Aboveground net primary productivity of vegetation along a climate-related gradient in a Eurasian temperate grassland: spatiotemporal patterns and their relationships with climate factors

文献类型: 外文期刊

第一作者: Gao, Tian

作者: Gao, Tian;Zheng, Xiao;Gao, Tian;Xu, Bin;Yang, Xiuchun;Ma, Hailong;Yu, Haida;Yu, Qiangyi;Gao, Tian;Deng, Songqiu;Liu, Yuechen;Jin, Yunxiang;Li, Jinya

作者机构:

关键词: Temperate steppe;Aboveground net primary;productivity;Remote sensing;Spatiotemporal patterns;Growing season air temperature;Growing season;precipitation

期刊名称:ENVIRONMENTAL EARTH SCIENCES ( 影响因子:2.784; 五年影响因子:2.867 )

ISSN: 1866-6280

年卷期: 2017 年 76 卷 1 期

页码:

收录情况: SCI

摘要: Accurate assessments of spatiotemporal patterns in net primary productivity and their links to climate are important to obtain a deeper understanding of the function, stability and sustainability of grassland ecosystems. We combined a satellite-derived NDVI time-series dataset and field-based samples to investigate spatiotemporal patterns in aboveground net primary productivity (ANPP), and we examined the effect of growing season air temperate (GST) and precipitation (GSP) on these patterns along a climaterelated gradient in an eastern Eurasian grassland. Our results indicated that the ANPP fluctuated with no significant trend during 2001-2012. The spatial distribution of ANPP was heterogeneous and decreased from northeast to southwest. The interannual changes in ANPP were mainly controlled by year-to-year GSP; a strong correlation of interannual variability between ANPP and GSP was observed. Similarly, GSP strongly influenced spatial variations in ANPP, and the slopes of fitted linear functions of the GSP-ANPP relationship increased from arid temperate desert grassland to humid meadow grassland. An exponential function could be used to fit the GSP-ANPP relationship for the entire region. An improved moisture index that combines the effects of GST and GSP better explained the variations in ANPP compared with GSP alone. In comparisons with the previous studies, we found that the relationships between spatiotemporal variations in ANPP and climate factors were probably scale dependent. We imply that the quantity and spatial range of analyzed samples contribute to these different results. Multi-scale studies are necessary to improve our knowledge of the response of grassland ANPP to climate change.

分类号:

  • 相关文献

[1]Response of N2O emission to water and nitrogen addition in temperate typical steppe soil in Inner Mongolia, China. Liu, Xinchao,Dong, Yunshe,Qi, Yuchun,Peng, Qin,He, Yating,Sun, Liangjie,Jia, Junqiang,Guo, Shufang,Cao, Congcong,Yan, Zhongqing,Sun, Liangjie,Jia, Junqiang,Guo, Shufang,Cao, Congcong,Yan, Zhongqing,Liu, Xinchao,He, Yating,Liu, Xinchao,Liu, Xinchao,Liu, Xuehua.

[2]Effects of water and nitrogen addition on vegetation carbon pools in a semi-arid temperate steppe. Jia, Junqiang,Dong, Yunshe,Qi, Yuchun,Peng, Qin,Liu, Xinchao,Sun, Liangjie,Guo, Shufang,He, Yunlong,Cao, Congcong,Yan, Zhongqing,Jia, Junqiang,Guo, Shufang,He, Yunlong,Cao, Congcong,Yan, Zhongqing,Liu, Xinchao,Sun, Liangjie. 2016

[3]Cooperation-88: A High Yielding, Multi-Purpose, Late Blight Resistant Cultivar Growing in Southwest China. VanderZaag, Peter,Li, Canhui,Li, Canhui,Wang, Jun,Dao Huy Chien,Chujoy, Enrique,Song, Bofu.

[4]A novel soil manganese mechanism drives plant species loss with increased nitrogen deposition in a temperate steppe. Tian, Qiuying,Liu, Nana,Bai, Wenming,Li, Linghao,Lu, Peng,Gao, Yan,Yang, An,Wang, Tianzuo,Li, Xin,Han, Xingguo,Zhang, Wen-Hao,Tian, Qiuying,Zhang, Wen-Hao,Liu, Nana,Chen, Jiquan,Chen, Jiquan,Reich, Peter B.,Reich, Peter B.,Yu, Qiang,Cheng, Weixin,Wang, Zhengwen,Han, Xingguo,Yu, Qiang,Smith, Melinda D.,Knapp, Alan K.,Yu, Qiang,Smith, Melinda D.,Guo, Dali,Cheng, Weixin,Ma, Yibing.

[5]Differential responses of short-term soil respiration dynamics to the experimental addition of nitrogen and water in the temperate semi-arid steppe of Inner Mongolia, China. Qi, Yuchun,Liu, Xinchao,Dong, Yunshe,Peng, Qin,Sun, Liangjie,Jia, Junqiang,Cao, Congcong,Liu, Xinchao,Sun, Liangjie,Jia, Junqiang,Cao, Congcong,He, Yating.

[6]Observed Climatic Variations in the Growing Season of Field Crops in Northeast China from 1992 to 2012. Liu Yang,Jiang Wen-lai,Xiao Bi-lin,Liu Yang,Jiang Wen-lai,Xiao Bi-lin,Lei Bo. 2014

[7]Response of Potato Tuber Number and Spatial Distribution to Plant Density in Different Growing Seasons in Southwest China. Wan, Nian-Xin,Zhong, Lei,Zhou, Shao-Meng,Yuan, Ji-Chao,Wang, Liang-Jun,He, Wei. 2016

[8]Application of Bio-Organic Fertilizer Significantly Affected Fungal Diversity of Soils. Luo, Jia,Ran, Wei,Hu, Jiang,Yang, Xingming,Xu, Yangchun,Shen, Qirong,Luo, Jia.

[9]Comparisons of Yield, Water Use Efficiency, and Soil Microbial Biomass as Affected by the System of Rice Intensification. Zhao, Limei,Wu, Lianghuan,Animesh, Sarkar,Zhao, Limei,Wu, Lianghuan,Animesh, Sarkar,Zhao, Limei,Li, Yongshan,Zhu, Defeng,Uphoff, Norman.

[10]Contributions of Different N Sources to Crop N Nutrition in a Chinese Rice Field. Chen Yi,Tang Xu,Yang Sheng-Mao,Wu Chun-Yan,Wang Jia-Yu.

[11]Interactions between non-flooded mulching cultivation and varying nitrogen inputs in rice-wheat rotations. Jiang, RF,Liu, XJ,Zhang, FS,Lu, SH,Zeng, XZ,Christie, P. 2005

[12]EFFECT OF EXCESSIVE SOIL MOISTURE STRESS ON SWEET SORGHUM: PHYSIOLOGICAL CHANGES AND PRODUCTIVITY. Zhang, Fei,Wang, Yanqiu,Yu, Huilin,Zhu, Kai,Zhang, Zhipeng,Zou, Feng Luand Jianqiu. 2016

[13]A Quantification of the Effects of Erosion on the Productivity of Purple Soils. Zhao Li,Du Shuhan,Liu Gangcai,Zhao Li,Du Shuhan,Liu Gangcai,Zhao Li,Du Shuhan,Jin Jie. 2012

[14]Effect of urea multinutritional molasses block supplementation on liveweight change of yak calves and productive and reproductive performances of yak cows. Dong, SK,Long, RJ,Kang, MY,Pu, XP,Guo, YJ. 2003

[15]The secondary production of macrobenthos in Nature Reserve of juvenile Chinese sturgeon Acipenser sinensis and the adjacent waters of Yangtze Estuary. Luo, Minbo,Zhuang, Ping,Wang, Yunlong,Shen, Xinqiang,Zhang, Tao,Zhu, Jiangxing. 2008

[16]Long-term organic-inorganic fertilization ensures great soil productivity and bacterial diversity after natural-to-agricultural ecosystem conversion. Xun, Weibing,Xu, Zhihui,Li, Wei,Ren, Yi,Ran, Wei,Shen, Qirong,Zhang, Ruifu,Xun, Weibing,Zhang, Ruifu,Huang, Ting,Wang, Boren. 2016

[17]Spatial-temporal evolution pattern of agricultural productivity in northwestern sichuan plateau. Su Chun-jiang,Wang Xiao-lan,Peng Li,Wang Xiao-lan,Sun Lian,Li Ping,Fang Yan,Liu Wei. 2013

[18]Which policy would work better for improved soil fertility management in sub-Saharan Africa, fertilizer subsidies or carbon credits?. Marenya, Paswel,Nkonya, Ephraim,Kato, Edward,Xiong, Wei.

[19]Maize/faba bean intercropping with rhizobia inoculation enhances productivity and recovery of fertilizer P in a reclaimed desert soil. Christie, Peter,Li, Long,Mei, Pei-Pei,Christie, Peter,Li, Long,Mei, Pei-Pei,Christie, Peter,Li, Long,Gui, Lin-Guo,Huang, Jian-Cheng,Wang, Ping,Long, Hui-Ying,Christie, Peter.

[20]Global-scale modelling of future changes in sown areas of major crops. Wu, Wenbin,Shibasaki, Ryosuke,Yang, Peng,Tan, Guoxin,Matsumura, Kan-ichiro,Sugimoto, Kenji.

作者其他论文 更多>>

微信小程序