northern China＊s grasslands was estimated at 557.5 Tg C (1 Tg=1012 g), with a mean density of 39.5 g C m 2 for above-ground biomass and 244.6 g C m 2 for below-ground biomass. An increasing rate of 0.2 Tg C yr 1 has been observed over the past 25 years, but grassland biomass has not experienced a significant change since the late 1980s. Seasonal rainfall (January每July) was the dominant factor driving temporal dynamics in biomass C stock; however, the responses of grassland biomass to climate variables differed among various grassland types. Biomass in arid grasslands (i.e., desert steppe and typical steppe) was significantly associated with precipitation, while biomass in humid grasslands (i.e., alpine meadow) was positively correlated with mean January-July temperatures. These results suggest that different grassland ecosystems in China may show diverse responses to future climate changes.
%K above-ground biomass
%K alpine grasslands
%K below-ground biomass
%K carbon stock
%K NDVI
%K temperate grasslands
%U http://link.springer.com/article/10.1007/s11427-010-4020-6