Quantitative evaluation of human activities affecting an interconnected river system network

Qiting ZUO; Guotao CUI

doi:10.11821/dlxb202007011

[1] et al[J], 26, 523-530(2011).

[2] et al[J], 118-128(2016).

[3] [J], 30, 1-5(2012).

[4] [J], 31, 104-112(2014).

[5] et al[J], 26, 1-8(2014).

[6] et al[J], 50, 670-678(2019).

[7] [J], 40, 49-53, 57(2018).

[8] et alDeveloping a comprehensive evaluation method for interconnected river system network assessment: A case study in Tangxun Lake group[J]. Journal of Geographical Sciences, 29, 71-87(2019).

[9] et alA new approach for the health assessment of river systems based on interconnected water system networks[J]. Journal of Resources and Ecology, 8, 251-258(2017).

[10] [J], 53-57(2017).

[11] et al[J], 27, 167-178(2018).

[12] et alDeveloping a comprehensive evaluation method for Interconnected River System Network assessment: A case study in Tangxun Lake group[J]. Journal of Geographical Sciences, 29, 389-405(2019).

[13] et alApplication of a fuzzy two-stage chance constrained stochastic programming model for optimization of the ecological services value of the interconnected river system network project in the western Jilin Province, China[J]. Water, 11, 68(2019).

[14] Dynamics of landscape pattern and connectivity of wetlands in western Jilin Province, China[J]. Environment, Development and Sustainability, 1-12(2019).

[15] et al[J], 73, 104-114(2018).

[16] et al[J], 73, 115-128(2018).

[17] et al[J], 74, 557-571(2019).

[18] [J], 43, 12-17(2012).

[19] et al[J], 695-700(2007).

[20] [J], 20, 44-50(2001).

[21] Conceptual assessment of (dis)connectivity and its application to the Ganga River dispersal system[J]. Geomorphology, 118, 349-358(2010).

[22] The four dimensional nature of lotic ecosystems[J]. Journal of the North American Benthological Society, 8, 2-8(1989).

[23] et alHumans transforming the global water system[J]. Eos, Transactions American Geophysical Union, 85, 509-514(2004).

[24] The human role in changing river channels[J]. Geomorphology, 79, 172-191(2006).

[25] et al[J], 31, 26-31(2012).

[26] [J], 39, 440-447(2008).

[27] [J], 45, 785-792, 800(2014).

[28] [J], 1, 326-333(2012).

[29] ZuoQiting.Harmony Theory: Theory Method Application. Beijing: Science Press, 2012. [ 左其亭. 和谐论:理论·方法·应用. 北京: 科学出版社, 2012.] [左其亭. 和谐论: 理论·方法·应用. 北京: 科学出版社, 2012.]

[30] [J], 29, 59-64(2010).

[31] GuoXiao, FangGuohua.Eco-environment Impact Assessment for Inter-basin Water Transfer. Beijing: China Water & Power Press, 2010. [ 郭潇, 方国华. 跨流域调水生态环境影响评价研究. 北京: 中国水利水电出版社, 2010.] [郭潇, 方国华. 跨流域调水生态环境影响评价研究. 北京: 中国水利水电出版社, 2010.]

[32] [J], 530-534(2005).

[33] [J], 10-14(2002).

[34] et al[J], 21-23(2013).

[35] et alHydro-ecological impact of water conservancy projects in the Haihe River Basin[J]. Acta Oecologica, 44, 67-74(2011).