Evaluation of changes in ecological security in China's Qinghai Lake Basin from 2000 to 2013 and the relationship to land use and climate change

文献类型: 外文期刊

第一作者: Wang, Hong

作者: Wang, Hong;Li, Xiaobing;Yu, Feng;Long, Huiling

作者机构:

关键词: Qinghai Lake Basin;Ecological security;Climate change;Land use;China

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: 2014 年 72 卷 2 期

页码:

收录情况: SCI

摘要: Ecological security evaluation is an important way to identify the need for improvement in a watershed and to assess the degree of regional sustainable development. Using a driver-pressure-state-exposure-response model, a comprehensive system of ecological security indicators was developed, and it was demonstrated in a case study of the main ecological problems facing the Qinghai Lake Basin. Indicators of the status of the natural ecological environment, socioeconomic pressure, and the degree of environmental damage were chosen to develop the model, and comprehensively evaluated the basin's ecological security in 2000, 2004, 2009, and 2013 to reveal changes in the ecological security in response to changing climate and land use. The overall ecological security of the basin improved from 2000 to 2013, with considerable restoration and reconstruction of the ecosystem. From 2000 to 2004, environmental deterioration increased slightly as a result of pollution caused by human activities, excess land reclamation for agriculture, land desertification, and grassland degeneration. However, the obvious effect of ecological protection policies, such as conversion of farmland into grassland and stall feeding of livestock instead of grazing, led to improvement of the ecological environment from 2004 to 2013. Ecological security in the basin increased with increasing precipitation during the study period.

分类号:

  • 相关文献

[1]Projecting regional climate and cropland changes using a linked biogeophysical-socioeconomic modeling framework: 1. Model description and an equilibrium application over West Africa. Wang, Guiling,Ahmed, Kazi Farzan,Yu, Miao,Ji, Zhenming,You, Liangzhi,You, Liangzhi,Yu, Miao,Pal, Jeremy,Ji, Zhenming. 2017

[2]Climate change and glacier area variations in China during the past half century. Tian Hong-zhen,He Ying-bin,Tian Hong-zhen,Yang Tai-bao,Lv Hui,Li Cheng-xiu,Li Cheng-xiu,He Ying-bin. 2016

[3]Adaptation of agriculture to warming in Northeast China. Yang, Xiu,Lin, Erda,Ma, Shiming,Ju, Hui,Guo, Liping,Xiong, Wei,Li, Yue,Xu, Yinlong.

[4]Potential impacts of climate change and climate variability on China's rice yield and production. Xiong, Wei,Lin, Erda,Xiong, Wei,Lin, Erda,Conway, Declan,Holman, Ian.

[5]Geographic Variation of Rice Yield Response to Past Climate Change in China. Yang Jie,Yang Xiao-guang,Xiong Wei,Cao Yang,Feng Ling-zhi,Xiong Wei,Xiong Wei. 2014

[6]Climate Change Modelling and Its Roles to Chinese Crops Yield. Ju Hui,Lin Er-da,Jiang Shuai,Ju Hui,Lin Er-da,Wheeer, Tim,Challinor, Andrew. 2013

[7]Future cereal production in China: The interaction of climate change, water availability and socio-economic scenarios. Xiong Wei,Erda, Lin,Xu Yinlong,Ju Hui,Xiong Wei,Erda, Lin,Xu Yinlong,Ju Hui,Declan, Conway,Jiang Jinhe,Ian, Holman,Li Yan. 2009

[8]Potential benefits of climate change for crop productivity in China. Yang, Xiaoguang,Liu, Zhijuan,Zhao, Jin,Li, Kenan,Ye, Qing,Li, Yong,Lv, Shuo,Chen, Fu,Zhang, Hailin,Lin, Xiaomao,Yang, Peng,Wu, Wenbin,Li, Zhengguo,Tang, Huajun,Yang, Peng,Wu, Wenbin,Li, Zhengguo,Tang, Huajun,Lal, Rattan.

[9]Untangling relative contributions of recent climate and CO2 trends to national cereal production in China. Xiong, Wei,Lin, Erda,Li, Yue,Holman, Ian,Conway, Declan,Wu, Wenbin. 2012

[10]Global warming, rice production, and water use in China: Developing a probabilistic assessment. Sakamoto, Toshihiro,Yokozawa, Masayuki,Tao, Fulu,Tao, Fulu,Hayashi, Yousay,Zhang, Zhao. 2008

[11]Climate Change Impact and Its Contribution Share to Paddy Rice Production in Jiangxi, China. Li Wen-juan,Tang Hua-jun,Qin Zhi-hao,You Fei,Wang Xiu-fen,Tang Hua-jun,Qin Zhi-hao,Chen Chang-li,Ji jian-hua,Liu Xiu-mei. 2014

[12]Agriculture under Climate Change in China: Mitigate the Risks by Grasping the Emerging Opportunities. Tian, Zhan,Liang, Zhuoran,Liang, Zhuoran,Sun, Laixiang,Zhong, Honglin,Sun, Laixiang,Fischer, Guenther,Qiu, Huanguang,Zhao, Sijian.

[13]Adaptation and Mitigation of Impact of Climate Change on Tropical Fruit Industry in China. Chen, Qiubo. 2012

[14]Effects of climate variability and change on Chinese agriculture: a review. Conway, Declan,Li, Yue,Xiong, Wei,Gao, Qingzhu,Wu, Yanjuan,Wan, Yunfan,Li, Yan,Zhang, Silong.

[15]China's water-energy nexus: greenhouse-gas emissions from groundwater use for agriculture. Wang, Jinxia,Zhang, Lijuan,Li, Yumin,Rothausen, Sabrina G. S. A.,Conway, Declan,Rothausen, Sabrina G. S. A.,Conway, Declan,Xiong, Wei,Holman, Ian P.. 2012

[16]Greenhouse gas mitigation in Chinese agriculture: Distinguishing technical and economic potentials. Wang, Wen,Guo, Liping,Lin, Erda,Wang, Wen,de Perthuis, Christian,Koslowski, Frank,Moran, Dominic,Nayak, Dali Rani,Smith, Pete,Saetnan, Eli,Ju, Xiaotang,Han, Guodong.

[17]Assessment of the ecological security in the three gorges reservoir area by using the ecological footprint method. Sun Hongyang,Wang Xiaolan,Liao Xiaoyong,Chen Zhijian,Wang Hai'e,Li Xianwei. 2012

[18]Study About Ecological Security Assessment of Beijing Valley Region Based on PSR Model-A Case Study of Puwa Valley Region in Fangshan District. Jiang, Cui-hong,Li, Hong,Li, Guang-yong,Guo, Ning,Zhang, Fan-Yan,Zhang, Xing-Wu,Shi, Wei. 2015

[19]Determination of optimum nitrogen application rates in Zhejiang Province, China, based on rice yields and ecological security. Li Yan,Chen Yi,Wu Chun-yan,Tang Xu,Ji Xiao-jiang. 2015

[20]Optimization of land use structure and spatial pattern for the semi-arid loess hilly-gully region in China. Gao, Qingzhu,Kang, Muyi,Jiang, Yuan,Gao, Qingzhu,Gao, Qingzhu,Xu, Hongmei,Yang, Jie. 2010

作者其他论文 更多>>

微信小程序