hydro-campus

List Resources

Displaying 1 - 20  of 150
Parameters
Order by

Ascending
Descending
Use all checked: 
Use all displayed: 
Use all in list: 
Zhao, G., Li, Y., Zhou, L., & Gao, H. (2022). Evaporative water loss of 1.42 million global lakes. Nature Communications, 13(1), 3686.   
11/30/24, 5:51 PM
Wood, E., Sivapalan, M., Beven, K., & Band, L. (1988). Effects of spatial variability and scale with implications to hydrologic modeling. Journal of Hydrology - J HYDROL, 102, 29–47.   
11/30/24, 12:54 PM
Wisotzky, F., Cremer, N., & Lenk, S. (2018). EDTA-Belastung im Grundwasser zweier Trinkwassereinzugsgebiete durch Uferfiltration. In Angewandte Grundwasserchemie, Hydrogeologie und hydrogeochemische Modellierung: Grundlagen, Anwendungen und Problemlösungen (pp. 397–407). Springer Berlin Heidelberg.   
11/29/24, 4:16 PM
Winslow, L. A., Zwart, J. A., Batt, R. D., Dugan, H. A., Woolway, I. R., & Corman, J. R., et al. (2016). Lakemetabolizer: An r package for estimating lake metabolism from free-water oxygen using diverse statistical models. Inland Waters, 6(4), 622–636.   
11/30/24, 12:54 PM
Wheater, H., Sorooshian, S., & Sharma, K. D. (2007). Hydrological modelling in arid and semi-arid areas.   
11/30/24, 12:54 PM
Wagener, T., Sivapalan, M., Troch, P., & Woods, R. (2007). Catchment classification and hydrologic similarity. Geography Compass, 1(4), 901–931.   
11/30/24, 12:54 PM
Wagener, T., Sivapalan, M., Troch, P. A., McGlynn, B. L., Harman, C. J., & Gupta, H. V., et al. (2010). The future of hydrology: An evolving science for a changing world. Water Resources Research, 46(5).   
11/30/24, 12:54 PM
Vuuren, S. J., van Dijk, M., & Coetzee, G. L. (2013). Status review and requirements of overhaulingflood determination methods in South Africa. Vol. 563/13. Water Research Commission.   
11/30/24, 12:54 PM
Vengosh, A., Heumann, K. G., Juraske, S., & Kasher, R. (1994). Boron isotope application for tracing sources of contamination in groundwater. Environ. Sci. Technol. 28, 1968–1974.   
11/29/24, 4:17 PM
U. Förstner J. Gerth, V. D. K. F., & WIENBERG, R. (2000). Erfassung des schadstoffriickhaltevermogens der geologischen barriere am beispiel der deponie ihlenberg: Untersuchungen zur schadstoffsorption, -diffusion und kolloidtransport. Forschungsbericht TU Hamburg-Harburg.   
11/29/24, 4:12 PM
Tshimanga, R. M., & Hughes, D. A. (2014). Basin-scale performance of a semidistributed rainfall-runoff model for hydrological predictions and water resources assessment of large rivers: The congo river. Water Resources Research, 50(2), 1174–1188.   
11/30/24, 12:54 PM
Torres, E., Turrero, M., Garralón, A., Cuevas, J., Fernández, R., & Ortega, A., et al. (2018). Stable isotopes applied to the study of the concrete/bentonite interaction in the febex in situ test. Applied Geochemistry, 100.   
11/30/24, 12:54 PM
Thompson, S. E. (2013). Developing predictive insight into changing water systems: Use-inspired hydrologic science for the anthropocene. Hydrology and Earth System Sciences, 17, 5013.   
11/30/24, 12:54 PM
Thompson, S. E. (2011). Patterns, puzzles and people: Implementing hydrologic synthesis. Hydrological Processes, 25, 3256.   
11/30/24, 12:54 PM
Thirel, G., Andréassian, V., & Perrin, C. (2015). On the need to test hydrological models under changing conditions. Hydrological Sciences Journal, 60, 1165.   
11/30/24, 12:54 PM
Tauro, F. (2018). Measurements and observations in the xxi century (moxxi): Innovation and multidisciplinarity to sense the hydrological cycle. Hydrological Sciences Journal, 63, 169.   
11/30/24, 12:54 PM
Sukhodolov, A. N., Nikora, V. I., Rowiński, P. M., & Czemuszenko, W. (1997). A case study of longitudinal dispersion in small lowland rivers. Water Environment Research, 69(7), 1246–1253.   
11/30/24, 12:52 PM
Stagge, J. H., Rosenberg, D. E., Abdallah, A. M., Akbar, H., Attallah, N. A., & James, R. (2019). Assessing data availability and research reproducibility in hydrology and water resources. Scientific Data, 6(1), 190030.   
11/30/24, 12:52 PM
Sprenger, M. (2019). The demographics of water: A review of water ages in the critical zone. Reviews of Geophysics.   
11/30/24, 12:52 PM
Sivapalan, M., & Blöschl, G. (2017). The growth of hydrological understanding: Technologies, ideas, and societal needs shape the field. Water Resources Research, 53, 8137.   
11/30/24, 12:52 PM
1 - 20  |  21 - 40  |  41 - 60  |  61 - 80  |  81 - 100  |  101 - 120  |  121 - 140  |  141 - 150
WIKINDX 6.11.0 | Total resources: 150 | Username: -- | Bibliography: WIKINDX Master Bibliography | Style: American Psychological Association (APA)