Constraining the annual groundwater contribution to the water balance of an agricultural floodplain using radon: the importance of floods

Webb, Jackie R., Santos, Isaac R., Robson, Barbara, Macdonald, Ben, Jeffrey, Luke, and Maher, Damien T. (2017) Constraining the annual groundwater contribution to the water balance of an agricultural floodplain using radon: the importance of floods. Water Resources Research, 53 (1). pp. 544-562.

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View at Publisher Website: https://doi.org/10.1002/2016WR019735
 
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Abstract

The water balance of drained floodplains is highly dynamic with complex groundwater-surface water interactions operating over varying spatial and temporal scales. Here we hypothesize that the majority of groundwater discharge will follow flood events in a modified wetland. To test this hypothesis, we developed a detailed water balance that quantifies the contribution of groundwater discharge to the annual water budget of an extensively drained agricultural floodplain. A clear relationship between surface water radon measurements and groundwater level indicated alternating connection-disconnection dynamics between the drains and shallow groundwater. This relationship was used to develop a radon mass balance to quantitatively model groundwater discharge continuously throughout the year. Groundwater discharge varied by four orders of magnitude over the study period, with daily average rates ranging from 0 to 27,200 m(3) d(-1), peaking just a few hours after floods receded. Flood events occurred only 12% of the time yet contributed 72-76% of the total groundwater discharge. During flood recession periods, aerial groundwater discharge rates reached up to 325 cm d(-1) which were some of the highest rates ever estimated. We proposed that the high drainage density of this site (12.4 km constructed drains km(-2) catchment area) enhanced groundwater discharge during wet periods due to increased connectivity with the soil. Overall, groundwater discharge contributed 30-80% to the total surface water discharge. This study offers insight into the dynamic behavior of groundwater within an extensively drained floodplain, and the importance of capturing flood events to quantify total groundwater contribution to floodplain water balances.

Item ID: 58055
Item Type: Article (Research - C1)
ISSN: 1944-7973
Keywords: drainage density, water budget, flood pulse, groundwater-surface water, connectivity, radon, artificial drains, groundwater exchange
Funders: Australian Research Council (ARC)
Projects and Grants: ARC LE120100156, ARC DE140101733, ARC DE150100581
Date Deposited: 17 Apr 2019 09:22
FoR Codes: 37 EARTH SCIENCES > 3707 Hydrology > 370704 Surface water hydrology @ 50%
41 ENVIRONMENTAL SCIENCES > 4105 Pollution and contamination > 410503 Groundwater quality processes and contaminated land assessment @ 50%
SEO Codes: 96 ENVIRONMENT > 9606 Environmental and Natural Resource Evaluation > 960608 Rural Water Evaluation (incl. Water Quality) @ 100%
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