Economic coordination evaluation of the ecological environment in mountain area affected by flood

被引：5

作者：

Wu R. ^{[1
]}

Zhao K. ^{[2
]}

机构：

[1] School of Management, Hefei University of Technology, Anhui

[2] Zhongcheng Group of Anhui Province, Anhui

来源：

Arabian Journal of Geosciences | 2021年 / 14卷 / 7期

关键词：

Coupling coordination; Economic coordination; Evaluation index; Flood disaster; Mountain ecological environment;

D O I：

10.1007/s12517-021-06969-9

中图分类号：

学科分类号：

摘要：

In order to promote the economic development of the ecological environment in mountainous areas, the coordinated evolution of economic development and ecological environment system from 2014 to 2019 was evaluated. Under the influence of flood disaster, the evaluation index is constructed, the index data standardization is established, the evaluation index value of the ecological environment and economic coordination in the mountain area is obtained, the index weight is determined and calculated, the coordination mechanism between economic growth and ecological environment system is analyzed, and the ecological environment and economic coordination evaluation in mountain area under the influence of flood disaster is completed. The results show that the economic system development index, ecological environment system development index, and comprehensive system development index of mountainous areas are on the rise, and ecological environment protection has achieved certain results. © 2021, Saudi Society for Geosciences.

引用

共 11 条

[1] Aerts J.C.J.H., Botzen W.J., Clarke K.C., Integrating human behaviour dynamics into flood disaster risk assessment, Nat Clim Chang, 8, 3, pp. 193-199, (2018)
[2] Cheng C., Liu Y., Chen Y., Liu Y., Zhang Y., Shen S., Diagnosing cropland’s allowable range and spatial allocation in China’s typical mountainous plateau area: an evaluation framework based on ecological carrying capacity, Sci Total Environ, 685, 1, pp. 1255-1268, (2019)
[3] Handayani W., Fisher M.R., Rudiarto I., Sih S.J., Foley D., Operationalizing resilience: a content analysis of flood disaster planning in two coastal cities in Central Java, Indonesia, Int J Disaster Risk Reduct, 15, 12, pp. 36-49, (2019)
[4] Jonathan A., Owolabi M.T., Olatunji I.B., Economic analysis of the effect of flood disaster on food security of arable farming households in Southern Guinea Savanna Zone, Nigeria, J Agric Food Sci, 18, 1, pp. 60-70, (2020)
[5] Kumar N., Paul A.K., Triggering Lewis acidic nature through the variation of coordination environment of Cd-centers in 2D-coordination polymers, Inorg Chem, 59, 2, pp. 125-131, (2020)
[6] Panteras G., Cervone G., Enhancing the temporal resolution of satellite-based flood extent generation using crowdsourced data for disaster monitoring, Int J Remote Sens, 39, 6, pp. 1459-1474, (2018)
[7] Syverson D.D., Etschmann B., Liu W., Oxidation state and coordination environment of Pb in U-bearing minerals, Geochim Cosmochim Acta, 265, 9, pp. 109-131, (2019)
[8] Vieira L.C., Da Silva D.K.A., Da Silva I.R., Goncalves C.M.A., Daniele M.A., Oehl F., Ecological aspects of arbuscular mycorrhizal fungal communities in different habitat types of a Brazilian mountainous area, Ecol Res, 34, 1, pp. 182-192, (2019)
[9] Wang Z., Liang L., Sun Z., Wang X., Spatiotemporal differentiation and the factors influencing urbanization and ecological environment synergistic effects within the Beijing-Tianjin-Hebei urban agglomeration, J Environ Manag, 243, 1, pp. 227-239, (2019)
[10] Yusop Z., Aris A., Alias N.E., Improving flood management, prediction and monitoring volume 20 (Case studies in Asia) |, Adaptation Strategies for Flood Mitigation in Pahang River Basin., 20, 12, pp. 1-12, (2018)

← 1 2 →