@article{Wada-2017-Human–water,
title = "Human{--}water interface in hydrological modelling: current status and future directions",
author = {Wada, Yoshihide and
Bierkens, Marc F. P. and
Roo, Ad de and
Dirmeyer, Paul A. and
Famiglietti, J. S. and
Hanasaki, Naota and
Konar, Megan and
Liu, Junguo and
Schmied, Hannes M{\"u}ller and
Oki, Taikan and
Pokhrel, Yadu and
Sivapalan, Murugesu and
Troy, Tara J. and
Dijk, Albert I. J. M. van and
Emmerik, Tim van and
Huijgevoort, M.H.J. van and
Lanen, H.A.J. van and
V{\"o}r{\"o}smarty, Charles J and
Wanders, Niko and
Wheater, H. S.},
journal = "Hydrology and Earth System Sciences, Volume 21, Issue 8",
volume = "21",
number = "8",
year = "2017",
publisher = "Copernicus GmbH",
url = "https://gwf-uwaterloo.github.io/gwf-publications/G17-37001",
doi = "10.5194/hess-21-4169-2017",
pages = "4169--4193",
abstract = "Abstract. Over recent decades, the global population has been rapidly increasing and human activities have altered terrestrial water fluxes to an unprecedented extent. The phenomenal growth of the human footprint has significantly modified hydrological processes in various ways (e.g. irrigation, artificial dams, and water diversion) and at various scales (from a watershed to the globe). During the early 1990s, awareness of the potential for increased water scarcity led to the first detailed global water resource assessments. Shortly thereafter, in order to analyse the human perturbation on terrestrial water resources, the first generation of large-scale hydrological models (LHMs) was produced. However, at this early stage few models considered the interaction between terrestrial water fluxes and human activities, including water use and reservoir regulation, and even fewer models distinguished water use from surface water and groundwater resources. Since the early 2000s, a growing number of LHMs have incorporated human impacts on the hydrological cycle, yet the representation of human activities in hydrological models remains challenging. In this paper we provide a synthesis of progress in the development and application of human impact modelling in LHMs. We highlight a number of key challenges and discuss possible improvements in order to better represent the human{--}water interface in hydrological models.",
}
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<abstract>Abstract. Over recent decades, the global population has been rapidly increasing and human activities have altered terrestrial water fluxes to an unprecedented extent. The phenomenal growth of the human footprint has significantly modified hydrological processes in various ways (e.g. irrigation, artificial dams, and water diversion) and at various scales (from a watershed to the globe). During the early 1990s, awareness of the potential for increased water scarcity led to the first detailed global water resource assessments. Shortly thereafter, in order to analyse the human perturbation on terrestrial water resources, the first generation of large-scale hydrological models (LHMs) was produced. However, at this early stage few models considered the interaction between terrestrial water fluxes and human activities, including water use and reservoir regulation, and even fewer models distinguished water use from surface water and groundwater resources. Since the early 2000s, a growing number of LHMs have incorporated human impacts on the hydrological cycle, yet the representation of human activities in hydrological models remains challenging. In this paper we provide a synthesis of progress in the development and application of human impact modelling in LHMs. We highlight a number of key challenges and discuss possible improvements in order to better represent the human–water interface in hydrological models.</abstract>
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%0 Journal Article
%T Human–water interface in hydrological modelling: current status and future directions
%A Wada, Yoshihide
%A Bierkens, Marc F. P.
%A Roo, Ad de
%A Dirmeyer, Paul A.
%A Famiglietti, J. S.
%A Hanasaki, Naota
%A Konar, Megan
%A Liu, Junguo
%A Schmied, Hannes Müller
%A Oki, Taikan
%A Pokhrel, Yadu
%A Sivapalan, Murugesu
%A Troy, Tara J.
%A Dijk, Albert I. J. M. van
%A Emmerik, Tim van
%A Huijgevoort, M.H.J. van
%A Lanen, H.A.J. van
%A Vörösmarty, Charles J.
%A Wanders, Niko
%A Wheater, H. S.
%J Hydrology and Earth System Sciences, Volume 21, Issue 8
%D 2017
%V 21
%N 8
%I Copernicus GmbH
%F Wada-2017-Human–water
%X Abstract. Over recent decades, the global population has been rapidly increasing and human activities have altered terrestrial water fluxes to an unprecedented extent. The phenomenal growth of the human footprint has significantly modified hydrological processes in various ways (e.g. irrigation, artificial dams, and water diversion) and at various scales (from a watershed to the globe). During the early 1990s, awareness of the potential for increased water scarcity led to the first detailed global water resource assessments. Shortly thereafter, in order to analyse the human perturbation on terrestrial water resources, the first generation of large-scale hydrological models (LHMs) was produced. However, at this early stage few models considered the interaction between terrestrial water fluxes and human activities, including water use and reservoir regulation, and even fewer models distinguished water use from surface water and groundwater resources. Since the early 2000s, a growing number of LHMs have incorporated human impacts on the hydrological cycle, yet the representation of human activities in hydrological models remains challenging. In this paper we provide a synthesis of progress in the development and application of human impact modelling in LHMs. We highlight a number of key challenges and discuss possible improvements in order to better represent the human–water interface in hydrological models.
%R 10.5194/hess-21-4169-2017
%U https://gwf-uwaterloo.github.io/gwf-publications/G17-37001
%U https://doi.org/10.5194/hess-21-4169-2017
%P 4169-4193
Markdown (Informal)
[Human–water interface in hydrological modelling: current status and future directions](https://gwf-uwaterloo.github.io/gwf-publications/G17-37001) (Wada et al., GWF 2017)
ACL
- Yoshihide Wada, Marc F. P. Bierkens, Ad de Roo, Paul A. Dirmeyer, J. S. Famiglietti, Naota Hanasaki, Megan Konar, Junguo Liu, Hannes Müller Schmied, Taikan Oki, Yadu Pokhrel, Murugesu Sivapalan, Tara J. Troy, Albert I. J. M. van Dijk, Tim van Emmerik, M.H.J. van Huijgevoort, H.A.J. van Lanen, Charles J Vörösmarty, Niko Wanders, et al.. 2017. Human–water interface in hydrological modelling: current status and future directions. Hydrology and Earth System Sciences, Volume 21, Issue 8, 21(8):4169–4193.