汾河流域土地利用变化及生态环境效应

doi:10.13866/j.azr.2022.03.30

Abstract

Abstract:

Research on land-use changes and ecological environment effects is important to understand regional ecological environment changes and promote the coordinated development of regional economy and environment. In this paper, the Fenhe River Basin was selected as the study area. Based on the land use and normalized vegetation index data in five periods (2000, 2005, 2010, 2015, and 2018), land-use changes and ecological effects in the study area in 2000, 2005, 2010, 2015, and 2018 were comprehensively analyzed using land-use dynamic attitude, geological information map, ecological value index, and fractional vegetation cover. Results showed that (1) from 2000 to 2018, the construction land and forest land in the basin showed an increasing trend; the growth areas were 1350.90 km² and 85.50 km², accounting for 92.83% and 0.96%, respectively. The cultivated land and grassland showed a slight downward trend, and the reduction areas were 729 km² and 674.10 km², respectively. The reduction rates were -5.02% and -7.63%, respectively. Waters and unused land maintained a multi-year average of 297 km² and 7.92 km², respectively. The spatial pattern showed that the construction land and cultivated land were concentrated in the core area of the basin, and grassland and forest land were concentrated in the edge area. (2) Comprehensive land-use dynamic degree, land transfer map, and land-use fluctuation trend of each time series were similar, and the evident indigenous change area was primarily located in the basin and its transition zone in the mountainous area. The comprehensive land-use dynamic degree for many years was 4.34%. The single land-use dynamic degree and land-use fluctuation were the highest in construction land and forest land, respectively. (3) Based on the influence of different dominant land-use types, the temporal evolution of the ecological value index showed a wavy “decline-growth-decline” curve; fractional vegetation cover showed “growth-decline-growth” evolution characteristics, and spatial pattern overlapped with spatial patches in land-use change regions. Given the terrain structure, land-use standards, and socio-economic and environmental protection policies, land-use changes in the future basin may increase, and stress on the ecological environment will increase.

Key words: land use/cover change, ecological environment effects, spatio-temporal pattern, Fenhe River Basin, Shanxi

SU Yingqing,ZHANG Enyue,LIU Yuan,LIU Geng,LIN Fei. Land-use change and ecological environment effects on Fenhe River Basin[J].Arid Zone Research, 2022, 39(3): 968-977.

Figures/Tables 10

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References 32

[1]	Raju R, Zhang Y L, Basanta P, et al. Satellite image based monitoring of urban land use change and assessing the driving factors in Pokhara and Bharatpur metropolitan cities, Gandaki Basin, Nepal[J]. Journal of Resources and Ecology, 2020, 11(1): 87-99. doi: 10.5814/j.issn.1674-764x.2020.01.009
[2]	段红腾, 吴发启, 杨一凡, 等. 近10年巴音河流域土地利用变化及驱动力分析[J]. 水土保持研究, 2020, 27(2): 172-177.
	[ Duan Hongteng, Wu Faqi, Yang Yifan, et al. Land use change and driving force analysis of Bayin River Basin in the past 10 years[J]. Research of Soil and Water Conservation, 2020, 27(2): 172-177. ]
[3]	Saddique N, Mahmood T, Bernhofer C. Quantifying the impacts of land use/land cover change on the water balance in the afforested River Basin, Pakistan[J]. Environmental Earth Sciences, 2020, 79(19), doi: 10.1007/s12665-020-09206-w. doi: 10.1007/s12665-020-09206-w
[4]	Gaur S, Mittal A, Bandyopadhyay A, et al. Spatio-temporal analysis of land use and land cover change: A systematic model inter-comparison driven by integrated modelling techniques[J]. International Journal of Remote Sensing, 2020, 41(23): 9229-9255. doi: 10.1080/01431161.2020.1815890
[5]	张云红, 王道杰, 江晓波, 等. 岷江上游土地利用变化及其对生态环境的影响[J]. 西南大学学报(自然科学版), 2010, 32(3): 102-108.
	[ Zhang Yunhong, Wang Daojie, Jiang Xiaobo, et al. Changes in land use in the upper reaches of the Minjiang River and their effects on the local eco-environment[J]. Journal of Southwest University (Natural Science Edition), 2010, 32(3): 102-108. ]
[6]	胡昕利, 易扬, 康宏樟, 等. 近25年长江中游地区土地利用时空变化格局与驱动因素[J]. 生态学报, 2019, 39(6): 1877-1886.
	[ Hu Xinli, Yi Yang, Kang Hongzhang, et al. Temporal and spatial variations of land use and the driving factors in the middle reaches of the Yangtze River in the past 25 years[J]. Acta Ecologica Sinica, 2019, 39(6): 1877-1886. ]
[7]	付建新, 曹广超, 郭文炯. 1980-2018年祁连山南坡土地利用变化及其驱动力[J]. 应用生态学报, 2020, 31(8): 2699-2709. doi: 10.13287/j.1001-9332.202008.017 pmid: 34494793
	[ Fu Jianxin, Cao Guangchao, Guo Wenjiong. Land use change and its driving force on the southern slope of Qilian Mountains from 1980 to 2018[J]. Chinese Journal of Applied Ecology, 2020, 31(8): 2699-2709. ] doi: 10.13287/j.1001-9332.202008.017 pmid: 34494793
[8]	刘玉斌, 王晓利, 侯西勇, 等. 四个时期和模拟情景下2025年黄河三角洲的土地利用格局和生态系统服务价值评估[J]. 湿地科学, 2020, 18(4): 424-436.
	[ Liu Yubin, Wang Xiaoli, Hou Xiyong, et al. Land use pattern and evaluation of ecosystem service values of Yellow River Delta for 4 periods and in 2025 under simulation scenarios[J]. Wetland Science, 2020, 18(4): 424-436. ]
[9]	白娥, 薛冰. 土地利用与土地覆盖变化对生态系统的影响[J]. 植物生态学报, 2020, 44(5): 543-552. doi: 10.17521/cjpe.2020.0071
	[ Bai E, Xue Bing. A review of influences of land use and land cover change on ecosystems[J]. Chinese Journal of Plant Ecology, 2020, 44(5): 543-552. ] doi: 10.17521/cjpe.2020.0071
[10]	李丹, 黎夏, 刘小平, 等. GPU-CA模型及大尺度土地利用变化模拟[J]. 科学通报, 2012, 57(11): 959-969.
	[ Li Dan, Li Xia, Liu Xiaoping, et al. GPU-CA model and large-scale land use change simulation[J]. China Science Bulletin, 2012, 57(11): 959-969. ]
[11]	陈万旭, 李江风, 曾杰, 等. 中国土地利用变化生态环境效应的空间分异性与形成机理[J]. 地理研究, 2019, 38(9): 2173-2187. doi: 10.11821/dlyj020180659
	[ Chen Wanxu, Li Jiangfeng, Zeng Jie, et al. Spatial heterogeneity and formation mechanism of eco-environmental effect of land use change in China[J]. Geographical Research, 2019, 38(9): 2173-2187. ] doi: 10.11821/dlyj020180659
[12]	李胜鹏, 柳建玲, 林津, 等. 基于1980-2018年土地利用变化的福建省生境质量时空演变[J]. 应用生态学报, 2020, 31(12): 4080-4090. doi: 10.13287/j.1001-9332.202012.019 pmid: 33393245
	[ Li Shengpeng, Liu Jianling, Lin Jin, et al. Spatial and temporal evolution of habitat quality in Fujian Province, China based on the land use change from 1980 to 2018[J]. Chinese Journal of Applied Ecology, 2020, 31(12): 4080-4090. ] doi: 10.13287/j.1001-9332.202012.019 pmid: 33393245
[13]	覃事娅, 王忠诚. 基于不同职能城市耕地多功能演变及驱动力分析[J]. 中国水土保持科学, 2020, 18(4): 94-102.
	[ Qin Shiya, Wang Zhongcheng. Multi-function evolutions of arable land and its driving forces based on different functional types of cities[J]. Science of Soil and Water Conservation, 2020, 18(4): 94-102. ]
[14]	侯蕾, 彭文启, 刘培斌, 等. 永定河上游流域土地利用变化及生态环境效应研究[J]. 中国水利水电科学研究院学报, 2017, 15(6): 430-438.
	[ Hou Lei, Peng Wenqi, Liu Peibin, et al. Land use change and its ecological environmental effect in the upstream of Yongding River[J]. Journal of China Institute of Water Resources and Hydropower Research, 2017, 15(6): 430-438. ]
[15]	傅颖秀, 张金龙, 陈英, 等. 黑河中游典型绿洲土地利用/覆盖变化及生态环境效应--以甘州、临泽、高台绿洲为例[J]. 干旱区资源与环境, 2014, 28(10): 104-109.
	[ Fu Yingxiu, Zhang Jinlong, Chen Ying, et al. LUCC and its environmental effects on the typical oases in the middle reaches of Heihe river basin: Case of Linze and Gaotai oases in Ganzhou[J]. Journal of Arid Land Resources and Environment, 2014, 28(10): 104-109. ]
[16]	宋永永, 薛东前, 代兰海, 等. 晋陕蒙典型化石能源开发区土地利用变化及其生态响应[J]. 干旱区研究, 2018, 35(5): 1199-1207.
	[ Song Yongyong, Xue Dongqian, Dai Lanhai, et al. Land use change and its effects on ecological response in typical fossl energy development zones in Shanxi, Shaanxi and Inner Mongolia[J]. Arid Zone Research, 2018, 35(5): 1199-1207. ]
[17]	吴云, 曾源, 赵炎, 等. 基于MODIS数据的海河流域植被覆盖度估算及动态变化分析[J]. 资源科学, 2010, 32(7): 1417-1424.
	[ Wu Yun, Zeng Yuan, Zhao Yan, et al. Monitoring and dynamic analysis of fractional vegetation cover in the Hai River Basin based on MODIS data[J]. Resources Science, 2010, 32(7): 1417-1424. ]
[18]	Zhang C B, Zhang Y, Wang Z Q, et al. Monitoring phenology in the temperate grasslands of China from 1982 to 2015 and its relation to net primary productivity[J]. Sustainability, 2019, 12(1), doi: 10.3390/su12010012. doi: 10.3390/su12010012
[19]	李晓雅, 赵成章, 曾红霞, 等. 党河源区土地利用变化及其生态环境效应[J]. 生态学杂志, 2021, 40(9): 2904-2913.
	[ Li Xiaoya, Zhao Chengzhang, Zeng Hongxia, et al. Land use change and ecological environment effect of Danghe River source region[J]. Chinese Journal of Ecology, 2021, 40(9): 2904-2913. ]
[20]	王永琪, 马姜明. 基于县域尺度珠江-西江经济带广西段土地利用变化对生态系统服务价值的影响研究[J]. 生态学报, 2020, 40(21): 7826-7839.
	[ Wang Yongqi, Ma Jiangming. Effects of land use change on ecosystem service value in Guangxi section of ethics of the ethics of the river system[J]. Acta Ecologica Sinica, 2020, 40(21): 7826-7839.]
[21]	李奇宸, 王敏, 万甜, 等. 基于LUCC的汤浦水库流域生态价值变化过程研究[J]. 水土保持通报, 2019, 39(4): 184-189.
	[ Li Qichen, Wang Min, Wan Tian, et al. Change process of ecological value of Tangpu reservoir basin based on LUCC[J]. Bulletin of Soil and Water Conservation, 2019, 39(4): 184-189. ]
[22]	Song W, Deng X. Land use/land cover change and ecosystem service provision in China[J]. Science of The Total Environment, 2017, 576: 705-719. doi: 10.1016/j.scitotenv.2016.07.078
[23]	刘秀丽, 郭丕斌, 张勃, 等. 采煤与脆弱生态复合区生态安全评价--以山西为例[J]. 干旱区研究, 2018, 35(3): 677-685.
	[ Liu Xiuli, Guo Pibin, Zhang Bo, et al. Evaluation on ecological security of coal mining and fragile ecological compound area: A case study in Shanxi Province[J]. Arid Zone Research, 2018, 35(3): 677-685. ]
[24]	史利江, 刘敏, 李艳萍, 等. 汾河流域县域经济差异的时空格局演变及驱动因素[J]. 地理研究, 2020, 39(10): 2361-2378. doi: 10.11821/dlyj020190785
	[ Shi Lijiang, Liu Min, Li Yanping, et al. The spatio-temporal evolution and influencing factors of economic difference at county level in Fenhe River Basin[J]. Geographical Research, 2020, 39(10): 2361-2378. ] doi: 10.11821/dlyj020190785
[25]	伍博炜, 杨胜天, 邵南方, 等. 黄土高原生态脆弱区土地利用变化对生态系统服务价值的影响--以汾河流域为例[J]. 水土保持研究, 2019, 26(5): 340-345.
	[ Wu Bowei, Yang Shengtian, Shao Nanfang, et al. Effects of land use change on ecosystem service value in fragile ecological area of the loss plateau: A case study of Fenhe River Basin[J]. Research of Soil and Water Conservation, 2019, 26(5): 340-345. ]
[26]	唐常春, 李亚平. 多中心城市群土地利用/覆被变化地学信息图谱研究--以长株潭城市群为例[J]. 地理研究, 2020, 39(11): 2626-2641. doi: 10.11821/dlyj020200207
	[ Tang Changchun, Li Yaping. Geo-information process of land use/cover change in polycentric urban agglomeration: A case study of Changsha-Zhuzhou-Xiangtan urban agglomeration[J]. Geographical Research, 2020, 39(11): 2626-2641. ] doi: 10.11821/dlyj020200207
[27]	张韵, 彭建东, 王晶晶, 等. 基于地学信息图谱的江汉平原土地利用时空变化分析[J]. 水土保持研究, 2020, 27(4): 85-92, 2.
	[ Zhang Yun, Peng Jiandong, Wang Jingjing, et al. Analysis on spatial and temporal change of land use in Jianghan Plan base on Geo-information Atlas[J]. Research of Soil and Water Conservation, 2020, 27(4): 85-92, 2. ]
[28]	谢高地, 张彩霞, 张昌顺, 等. 中国生态系统服务的价值[J]. 资源科学, 2015, 37(9): 1740-1746.
	[ Xie Gaodi, Zhang Caixia, Zhang Changshun, et al. The value of ecosystem services in China[J]. Resources Science, 2015, 37(9):1740-1746. ]
[29]	万利, 孙丽慧, 谭靖, 等. 北京郊区土地利用变化及其生态效应研究[J]. 水土保持研究, 2015, 22(5): 92-99.
	[ Wan Li, Sun Lihui, Tan Jing, et al. Land use change and its ecological effects in the suburbs of Beijing city[J]. Research of Soil and Water Conservation, 2015, 22(5): 92-99. ]
[30]	朱凤敏, 朱岩丽. 基于Landsat影像2004-2019年哈尔滨市城区植被覆盖度时空变化分析[J]. 测绘与空间地理信息, 2020, 43(10): 91-93.
	[ Zhu Fengmin, Zhu Yanli. Spatial and temporal change analysis of fractional vegetation coverage of Harbin city from 2004 to 2019 based on Landsat images[J]. Geomatics & Spatial Information Technology, 2020, 43(10): 91-93. ]
[31]	张江, 袁旻舒, 张婧, 等. 近30年来青藏高原高寒草地NDVI动态变化对自然及人为因子的响应[J]. 生态学报, 2020, 40(18): 6269-6281.
	[ Zhang Jiang, Yuan Minshu, Zhang Jing, et al. Responses of the NDVI of alpine grasslands on the Qinghai-Tibetan Plateau to climate change and human activities over the last 30 years[J]. Acta Ecologica Sinica, 2020, 40(18): 6269-6281. ]
[32]	冯莉莉, 何贞铭, 刘学锋, 等. 基于MODIS-NDVI数据的吉林省植被覆盖度及其时空动态变化[J]. 中国科学院大学学报, 2014, 31(4): 492-499, 536.
	[ Feng Lili, He Zhenming, Liu Xuefeng, et al. Dynamic monitoring of the fractional vegetation cover in Jilin Province based on MODIS-NDVI data[J]. Journal of University of Chinese Academy of Sciences, 2014, 31(4): 492-499, 536. ]

土地利用类型	耕地	林地	草地	水域	建设用地	未利用地
对应的生态系统	农田	森林	草地	水体和湿地	荒漠	荒漠
相对生态价值/[元·(hm²·a)^-1]	0.316	1.0	0.331	0.865	0.039	0.019

Land-use change and ecological environment effects on Fenhe River Basin

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