RETRACTED: Temporal Dynamics of Land Use and Water Quality in Three Sub-Catchments of the Rur River, Germany

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The paper does not meet the standards of "Journal of Geoscience and Environment Protection".


This article has been retracted due to conflicts of interest among authors. In making this decision the Editorial Board follows COPE's Retraction Guidelines. The aim is to promote the circulation of scientific research by offering an ideal research publication platform with due consideration of internationally accepted standards on publication ethics. The Editorial Board would like to extend its sincere apologies for any inconvenience this retraction may have caused.


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Adhikari, S. (2020) RETRACTED: Temporal Dynamics of Land Use and Water Quality in Three Sub-Catchments of the Rur River, Germany. Journal of Geoscience and Environment Protection, 8, 36-47. doi: 10.4236/gep.2020.88004.

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References

[1] Batsatsashvili, M. (2017). The Impact of Land Use on Regulating Ecosystem Services and Biogeochemistry of Rur River Catchment Germany. M.Sc. Thesis Report, UNESCO-IHE.
[2] Bogena, H. R., Montzka, C., Huisman, J. A., Graf, A., Schmidt, M., Stockinger, M., von Hebel, C., Hendricks-Franssen, H. J., van der Kruk, J., Tappe, W., Lucke, A., Baatz, R., Bol, R., Groh, J., Putz, T., Jakobi, J., Kunkel, R., Sorg, J., & Vereecken, H. (2018). The TENDRO-Rur Hydrological Observatory: A Multiscale Multi-Compartment Research Platform for the Advancement of Hydrological Science. Vadose Zone Journal, 17, 1-22.
[Google Scholar] [CrossRef]
[3] Cai, Y. (2001). Study on Landuse/Landcover Changes: Searching for New Approaches to Integration. Geographical Search, 20, 645-652.
[4] Cuo, L., Zhang, Y., Gao, Y., Hao, Z., & Cairang, L. (2013). The Impacts of Climate Change and Land Cover/Use Transition on the Hydrology in the Upper Yellow River Basin, China. Journal of Hydrology, 502, 37-52.
[Google Scholar] [CrossRef]
[5] ESCAP (Economic and Social Commission for Asia and the Pacific) (1997). Guidelines and Manual on Land-Use Planning and Practices in Watershed Management and Disaster Reduction. ESCAP, United Nations.
[6] Foley, J. A., De Fries, R., Asner, G. P., Barford, C., Bonan, G, Carpenter, S. R., Chapin, F. S., Coe, M. T., Daily, G. C., Gibbs, H. K., Helkowski, J. H., Holloway, T., Howard, E. A., Kucharik, C. J., Monfreda, C., Patz, J. A., Prentice, L. C., Ramankutty, N., & Snyder, P. K. (2005). Global Consequences of Land Use. Science, 309, 570-574.
[Google Scholar] [CrossRef] [PubMed]
[7] Gaitanis, A., Kalogeropoulos, K., Detsis, V., & Chalkis, C. (2015). Land Cover Changes in Marathon Area, Greece. Land, 4, 337-354.
[Google Scholar] [CrossRef]
[8] Indicator Report (2017). Sustainable Development Goals in Germany, Federal Statistical Office of Germany.
[9] Jiang, T., Wang, D., Wei, S., Yan, J., Liang, J., Chen, X. and Zhao, Z. (2018). Influences of the Alteration of Wet-Dry Periods on the Variability of Chromophoric Dissolved Organic Matter in the Water Level Fluctuation Zone of the Three Gorges Reservoir Area, China. Science of the Total Environment, 636, 249-259.
[Google Scholar] [CrossRef] [PubMed]
[10] Kanianska, R., Kizekova, M., Novacek, J., & Zeman, M. (2014). Land-Use and Land Cover Changes in Rural Areas during Different Political Systems: A Case Study of Slovakia from 1782 to 2006. Land Use Polity, 36, 554-556.
[Google Scholar] [CrossRef]
[11] Kaushal, S. S., & Belt, K. T. (2012). The Urban Watershed Continuum: Evolving Spatial and Temporal Dimensions. Urban Ecosystems, 15, 409-435.
[Google Scholar] [CrossRef]
[12] Kumar, M., Denis, D. M., Singh, S. K., Szabo, S., & Suryayanshi, S. (2018). Landscape for Assessment of Land Cover Change and Fragmentation of Heterogeneous Watershed. Remote Sensing Applications: Society and Environment, 10, 224-233.
[Google Scholar] [CrossRef]
[13] Lambin, E. F. (1997). Modeling and Monitoring Land-Cover Change Processes in the Tropical Region. Progress in Physical Geography, 21, 375-393.
[Google Scholar] [CrossRef]
[14] Lambin, E. F., & Geist, H. J. (2006). Land Use and Land Cover Change-Local Processes and Global Impacts (p. 222). Berlin, Heidelberg: Springer Science and Business Media.
[Google Scholar] [CrossRef]
[15] Lambin, E. F., Rounsevell, M. D. A., & Geist, H. J. (2000). Are Current Agriculture Land Use Models Able to Predict Changes in Land-Use Intensity? Agriculture, Ecosystem and Environment, 82, 321-331.
[Google Scholar] [CrossRef]
[16] Liu, J., Zhang, Z., Xu, X., Kuang, W., Zhou, W., Zhang, S., Li, R., Yan, C., Yu, D., Wu, S., & Jiang, N. (2010). Spatial Patterns and Driving Forces of Land Use Change in China during the Early 21st Century. Journal of Geographical Science, 20, 483-494.
[Google Scholar] [CrossRef]
[17] Maaß, A. L., & Schuttrumpf, H. (2018). Long-Term Effects of Mining-Induced Subsidence on Trapping Efficiency of Floodplains. Anthropocene, 24, 1-13.
[Google Scholar] [CrossRef]
[18] Meyer, J. L., Paul, M. J., & Taulbee, W. K. (2005). Stream Ecosystem Function in Urbanizing Landscapes. Journal of the North American Benthological Society, 24, 602-612.
[Google Scholar] [CrossRef]
[19] Ministry of Environment and Nature Conservation (MENC). (2018). North Rhine Westphalia. Electronic Water Management System Web (ELWAS-Web).
https://www.elwasweb.nrw.de/elwas-web/index.jsf#
[20] Montzka, C., Canty, M., Kunkel, R., Menz, G., Vereecken, H., & Wendland, F. (2008). Modeling the Water Balance of Mesoscale Catchment Basin Using Remotely Sensed Land Cover Data. Journal of Hydrology, 353, 322-334.
[Google Scholar] [CrossRef]
[21] Nautiyal, P., & Mishra, A. (2013). Variation in Benthic Macroinvertebrate Fauna as Indicator of Land Use in the Ken River, Central India. Journal of Threatened Taxa, 5, 4096-4105.
[Google Scholar] [CrossRef]
[22] Osterkamp, W. R., & Toy, T. J. (1997). Geomorphic Considerations for Erosion Predictions. Environmental Geology, 29, 152-157.
[Google Scholar] [CrossRef]
[23] Paul, B. K., & Rashid, H. (2017). Land Use Change and Coastal Management. In Climatic Hazards in Coastal Bangladesh (Chapter 6, pp. 183-207). Amsterdam: Elsevier.
[Google Scholar] [CrossRef]
[24] Recha, J. W., Lehmann, J. F., Walter, M. T., Pell, A., Verchot, L., & Johnson, M. (2013). Stream Water Nutrient and Organic Carbon Exports from Tropical Headwater Catchments at a Siol Degradation Gradient. Nutrient Cycling in Agroecosystems, 95, 145-158.
[Google Scholar] [CrossRef]
[25] Rodolfo, L. B., Alphonce, C., Lamparter, G., Richardo, S. S., Eduardo, G., Harold, J., Hermann, F., & Gerold, G. (2018). Impact of Land-Use and Land-Cover Change on Stream Hydrochemistry in the Cerrado and Amazon Biomes. The Science of Total Environment, 635, 259-274.
[Google Scholar] [CrossRef] [PubMed]
[26] RWE Power (2019). The Post-Mining Landscape Recultivation in the Rhineland.
https://www.rwe.com/web/cms/mediablob/en/352232/data/183406/2/rwe/innovation/resources/
lignite/renaturation-and-environmental-protection/dl-en-recultivation.pdf
[27] Schulze, C., & Matthies, M. (2001). Georeferenced Aquatic Fate Simulation of Cleaning Agent and Detergent Ingredients in the River Rur Catchment (Germany). Science of the Total Environment, 280, 55-77.
[Google Scholar] [CrossRef]
[28] Sewnet, A., & Gebeyehu, A. (2018). Land Use and Land Cover Change and Implication to Watershed Degradation by Using GIS and Remote Sensing in the Koga Watershed, North Western Ethiopia. Earth Science Informatics, 11, 99-108.
[Google Scholar] [CrossRef]
[29] Sharma, S., Allen, M., Caurage, A., Hall, H., Koirala, S., Oliver, S., & Zimmerman, B. (2005). Assessing Water Quality for Ecosystem Health of Babai River in Bardia National Park. Journal of Science Engineer and Technology, 1, 1-13.
[30] Tekle, K., & Hedlund, L. (2000). Land Cover Changes between 1958 and 1986 in Kalu District, Southern Wello, Ethiopia. Mountain Resource Development, 20, 42-51.
[Google Scholar] [CrossRef]
[31] Tu, M., Hall, M. J., De Laat, P. J. M., & De Wit, M. J. M. (2005). Extreme Floods in the Meuse River over the Past Century: Aggravated by Land Use Changes? Physics and Chemistry of the Earth, 30, 267-276.
[Google Scholar] [CrossRef]
[32] Ustsoglu, E., & Williams, B. (2017). Determinants of Urban Expansion and Agricultural Land Conversion in 25 EU Countries. Environmental Management, 60, 717-746.
[Google Scholar] [CrossRef] [PubMed]
[33] Van Vliet, J., de Groot, H. L. F., Rietveld, P., & Verburg, P. H. (2015). Manifestations and Underlying Drivers of Agricultural Land Use Change in Europe. Landscape and Urban Planning, 133, 24-36.
[Google Scholar] [CrossRef]
[34] Vannote, R. L., Minshall, G. W., Cummins, K. W., Sedell, J. R., & Cushing, C. E. (1980). The River Continuum Concept. Canadian Journal of Fisheries and Aquatic Sciences, 37, 130-137.
[Google Scholar] [CrossRef]
[35] Waldhoff, G., Lussem, U., & Bareth, G. (2017). Multi-Data Approach for Remote Sensing Based Regional Crop Rotation Mapping. A Case Study for the Rur Catchment Germany. International Journal of Applied Earth Observation and Geoinformation, 61, 55-69.
[Google Scholar] [CrossRef]
[36] Wang, H., Zhang, W., Hong, S., Zhung, Y., Lin, H., & Wang, Z. (2014). Spatial Evaluation of Complex Non-Point Source Pollution in Urban-Rural Watershed Using Fuzzy System. Journal of Hydroinformatics, 16, 114-129.
[Google Scholar] [CrossRef]
[37] Wasserverband Eifel-Rur (WVER) (2018).
https://www.wver.de/index.php
[38] Wasserverband Eifel-Rur (WVER) (2019).
https://www.wver.de/index.php/gewaesser/fluesse/wurm
[39] Yu, S., Xu, Z., Wu, W., Yao, L., Wei, W., & Chen, L. (2016). How Does Imperviousness Impact the Urban Rainfall-Runoff Process under Various Storm Cases? Ecological Indicators, 60, 893-905.
[Google Scholar] [CrossRef]
[40] Zondag, B., & Brosboom, J. (2009). Driving Forces of Land-Use Change. In ERSA Conference Paper. Lodz.

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