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Ecohydrology
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  • Cited by 108
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    This (lowercase (translateProductType product.productType)) has been cited by the following publications. This list is generated based on data provided by CrossRef.
    Singh, Vijay P. 2018. Hydrologic modeling: progress and future directions. Geoscience Letters, Vol. 5, Issue. 1,
    Jian, Dongnan Li, Xiucang Sun, Hemin Tao, Hui Jiang, Tong Su, Buda and Hartmann, Heike 2018. Estimation of Actual Evapotranspiration by the Complementary Theory-Based Advection–Aridity Model in the Tarim River Basin, China. Journal of Hydrometeorology, Vol. 19, Issue. 2, p. 289.
    Sivapalan, Murugesu 2018. From engineering hydrology to Earth system science: milestones in the transformation of hydrologic science. Hydrology and Earth System Sciences, Vol. 22, Issue. 3, p. 1665.
    Peleg, Nadav Fatichi, Simone Paschalis, Athanasios Molnar, Peter and Burlando, Paolo 2017. An advanced stochastic weather generator for simulating 2-D high-resolution climate variables. Journal of Advances in Modeling Earth Systems, Vol. 9, Issue. 3, p. 1595.
    Liu, Hui-Hai 2017. Fluid Flow in the Subsurface. Vol. 28, Issue. , p. 45.
    Cong, Zhentao Li, Qinshu Mo, Kangle Zhang, Lexin and Shen, Hong 2017. Ecohydrological optimality in the Northeast China Transect. Hydrology and Earth System Sciences, Vol. 21, Issue. 5, p. 2449.
    Li, Xiaoyan Yang, Dawen Zheng, Chunmiao Li, Xinrong Zhao, Wenzhi Huang, Mingbin Chen, Yaning and Yu, Pengtao 2017. The Geographical Sciences During 1986—2015. p. 407.
    Hunt, Randall J. Hayashi, Masaki and Batelaan, Okke 2016. Integrated Groundwater Management. p. 297.
    Mo, Kangle Cong, Zhentao and Lei, Huimin 2016. Optimal vegetation cover in the Horqin Sands, China. Ecohydrology, Vol. 9, Issue. 4, p. 700.
    Fatichi, Simone Pappas, Christoforos and Ivanov, Valeriy Y. 2016. Modeling plant-water interactions: an ecohydrological overview from the cell to the global scale. Wiley Interdisciplinary Reviews: Water, Vol. 3, Issue. 3, p. 327.
    Clark, Martyn P. Schaefli, Bettina Schymanski, Stanislaus J. Samaniego, Luis Luce, Charles H. Jackson, Bethanna M. Freer, Jim E. Arnold, Jeffrey R. Moore, R. Dan Istanbulluoglu, Erkan and Ceola, Serena 2016. Improving the theoretical underpinnings of process-based hydrologic models. Water Resources Research, Vol. 52, Issue. 3, p. 2350.
    Zalewski, Maciej 2015. Ecohydrology and Hydrologic Engineering: Regulation of Hydrology-Biota Interactions for Sustainability. Journal of Hydrologic Engineering, Vol. 20, Issue. 1, p. A4014012.
    Liu, Hui-Hai 2015. Dynamics of Fluids and Transport in Complex Fractured-Porous Systems. p. 129.
    Canham, Caroline A. Froend, Raymond H. and Stock, William D. 2015. Rapid root elongation by phreatophyte seedlings does not imply tolerance of water table decline. Trees, Vol. 29, Issue. 3, p. 815.
    Sela, Shai Svoray, Tal and Assouline, Shmuel 2015. The effect of soil surface sealing on vegetation water uptake along a dry climatic gradient. Water Resources Research, Vol. 51, Issue. 9, p. 7452.
    Porporato, A. Feng, X. Manzoni, S. Mau, Y. Parolari, A. J. and Vico, G. 2015. Ecohydrological modeling in agroecosystems: Examples and challenges. Water Resources Research, Vol. 51, Issue. 7, p. 5081.
    Liang, Wei Bai, Dan Wang, Feiyu Fu, Bojie Yan, Junping Wang, Shuai Yang, Yuting Long, Di and Feng, Minquan 2015. Quantifying the impacts of climate change and ecological restoration on streamflow changes based on a Budyko hydrological model in China's Loess Plateau. Water Resources Research, Vol. 51, Issue. 8, p. 6500.
    Gharun, Mana Turnbull, Tarryn L. Pfautsch, Sebastian and Adams, Mark A. 2015. Stomatal structure and physiology do not explain differences in water use among montane eucalypts. Oecologia, Vol. 177, Issue. 4, p. 1171.
    Chen, Lajiao Wang, Lizhe Ma, Yan and Liu, Peng 2015. Overview of Ecohydrological Models and Systems at the Watershed Scale. IEEE Systems Journal, Vol. 9, Issue. 3, p. 1091.
    Cheng, GuoDong and Li, Xin 2015. Integrated research methods in watershed science. Science China Earth Sciences, Vol. 58, Issue. 7, p. 1159.
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    Ecohydrology
    • Online ISBN: 9780511535680
    • Book DOI: https://doi.org/10.1017/CBO9780511535680
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Book description

This volume is devoted to the derivation and application of simplified bioclimatic boundary conditions at vegetated land surfaces using natural selection of vegetation characteristics driven by productivity maximization. It investigates the internal control of forest growth by the vertical fluxes of light, CO2, water vapor, and heat within the canopy, as well as the external control offered by the balances of thermal energy and water. Through these means it seeks to determine how the physical characteristics and productivity of forest communities are related to the climates and soils in which they are found. Ecohydrology bridges the fields of hydrology and ecology and proposes new unifying principles derived from the concept of natural selection. It also has potential application in determining the response of vegetation to slow variations in climate and will provide fascinating reading for graduate-level students and research scientists working in ecohydrology, hydroclimatology, forest ecology, and surface water hydrology.

Reviews

'This new book is undoubtedly a pioneering work, providing the readership with a theoretical background in water-soil-vegetation-atmosphere relationships, thus referring to a very important border region between several sciences … illustrated with ample good quality black and white photographs of trees.'

Source: Hydrological Sciences Journal

‘Ecohydrology: Darwinian Expression of Vegetation Form and Function, written by one of the most renowned hydrologists, has provided a major contribution through novel interpretation of natural selection in forested communities based on insolation and rainfall … Splendid photographs of trees, many by the author, appear throughout the text and provide a continuous reminder of the form and function described mathematically … Eagleson’s Ecohydrology is a monumental work that will engage students and researchers from all backgrounds of ecohydrology.’

Source: EOS

'This new book is undoubtedly a pioneering work, providing the readership with a theoretical background in water-soil-vegetation-atmosphere relationships, thus referring to a very important border region between several sciences. … The book is undoubtedly of interest to an international audience …'.

Zbigniew W. Kundzewicz Source: Hydrological Sciences Journal

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