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You searched for: Author crosbie Remove constraint Author: crosbie Subject term climate change Remove constraint Subject term: climate change Subject term climatic factors Remove constraint Subject term: climatic factors
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1. Attributing variations of temporal and spatial groundwater recharge: A statistical analysis of climatic and non-climatic factors

Author:
Russell S. Crosbie,   et al.   ; Guobin Fu; Olga Barron; Stephen P. Charles; Warrick Dawes; Xiaogang Shi; Tom Van Niel; Chris Li;     Show all 8 Authors
Source:
Journal of hydrology 2019 v.568 pp. 816-834
ISSN:
0022-1694
Subject:
climate change; climatic factors; evapotranspiration; groundwater; groundwater extraction; groundwater recharge; rain; soil types; statistical analysis; temporal variation; water table; South Australia
Abstract:
... This paper demonstrated the benefits of statistical methods when investigating the climatic and non-climatic drivers responsible for variations in groundwater recharge with a series of up to 43 years of annual recharge for 426 bores in South-East South Australia. We identified the factors influencing groundwater recharge based on 71 climatic metrics and 17 non-climatic metrics (including groundwat ...
DOI:
10.1016/j.jhydrol.2018.11.022

2. Impacts of climate change on groundwater in Australia: a sensitivity analysis of recharge

Author:
Crosbie, R. S.,   et al.   ; McCallum, J. L.; Walker, G. R.; Dawes, W. R.;     Show all 4 Authors
Source:
Hydrogeology journal 2010 v.18 no.7 pp. 1625-1638
ISSN:
1431-2174
Subject:
carbon dioxide; climate change; climatic factors; groundwater; groundwater recharge; models; rain; rain intensity; soil; solar radiation; temperature; vegetation; Australia
Abstract:
... Groundwater recharge is a complex process reflecting many interactions between climate, vegetation and soils. Climate change will impact upon groundwater recharge but it is not clear which climate variables have the greatest influence over recharge. This study used a sensitivity analysis of climate variables using a modified version of WAVES, a soil-vegetation-atmosphere-transfer model (unsaturate ...
DOI:
10.1007/s10040-010-0624-y