posted on 2024-06-21, 04:04authored byShailesh Singh, Malte Zeddies, Ude Shankar, George Griffiths
Map of the potential groundwater recharge zones across New Zealand (500m x 500m resolution), which can be used to identify areas of high nutrient leaching in zones where high groundwater recharge potential exists. Sources and Flows research identified potential groundwater recharge zones across New Zealand. Knowledge of groundwater recharge potential is required for sustainable groundwater management, including the assessment of vulnerability to contamination. The maps can be used to identify areas of high nutrient leaching in zones where high groundwater recharge potential exists (regions with large lakes and in the lower elevation plains). See also: https://ars.els-cdn.com/content/image/1-s2.0-S1674987118301488-gr4_lrg.jpg Groundwater recharge occurs when surface water moves downward to groundwater. Recharge is the main way that water enters an aquifer.
National data sets of lithology, slope, aspect, land use, soil drainage and drainage density were used to derive groundwater potential zones. The resulting map demonstrates that the potential is low in urban and mountainous areas, such as the Southern Alps, whereas the highest potential can be found in regions with large lakes and in the lower elevation plains areas. The map can be used to identify areas of high nutrient leaching in zones where high groundwater recharge potential exists.
The mapped zones agree well with the locations of aquifers in New Zealand and provide a quick nationwide overview of the groundwater recharge potential zones. The map can be used as an initial guide for nationwide assessment of sustainable management of groundwater resources. Furthermore, the map can be used to estimate vulnerable regions for pollution of groundwater, as highly rechargeable zones are most effective as transmitters of pollutants to groundwater.
Funding
Funded by the New Zealand Ministry for Business, Innovation and Employment's Our Land and Water National Science Challenge (Toitū te Whenua, Toiora te Wai) as part of project Sources and Flows