Inter-annual variability of NDVI in response to long-term warming and fertilization in wet sedge and tussock tundra

被引:0
作者
Natalie T. Boelman
Marc Stieglitz
Kevin L. Griffin
Gaius R. Shaver
机构
[1] Columbia University,Lamont
[2] Carnegie Institution of Washington,Doherty Earth Observatory
[3] Georgia Institute of Technology,Department of Global Ecology
[4] The Ecosystems Center,Georgia School of Civil and Environmental Engineering and School of Earth and Atmospheric Sciences
来源
Oecologia | 2005年 / 143卷
关键词
Aboveground biomass; Arctic tundra; Normalized difference vegetation index;
D O I
暂无
中图分类号
学科分类号
摘要
This study explores the relationship between the normalized difference vegetation index (NDVI) and aboveground plant biomass for tussock tundra vegetation and compares it to a previously established NDVI–biomass relationship for wet sedge tundra vegetation. In addition, we explore inter-annual variation in NDVI in both these contrasting vegetation communities. All measurements were taken across long-term experimental treatments in wet sedge and tussock tundra communities at the Toolik Lake Long Term Ecological Research (LTER) site, in northern Alaska. Over 15 years (for wet sedge tundra) and 14 years (for tussock tundra), N and P were applied in factorial experiments (N, P and N+P), air temperature was increased using greenhouses with and without N+P fertilizer, and light intensity was reduced by 50% using shade cloth. during the peak growing seasons of 2001, 2002, and 2003, NDVI measurements were made in both the wet sedge and tussock tundra experimental treatment plots, creating a 3-year time series of inter-annual variation in NDVI. We found that: (1) across all tussock experimental tundra treatments, NDVI is correlated with aboveground plant biomass (r2=0.59); (2) NDVI–biomass relationships for tussock and wet sedge tundra communities are community specific, and; (3) NDVI values for tussock tundra communities are typically, but not always, greater than for wet sedge tundra communities across all experimental treatments. We suggest that differences between the response of wet sedge and tussock tundra communities in the same experimental treatments result from the contrasting degree of heterogeneity in species and functional types that characterize each of these Arctic tundra vegetation communities.
引用
收藏
页码:588 / 597
页数:9
相关论文
共 181 条
[1]  
Billings WD(1987)Carbon balance of Alaskan tundra and taiga ecosystems: past, present, and future Q Sci Rev 6 165-177
[2]  
Billings WD(1968)The ecology of arctic and alpine plants Biol Rev 43 481-530
[3]  
Mooney HA(2003)Response of NDVI, biomass, and ecosystem gas exchange to long-term warming and fertilization in wet sedge tundra Oecologia 135 414-421
[4]  
Boelman NT(1997)The response of global terrestrial ecosystems to interannual temperature variability Science 278 870-872
[5]  
Stieglitz M(2001)Developmental plasticity allows Betula nana to dominate tundra subjected to an altered environment Ecology 82 18-32
[6]  
Rueth HM(1995)Responses of arctic tundra to experimental and observed changes in climate Ecology 76 694-711
[7]  
Sommerkorn M(1991)Biogeochemical diversity along a riverside toposequence in Arctic Alaska Ecol Monogr 61 415-435
[8]  
Griffin KL(1991)Northern peatlands: role in the carbon cycle and probable responses to climatic warming Ecol Appl 1 182-195
[9]  
Shaver GR(2002)Dry heath arctic tundra responses to long-term nutrient and light manipulation Arc Antarc Alp Res 34 211-218
[10]  
Gamon JA(1987)Evaluating North American net primary productivity with satellite observations Adv Space Res 7 165-174