Drilldown: BibEntryCargo

Anshuman, Aatish; Eldho, T. I.; (2) · Becker, Matthew W.; Schuetz, James W.; (2) · Boufekane, Abdelmadjid; Belloula, Moufida; Busico, Gianluigi; Drias, Tarek; Reghais, Azzeddine; Maizi, Djamel; (2) · Bunel, Raphaël; Lecoq, Nicolas; Copard, Yoann; Guérin, Eric; Van de Wiel, Marco; Massei, Nicolas; (1) · El-Kharakany, Mohamed M.; Abd-Elmegeed, Mohamed A.; Hassan, Ahmed E.; (2) · Fabian, Mark W.; Endreny, Theodore A.; Bottacin-Busolin, Andrea; Lautz, Laura K.; (1) · Jin, Xin; Jin, Yanxiang; Zhai, Jingya; Fu, Di; Mao, Xufeng; (1) · Larsen, Joshua D.; Alzraiee, Ayman H.; Martin, Donald; Niswonger, Richard G.; (1) · Lee, Hyeonju; Lee, Eunhee; Kim, Yongcheol; Lee, Soo-Hyoung; Koo, Min-Ho; (2) · Nassery, Hamidreza; Salami, Hemmat; (2) · Ramirez, Jorge Alberto; Mertin, Mirjam; Peleg, Nadav; Horton, Pascal; Skinner, Chris; Zimmermann, Markus; Keiler, Margreth; (1) · Sangeetha, K.; Narasimhan, Balaji; Srinivasan, R.; (1) · Smith, Andrew P.; Zurcher, Eric; Llewellyn, Rick S.; Norman, Hayley C.; (2) · Tigabu, Tibebe B.; Wagner, Paul D.; Hörmann, Georg; Fohrer, Nicola; (1) · Tork, Hamed; Javadi, Saman; Hashemy Shahdany, Seyed Mehdy; Berndtsson, Ronny; Ghordoyee Milan, Sami; (1) · Yifru, Bisrat Ayalew; Chung, Il-Moon; Kim, Min-Gyu; Chang, Sun Woo; (1)

journalArticle (23)

A Coupled SWAT-AEM Modelling Framework for a Comprehensive Hydrologic Assessment (1) · An Introduction to Ground-Water Modeling Using Virtual Reality Modeling Language (VRML) (2) · Assessing the effect of urbanization on regional-scale surface water-groundwater interaction and nitrate transport (1) · Designing Integrated Systems for the Low Rainfall Zone Based on Grazed Forage Shrubs with a Managed Interrow (2) · Effects of Weir Operation on Seasonal Groundwater Use: A Case Study of the Han River, South Korea (2) · Generation of realistic synthetic catchments to explore fine continental surface processes (1) · Groundwater Extraction Reduction within an Irrigation District by Enhancing the Surface Water Distribution (1) · Hybridization of DRASTIC Method to Assess Future GroundWater Vulnerability Scenarios: Case of the Tebessa-Morsott Alluvial Aquifer (Northeastern Algeria) (2) · Identification and Prediction of Crop Waterlogging Risk Areas under the Impact of Climate Change (1) · Identifying vulnerable areas of aquifer under future climate change (case study: Hamadan aquifer, West Iran) (2) · Meshless Local Strong Form-based Method for Transport Simulation of Nonlinearly Adsorbing Solutes in a Highly Heterogeneous Confined Aquifer (2) · Modeling radial groundwater flow in fractured media using fracture continuum approach (2) · Modeling the spatio-temporal flow dynamics of groundwater-surface water interactions of the Lake Tana Basin, Upper Blue Nile, Ethiopia (1) · Modelling the long-term geomorphic response to check dam failures in an alpine channel with CAESAR-Lisflood (1) · Rapid Model Development for GSFLOW With Python and pyGSFLOW (1) · Seasonal variation in cascade-driven hyporheic exchange, northern Honduras (1)

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2003 (2) · 2011 (1) · 2016 (2) · 2020 (1) · 2021 (1) · 2022 (16)

Agronomy (2) · Applied Sciences (2) · Arabian Journal of Geosciences (4) · Earth Surface Processes and Landforms (1) · Frontiers in Earth Science (1) · Hydrological Processes (1) · Hydrology Research (1) · International Journal of Sediment Research (1) · Journal of Geoscience Education (2) · Scientific Reports (1) · Water (5) · Water Resources Management (2)

None (23)

None · None · 11 · 12 · 14 · 10 · 13 · 15 · 9 · 8 · 16 · 7 · 6 · 23 · 18 · 17 · 5 · 21 · 19 · 1

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12520 (1) · 1443–1461 (2) · 1537–1559 (1) · 1610 (1) · 1630–1646 (1) · 1956 (1) · 2348 (2) · 2753 (1) · 354 (2) · 506–511 (2) · 518 (2) · 593–610 (1) · 646 (2) · 687–700 (1) · 907533 (1) · 9205 (2)

http://link.springer.com/10.1007/s12517-016-2526-3 (2) · https://iwaponline.com/hr/article/51/6/1537/77995/Modeling-the-spatiotemporal-flow-dynamics-of (1) · https://link.springer.com/10.1007/s11269-022-03092-6 (2) · https://link.springer.com/10.1007/s12517-022-09559-5 (2) · https://linkinghub.elsevier.com/retrieve/pii/S1001627922000300 (1) · https://onlinelibrary.wiley.com/doi/10.1002/esp.5048 (1) · https://onlinelibrary.wiley.com/doi/10.1002/hyp.7924 (1) · https://www.frontiersin.org/articles/10.3389/feart.2022.907533/full (1) · https://www.mdpi.com/2073-4395/12/10/2348 (2) · https://www.mdpi.com/2073-4441/14/10/1610 (1) · https://www.mdpi.com/2073-4441/14/12/1956 (1) · https://www.mdpi.com/2073-4441/14/17/2753 (1) · https://www.mdpi.com/2073-4441/14/4/646 (2) · https://www.mdpi.com/2076-3417/12/18/9205 (2) · https://www.nature.com/articles/s41598-022-16134-1 (1) · https://www.tandfonline.com/doi/full/10.5408/1089-9995-51.5.506 (2)

10.1002/esp.5048 (1) · 10.1002/hyp.7924 (1) · 10.1007/s11269-022-03092-6 (2) · 10.1007/s12517-016-2526-3 (2) · 10.1007/s12517-022-09559-5 (2) · 10.1016/j.ijsrc.2022.04.005 (1) · 10.1038/s41598-022-16134-1 (1) · 10.2166/nh.2020.046 (1) · 10.3389/feart.2022.907533 (1) · 10.3390/agronomy12102348 (2) · 10.3390/app12189205 (2) · 10.3390/w14040646 (2) · 10.3390/w14101610 (1) · 10.3390/w14121956 (1) · 10.3390/w14172753 (1) · 10.5408/1089-9995-51.5.506 (2)

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