Abstract
Land-use change is a major factor driving ecosystem service change. Measuring the ecosystem service variation in response to land-use change is an effective way to assess the environmental costs and benefits of different approaches to policy-based planning. In this chapter, we examined changes in valued ecosystem services induced by the land encroachment of urbanization in North China Plain (NCP). China is on the track for rapid urbanization since the implementation of a market-oriented economic reform in 1978. The unprecedented urbanization in China has resulted in substantial cultivated land loss and rapid expansion of urban areas. The cultivated land loss due to urbanization not only threatens food security in China, but also leads to the ecological system degradation, to which close attention should be paid. Therefore, we examined the effects of conversion from cultivated to urban areas on ecosystem service in the NCP on the basis of an NPP-based ecosystem service model and a buffer comparison method. Cultivated land loss due to urbanization in the NCP led to a total loss of ecosystem service value (ESV) of 34.66 % during 1988–2008. Urban expansion significantly decreased the ecosystem service function of water conservation (100 %), nutrient cycling (−31.91 %), gas regulation (−7.18 %), and organic production (−7.18 %), while it improved the soil conservation function (2.40 %). Land-use change accounted for 57.40 % of the changes in ecosystem service and had a major influence on changes in nutrient cycling and water conservation. However, climate change mainly determined the changes in functions of gas regulation, organic production, and soil conservation. Further, we analyzed the changes in valued ecosystem services resulting from ecological restoration programs in Shandong province. China launched a series of ecological restoration policies to mitigate its severe environmental challenges in the late 1990s. From the beginning, the effects and influences of the ecological restoration policies have been hotly debated. In the present study, we assessed the effects of two vital ecological restoration policies (Grain-for-Green and Grain-for-Blue) on valued ecosystem services in Shandong province. A new method based on the net primary productivity (NPP) and soil erosion was developed to assess the ESV. In the areas implementing the Grain-for-Green and Grain-for-Blue policies, the ESV increased by 24.01 and 43.10 % during 2000–2008, respectively. However, comparing to the average increase of ESV (46.00 %) in the whole of Shandong province in the same period, Grain-for-Green and Grain-for-Blue did not significantly improve overall ecosystem services. The ecological restoration policy led to significant trade-offs in ecosystem services. Grain-for-Green improved the ecosystem service function of nutrient cycling, organic material provision, and regulation of gases but decreased that of water conservation. Grain-for-Blue increased the water conservation function but led to a reduction in the function of soil conservation and nutrient cycling.
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Angel S, Parent J, Civco DL, Blei A, Potere D (2011) The dimensions of global urban expansion: estimates and projections for all countries, 2000–2050. Prog Plann 75(2):53–107
Brady M, Sahrbacher C, Kellermann K, Happe K (2012) An agent-based approach to modeling impacts of agricultural policy on land use, biodiversity and ecosystem services. Landscape Ecol 27(9):1363–1381
Bronner CE, Bartlett AM, Whiteway SL, Lambert DC, Bennett SJ, Rabideau AJ (2013) An assessment of U.S. stream compensatory mitigation policy: necessary changes to protect ecosystem functions and services. JAWRA J Am Water Resour Assoc 49(2):449–462
Costanza R, dArge R, deGroot R, Farber S, Grasso M, Hannon B, Limburg K, Naeem S, Oneill RV, Paruelo J, Raskin RG, Sutton P, vandenBelt M (1997) The value of the world’s ecosystem services and natural capital. Nature 387(6630):253–260
Flanagan D, Foster G, Neibling W, Burt J (1989) Simplified equations for filter strip design. Trans ASAE 32(6):2001–2007
Gardiner MM, Burkman CE, Prajzner SP (2013) The value of urban vacant land to support arthropod biodiversity and ecosystem services. Environ Entomol 42(6):1123–1136
Geneletti D (2013) Assessing the impact of alternative land-use zoning policies on future ecosystem services. Environ Impact Assess Rev 40:25–35
Geng X, Wang X, Yan H, Zhang Q, Jin G (2014) Land use/land cover change induced impacts on water supply service in the upper reach of Heihe river basin. Sustainability 7(1):366–383
Haase D, Frantzeskaki N, Elmqvist T (2014) Ecosystem services in urban landscapes: practical applications and governance implications. Ambio 43(4):407–412
Harmáčková ZV, Vačkář D (2015) Modelling regulating ecosystem services trade-offs across landscape scenarios in Třeboňsko Wetlands Biosphere Reserve, Czech Republic. Ecol Model 295:207–215
Heilig GK (2012) World urbanization prospects: the 2011 revision. United Nations, Department of Economic and Social Affairs (DESA), Population Division, Population Estimates and Projections Section, New York
Heubes J, Heubach K, Schmidt M, Wittig R, Zizka G, Nuppenau E-A, Hahn K (2012) Impact of future climate and land use change on non-timber forest product provision in Benin, West Africa: linking niche-based modeling with ecosystem service values. Econ Bot 66(4):383–397
Kuok KK, Mah DY, Chiu P (2013a) Evaluation of C and P factors in universal soil loss equation on trapping sediment: case study of Santubong River. J Water Resour Prot 2013
Kuok KKK, Mah DYS, Chiu PC (2013b) Evaluation of C and P factors in universal soil loss equation on trapping sediment: case study of Santubong River. J Water Resour Prot 05(12):6
Lin T, Xue X, Shi L, Gao L (2013) Urban spatial expansion and its impacts on island ecosystem services and landscape pattern: a case study of the island city of Xiamen, Southeast China. Ocean Coast Manage 81:90–96
Liu J, Zhang Z, Xu X, Kuang W, Zhou W, Zhang S, Li R, Yan C, Yu D, Wu S (2010) Spatial patterns and driving forces of land use change in China during the early 21st century. J Geogr Sci 20(4):483–494
Liu J, Kuang W, Zhang Z, Xu X, Qin Y, Ning J, Zhou W, Zhang S, Li R, Yan C, Wu S, Shi X, Jiang N, Yu D, Pan X, Chi W (2014) Spatiotemporal characteristics, patterns, and causes of land-use changes in China since the late 1980s. J Geogr Sci 24(2):195–210
Long H, Liu Y, Hou X, Li T, Li Y (2014) Effects of land use transitions due to rapid urbanization on ecosystem services: implications for urban planning in the new developing area of China. Habitat Int 44:536–544
Lü Y, Fu B, Feng X, Zeng Y, Liu Y, Chang R, Sun G, Wu B (2012) A policy-driven large scale ecological restoration: quantifying ecosystem services changes in the Loess Plateau of China. PLoS ONE 7(2):e31782
Nelson E, Sander H, Hawthorne P, Conte M, Ennaanay D, Wolny S, Manson S, Polasky S (2010) Projecting global land-use change and its effect on ecosystem service provision and biodiversity with simple models. PLoS ONE 5(12):e14327
Ntelekos AA, Oppenheimer M, Smith JA, Miller AJ (2010) Urbanization, climate change and flood policy in the United States. Clim Change 103(3–4):597–616
Ouyang Z, Wang X, Miao H (1998) A primary study on Chinese terrestrial ecosystem services and their ecological-economic values. Acta Ecol Sinica 19(5):607–613
Perrings C, Duraiappah A, Larigauderie A, Mooney H (2011) The biodiversity and ecosystem services science-policy interface. Science 331(6021):1139–1140
Peters CM, Gentry AH, Mendelsohn RO (1989) Valuation of an Amazonian rainforest. Nature 339(6227):655–656
Reid W, Mooney H, Cropper A, Capistrano D, Carpenter S, Chopra K, Dasgupta P, Dietz T, Duraiappah A, Hassan R (2005) Ecosystems and human well-being: synthesis, MA (millennium ecosystem assessment). Island Press, Washington, DC
Renard KG, Foster GR (1983) Soil conservation: principles of erosion by water. Dryland Agric Agron Monogr 23:156–176
Renard KG, Foster GR, Weesies GA, McCool D, Yoder D (1997) Predicting soil erosion by water: a guide to conservation planning with the revised universal soil loss equation (RUSLE). Agric Handb (Washington) 703
Seto KC, Fragkias M, Güneralp B, Reilly MK (2011) A meta-analysis of global urban land expansion. PLoS ONE 6(8):e23777
Seto KC, Reenberg A, Boone CG, Fragkias M, Haase D, Langanke T, Marcotullio P, Munroe DK, Olah B, Simon D (2012) Urban land teleconnections and sustainability. Proc Natl Acad Sci 109(20):7687–7692
Shi M, Ma G, Shi Y (2011) How much real cost has China paid for its economic growth? Sustain Sci 6(2):135–149
Silvestri S, Zaibet L, Said MY, Kifugo SC (2013) Valuing ecosystem services for conservation and development purposes: a case study from Kenya. Environ Sci Policy 31:23–33
Simpson RD (2014) Ecosystem services as substitute inputs: basic results and important implications for conservation policy. Ecol Econ 98:102–108
Song W (2014) Decoupling cultivated land loss by construction occupation from economic growth in Beijing. Habitat Int 43:198–205
Song W, Liu M (2014) Assessment of decoupling between rural settlement area and rural population in China. Land Use Policy 39:331–341
Song W, Pijanowski BC (2014) The effects of China’s cultivated land balance program on potential land productivity at a national scale. Appl Geogr 46:158–170
Song W, Deng X, Yuan Y, Wang Z, Li Z (2015) Impacts of land-use change on valued ecosystem service in rapidly urbanized North China Plain. Ecol Model (in press)
Su C, Fu B (2013) Evolution of ecosystem services in the Chinese Loess Plateau under climatic and land use changes. Glob Planet Change 101:119–128
Su S, Li D, Hu YN, Xiao R, Zhang Y (2014) Spatially non-stationary response of ecosystem service value changes to urbanization in Shanghai, China. Ecol Ind 45:332–339
Sutherland WJ, Gardner T, Bogich TL, Bradbury RB, Clothier B, Jonsson M, Kapos V, Lane SN, Möller I, Schroeder M, Spalding M, Spencer T, White PCL, Dicks LV (2014) Solution scanning as a key policy tool: identifying management interventions to help maintain and enhance regulating ecosystem services. Ecol Soc 19(2)
Tan M, Li X, Lu C (2005) Urban land expansion and arable land loss of the major cities in China in the 1990s. Sci China Ser D Earth Sci 48(9):1492–1500
Wischmeier W, Johnson C, Cross B (1971) Soil erodibility nomograph for farmland and construction sites
Zang S, Wu C, Liu H, Na X (2011) Impact of urbanization on natural ecosystem service values: a comparative study. Environ Monit Assess 179(1–4):575–588
Zhao B, Kreuter U, Li B, Ma Z, Chen J, Nakagoshi N (2004) An ecosystem service value assessment of land-use change on Chongming Island, China. Land Use Policy 21(2):139–148
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Song, W., Deng, X., Liu, B., Li, Z., Jin, G., Wen, X. (2015). Impact Assessments of Land-Use Change on Valued Ecosystem Services. In: Zhan, J. (eds) Impacts of Land-use Change on Ecosystem Services. Springer Geography. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-48008-3_3
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