nach oben

Water Resources Management

Erschienen in:

18.09.2020

Response of Non-point Source Pollution Loads to Land Use Change under Different Precipitation Scenarios from a Future Perspective

verfasst von: Xiaoyan Bai, Wen Shen, Peng Wang, Xiaohong Chen, Yanhu He

Erschienen in: Water Resources Management | Ausgabe 13/2020

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config

KI-gestützte Suche

Aus

Abstract

To optimize the management of non-point source (NPS) pollution in a changing environment, the cellular automata (CA) and Hydrological Simulation Program-Fortran (HSPF) models were used to study the response mechanism of NPS pollution loads to land use change and different precipitation scenarios. Taking the Dongjiang River Basin as a case study, the land use situation and its spatial distribution patterns in 2020, 2030 and 2050 were predicted by the logistic regression-based CA model. The trends of the NPS pollution loads under different land use and precipitation scenarios were quantitatively evaluated. The results show that the total accuracy of the land use change simulated by the CA model was 81%. Both the HSPF model and the CA model were highly applicable to this basin. Precipitation is proven to be the main driving force of NPS pollution. From 2020 to 2050, the annual load, average monthly load, maximum and minimum monthly load of the BOD and TP show an upward trend. TN shows a slight downward trend, which is related to the reduction in cultivated land area and the use of nitrogen fertilizer. In view of the future trend of NPS pollution, the basin should continue to control TN pollution and focus on strengthening BOD and TP control to achieve high-quality management of the water environment.

Vorheriger Artikel Correction to: An Integrated Modelling Approach for Flood Simulation in the Urbanized Qinhuai River Basin, China

Nächster Artikel Governing Government-Project Owner Relationships in Water Megaprojects: a Concession Game Analysis on Allocation of Control Rights

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Nur mit Berechtigung zugänglich

Aryal SK, Ashbolt S, Mclntosh BS, Petrone KP, Maheepala S, Chowdhury RK, Gardener T, Gardiner R (2016) Assessing and mitigating the hydrological impacts of urbanisation in semi-urban catchments using the storm water management model. Water Resour Manag 30:5437–5454CrossRef

Cai YP, Rong QQ, Yang ZF, Yue WC, Tan Q (2018) An export coefficient based inexact fuzzy bi-level multi-objective programming model for the management of agricultural nonpoint source pollution under uncertainty. J Hydrol 557:713–725CrossRef

Corwin DL, Loague K, Ellworth TR (1998) GIS-based modeling of non-point source pollutants in the vadose zone. J. Soil Water Conserv 53:34–38

Chen L, Xu JJ, Wang GB, Liu HB, Zhai LM, Li S, Sun C, Shen ZY (2018) Influence of rainfall data scarcity on non-point source pollution prediction: implications for physically based models. J Hydrol 562:1–16CrossRef

Ding J, Jiang Y, Fu L, Liu Q, Peng QZ, Kang MY (2015) Impacts of land use on surface water quality in a subtropical river basin: a case study of the Dongjiang River basin, southeastern China. Water 7:4427–4445CrossRef

Gounaridis D, Chorianopoulos I, Koukoulas S (2018) Exploring prospective urban growth trends under different economic outlooks and land-use planning scenarios: the case of Athens. Appl Geogr 90:134–144CrossRef

General land use plan of Shenzhen city (2009) Guangdong Province, China (2006–2020), Shenzhen Urban Planning and Land Resources Committee

IPCC (2007) Summary for policymakers of climate change: the physical science basis. Contribution of working group I to the fourth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge

Jahanishakib F, Mirkarimi SH, Salmanmahiny A, Poodat F (2018) Land use change modeling through scenario-based cellular automata Markov: improving spatial forecasting. Environ. Monit. Assess 190:332CrossRef

Keefer L, Markus M, Getahun E (2017) Monitoring and modeling of Nutrient & Sediment Loads for varying climate & landscapes. Building resiliency in the face of risk. Illinois State Water Survey, Champaign

Kim S, Seo DJ, Riazi H, Shin C (2014) Improving water quality forecasting via data assimilation-application of maximum likelihood ensemble filter to HSPF. J.Hydrol 519:2797–2809CrossRef

Lee SB, Yoon CG, Jung KW, Hwang HS (2010) Comparative evaluation of runoff and water quality using HSPF and SWMM. Water Sci Technol 62:1401–1409CrossRef

Lai CG, Shao QX, Chen XH, Wang ZL, Zhou XW, Yang B, Zhang LL (2016) Flood risk zoning using a rule mining based on ant colony algorithm. J Hydrol 542:268–260CrossRef

Lai C, Chen X, Wang Z, Yu H, Bai X (2020) Flood risk assessment and regionalization from past and future perspectives at basin scale. Risk Anal 40:1399–1417. https://doi.org/10.1111/risa.13493CrossRef

Lv L, Peng QZ, Liao JY, Jiang Y, Kang MY (2013) Fluctuation and trends in precipitation and runoff in the Dongjiang River basin over 50 years. Res Sci 35:514–520

Li X, Gar-Onyeh A (2002) Neural-network-based cellular automata for simulating multiple land use changes using GIS. Int J Geogr Inf Sci 16:323–343CrossRef

Lu Q, Chang NB, Joyce J, Chen AS, Savic DA, Djordjevic S, Fu GT (2018) Exploring the potential climate change impact on urban growth in London by a cellular automata-based Markov chain model. Comput. Environ. Urban Syst 68:121–132CrossRef

Lin JY, Chen TL, Han QZ (2018) Simulating and predicting the impacts of light rail transit systems on urban land use by using cellular automata: a case study of Dongguan, China. Sustainability 10:1293CrossRef

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):195–210CrossRef

Ma GM; Wang YY; He LH; Liang HJ; Su BD; Hu Y; Wang G (2017) Study on non-point sources pollution loading of nitrogen and phosphorus in Ashi River Basin. IOP Conf. Ser.: Earth Environ. Sci 69: 012033

Ongley ED, Zhang XL, Tao Y (2010) Current status of agricultural and rural non-point source pollution assessment in China. Environ Pollut 158:1159–1168CrossRef

Ouyang W, Huang HB, Hao FH, Shan YS, Guo BB (2012) Evaluating spatial interaction of soil property with non-point source pollution at watershed scale: the phosphorus indicator in Northeast China. Sci Total Environ 432:412–421CrossRef

Ouyang Y, Parajuli PB, Feng G, Leininger TD, Wan YS, Dash P (2018) Application of climate assessment tool (CAT) to estimate climate variability impacts on nutrient loading from local watersheds. J Hydrol 563:363–371CrossRef

Owens LB, Shipitalo MJ, Bonta JV (2008) Water quality response time to pasture management changes in small and large watersheds. J Soil Water Conserv 63:292–299CrossRef

Ribarova, I., Ninov, P., Cooper, D. (2008) Modeling nutrient pollution during a first flood event using HSPF software: Iskar River case study, Bulgaria Ecol Model 211: 241–246

Rodrigues V, Estrany J, Ranzini M, Cicco VMJ, Martín-Benito T, Hedo J, Lucas-Borja ME (2018) Effects of land use and seasonality on stream water quality in a small tropical catchment: the headwater of Córrego Água Limpa, São Paulo (Brazil). Sci Total Environ 622-623:1553–1561CrossRef

Stern M, Flint L, Minear J, Flint A, Wright S (2016) Characterizing changes in streamflow and sediment supply in the Sacramento River Basin, California, using Hydrological Simulation Program-FORTRAN(HSPF). Water 10:432CrossRef

Shen ZY, Zhong YC, Huang Q, Chen L (2015) Identifying non-point source priority management areas in watersheds with multiple functional zones. Water Res 68:563–571CrossRef

USEPA (2003) National management measures to control non-point pollution from agriculture. EPA-841-B-03-004. United States Environmental Protection Agency, Washington, DC

Vivoni ER, Richards KT (2005) Integrated use of GIS-based field sampling and modeling for hydrologic and water quality studies. J Hydroinf 7:235–250CrossRef

Vrebos D, Beauchard O, Meire P (2017) The impact of land use and spatial mediated processes on the water quality in a river system. Sci Total Environ 601-602:365–373CrossRef

Wang HL, Wu ZN, Hu CH (2015) A comprehensive study of the effect of input data on hydrology and non-point source pollution modeling. Water Resour Manag 29:1505–1521CrossRef

Wang Z, Xie PW, Lai C, Chen X, Wu X, Zeng Z, Li J (2017) Spatiotemporal variability of reference evapotranspiration and contributing climatic factors in China during 1961-2013. J Hydrol 544:97–108CrossRef

Wang ZW, Yang ST, Zhao CS, Bai J, Lou HZ, Chen K, Wu LN, Dong GT, Zhou QW (2016) Assessment of non-point source Total phosphorus pollution from different land use and soil types in a mid-high latitude region of China. Water 8:505CrossRef

Wang ZL, Chen JC, Lai CG, Zhong RD, Chen XH, Yu HJ (2018) Hydrologic assessment of the TMPA 3B42-V7 product in a typical alpine and gorge region: the Lancang River basin, China. Hydrol Res 49(6):2002–2015

Zhai XY, Zhang YY, Wang XL, Xia Y, Liang T (2014) Non-point source pollution modelling using soil and water assessment tool and its parameter sensitivity analysis in Xin’anjiang catchment. China Hydrol Process 28:1627–1640CrossRef

Zema DA, Denisi P, Ruiz EVT, Gómez JA (2016) Evaluation of surface runoff prediction by AnnAGNPS model in a large Mediterranean watershed covered by olive groves. Land Degrad 27:811–822CrossRef

Zhou Y, Zhang Q, Li K, Chen XH (2012) Hydrological effects of water reservoirs on hydrological processes: complexity evaluations based on the multi-scale entropy analysis. Hydrol Process 26:3253–3262. https://doi.org/10.1002/hyp.8406CrossRef

Titel: Response of Non-point Source Pollution Loads to Land Use Change under Different Precipitation Scenarios from a Future Perspective
verfasst von: Xiaoyan Bai
Wen Shen
Peng Wang
Xiaohong Chen
Yanhu He
Publikationsdatum: 18.09.2020
Verlag: Springer Netherlands
Erschienen in: Water Resources Management / Ausgabe 13/2020
Print ISSN: 0920-4741
Elektronische ISSN: 1573-1650
DOI: https://doi.org/10.1007/s11269-020-02626-0

Springer Professional

Abstract

Bitte loggen Sie sich ein, um Zugang zu Ihrer Lizenz zu erhalten.

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Technik"

Springer Professional "Wirtschaft+Technik"

Weitere Artikel der Ausgabe 13/2020

Multicriteria Decision Support for Selection of Alternatives Directed to Integrated Urban Water Management

Direct Management or Inter-Municipal Cooperation in Smaller Municipalities? Exploring Cost Efficiency and Installed Capacity in Drinking Water Supply

Relating Sediment Yield Estimations to the Wet Front Term Using Rainfall Simulator Field Experiments

A Hybrid Model-Based Adaptive Framework for the Analysis of Climate Change Impact on Reservoir Performance

Correction to: A Novel Idea for Groundwater Resource Management during Megadrought Events

Upstream Cutoff and Downstream Filters to Control of Seepage in Dams