Integrated assessment of coastal ecological security based on land use change and ecosystem services in the Jiaozhou Bay, Shandong Peninsula, China

doi:10.13287/j.1001-9332.201812.035

Abstract

Abstract: Land use-based development activities can change the quality of coastal environment and the supply pattern of ecosystem services, negatively affecting the ecological security of coastal zones. Coastal ecosystem research has generally used terrestrial ecosystem research models which cannot actually reflect the features of the coastal zone—An independent environmental system combining land and sea. A scientific explanation is lacking for the complex relationship among driving factor of land-based activities, the response of ecosystem services, and the realization of ecological security in the coastal zone. Here, we presented an integrated assessment model for coastal ecological security that was established following the route of “Land use-Ecosystem services-Ecological security” and considering the spatial heterogeneity and mobility of coastal ecosystem services. The proposed model was used to assess the impacts of land use-based activities on coastal ecosystem services and regional ecological security and reveal the associated spatiotemporal variations in the Jiaozhou Bay, Shandong, China. Land use change around Jiaozhou Bay, as the main representation of pressure in the ecological security system, exhibited certain association and tendency with the states of ecosystem services and ecological security in the corresponding sea area. Owing to massive land transfer to built-up lands during urbanization, the ecosystem services declined in the sea areas of Jiaozhou Bay and thus resulted in the deterioration of coastal ecological security. The integrated assessment model of coastal ecological security based on pressure-state-response (PSR) frame could effectively reflect the spatial distribution and trends of coastal ecological security. Meanwhile, this model could clarify the response relationship of ecosystem services and ecological security in the sea portion with the land-based driving factor, i.e., land use, in the coastal ecosystems. Unlike the methods commonly used in previous studies on coastal ecological security, the model established here overcomes the shortcomings of others that only focus on the land portion and ignore the link and interaction between the land and sea. This model was therefore of improvement to the evaluation of coastal ecological security.

ZHENG Yang, YU Ge, ZHONG Ping-li, WANG You-xiao. Integrated assessment of coastal ecological security based on land use change and ecosystem services in the Jiaozhou Bay, Shandong Peninsula, China[J]. Chinese Journal of Applied Ecology, 2018, 29(12): 4097-4105.

References

[1] Feng S-Z (冯士筰), Li F-Q (李凤岐), Li S-J (李少菁). An Introduction to Marine Science. Beijing: Higher Education Press, 1999 (in Chinese)
[2] Xiao D-N (肖笃宁), Chen W-B (陈文波), Guo F-L (郭福良). On the basic concepts and contents of ecological security. Chinese Journal of Applied Ecology (应用生态学报), 2002, 13(3): 354-358 (in Chinese)
[3] Xue X-Z (薛雄志), Lin T (吝涛), Cao X-H (曹晓海). Building coastal ecological safety indicator system. Journal of Xiamen University (Natural Science) (厦门大学学报:自然科学版), 2004, 43(Suppl.): 179-183 (in Chinese)
[4] Lin T (吝涛), Xue X-Z (薛雄志), Lu C-Y (卢昌义). Primary study on assessing the response to coastal ecological safety. Marine Environmental Science (海洋环境科学), 2007, 26(4): 325-328 (in Chinese)
[5] Huang H, Chen B, Ma ZY, et al. Assessing the ecological security of the estuary in view of the ecological ser-vices: A case study of the Xiamen Estuary. Ocean & Coastal Management, 2017, 137: 12-23
[6] Feng YJ, Yang QQ, Tong XH, et al. Evaluating land ecological security and examining its relationships with driving factors using GIS and generalized additive model. Science of the Total Environment, 2018, 633: 1469-1479
[7] Daily GC. Nature’s Services: Societal Dependence on Natural Ecosystems. Washington DC: Island Press, 1997
[8] Yu K-J (俞孔坚), Wang S-S (王思思), Li D-H (李迪华), et al. Ecological baseline for Beijing’s urban sprawl: Basic ecosystem services and their security patterns. City Planning Review (城市规划), 2010, 44(2): 19-24 (in Chinese)
[9] Li S-C (李双成). The Geography of Ecosystem Ser-vices. Beijing: Science Press, 2014 (in Chinese)
[10] Singh GG, Sinner J, Ellis J, et al. Mechanisms and risk of cumulative impacts to coastal ecosystem services: An expert elicitation approach. Journal of Environmental Management, 2017, 199: 229-241
[11] Fang XD, Hou XY, Li XW, et al. Ecological connecti-vity between land and sea: A review. Ecological Research, 2018, 33: 51-61
[12] Andrés MD, Barragn JM, Sanabria JG. Ecosystem services and urban development in coastal social-ecological systems: The Bay of Cdiz case study. Ocean and Coastal Management, 2018, 154: 155-167
[13] Zhu GR, Xie ZL, Xie HQ, et al. Land-sea integration of environmental regulation of land use/land cover change: A case study of Bohai Bay, China. Ocean & Coastal Management, 2018, 151: 109-117
[14] Sun S (孙松), Sun X-X (孙晓霞). Atlas of Long-term Changes in the Jiaozhou Bay Ecosystem: Volume One. Beijing: Ocean Press, 2011 (in Chinese)
[15] Sun S (孙松), Sun X-X (孙晓霞). Atlas of Long-term Changes in the Jiaozhou Bay Ecosystem: Volume Two. Beijing: Ocean Press, 2011 (in Chinese)
[16] Shi JH, Li GX, Wang P. Anthropogenic influences on the tidal prism and water exchanges in Jiaozhou Bay, Qingdao, China. Journal of Coastal Research, 2009, 27: 57-72
[17] Shandong Provincial Bureau of Statistics (山东省统计局). Shandong Statistical Yearbooks from 2000 to 2009 [EB/OL]. (2001-2010) [2018-03-19]. http://xxgk.stats-sd.gov.cn/xxgk/jcms_files/jcms1/web1/site/zfxxgk/colsearch.jsp?jdid=1 (in Chinese)
[18] Qingdao Municipal Statistics Bureau (青岛市统计局). Qingdao Statistical Yearbooks from 2000 to 2009 [EB/OL]. (2001-2010) [2018-03-19]. http://www.stats-qd.gov.cn/statsqd/Columns /2007712121419.shtml (in Chinese)
[19] Huang JL, Li QH, Huang L, et al. Watershed-scale evaluation for land-based nonpoint source nutrients management in the Bohai Sea Bay, China. Ocean & Coastal Management, 2013, 71: 314-325
[20] Xu XG, Li X, Chen MC, et al. Land-ocean-human interactions in intensively developing coastal zone: Demo-nstration of case studies. Ocean & Coastal Management, 2016, 133: 28-36
[21] Valiela I, Elmstrom E, Lloret J, et al. Tropical land-sea couplings: Role of watershed deforestation, mangrove estuary processing, and marine inputs on N fluxes in coastal pacific panama. Science of the Total Environment, 2018, 630: 126-140
[22] Yuan Y, Song DH, Wu W, et al. The impact of anthropogenic activities on marine environment in Jiaozhou Bay, Qingdao, China: A review and a case study. Regional Studies in Marine Science, 2016, 8: 287-296
[23] Zhang P, Su Y, Liang SK, et al. Assessment of long-term water quality variation affected by high-intensity land-based inputs and land reclamation in Jiaozhou Bay. Ecological Indicators, 2017, 75: 210-219
[24] Shi J, Li G, Wang P. Anthropogenic influences on the tidal prism and water exchanges in Jiaozhou Bay, Qing-dao, China. Journal of Coastal Research, 2011, 27: 57-72
[25] Gao GD, Wang XH, Bao XW. Land reclamation and its impact on tidal dynamics in Jiaozhou Bay Qingdao, China. Estuarine, Coastal and Shelf Science, 2014, 151: 285-294
[26] Lu DL, Yang NN, Liang SK, et al. Comparison of land-based sources with ambient estuarine concentrations of total dissolved nitrogen in Jiaozhou Bay (China). Estua-rine, Coastal and Shelf Science, 2016, 180: 82-90
[27] Samhouri JF, Levin PS. Linking land- and sea-based activities to risk in coastal ecosystems. Biological Conservation, 2012, 145: 118-129
[28] Mendoza-Gonzlez G, Martínez ML, Lithgow D, et al. Land use change and its effects on the value of ecosystem services along the coast of the Gulf of Mexico. Ecological Economics, 2012, 82: 23-32
[29] Uehara T, Mineo K. Regional Sustainability assessment framework for integrated coastal zone management: Satoumi, ecosystem services approach, and inclusive wealth. Ecological Indicators, 2017, 73: 716-725
[30] Guo Z-W (郭中伟), Gan Y-L (甘雅玲). Some scientific questions for ecosystem services. Biodiversity Science (生物多样性), 2003, 11(1): 63-69 (in Chinese)
[31] Sun S (孙松), Sun X-X (孙晓霞). China’s Ecosystem Observation and Research Data Set: Lake Wetland Bay Ecosystem-Shandong Jiaozhou Bay Station 1999-2006. Beijing: China Agriculture Press, 2010 (in Chinese)
[32] Bowen RE, Riley C. Socio-economic indicators and integrated coastal management. Ocean ＆ Coastal Management, 2003, 46: 299-312
[33] Wang G-X (王根绪), Cheng G-D (程国栋), Qian J (钱鞠). Several problem in ecological security assessment research. Chinese Journal of Applied Ecology (应用生态学报), 2003, 14(9): 1551-1556 (in Chinese)
[34] Ocean & Fishery Administration of Qingdao (青岛市海洋与渔业局). Reports on Marine Environmental Quality of Qingdao from 2001 to 2009 [EB/OL]. (2002-2010) [2018-03-19]. http://ocean.qingdao.gov.cn/n12479801/n12480082/index.html (in Chinese)
[35] Qingdao Environmental Protection Bureau (青岛市环境保护局). Qingdao Environment Bulletin from 1999 to 2009 [EB/OL]. (2000-2010) [2018-03-19]. http://www-dx.qepb.gov.cn/m2/index.aspx (in Chinese)
[36] General Office of Qingdao Municipal Government (青岛市人民政府). Qingdao General Land Use Planning (1997-2010) [EB/OL]. (2000-03-01) [2018.03.19]. http://www.fdzy.gov.cn/fdzy/ index.do (in Chinese)
[37] Gu D, Zhang Y, Fu J, et al. The landscape pattern characteristics of coastal wetlands in Jiaozhou Bay under the impact of human activities. Environmental Monitoring and Assessment, 2007, 124: 361-370
[38] Li F-Q (李凤岐). An Introduction to the Oceans and Environment. Beijing: Ocean Press, 2013 (in Chinese)
[39] Feng S-Z (冯士筰), Li F-Q (李凤岐), Li S-J (李少菁). An Introduction to Marine Science. Beijing: Higher Education Press, 2010 (in Chinese)