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Temporal and spatial evolution characteristics of land use and landscape pattern in key wetland areas of the West Liao River Basin, Northeast China

    Zhichun Wang Affiliation
    ; Huiying Zhao Affiliation
    ; Chunliang Zhao Affiliation

Abstract

The impact of the wetland ecosystem on arid and semi-arid areas is much higher than that in humid areas. It plays a more significant role in regulating climate, conserving water sources, purifying water bodies, and protecting biodiversity. The West Liao River Basin is located in a moderately temperate, semi-arid, and continental monsoon climatesensitive area, with a fragile ecological environment. Climate warming and drought have gradually caused dry-flow of some river sections in the basin, reduction in the water area, shrinking of wetlands, degradation of vegetation ecological function, and decline of biodiversity. Ultimately, the effect of ecological barriers is significantly weakened. The research of the temporal and spatial evolution of landscape patterns and their relationship with human activities in arid and semi-arid regions is of great significance for the protection and restoration of wetland resources. Based on Landsat remote sensing images in 1985 and 2015, the temporal and spatial evolution of landscape patterns in four key wetland areas in the West Liao River Basin was studied by 3S technology and landscape ecology indexes. Results show that during the 30a years, the wetland resources area in the West Liao River Basin is drastically reduced. Wetland resources of the four study areas, the Dalinor, the Saihanwula, the Hongshan Reservoir, and the West Liao River Estuary, were decreased by 13.80%, 31.06%, 61.10%, and 66.03%, respectively. The reduced wetland resources in the Dalinor and the Saihanwula were mainly converted into grassland, while those of the Hongshan Reservoir and the West Liao River Estuary were mostly converted into farmland. The diversity and evenness indexes of landscape in the Hongshan Reservoir and the West Liao River Estuary are gradually decreasing. The diversity and evenness indexes of the Dalinor and the Saihanwula are not significantly changed but are slightly disturbed by human activities. Changes in the landscape pattern index highlight the decrease in the water area, the increase in the area of dry and paddy fields, and the improvement of sandy land. All these further reflect that insufficient water resources supplementation and increasing human disturbance have a profound impact on the landscape pattern, which has also become the main driving force for the evolution of the landscape pattern in the West Liao River Basin.

Keyword : key wetland areas, land use, landscape pattern, West Liao River Basin

How to Cite
Wang, Z., Zhao, H., & Zhao, C. (2022). Temporal and spatial evolution characteristics of land use and landscape pattern in key wetland areas of the West Liao River Basin, Northeast China. Journal of Environmental Engineering and Landscape Management, 30(1), 195-205. https://doi.org/10.3846/jeelm.2022.16382
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Mar 22, 2022
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References

Ahlqvist, O., & Shortridge, A. (2010). Spatial and semantic dimensions of landscape heterogeneity. Landscape Ecology, 25(4), 573–590. https://doi.org/10.1007/s10980-009-9435-8

Chen, J., Fu, X., & Liu, G. (2010). Spatial-temporal heterogeneity of human influence for landscape pattern change in Yellow River Delta. Journal of Soil and Water Conservation, 24(1), 134–138+144.

Du, J., Zhu, J., Xie, J., & Ma, Z. H. (2018). Changes of land use and landscape pattern in the Guanzhong area in recent 25 years. Arid Zone Research, 35(1), 217–226.

Editorial Committee. (2009). China wetlands encyclopedia. Beijing Science and Technology Press.

Gao, Y., & Bi, R. (2010). Effects on changing grain size of landscape indices in Sushuihe watershed. Chinese Agricultural Science Bulletin, 26(13), 396–400.

Gao, Y., Wang, H., & Long, D. (2009). Changes in hydrological conditions and the eco-environmental problems in Baiyangdian watershed. Resources Science, 31(9), 1506–1513.

Gao, Z., Bai, Y., Zhou, L., Qiao, F.-W., Song, L.-J., & Chen, X.-N. (2020). Characteristics and driving forces of wetland landscape pattern evolution of the city belt along the Yellow River in Ningxia, China. Chinese Journal of Applied Ecology, 31(10), 3499–3508.

Gong, T., Shao, Q., Liu, J., Sun, C., & Cao, W. (2012). The impact of land use/cover types on climate warming in southern China. Geographical Research, 31(8), 1465–1478.

Guan, R. (2011). Research on landscape pattern evolution and monitoring technology in Dalinor National Nature Reserve based on 3S. Inner Mongolia Agricultural University.

Herzog, F., Lausch, A., Muller, E., Thulke, H.-H., Steinhardt, U., & Lehmann, S. (2001). Landscape metrics for assessment of landscape destruction and rehabilitation. Environmental Management, 27(1), 91–107. https://doi.org/10.1007/s002670010136

Hulshoff, R. M. (1995). Landscape indices describing a Dutch landscape. Landscape Ecology, 10(2), 101–111. https://doi.org/10.1007/BF00153827

Li, B., Gu, H., & Ji, Y. (2012). Evaluation of landscape pattern changes and ecological effects in land reclamation projects of mining area. Transactions of the Chinese Society of Agricultural Engineering, 28(3), 251–256.

Liang, X., Cao, Y., & Zhou, W. (2010). Analysis on change in land-use and its driving forces in Lanzhou City. Resource Development & Market, (10), 876–879.

Lü, J., Jiang, W., Wang, W., Chen, K., Deng, Y., Chen, Z., & Li, Z. (2018). Wetland landscape pattern change and its driving forces in Beijing-Tianjin-Hebei region in recent 30 years. Acta Ecologica Sinica, 38(12), 4492–4503. https://doi.org/10.5846/stxb201712232309

Shi, L., Wang, S., Yao, X., Niu, J., & Yu, L. (2012). Spatial and temporal variation characteristics of land use and its driving force in Shanghai city from 1994 to 2006. Resources and Environment in the Yangtze Basin, 21(12), 1468–1479.

Song, S., Zeng, B., Zhou, T., & Guan, S. (2017). Dynamic analysis of wetland landscape in Wujiang River Basin (Chongqing section) using remote sensing and GIS technologies. Science of Soil and Water Conservation, 15(1), 81–88.

Su, L. (2010). Analysis of the landscape pattern in the Saihanwula Nature Reserve. Inner Mongolia Agricultural University.

Wang, G., Zhang, L., Chen, Q., Yu, H., & Chen, Y. (2014a). Analysis on landscape pattern change and its driving forces-taking Caofeidian New Area, Tangshan City as an example. Research of Soil and Water Conservation, 21(5), 84–88.

Wang, Q., Meng, J., & Mao, X. (2014b). Scenario simulation and landscape pattern assessment of land-use change based on neighborhood analysis and auto-logistic model: A case study of Lijiang River Basin. Geographical Research, 33(6), 1073–1084.

Wang, Z., Chen, S., & Li, C. (2020). Analysis of the climatic change characteristics in the XiLiao River Basin in recent 57 years. Journal of Inner Mongolia Agricultural University (Natural Science Edition), 41(1), 42–48.

Wei, X., Cai, J., Ye, Y., Zhou, Y., & Liu, C. Q. (2018). Landscape pattern analysis and optimum design of park green space in Nanchang City, China-based on GIS. Chinese Journal of Applied Ecology, 29(9), 2852–2860.

Wu, J. (2007). Landscape ecology: Pattern, process, scale and hierarchy (2nd ed.). Higher Education Press.

Wu, M. (2018). Study on wetland evolution characteristics and driving factor in West Liao River Basin. Jilin University.

Xiao, D., Li, X., Gao, J., Chang, Y., Zhang, N., & Li, T. (2010). Landscape ecology (2nd ed.). Science Press.

Xie, H. (2008). Driving force analysis of land-use changes in the typical farming-pastoral ecotone. Transactions of the Chinese Society of Agricultural Engineering, 24(10), 56–62.

Yang, Z. (2019). Study on ecological water demand of river marsh system based on water flow process. China Institute of Water Resources & Hydropower Research.

Zhang, M., Gong, Z., & Zhao, W. (2016a). Analysis of driving forces of Baiyangdian wetland evolution during 1984–2013. Chinese Journal of Ecology, 35(2), 499–507.

Zhang, M., Gong, Z., Zhao, W., & Duo, A. (2016b). Landscape pattern change and the driving forces in Baiyangdian wetland from 1984 to 2014. Acta Ecologica Sinica, 36(15), 4780–4791. https://doi.org/10.5846/stxb201501140110

Zhang, Q., Fu, B., & Chen, L. (2003). Several problems about landscape pattern change research. Scientia Geographica Sinica, 23(3), 264–270.

Zhang, Y., Zhang, F., Wang, J., Ren, Y., Ghulam, A., Kung, H.-t., & Chen, Y. (2017). Analysis of the temporal and spatial dynamics of landscape patterns and hemeroby index of the Ebinur Lake Wetland Nature Reserve, Xinjiang, over the last 40 years. Acta Ecologica Sinica, 37(21), 7082–7097. https://doi.org/10.5846/stxb201609081825

Zhou, Y., Liu, T., Duan, L., Wang, Y., Li, X., & Li, M. (2020). Driving force analysis and landscape pattern evolution in the upstream valley of Xilin River Basin. Arid Zone Research, 37(3), 580–590.