Abstract
Land-water relationship studies are important for watershed and coastal management. Changes in watershed-wide land use may exacerbate water pollution due to non-point source (NPS ) and point-source (PS ) pollutants, two major contaminants to the watershed-coast continuum. We take two largest coastal watersheds in Fujian Province, namely, Jiulong River watershed (JRW) and Minjiang River watershed (MRW), as the study site to examine the land use /cover and water pollution linkage, thereby suggesting land-water management implications. Land transformations have been accelerating across the JRW during the past 30 years. Urban watersheds were significantly more polluted than agricultural and natural watersheds. The spatial and temporal variations of water quality in the JRW are largely governed by the combination of natural factors (e.g. hydrology and biochemical processes) and anthropogenic inputs from industrial, agricultural, and urban activities. Climatic variability also affected the land use and water quality relationship and the performance of empirical regression models. Land use can affect river pollution, and such relationships vary spatially. Land use -water quality correlation is weakening under simultaneous point-source pollution. Furthermore, we developed three watershed modeling tools, namely, GIS-based empirical models, AnnAGNPS model , and SPARROW, to estimate non-point source nitrogen (N) and phosphorus (P) pollution, determine the sources of contaminants, and develop nutrient management strategies , respectively. Finally, we discuss the implications for water resource management.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Alexander RB, Elliott AH, Shankar U et al (2002) Estimating the sources and transport of nutrients in the Waikato River Basin, New Zealand. Water Resour Res 38(12):1268, 4.1–4.23
Altman SJ, Parizek RR (1995) Dilution of nonpoint-source nitrate in groundwater. J Environ Qual 24(4):707–718
Baker A (2003) Land use and water quality. Hydrol Process 17(12):2499–2501
Borah DK, Bera M (2003) Watershed-scale hydrologic and nonpoint-source pollution models: Review of mathematical bases. Trans ASAE 46(6):1553–1566
Bowes MJ, Hilton J, Irons GP et al (2005) The relative contribution of sewage and diffuse phosphorus sources in the River Avon catchment, southern England: implications for nutrient management. Sci Total Environ 344(1–3):67–81
Brunsdon C, Fotheringham S, Charlton M (1998) Geographically weighted regression-modeling spatial non-stationarity. Statistician 47:431–443
Cao WZ, Hong HS, Zhang YZ et al (2006) Anthropogenic nitrogen sources and export in a village-scale catchment in Southeast China. Environ Geochem Health 28(1–2):45–51
Carpenter SR, Caraco NF, Correll DL et al (1998) Nonpoint pollution of surface waters with phosphorus and nitrogen. Ecol Appl 8(3):559–568
Chang H, Kwon WT (2007) Spatial variations of summer precipitation trends in South Korea, 1973–2005. Environ Res Lett 2(4):045012
Dickinson WT, Rudra RP, Wall GJ (1990) Targeting remedial measures to control non-point source pollution. Water Resour Bull 26(3):499–507
Ding H, Wang R (2006) Cropland change analysis in Zhejiang coastal region. J Zhejiang Univ (Agriculture & Life Science) 32(5):585–590 (in Chinese)
Duan SW, Zhang S, Huang HY (2000) Transport of dissolved inorganic nitrogen from the major rivers to estuaries in China. Nutr Cycl Agroecosys 57:13–22
Duan SW, Xu F, Wang LJ (2007) Long-term changes in nutrient concentrations of the Changjiang River and principal tributaries. Biogeochem 85:215–234
Duan SW, Kaushal SS, Groffman PM et al (2012) Phosphorus export across an urban to rural gradient in the Chesapeake Bay watershed. J Geophys Res 117:G01025
Dumont E, Harrison JA, Kroeze C et al (2005) Global distribution and sources of dissolved inorganic nitrogen export to the coastal zone: Results from a spatially explicit global model. Global Biogeochem Cycles 19:255–268
Environmental Monitoring Bureau of China (2008) National Environmental Quality. http://www.china.com.cn/environment/2009-01/16/content_17140320_2.htm. Accessed 16 Aug 2012
Fedorko E, Pontius RG, Aldrich SP et al (2005) Spatial distribution of land type in regression models of pollutant loading. J Spat Hydrol 5(20):60–80
Fukushima T, Takahashi M, Matsushita B et al (2007) Land use/cover change and its drives: a case in the watershed of Lake Kasumigaura, Japan. Landsc Ecol Eng 3:21–31
Griffith JA (2002) Geographic techniques and recent applications of remote sensing to landscape-water quality studies. Water Air Soil Poll 138:181–197
Griffith JA, Martinko EA, Whistler JL et al (2002) Preliminary comparison of landscape pattern-Normalized difference vegetation index (NDVI) relationships to central plains stream conditions. J Environ Qual 31:846–859
Grizzetti B, Bouraoui F, Marsily GD (2005) Modelling nitrogen pressure in river basins: A comparison between a statistical approach and the physically-based SWAT model. Phys Chem Earth 30:508–517
Han J, Hayashi Y, Cao X et al (2009) Evaluating land-use change in rapidly urbanizing China: case study of Shanghai. J Urban Plan D-ASCE 135(4):166–171
Heathcote IW (2009) Integrated Watershed Management: principle and practice. Wiley, Hoboken, New Jersey
Hill AR (1996) Nitrate removal in stream riparian zones. J Environ Qual 25(4):743–755
Hobbie JE (2000) Estuarine science: The key to progress in coastal ecological research, executive summary. Island Press, Washington DC
Hu XS, Wu CZ, Hong W et al (2014) Forest cover change and its drivers in the upstream area of the Minjiang river, China. Ecol Indic 46:121–128
Huang JL, Hong HS, Zhang LP (2004) Study on predicting soil erosion in Jiulong River watershed based on GIS and USLE. J Soil Water Conserv 18(5):75–79 (in Chinese)
Huang JL, Hong HS (2010) Comparative study of two models to simulate diffuse nitrogen and phosphorus pollution in a medium-sized watershed, southeast China. Estuar Coast Shelf Sci 86:387–394
Huang JL, Pontius RG, Li QS et al (2012) Use of intensity analysis to link patterns with processes of land change from 1986 to 2007 in a coastal watershed of southeast China. Appl Geogr 34:371–384
Huang JL, Li QS, Pontius RG et al (2013a) Detecting the dynamic linkage between landscape characteristics and water quality in a subtropical coastal watershed, southeast China. Environ Manage 51:32–44
Huang JL, Lin J, Zhang YZ et al (2013b) Analysis of phosphorus concentration in a subtropical river basin in China: implications for River Basin Management. Ocean Coast Manag 81:29–37
Huang JL, Huang YL et al (2014) Coupled effects of natural and anthropogenic controls on seasonal and spatial variations of river water quality during baseflow in a coastal watershed of southeast. China. PLOS ONE 3e91528:1–19
Huang JL, Huang YL, Pontius RG Jr et al (2015) Geographically weighted regression to measure spatial variations in correlations between water pollution versus land use in a coastal watershed. Ocean Coast Manag 103:14–24
Huang YL, Huang JL, Ervinia A et al (2018) Land use and climate variability amplifies watershed nitrogen exports in coastal China. Ocean Coast Manag (in press), https://doi.org/10.1016/j.ocecoaman.2018.02.024
Ji ZG (2008) Hydrodynamics and water quality: modeling rivers, lakes, and estuaries. Wiley, Hoboken, NJ
Johnson L, Richards C, Host G et al (1997) Landscape influences on water chemistry in Midwestern stream ecosystems. Freshw Biol 3:193–208
Kim DK, Kaluskar S, Mugalingam S et al (2017) A Bayesian approach for estimating phosphorus export and delivery rates with the SPAtially referenced regression on watershed attributes (SPARROW) model. Eco Inform 37:77–91
Kliment Z, Kadlec J, Langhammer J (2008) Evaluation of suspended load changes using AnnAGNPS and SWAT semi-empirical erosion models. CATENA 73:286–299
Knisel (1980) CREAMS: A field scale model for chemical, runoff, and erosion from agricultural management systems. USDA, conservation research report 26
Kohonen T (2001) Self-organizing maps. Springer, Berlin
Kovacs A (2006) Comparative study of two watershed scales to calculate diffuse phosphorus pollution. Water Sci Technol 53(2):281–288
Lambin EF, Turner BL, Geist HJ et al (2001) The cause of land-use and land-cover change: moving beyond the myths. Global Environ Chang 11:261–269
Lee Y, Hur J, Shin KH (2014) Characterization and source identification of organic matter in view of land uses and heavy rainfall in the Lake Shihwa, Korea. Mar Pollut Bull 84:322–329
Lewis WM (2002) Yield of nitrogen from minimally disturbed watersheds of the United States. Biogeochem 57–58:375–385
Li X, Peterson J, Liu G et al (2001) Assessing regional sustainability: the case of land use and land cover change in the middle Yiluo catchment of the Yellow River Basin, China. Appl Geogr 21:87–106
Li SY, Xia XL, Tan X, Zhang QF (2013) Effects of catchment and riparian landscape setting on water quality chemistry and seasonal evolution of water quality in the upper Han River Basin, China. PLoS ONE e53163
Liu J, Diamond J (2005) China’s environment in a globalizing world. Nature 435:1179–1186
Manandhar R, Odeh IOA, Pontius RG (2010) Analysis of twenty years of categorical land transitions in the Lower Hunter of New South Wales, Australia. Agr Ecosyst Environ 135:336–346
May L, House WA, Bowes M et al (2001) Seasonal export of phosphorus from a lowland catchment: upper River Cherwell in Oxfordshire, England. Sci Total Environ 269(1–3):117–130
Mehaffey MH, Nash MS, Wade TG et al (2005) Linking land cover and water quality in New York City’s water supply watersheds. Environ Monit Assess 107(1–3):29–44
Ministry of Environmental Protection of the People’s Republic of China (2002) Environmental quality standards for surface water (GB 3838–2002)
Ministry of Environmental Protection of the People’s Republic of China (2011) Report on the state of the environment In China 2009. http://english.mep.gov.cn/standards_reports/soe/soe2009/201104/t20110411208976.htm. Accessed 6 Sept 2011
Moore RB, Johnston CM, Smith RA et al (2011) Source and delivery of nutrients to receiving waters in the Northeastern and Mid-Altantic regions of the United States. J Am Water Resour Assoc 47:965–990
Morse NB, Wollheim WM (2014) Climate variability masks the impacts of land use change on nutrient export in a suburbanizing watershed. Biogeochem 121:45–59
Mouri M, Takizawa S, Oki T (2011) Spatial and temporal variation in nutrient parameters in stream water in a rural-urban catchment, Shikoku, Japan: effects of land cover and human impact. J Environ Manage 92:1837–1848
Nguyen HVM, Hur J (2011) Tracing the sources of refractory dissolved organic matter in a large artificial lake using multiple analytical tools. Chemosphere 85:782–789
Office of Water Source of Fujian 2004. Water resource report
Ouyang Y, Nkedi-Kizza P, Wu QT et al (2006) Assessment of seasonal variations in surface water quality. Water Res 40(20):3800–3810
Pauwels H, Lachassagne P, Bordenave P et al (2001) Temporal variability of nitrate concentration in a schist aquifer and transfer to surface waters. Appl Geochem 16(6):583–596
Petry J, Malcolm IA, Youngson AF (2002) Hydrological controls on nutrient concentrations and fluxes in agricultural catchments. Sci Total Environ 294(1–3):95–110
Pratt B, Chang H (2012) Effects of land cover, topography, and built structure on seasonal water quality at multiple spatial scales. J Hazard Mater 209–210:48–58
Pullar D, Springer D (2000) Toward integrating GIS and catchments models. Environ Model Softw 15:451–459
Rhodes AL, Newton RM, Pufall AA (2001) Influence of land use on water quality of a diverse New England watershed. Environ Sci Technol 35:3640–3645
Rothenberger MB, Burkholder JM, Brownie C (2009) Long-term effects of changing land use practices on surface water quality in a coastal river and lagoonal estuary. Environ Manage 44:505–523
Saleh D, Domagalski J (2015) SPARROW modeling of nitrogen sources and transport in rivers and streams of California and adjacent states, U.S. American Water Resources Association. J Am Water Resour Assoc 51:1487–1507
Sarma PK, Lahkar BP, Ghost S et al (2008) Land use and land cover change and future implication analysis in Manas National Park, India using multi-temporal satellite data. Curr Sci 95(2):223–227
Schwarz GE, Hoos AB, Alexander RB et al (2006) The SPARROW surface water-quality model: theory, application and user documentation. U.S. Geological survey, techniques and methods 6-B3
Seto KC, Kaufmann RK (2003) Modeling the drivers of urban land use change in the Pearl River Delta, China: integrating remote sensing with socioeconomic data. Land Economics 79(1):106–121
Sliva L, Williams DD (2001) Buffer zone versus whole catchment approaches to studying land use impact on river water quality. Water Res 35(14):3462–3472
Smith AJ, Thomas RL, Nolan JK et al (2013) Regional nutrient thresholds in wadeable streams of New York State protective of aquatic life. Ecol Indic 29:455–467
Somura H, Takeda I, Amold JG, Mon Y, Jeong J et al (2012) Impact of suspended sediment and nutrient loading from land uses against water quality in the Hii River basin, Japan. J Hydrol 450:25–35
Swaney DP, Humborg C, Emeis K et al (2012) Five critical questions of scale for the coastal zone. Estuar Coast Shelf Sci 96:9–21
Tripathi MP, Panda RK, Raghuwanshi NS (2003) Identification and prioritization of sub-watersheds for soil conservation management using SWAT model. Biosyst Eng 85(3):365–379
Tu J, Xia Z, Clarke KC et al (2007) Impact of urban sprawl on water quality in Eastern Massachusetts, USA. Environ Manage 40:183–200
Tu J (2011) Spatially varying relationships between land use and water quality across an urbanization gradient explored by geographically weighted regression. Appl Geogr 31(1):376–392
Tu J, Xia ZG (2008) Examining spatially varying relationships between land use and water quality using geographically weighted regression I: model design and evaluation. Sci Total Environ 407(1):358–378
Turner RE, Rabalais NN (1991) Changes in Mississippi River Water Quality This Century. Bio Sci 41:140–147
UN General Assembly (2004) Oceans and the Law of the Sea, Report of the Secretary-General of 18 August 2004. (A/59/62/Add.1, 29, para. 9. http://www.un.org/Depts/los/general_assembly/general_assembly_reports.htm. Accessed 17 Oct 2015
UN WWAP World Water Assessment Programme (2009) Water in a changing world. The United Nations World Water Development Report 3
UNEP (2014) In: Bringezu S, Schütz H, Pengue W, O’Brien M, Garcia F, Sims R, Howarth R, Kauppi L, Swilling M, Herrick J (eds), Assessing global land use: balancing consumption with sustainable supply. A report of the working group on land and soils of the international resource panel
Uuemaa E, Roosaare J, Mander U (2007) Landscape metrics as indicators of river water quality at catchment scale. Nordic Hydrol 38(2):125–138
Wang X, Zheng D, Shen Y (2008) Land use change and its driving forces on the Tibetan Plateau during 1990–2000. CATENA 72:56–66
White JR, Hendrickson J, Conkle JL (2008) Effects of changing land use on nutrient loads and water quality in a Southeastern US Blackwater River Estuary. In: Fares A, El-Kadi AI (eds) Coastal watershed management. WIT Press, Southampton, Boston, pp 199–218
Willett VB, Reynolds BA, Stevens PA et al (2004) Dissolved organic nitrogen regulation in freshwaters. J Environ Qual 33(1):201–209
Wilson C, Weng Q (2010) Assessing surface water quality and its relation with urban land cover changes in the Lake Calumet area, Greater Chicago. Environ Manage 45:1096–1111
Withers PJA, Jarvie HP (2008) Delivery and cycling of phosphorus in rivers: a review. Sci Total Environ 400:379–395
Wu Y, Chen J (2013) Investigating the effects of point source and nonpoint source pollution on the water quality of the East River (Dongjiang) in South China. Ecol Indic 32:294–304
Xiao H, Ji W (2007) Relating landscape characteristics to non-point source pollution in mine waste-located watersheds using geospatial techniques. J Environ Manage 88:529–551
Yang Y, He Z, Wang Y et al (2013) Dissolved organic matter in relation to nutrients (N and P) and heavy metals in surface runoff water as affected by temporal variation and land uses-a case study from Indian River Area, south Florida, USA. Agric Water Manag 118:38–49
Zhang ZY, Huang JL, Huang YL et al (2015) Streamflow variability response to climate change and cascade dams development in a coastal China watershed. Estuary Coast Shelf 166:209–2017
Zhou P, Huang JL, Pontius RG et al (2014) Land classification and change intensity analysis in a coastal watershed of Southeast China. Sensors 14:11640–11658
Zhou P, Huang JL, Pontius RG et al (2016) New insight into the correlations between land use and water quality in a coastal watershed of China: does point source pollution weaken it? Sci Total Environ 543:591–600
Zhou P, Huang JL, Hong HS (2018) Modeling nutrient sources, transport and management strategies in a coastal watershed, Southeast China. Sci Total Environ 610–611:1298–1309
Zuo LJ, Xu JY, Zhang ZX et al (2011) Spatial temporal land use change and landscape response in Bohai Sea coastal zone area. J Remote Sens 15(3):604–620 (in Chinese)
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2019 Springer Nature Switzerland AG
About this chapter
Cite this chapter
Huang, J., Ervinia, A., Huang, Y. (2019). Linking Land Use with Water Pollution in Coastal Watersheds of China. In: Yang, X., Jiang, S. (eds) Challenges Towards Ecological Sustainability in China. JFGES 2017. Springer, Cham. https://doi.org/10.1007/978-3-030-03484-9_11
Download citation
DOI: https://doi.org/10.1007/978-3-030-03484-9_11
Published:
Publisher Name: Springer, Cham
Print ISBN: 978-3-030-03483-2
Online ISBN: 978-3-030-03484-9
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)