基于生态系统服务价值的塔里木河干流土地利用结构优化
收稿日期: 2021-01-19
修回日期: 2021-03-09
网络出版日期: 2021-08-03
基金资助
国家自然科学基金项目(41671030);国家自然科学基金项目(XDA2006030201)
Optimization of land use structure based on ecosystem service value in the mainstream of Tarim river
Received date: 2021-01-19
Revised date: 2021-03-09
Online published: 2021-08-03
通过研究塔里木河干流土地利用变化对生态系统服务价值的内在影响机制,基于生态系统服务价值优化了其土地利用结构。结果表明:(1) 应急生态输水后塔里木河干流耕地、林地、草地、荒漠、水体的年平均变化率分别为7.26%、2.68%、-1.90%、1.22%、0.08%,耕地、林地面积的增加主要来自草地,水体面积变化主要受来水量影响。(2) 1990—2015年应急生态输水使塔里木河下游生态系统服务价值呈“增长-减少-回升”的趋势,共增长2.99×108元;塔里木河干流整体呈现下降的趋势,共减少了39.60×108元。(3) 通径分析发现水体面积变化与塔里木河干流生态系统服务价值的内在联系最大,直接作用为0.610,间接作用为0.345。(4) 土地利用类型间转化关系发现,当耕地、林地、草地、荒漠、湿地面积占比分别为3.34%、10.03%、38.22%、45.95%、0.96%时,土地利用结构最优,对应的生态系统服务价值为533.69×108元。随着耕地面积的扩张,农业用水与生态用水矛盾突出,权衡土地利用结构及其耗水特征对于生态系统服务价值维护和水资源合理配置具有重要意义,可为探索塔里木河流域人地关系优化状态提供科学依据。
吝静,赵成义,马晓飞,施枫芝,吴世新,朱建 . 基于生态系统服务价值的塔里木河干流土地利用结构优化[J]. 干旱区研究, 2021 , 38(4) : 1140 -1151 . DOI: 10.13866/j.azr.2021.04.26
In this study, the effect mechanism of land use and land cover change (LUCC) on ecosystem service value (ESV) in a complex environment was analyzed, and the land use structure was optimized based on ESV. The results showed that after the implementation of ecological water conveyance (EWC), the average annual variation rates of cultivated land, woodland, grassland, desert, water area in the mainstream of the Tarim River were 7.26%, 2.68%, -1.90%, 1.22% and 0.08%, respectively. The increase of cultivated land and woodland areas were mainly caused by grasslands, and the inflow of EWC increased the water areas. An increasing-decreasing-recovering tendency of time series in ESV with 299 million yuan in the lower reaches of the Tarim River was observed, and showed a decrease over all of the mainstream of Tarim River with 3.96 billion yuan. The water resources were of great significance to the stabilization and improvement of ESV in arid areas. Based on past analysis, the water area had the dominant influence on ESV, with the direct and indirect effects of 0.610 and 0.345, respectively. Based on the relationship between the different land use types, the optimal structure was calculated for the proportion of cultivated land, woodland, grassland, desert and wetland, which were 3.34%, 10.03%, 38.22%, 45.95%, and 0.96%, respectively. In this circumstance, the ESV can reach a maximum of 53.369 billion yuan. With the expansion of cultivated land areas, the contradiction between agricultural water consumption and ecological water utilization becomes more and more serious. It is of great significance to balance the characteristics of land use structure and water consumption for the maintenance of ESV and the rational allocation of water resources, which can provide a basis for exploring the optimal state of man-land relationships in the Tarim River Basin.
| [1] | 欧阳志云, 王如松, 赵景柱. 生态系统服务功能及其生态经济价值评价[J]. 应用生态学报, 1999, 10(5):635-640. |
| [1] | [ Ouyang Zhiyun, Wang Rusong, Zhao Jingzhu. Ecosystem services and their economic valuation[J]. Chinese Journal of Applied Ecology, 1999, 10(5):635-640. ] |
| [2] | Tansley A G. The use and abuse of vegetational concepts and terms[J]. Ecology, 1935, 16(3):284-307. |
| [3] | Millennium Ecosystem Assessment. Ecosystems and Human Well Being: Synthesis[M]. Washington: Island Press, 2005. |
| [4] | Gao Jie, Li Feng, Gao Hui, et al. The impact of land-use change on water-related ecosystem services: A study of the Guishui River Basin, Beijing, China[J]. Journal of Cleaner Production, 2017, 163:148-155. |
| [5] | Meyfroidt P, Lambin E F, Erb K H, et al. Globalization of land use: Distant drivers of land change and geographic displacement of land use[J]. Current Opinion in Environmental Sustainability, 2013, 5(5):438-444. |
| [6] | Sterling Shannon, Ducharne Agnès, Polcher Jan. The impact of global land-cover change on the terrestrial water cycle[J]. Nature Climate Change, 2013, 3(4):385-390. |
| [7] | Yang Wei, Jin Yuwan, Sun Tao, et al. Trade-offs among ecosystem services in coastal wetlands under the effects ofreclamation activities[J]. Ecological Indicators, 2018, 92:354-366. |
| [8] | 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. |
| [8] | [ Xie Gaodi, Zhang Caixia, Zhang Changshun, et al. The value of ecosystem services in China[J]. Resources Science, 2015, 37(9):1740-1746. ] |
| [9] | Kubiszewski Ida, Costanza Robert, Anderson Sharolyn, et al. The future value of ecosystem services: Global scenarios and nationalimplications[J]. Ecosystem Services, 2017, 26:289-301. |
| [10] | 雍正, 赵成义, 施枫芝, 等. 近20年塔里木河干流区地下水埋深变化特征及其生态效应研究[J]. 水土保持学报, 2020, 34(3):182-189. |
| [10] | [ Yong Zheng, Zhao Chengyi, Shi Fengzhi, et al. Variation characteristics of groundwater depth and its ecological effect in the main stream of Tarim River in recent 20 years[J]. Journal of Soil and Water Conservation, 2020, 34(3):182-189. ] |
| [11] | 邓铭江, 樊自立, 徐海量, 等. 塔里木河流域生态功能区划研究[J]. 干旱区地理, 2017, 40(4):705-717. |
| [11] | [ Deng Mingjiang, Fan Zili, Xu Hailiang, et al. Ecological function regionalization of Tarim River Basin[J]. Arid Land Geography, 2017, 40(4):705-717. ] |
| [12] | 施枫芝, 赵成义, 叶柏松, 等. 基于PTFs的干旱地区土壤饱和导水率的尺度扩展[J]. 中国沙漠, 2014, 34(6):1584-1589. |
| [12] | [ Shi Fengzhi, Zhao Chengyi, Ye Baisong, et al. The scaling-up of soil saturated hydraulic conductivity based on PTFs in Arid Area[J]. Journal of Desert Research, 2014, 34(6):1584-1589. ] |
| [13] | 刘纪远, 匡文慧, 张增祥, 等. 20世纪80年代末以来中国土地利用变化的基本特征与空间格局[J]. 地理学报, 2014, 69(1):3-14. |
| [13] | [ Liu Jiyuan, Kuang Wenhui, Zhang Zengxiang, et al. Spatiotemporal characteristics, patterns and causes of land use changes in China since the late 1980s[J]. Acta Geographica Sinica, 2014, 69(1):3-14. ] |
| [14] | 谢高地, 张彩霞, 张雷明, 等. 基于单位面积价值当量因子的生态系统服务价值化方法改进[J]. 自然资源学报, 2015, 30(8):1243-1254. |
| [14] | [ Xie Gaodi, Zhang Caixia, Zhang Leiming, et al. Improvement of the evaluation method for ecosystem service value based on per unit area[J]. Journal of Natural Resources, 2015, 30(8):1243-1254. ] |
| [15] | Yuan Shaofeng, Zhu Congmou, Yang Lixia, et al. Responses of ecosystem servicesto urbanization-induced land use changesin ecologically sensitive suburban areas in Hangzhou, China[J]. Environmental Researchand Public Health, 2019, 16(7):1124. |
| [16] | 范金城, 梅长林. 数据分析[M]. 第二版. 北京: 科学出版社, 2010. |
| [16] | [ Fan Jincheng, Mei Changlin. Data Analysis[M]. 2nd ed. Beijing: Science Press, 2010. ] |
| [17] | Arowolo A O, Deng X Z, Olatunji O A, et al. Assessing changes in the value of ecosystem services in response toland-use/land-cover dynamics in Nigeria[J]. Science of the Total Environment, 2018, 636:597-609. |
| [18] | 李梦怡, 邓铭江, 凌红波, 等. 塔里木河下游水生态安全评价及驱动要素分析[J]. 干旱区研究, 2021, 38(1):39-47. |
| [18] | [ Li Mengyi, Deng Mingjiang, Ling Hongbo, et al. Evaluation of ecological water security and analysis of driving factors in the lower Tarim River, China[J]. Arid Zone Research, 2021, 38(1):39-47. ] |
| [19] | Mamat Zulpiya, Halik Ümüt, Keyim Maierdang, et al. Variation of the floodplain forest ecosystem service value in the lower reaches of Tarim River, China[J]. Land Degradation & Development, 2018, 29(1):47-57. |
| [20] | Krysanova Valentina, Wortmann Michel, Bolch Tobias, et al. Analysis of current trends in climate parameters river discharge and glaciers in the Aksu River basin Central Asia[J]. Hydrological Sciences Journal, 2015, 60(4):566-590. |
| [21] | 张沛. 塔里木河流域社会-生态-水资源系统耦合研究[D]. 北京: 中国水利水电科学研究院, 2019. |
| [21] | [ Zhang Pei. Research on the Coupling System of Society, Ecoenvironment and Water in Tarim River Basin[D]. Beijing: China Institute of Water Resources and Hydropower Research, 2019. ] |
| [22] | 郭宏伟, 徐海量, 凌红波, 等. 塔里木河下游耕地扩张与天然植被退化的定量关系初探[J]. 干旱地区农业研究, 2018, 36(2):226-233. |
| [22] | [ Guo Hongwei, Xu Hailiang, Ling Hongbo, et al. Quantitative relationship between cultivated land expansion and natural vegetation degradation in the lower reaches of the Tarim River[J]. Agricultural Research in the Arid Areas, 2018, 36(2):226-233. ] |
| [23] | Rukundo Emmanuel, Liu Shiliang, Dong Yuhong, et al. Spatio-temporal dynamics of critical ecosystem services in response to agricultural expansion in Rwanda, East Africa[J]. Ecological Indicators, 2018, 89:696-705. |
| [24] | Lawler J J, Lewisb D, Nelson Erik, et al. Projected land-use change impacts on ecosystem services in the United States[J]. PNAS, 2014, 111(20):7492-7497. |
| [25] | 宁珊, 张正勇, 周红武, 等. 基于生态服务价值的玛纳斯河流域土地利用结构优化[J]. 生态学报, 2019, 39(14):5208-5217. |
| [25] | [ Ning Shan, Zhang Zhengyong, Zhou Hongwu, et al. Optimization of land use structure based on ecological service value in Manas River Basin[J]. Acta Ecologica Sinica, 2019, 39(14):5208-5217. ] |
| [26] | 刘冠, 李国庆, 李洁, 等. 基于InVEST模型的1999—2016年麻塔流域碳储量变化及空间格局研究[J]. 干旱区研究, 2021, 38(1):267-274. |
| [26] | [ Liu Guan, Li Guoqing, Li Jie, et al. Study on change in carbon storage and its spatial pattern in Mata Watershed from 1999 to 2016 based on InVEST model[J]. Arid Zone Research, 2021, 38(1):267-274. ] |
| [27] | 王蓓, 赵军, 仲俊涛. 2005—2015年石羊河流域生态系统服务时空分异[J]. 干旱区研究, 2019, 36(2):474-485. |
| [27] | [ Wang Bei, Zhao Jun, Zhong Juntao. Spatiotemporal differentiation of ecosystem services in the Shiyang River Basin from 2005 to 2015[J]. Arid Zone Research, 2019, 36(2):474-485. ] |
| [28] | 张舟, 吴次芳, 谭荣. 生态系统服务价值在土地利用变化研究中的应用: 瓶颈和展望[J]. 应用生态学报, 2013, 24(2):556-562. |
| [28] | [ Zhang Zhou, Wu Cifang, Tan Rong. Application of ecosystem service value in land use change research: Bottlenecks and prospects[J]. Chinese Journal of Applied Ecology, 2013, 24(2):556-562. ] |
| [29] | Fu Bojie, Su changhong, Wei yongping, et al. Double counting in ecosystem services valuation: Causes and Countermeasures[J]. Ecological Research, 2010, 26(1):1-14. |
| [30] | Fu Bojie, Chen Liding, Ma Keming, et al. The relationships between land use and soil conditions in the hilly area of the Loess Plateau in northern Shaanxi, China[J]. Catena, 2000, 39(1):69-78. |
| [31] | 侯一峰, 汪洋, 张帅, 等. 新疆渭干-库车河流域土地利用变化空间耦合及其生态效应[J]. 灌溉排水学报, 2020, 39(6):13-20. |
| [31] | [ Hou Yifeng, Wang Yang, Zhang Shuai, et al. Change in land use and its consequence for ecological systems in Weigan-Kuqa River Basin in Xinjiang[J]. Journal of Irrigation and Drainage 2020, 39(6):13-20. ] |
| [32] | 江波, 张路, 欧阳志云. 青海湖湿地生态系统服务价值评估[J]. 应用生态学报, 2015, 26(10):3137-3144. |
| [32] | [ Jiang Bo, Zhang Lu, Ouyang Zhiyun, et al. Ecosystem services valuation of Qinghai Lake[J]. Chinese Journal of Applied Ecology, 2015, 26(10):3137-3144. ] |
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