Analysis of the value of ecosystem services in the Dongting Lake area

doi:10.11686/cyxb2015104

Abstract

Abstract: The Dongting Lake area is the largest storage lake of the Yangtze River region and Asia’s largest inland wetland. It protects the ecological integrity of the Yangtze River basin region, and also influences the economic and social sustainable development of the region. It is important to assess the ecological service function in Dongting Lake Area to facilitate protection and restoration of Dongting Lake wetland ecosystems, and also to coordinate exchange of information between economic development and environmental protection agencies. In this article, the market value method, protection costs, opportunity costs, shadow engineering, consumer surplus and valuation methods were used to analyze 18 ecosystem service functions of the wetland ecosystem in Dongting Lake. The total value of wetland services was 1733634×10⁴ yuan in Dongting Lake in 2010, of which the social service value (895759×10⁴ yuan)>adjustment and support value (765662×10⁴ yuan)>supply function value (102213×10⁴ yuan). These values accounted for 51.67%,42.43% and 5.90%, respectively, of the total value of the ecosystem services. Whether these services can be captured by the market economy or not, the economic value of the direct services was assessed as 985863×10⁴ yuan, and the ecological value of indirect services was 747771×10⁴ yuan. Hence, the ratio of direct∶indirect value was 1∶0.76. The results of this study could provide data to guide the development of Dongting Lake Ecological Economic Zone.

XU Wei-Ping, KANG Wen-Xing, HE Jie-Nan. Analysis of the value of ecosystem services in the Dongting Lake area[J]. Acta Prataculturae Sinica, 2016, 25(1): 217-229.

References

[1] Acharya G. Approaches to valuing the hidden hydrological services of wetland ecosystems. Ecological Economics, 2000, 35(1): 63-74.
[2] Maltby E, Hogan D V, Immirzi C P, et al . Building a new approach to the investigation and assessment of wetland ecosystem functioning. In: Mitsch W J. Global Wetlands: Old World and New[M]. Amsterdam: Elsevier Science B.V., 1994: 637-658.
[3] Zhang Y M, Zhao S D, Guo R C. Global wetlands: status and trends, scenarios and response options. Advances in Earth Science, 2008, 23(4): 415-420.
[4] Costanza R, Arge R, de Groot R, et al . The value of the worlds ecosystem services and natural capital. Nature, 1997, 387: 253-260.
[5] Xiao D N, Pei T F, Zhao Q. Hydrological adjustment and flooding control of wetlands in the Liaohe Delta. Wetland Science, 2003, 1(1): 21-25.
[6] Zhang X F, Niu J M, Zhang Q, et al . Soil conservation function and its spatial distribution of grassland ecosystems in Xilin River Basin, Inner Mongolia. Acta Prataculturae Sinica, 2015, 24(1): 12-20.
[7] Wu L L, Lu J J, Tong C F, et al . Valuation of wetland ecosystem services in the Yangtze River estuary. Resources and Environment in the Yangtze Basin, 2003, 12(5):137-141.
[8] Duan X N, Wang X K, Ouyang Z Y. Evaluation of wetland ecosystem services in Wuliangsuhai. Resources Science, 2005, 27(2): 142-148.
[9] Mo M H, Ren X Y, Wang X L, et al . Ecosystem service function and economical profit and loss evaluation of Honghu Lake wetland. Journal of Wuhan University, 2008, 54(6): 725-731.
[10] Chen P. Evaluation on service value of wetland ecosystem in Xiamen City. Wetland Science, 2006, 4(2): 103-107.
[11] Jiang B, Ouyang Z Y, Miao H, et al . Ecosystem services valuation of the Haihe River basin wetlands. Acta Ecologica Sinica, 2011, 31(8): 2236-2244.
[12] Wang W, Lu J J. An approach on ecosystem services classification and valuation. Chinese Journal of Ecology, 2005, 24(11): 1314-1316.
[13] Su X L, Kang S Z, Tong L. A dynamic evaluation method and its application for the ecosystem service value of an inland river basin: A case study on the Shiyanghe River Basin in Hexi Corridor of Gansu Province. Acta Ecologica Sinica, 2006, 26(6): 2011-2019.
[14] Cui L J. Evaluation on functions of Poyang Lake ecosystem. Chinese Journal of Ecology, 2004, 23(4): 47-51.
[15] Yu X B, Xia S X, He H L, et al . Approaches to assessing major ecosystem services in the Poyang Lake Basin, China. Resources Science, 2010, 32(5): 810-816.
[16] Shi J N, Xu Y X, Liu Q H. An analysis on the variation of landscape pattern of Dongting Lake Wetland Reserve. Journal of Central South University of Forestry & Technology, 2010, 30(6): 18-26.
[17] Tan S Q, Kang W X, He J N, et al . The exchange between four types of vegetation system of Baishazhou in Dongting Lake and carbon of atmosphere. Acta Ecologica Sinica, 2010, 30(13): 3441-3448.
[18] Zhang X Q, Wu K H. Fine-root production and turnover for forest ecosystems. Scientia Silvae Sinicae, 2001, 37(3): 126-135.
[19] Xi H Z. Study on the Ecosystem Service Function and Value Research Based on the Energy Theory in Dongting Lake Wetland[D]. Changsha: Central South University of Forestry and Technology, 2007.
[20] Forestry Science and Technology Division. Forest Ecosystem Research Methods[M]. Beijing: China Science and Technology Press, 1993: 178-198.
[21] Han C Q. Water quality-determination of cyanide isonicotinic acid-pyrazolone spectrophotometric method (HJ 484-2009) for industrial wastewater detection method validation. Chemical Management, 2014, (4): 93-94.
[22] Li M H. Determination of fluoride in water. Resource Conservation and Environmental Protection, 2014, (1): 119-120.
[23] Yu J Q. Method research of determination sulfide in environmental water by colloid spectrophotometry. Chongqing Environmental Science, 2000, 22(1): 57-58.
[24] Pan R. Spectrophotometric determination of infrared spectroscopy quality oil, animal and vegetable oil. Lutianhua Science and Technology, 2006, (3): 217-218.
[25] Pan M, Tian H Y, LI Y J. Flow injection online distillation determination of volatile phenol in the water quality of the method. Chinese Journal of Health Laboratory Technology, 2010, 20(3): 686-688.
[26] Kang W X, Wu Y X, He J N, et al . Index system and methods for evaluating urban forest ecosystem service value. Scientia Silvae Sinicae, 2008, 44(12): 129-134.
[27] Xu Y, Gao J F, Huang J C, et al . Ecosystem service valuation of Taihu Wetland. Resources and Environment in the Yangtze Basin, 2010, 19(6): 646-652.
[28] Zhao W D. Oxygen Cost Analysis System Design and Implementation Based on ABC Method[D]. Shanghai: Fudan University, 2010.
[29] Fu G W. Environmental Engineering Handbook-Environmental Planning Volume[M]. Beijing: China Forestry Publishing House, 2003: 703, 1159.
[30] Zhao Y M, Song C S. Scientific Survey of the Yellow River Delta Nature Reserve[M]. Beijing: China Forestry Publishing House,1995: 214, 236.
[31] Li R G, Xia Y L, Wu A Z, et al . Pollutants sources and their discharging amount in Taihu Lake Area of Jiangsu Province. Journal of Lake Sciences, 2000, 12(2): 147-153.
[32] Ministry of Land and Resources. Summary of Land and Resources in 2012[M]. Beijing: Science Press, 2013: 136-137.
[33] Zhuang D C. The evaluation of the ecosystem services value in Dongting Lake wetland. Economic Geography, 2004, 24(3): 391-394.
[34] Zhang Y, Zhang G. Analysis on benefits of services and functions of wetland ecosystem in Dongting Lake. Chinese Agricultural Science Bulletin, 2012, 28(8): 276-281.
[3] 张永民, 赵士洞, 郭荣朝.全球湿地的状况、未来情景与可持续管理对策. 地球科学进展, 2008, 23(4): 415-420.
[5] 肖笃宁, 裴铁凡, 赵弃. 辽河三角洲湿地景观的水文调节与防洪功能. 湿地科学, 2003, 1(1): 21-25.
[6] 张雪峰, 牛建明, 张庆, 等.内蒙古锡林河流域草地生态系统土壤保持功能及其空间分布.草业学报, 2015, 24(1): 12-20.
[7] 吴玲玲, 陆健健, 童春富, 等. 长江口湿地生态系统服务功能价值的评估. 长江流域资源与环境, 2003, 12(5): 137-141.
[8] 段晓男, 王效科, 欧阳志云. 乌梁素海湿地生态系统服务功能及价值评价. 资源科学, 2005, 27(2): 142-148.
[9] 莫明浩, 任宪友, 王学雷, 等. 洪湖湿地生态系统服务功能价值及经济效益评估. 武汉大学学报, 2008, 54(6): 725-731.
[10] 陈鹏. 厦门湿地生态系统服务功能价值评估. 湿地科学, 2006, 4(2): 103-107.
[11] 江波, 欧阳志云, 苗鸿, 等. 海河流域湿地生态系统服务功能价值研究. 生态学报, 2011, 31(8): 2236-2244.
[12] 王伟, 陆健健. 生态系统服务功能分类与价值评估探讨. 生态学杂志, 2005, 24(11): 1314-1316.
[13] 粟晓玲, 康绍忠, 佟玲. 内陆河流域生态系统服务价值的动态估算方法与应用. 生态学报, 2006, 26 (6): 2011-2019.
[14] 崔丽娟. 鄱阳湖湿地生态系统服务功能价值评估研究. 生态学杂志, 2004, 23(4): 47-51.
[15] 于秀波, 夏少霞, 何洪林, 等. 鄱阳湖流域主要生态系统服务综合监测评估方法. 资源科学, 2010, 32(5): 810-816.
[16] 石军南, 徐永新, 刘清华. 洞庭湖湿地保护区景观格局变化及原因分析. 中南林业科技大学学报, 2010, 30(6): 18-26.
[17] 谭三清, 康文星, 何介南, 等. 洞庭湖白沙洲4种植被系统与大气中碳素交换. 生态学报, 2010, 30(13): 3441-3448.
[18] 张小全, 吴可红. 森林细根生产和周转研究. 林业科学, 2001, 37(3): 126-135.
[19] 席宏正. 洞庭湖湿地生态系统服务功能及基于能值理论的价值研究[D]. 长沙: 中南林业科技大学, 2007.
[20] 林业部科技司. 森林生态系统定位研究方法[M]. 北京: 中国科学技术出版社, 1993: 178-198.
[21] 韩昌贵. 《水质氰化物的测定异烟酸-吡唑啉酮分光光度法》(HJ 484-2009)对工业污水检测方法验证. 化工管理, 2014, (4): 93-94.
[22] 李梅好. 浅谈水质氟化物测定方法. 资源节约与环保, 2014, (1): 119-120.
[23] 郁建桥. 胶体分光光度法测定环境水质中硫化物的方法研究. 重庆环境科学, 2000, 22(1): 57-58.
[24] 潘蓉. 红外分光光度法测定水质中石油类和动植物油. 泸天化科技, 2006, (3): 217-218.
[25] 潘淼, 田海燕, 李永纪. 流动注射在线蒸馏测定水质中挥发酚的方法研究. 中国卫生检验杂志, 2010, 20(3): 686-688.
[26] 康文星, 吴耀兴, 何介南, 等. 森林生态系统服务价值指标体系与评价方法. 林业科学, 2008, 44(12): 129-134.
[27] 许妍, 高俊峰, 黄佳聪, 等. 太湖湿地生态系统服务功能价值评估. 长江流域资源与环境, 2010, 19(6): 646-652.
[28] 赵卫东. 基于ABC方法的制氧成本分析系统设计与实现[D]. 上海: 复旦大学, 2010.
[29] 傅国伟. 环境工程手册—环境规划卷[M]. 北京: 高等教育出版社, 2003: 703, 1159.
[30] 赵延茂, 宋朝枢. 黄河三角洲自然保护区科学考察集[M]. 北京: 中国林业出版社, 1995: 214, 236.
[31] 李荣刚, 夏源陵, 吴安之, 等. 苏州太湖地区污染物及其向水体的排放量. 湖泊科学, 2000, 12(2): 147-153.
[32] 国土资源部. 2012年国土资源系统工作总结[M]. 北京: 科学出版社, 2013: 136-137.
[33] 庄大昌. 洞庭湖湿地生态系统服务功能价值评估. 经济地理, 2004, 24(3): 391-394.
[34] 张运, 张贵. 洞庭湖湿地生态系统服务功能效益分析. 中国农学通报, 2012, 28(8): 276-281.