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Limits of environmental flows for the worldwide pumping of groundwater

1.

Giordano, M. World Groundwater? Issues and options. Annu. Rev. About. Resour. 34, 153-178 (2009).

2

Döll, P. & Siebert, S. World Modeling of Irrigation Water Necessities. Wat. Resour. Res. 38, Eight-1-Eight-10 (2002).

Three

Siebert, S. & Döll, P. Quantify the digital blue and inexperienced water content material of worldwide agricultural manufacturing in addition to potential manufacturing losses with out irrigation. J. Hydrol. 384, 198-217 (2010).

four

Gleeson, T. and Richter, B. How a lot groundwater can we pump and defend the environmental movement over time? Presumption requirements for joint administration of aquifers and rivers. River Res. Appl. 34, 83-92 (2018).

5

Rodell, M., Velicogna, I. & Famigletti, J. S. Estimates of satellite tv for pc groundwater depletion in India. Nature 460, 999-1002 (2009).

6

Aeschbach-Hertig, W. & Gleeson, T. Regional Methods for Accelerating the World Downside of Groundwater Depletion. Nat. Geosci. 5, 853-861 (2012).

seven.

Wada, Y., Wisser, D. and Bierkens, M. F. P. World modeling of the gathering, distribution and use for consumption of floor water and groundwater sources. Earth Syst. Dynam. 5, 15-40 (2014).

Eight

Taylor, R. G. et al. Groundwater and local weather change. Nat. Clim. Chang. Three, 322-329 (2013).

9

Konikow, L. F. & Kendy, E. Groundwater depletion: a worldwide drawback. Hydrogéol. J. 13, 317-320 (2005).

ten.

Lawford, R. et al. Prospects of the basin on the water-energy-food safety hyperlink. Curr. Opin. About. Assist. 5, 607-616 (2013).

11

Postel, S. L. Coming into an period of water shortage: the challenges forward. College. Appl. 10, 941-948 (2000).

12

Dynamic allocation of worldwide water demand to floor water and groundwater sources: results of withdrawals and return flows on water flows, Graaf, I.E.M., van Beek, L.P.H. Adv. Water sources. 64, 21-33 (2014).

13

van Beek, L.P., Wada, Y. & Bierkens, M.P. World Water Month-to-month Stress: 1. Water Stability and Water Availability. Wat. Resour. Res. 47, WO7517 (2011).

14

from Graaf, I. E. M. et al. A two – layer transient groundwater mannequin on a worldwide scale: improvement and utility to groundwater depletion. Adv. Water sources. 102, 53-67 (2017).

15

Sutanudjaja, E.H., et al. PCR-GLOBWB 2: a worldwide mannequin of hydrology and water sources of 5 minutes arc. Geosci. Mannequin Dev. 11, 2429 to 2453 (2018).

16

Ficklin, D.L., Robeson, S.M. and Knouft, JH. Impacts of latest local weather change on baseline and stormflow tendencies in US watersheds. Geophysics Res. Lett. 43, 5079-5088 (2016).

17

Weedon, G. P. et al. Creation of WATCH forcing information and use of those information to evaluate the evaporation of worldwide and regional reference crops on land throughout the 20th century. J. Hydrometeorol. 12, 823-848 (2011).

18

Hempel, S., Ok. Frieler, L. Warszawski, J., Schewe and F. Piontek. A development reserve bias correction – the ISI-MIP strategy. Earth Syst. Dynam. four, 219-236 (2013).

19

World Water Evaluation Program United Nations World Water Growth Report four: Managing Water in Unsure and Dangerous Circumstances Report No. 978-92- Three-104235-5, 407 (UNESCO, 2012).

20

Döll, P., Fiedler, Ok. and Zhang, J. World evaluation of alterations in river movement on account of water withdrawals and reservoirs. Hydrol. Earth Syst. Sci. 13, 2413-2432 (2009).

21

Groundwater Yearbook 2013-2014 of the Central Committee for Groundwater in India, http://cgwb.gov.in/Paperwork/Floor%20Water%20Yr%20E book%202013-14.pdf (2014).

22

Perrone, D. & Jasechko, S. Dry groundwater nicely within the western United States. About. Res. Lett. 12, 104002 (2017).

23

Lehner, B., Verdin, Ok. and Jarvis, A. New world hydrography derived from elevation information of spatial origin. Eos 89, 93-94 (2008).

24

Winter, T.C., Harvey, J.W., Franke, O.L. & Alley, W.M.The groundwater and floor water: a novel useful resource. Round 1139 (United States Geological Survey, 1998).

25

Alley, W. M., Reilly, T.E. & Franke, O.L. Sustainability of groundwater sources. Round 1186 (United States Geological Survey, 1999).

26

Konikow, L. F. & Leake, S. A. Depletion and seize: re-examination of "supply of water from wells". Groundwater 52, 100-111 (2014).

27

Wada, Y. et al. World depletion of groundwater sources. Geophysics Res. Lett. 37, L20402 (2010).

28

Hartmann, J. & Moosdorf, N. The brand new database of worldwide lithological maps: a illustration of the properties of rocks on the floor of the Earth. Geochem. GEOPHY. Géosy. 13, Q12004 (2012).

29

Gleeson, T., Moosdorf, N., Hartmann, J. and van Beek, L. P. H. Overview under the floor of the Earth: World HYdrogeological MaPS (GLHYMPS) permeability and porosity. Geophysics Res. Lett. 41, 3891-3898 (2014).

30

de Graaf, I.E.M., van Beek, L.P.H., Sutanudjaja, E.H. & Bierkens, M.F.P. A excessive decision mannequin for groundwater on a worldwide scale. Hydrol. Earth Syst. Sci. 19, 823-837 (2015).

31.

Sutanudjaja, E.H., van Beek, L.P.H., De Jong, S.M., Van Geer, F.C. and Bierkens, M.F.P. Wat. Resour. Res. 50, 687-705 (2014).

32

Verdin, Ok. L. and Greenlee, S. Ok. Growth of numerical fashions of elevation on the continental scale and extraction of hydrographic options. In Proc. Third Intl Conf., Workshop on GIS Integration and Environmental Modeling, 1996 (Nationwide Heart for Geographic Info and Evaluation, 1996).

33

Fan, Y., Li, H. and Miguez-Macho, G. World fashions of water desk depth. Science 339, 940-943 (2013).

34

McGuire, V. L. Adjustments in water stage within the highland aquifers, pre-development till 2007, 2005-2006 and 2006-2007. Science Inquiry Report 2009-5019 (United States Geological Survey, 2009).

35

Williamson, A.Ok., Prudic, D.E. and Swain, L. A. Groundwater Move within the Central Valley, California. Skilled Doc 1401-D (United States Geological Survey, 1989).

36

Konikow, L. F. Contribution of the worldwide depletion of groundwater since 1900 to the rise of the ocean stage. Geophysics Res. Lett. 38, L17401 (2011).

37

Richey, A.S. et al. Uncertainty of worldwide groundwater storage estimates underneath whole groundwater stress Wat. Resour. Res. 51, 5198-5216 (2015).

38

MacDonald, A.M. et al. High quality and depletion of groundwater within the Indo-Gangetic Basin mapped from in situ observations. Nat. Geosci. 9, 762-766 (2016).

39

Republican River Compact Administration, Groundwater Mannequin Replace 2001-2003 http://www.republicanrivercompact.org/ (2005).

40

Van Loon, A. F. and Van Lanen, H. A. J. Distinguish between water shortage and drought utilizing an observational modeling framework. Wat. Resour. Res. 49, 1483-1502 (2013).

41

Ahner, B. W. In direction of a Consultant Scale of Footprint on Groundwater Primarily based on the Ecohydrological Impacts of Groundwater Extraction, Grasp's Thesis, Georg-August-Universität Göttingen, Göttingen, Germany. (2018)

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