Due to rapid economic development and population growth, China is facing severe water problems that include sea-level rise and increasing salinization, floods, water pollution, water shortage, soil erosion and ecosystem deterioration, as well as biodiversity loss. In recent decades, China is progressively more concerned with its water issues that are now at the center of social and political attention. Having to overcome similar challenges, Germany has taken a leading role in the field of water sciences and technology. In particular, China can benefit from the lessons learnt in Germany concerning the rehabilitation of water resources in areas heavily affected by chemical industry and mining after the reunification in 1989. German-Chinese cooperation in water sciences started over 25 years ago and dealt with increasing challenges in the 21st century. Following the open space workshop during the Water Research Horizon Conference in Berlin 2014, this article provides a view of some of the challenges and potential opportunities of German-Chinese cooperation in water science and technology.
References
Bauer S, Beyer C, Kolditz O (2006) Assessing measurement uncertainty of first-order degradation rates in heterogeneous aquifers. Water Resour Res 42(1):W01420. doi:10.1029/2004WR003878
Beinhorn M, Dietrich P, Kolditz O (2005) 3-D numerical evaluation of density effects on tracer tests. J Contam Hydrol 81:89–105
Boyacioglu H, Vetter T, Krysanova V, Rode M (2012) Modeling the impacts of climate change on nitrogen retention in a 4th order stream. Clim Change 113:981–999
Centler F, Shao H, Park C-H, de Biase C, Kolditz O, Thullner M (2010) GeoSysBRNS—a flexible multi-dimensional reactive transport model for simulating biogeochemical subsurface processes. Comput Geosci 36(3):397–405. doi:10.1016/j.cageo.2009.06.009
Chen F, Dudhia J (2001) Coupling an advanced land-surface hydrology model with the PennState NCAR MM5 modeling system. Part I: model description and implementation. Mon Weather Rev 129:569–585
Chen Y, Liu QQ (2014) On the horizontal distribution of algal-bloom in Chaohu Lake and its formation process. Acta Mech Sin 30(5):656–666
Chen C, Hagemann S, Liu J (2014) Assessment of impact of climate change on the blue and green water resources in large river basins in China. Environ Earth Sci. doi:10.1007/s12665-014-3782-8
Curtin R, Prellezo R (2010) Understanding marine ecosystem based management: a literature review. Mar Policy 34(5):821–830
Döll P et al (2009) Global-scale analysis of river flow alterations due to water withdrawals and reservoirs. Hydrol Earth Syst Sci 13:2413–2432
Domisch S, Jähnig SC, Simaika JP, Kuemmerlen M, Stoll S (2015) Application of species distribution models in stream ecosystems: the challenge of spatial scale, environmental predictors and species occurrence data. Fundam Appl Limnol (Archiv für Hydrobiologie)
Dou M, Wang YY, Li CY (2014) Oil leak contaminates tap water: a view of drinking water security crisis in China. Environ Earth Sci 72:4219–4221
Econet China (2014) About Econet china http://www.econet-china.com/index.php?id=about_us_en. Accessed 20 Sept 2014
Emili E, Popp C, Wunderle S, Zebisch M, Petitta M (2011) Mapping particulate matter in alpine regions with satellite and ground-based measurements: an exploratory study for data assimilation. Atmos Environ 45:4344–4353
European Commission (2000) Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for Community action in the field of water policy (Water Framework Directive). Official Journal of the European Communities C L 327
Federal Ministry of Education and Research (BMBF 2012) Without water, there is no life, 19.03.2012. http://www.bmbf.de/en/17768.php. Accessed 20 Sept 2014
Fersch B, Wagner S, Rummler T, Gochis D, Kunstmann H (2013) Impact of groundwater dynamics and soil type on modeling coupled water exchange processes between land and, IAHS publication 359, Clim Land Surface Changes Hydrol 140–145
Foreign Economic Cooperation Office (FECO 2014) of Ministry of Environmental Protection: The Sino-German Environmental Cooperation. http://www.mepfeco.org.cn/ywly/sdbhz/sbhz/zdhz/. Accessed 20 Sept 2014
German Water Partnership (GWP 2014) Networking is our business—German Water Partnership. www.germanwaterpartnership.de. Accessed 20 Sept 2014
Grathwohl P, Rügner H, Wöhling T, Osenbrück K, Schwientek M, Gayler S, Wollschläger U, Selle B, Pause M, Delfs J-O, Grzeschik M, Weller U, Ivanov M, Cirpka OA, Maier U, Kuch B, Nowak W, Wulfmeyer V, Warrach-Sagi K, Streck T, Attinger S, Bilke L, Dietrich P, Fleckenstein JH, Kalbacher T, Kolditz O, Rink K, Samaniego L, Vogel H-J, Werban U, Teutsch G (2013) Catchments as reactors—a comprehensive approach for water fluxes and solute turn-over. Environ Earth Sci 69(2):317–334. doi:10.1007/s12665-013-2281-7
Hejazi M et al (2014) Long-term global water projections using six socioeconomic scenarios in an integrated assessment modeling framework. Technol Forecast Soc Change 81:205–226
Hou X, Ying L, Chang Y, Qian SS, Zhang Y (2014) Modeling of non-point source nitrogen pollution from 1979 to 2008 in Jiaodong Peninsula, China. Hydrol Process 28:3264–3275
Jähnig SC, Kuemmerlen M, Kiesel J, Domisch S, Cai Q, Schmalz B, Fohrer N (2012) Modelling of riverine ecosystems by integrating models: conceptual approach, a case study and research agenda. J Biogeogr 39:2253–2263
Jeltsch F et al (2013) How can we bring together empiricists and modellers in functional biodiversity research? Basic Appl Ecol 14(2):93–101
Jiang S, Jomaa S, Rode M (2014) Modelling inorganic nitrogen leaching in nested mesoscale catchments in central Germany. Ecohydrology. doi:10.1002/eco.1462
Kalbacher T, Delfs JO, Shao H, Wang W, Walther M, Samaniego L, Schneider C, Musolff A, Centler F, Sun F, Hildebrandt A, Liedl R, Borchardt D, Krebs P, Kolditz O (2012) The IWAS-ToolBox: Software Coupling for an Integrated Water Resources Management. Environ Earth Sci 65(5):1367–1380. doi:10.1007/s12665-011-1270-y
Kalbus E, Kalbacher T, Kolditz O, Krüger E, Seegert J, Teutsch G, Krebs P, Borchardt D (2012) IWAS—integrated water resources management under different hydrological, climatic and socio-economic conditions, IWAS SI Editorial. Environ Earth Sci 65(5):1363–1366. doi:10.1007/s12665-011
Ke X (2014) Commentary: Xi’s visit offers historic opportunity to advance China-Germany cooperation. Xinhuanet. http://news.xinhuanet.com/english/china/2014-03/28/c_126330219.htm. Accessed 18 Sept 2014
Kolditz O, Rink K, Shao HB, Kalbacher T, Zacharias S, Kunkel R, Dietrich P (2012) International viewpoint and news: data and modelling platforms in environmental earth sciences. Environ Earth Sci 66:1279–1284. doi:10.1007/s12665-012-1661-8
Kong Y, Pang Z, Froehlich K (2013) Quantifying recycled moisture fraction in precipitation of an arid region using deuterium excess. Tellus 65B:19251. doi:10.3402/tellusb.v65i0.19251
Kuemmerlen M, Schmalz B, Guse B, Cai Q, Fohrer N, Jähnig SC (2014) Integrating catchment properties in small scale species distribution models of stream macroinvertebrates. Ecol Model 277:77–86
Kuenzer C (2007) Water pollution, scarcity and distribution challenges. Bus Forum China 02(07):63–65
Kuenzer C, Ottinger M, Liu G, Sun B, Dech S (2014) earth observation-based coastal zone monitoring of the Yellow River Delta: dynamics in China’s Second Largest Oil Producing Region over four Decades. Appl Geogr (in press)
Kunkel R, Sorg J, Eckardt R, Kolditz O, Rink K, Vereecken H (2013) TEODOOR—a distributed geodata infrastructure for terrestrial observation data. Environ Earth Sci 69(2):507–522. doi:10.1007/s12665-013-2370-7
Kunstmann H, Stadler C (2005) High resolution distributed atmospheric-hydrologic modeling for Alpine catchments. J Hydrol 314:105–124
Li XG, He HY, Sun QF (2013) The shallow groundwater pollution’s assessment of west Liaohe plain (eastern). J Chem Pharm Res 5(11):290–295
Li DF, Zuo QT, Cui GT (2014) Disposal of chemical contaminants into groundwater: viewing hidden environmental pollution in China. Environ Earth Sci 70:1933–1935
Liu J, Yang W (2012) Water sustainability for China and beyond. Science 337(6095):649–650
Liu X, Yua X, Yu K (2012) The current situation and sustainable development of water resources in China. Procedia Eng 28:522–526
Loos R, Gamlik B M, Locoro G, Rimaviciute E, Contini S, Bidoglio G (2008) EU wide monitoring survey of polar persistent pollutants in European rivers waters. JRS Scientific and Technical Reports, pp 1–51
McLeod K, Leslie H (2009) Ecosystem-based management for the oceans. Island Press, Washington
Ministry of Environmental Protection of the People’s Republic of China (MEP 2000) Report on the state of the environment in China 2000, Sino-German Conference for Environmental Cooperation. http://english.mep.gov.cn/SOE/soechina2000/english/management/management_maine.htm#a22. Accessed 20 Sept 2014
Ministry of Environmental Protection of the People’s Republic of China (MEP 2012) The 12th-Five-year Plan for the Prevention and Control of Pollution from Hazardous Waste
Ministry of Water Resources of the People’s Republic of China (2013) China Water Resources Bulletin 2012. China Water and Power Press
Ottinger M, Kuenzer C, Liu G, Wang S, Dech S (2013) Monitoring land cover dynamics in the Yellow River Delta from 1995 to 2010 based on Landsat 5 TM. Appl Geogr 44:53–68
Paasche H et al (2014) Are Earth Sciences lagging behind in data integration Methodologies? Environ Earth Sci 71:1997–2003
Pang Z (2014) Mechanism of water cycle changes and implications on water resources regulation in Xinjiang Uygur autonomous region. Quat Sci 2014:907–917
Pang Z, Kong Y, Froehlich K, Huang T, Yuan L, Li Z, Wang F (2011) Processes affecting isotopes in precipitation of an arid region. Tellus 63B:352–359. doi:10.1111/j.1600-0889.2011.00532.x
Reemtsma T, Jekel M (eds) (2006) Organic Pollutants in the water cycle: properties, occurrence, analysis and environmental relevance of polar compounds. A publication of the Water Chemical Society
Rink K, Kalbacher T, Kolditz O (2012) Visual data management for hydrological analysis. Environ Earth Sci 65(5):1395–1403. doi:10.1007/s12665-011-1230-6
Rode M, Suhr U, Wriedt G (2007) Multi-objective calibration of a river water quality model—information content of calibration data. Ecol Model 204(1–2):129–142
Rode M, Arhonditsis G, Balin D, Kebede T, Krysanova V, van Griensven A, van der Zee S (2010) New challenges in integrated water quality modelling. Hydrol Process 24:3447–3461
Schlüter M, McAllister RRJ, Arlinghaus R, Bunnefeld N, Eisenack K, Hölker F, Milner-Gulland EJ, Mülller B, Nicholson E, Quaas M et al (2012) New horizons for managing the environment: a review of coupled social-ecological systems modeling. Nat Res Model 25(1):219–272
Schöl A, Eidner R, Böhme M, Kirchesch V(2006) Integrierte Modellierung der Wasserbeschaffenheit mit QSim. In: Pusch, M. und Fischer, H. (Hrsg.): Stoffdynamik und Habitatstruktur in der Elbe. Konzepte für die nachhaltige Entwicklung einer Flusslandschaft. 233–242. Weißensee Verlag, Berlin, 385 S. ISBN 3-89998-011
Schuwirth N, Reichert P (2013) Bridging the gap between theoretical ecology and real ecosystems: modeling invertebrate community composition in streams. Ecology 94(2):368–379
Shuster W, Bonta J, Thurston H, Warnemuende E, Smith D (2005) Impacts of impervious surface on watershed hydrology: a review. Urban Water Journal 2(4):263–275
Skamarock W.C, Klemp J.B, Dudhia J, Gill DO, Barker DM, Duda MG, Huang X, Wang W, Powers JG (2008) A description of the advanced research WRF version 3. Technical Report 459, NCAR, Boulder
Smiatek G, Kunstmann H, Werhahn J (2012) Implementation and performance analysis of a high resolution coupled numerical weather and river runoff prediction model system for an Alpine catchment. Environ Model Softw 38:231–243. doi:10.1016/j.envsoft.2012.06.001
Tang DL, Kawamura H, Oh IS, Baker J (2006) Satellite evidence of harmful algal blooms and related oceanographic features in the Bohai Sea during autumn 1998. Adv Space Res 37:681–689
Tao T, Xin K (2014) Public health: a sustainable plan for China’s drinking water. Nature 511(7511):527–528. doi:10.1038/511527a
The People’s Republic of China (2007) National implementation plan for the Stockholm convention on persistent organic pollutants
Tirado R (2008) Analysis of chemical agricultural pollution and algal blooms. Greenpeace report
U.S. EPA (2007) Developing your stormwater pollution prevention plan: a guide for construction sites. Environmental Protection Agency, Washington, DC
Venohr M et al (2011) Modelling of nutrient emissions in river systems—MONERIS—methods and background. Int Rev Hydrobiol 96(5):435–483
Wagenschein D, Rode M (2008) Modelling the impact of river morphology on nitrogen retention—a case study of the Weisse Elster River (Germany). Ecol Model 211:224–232
Wagner S, Fersch B, Kunstmann H, Yuan F, Yang C, Zu Y (2013) Hydrometeorological modelling for Poyang Lake Region, China, IAHS publication 359. Climate and Land Surface Changes in Hydrology, pp 152–157
Wan R, Cai S, Li H, Yang G, Li Z, Nie X (2014) Inferring land use and land cover impact on stream water quality using a Bayesian hierarchical modeling approach in the Xitiaoxi River Watershed, China. J Environ Manag 133:1–11
Wang SF, Tang DL, He FL, Fukuyo Y, Azanza RV (2008) Occurrences of harmful algal blooms (HABs) associated with ocean environments in the South China Sea. Hydrobiologia 596:79–93
WB (2014) China Overview. The World Bank. http://www.worldbank.org/en/country/china/overview. Accessed 18 Sept 2014
WB and DRCSC (2014) Urban China: toward efficient, inclusive, and sustainable urbanization. The World Bank, Development Research Center of the State Council, P. R. China, Washington DC
Wilson JP, Gallant JC (eds) (2000) Terrain analysis: principles and applications. Wiley, New York
WPS (2014) Population of China (2014) World Population Statistics. http://www.worldpopulationstatistics.com/population-of-china-2014/. Accessed 18 Sept 2014
Xiao YT, Zhang JJ, Wu M et al (2001) Pollution of water resource and the safety of drinking water (Chinese). Resour Environ Yangtze Basin 10(1):51–59
Xinhua (2006) China issues S&T development guidelines. http://english.gov.cn/2006-02/09/content_183426.htm. Accessed 18 Sept 2014
Yu Z, Pollard D, Cheng L (2006) On continental-scale hydrologic simulations with a coupled hydrologic model. J Hydrol 331:110–124
Yuan F, Kunstmann H, Yang C, Yu Z, Ren L, Fersch B, Xie Z (2009) Development of a coupled land-surface and hydrology model system for mesoscale hydrometeorological simulations. In: New Approaches to Hydrological Prediction in Data Sparse Regions, vol 333. IAHS Publ, pp 195–202
Yue TX (2011) Surface modelling: high accuracy and high speed methods. CRC Press, New York
Zacharias S, Bogena H, Samaniego L, Mauder M, Fuß R, Pütz T, Frenzel M, Schwank M, Baessler C, Butterbach-Bahl K, Bens O, Borg E, Brauer A, Dietrich P, Hajnsek I, Helle G, Kiese R, Kunstmann H, Klotz S, Munch JC, Papen H, Priesack E, Schmid HP, Steinbrecher R, Rosenbaum U, Teutsch G, Vereecken H (2011) A network of terrestrial environmental observatories in Germany. Vadose Zone J 10(3):955–973
Zhang K (2014) Blue-green algae bloom in Taihu Lake: reflections on pollution and development. Chinese Research Perspectives Online. International Advisory Board Chinese Research Perspectives Online, Brill
Zhang Y, Li GM (2014) Influence of south-to-north water diversion on major cones of depression in North China Plain. Environ Earth Sci 71:3845–3853
Zhang J, Tränckner J, Krebs P (2012) Spatial distribution and temporal accumulation of particulate-associated Cu, Zn and Cd on impervious urban surfaces. In: 9th IWA International Conference on Urban Drainage Modelling, Belgrade, Serbia
Zhang J, Tränckner J, Hua P, Krebs P (2013) Potential source contributions and risk assessment of size-fractionated polycyclic aromatic hydrocarbons (PAHs) on traffic roads. In: 7th International Conference on Sewer Processes and Networks, Sheffield
Zhang J, Hua P, Kaeseberg T, Guo J, Krebs P (2014) A comprehensive approach to road-deposited sediment ecological risk assessment under a runoff pollution aspect. Paper presented at the 13th IWA International Conference on Urban Drainage, Sarawak, Malaysia
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Chen, C., Börnick, H., Cai, Q. et al. Challenges and opportunities of German-Chinese cooperation in water science and technology. Environ Earth Sci 73, 4861–4871 (2015). https://doi.org/10.1007/s12665-015-4149-5
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DOI: https://doi.org/10.1007/s12665-015-4149-5