Ecohydrological Impacts of Groundwater Drawdown : Effects on Microbial Activity in the Hyporheic Zone

Abstract

Our current understanding of ecohydrological processes in the ecotone between surface water and groundwater - the hyporheic zone - is limited. Groundwater drawdown is a key stressor for many groundwater dependent ecosystems, as groundwater levels are declining globally. It is caused by different perturbations, including agriculture, mine dewatering and climate change. Therefore, there is a pressing need to examine how different ecohydrological systems work under different types of stress. This research aims to investigate the impacts of groundwater drawdown on hyporheic zone microbial activity. For two six week sampling campaigns (winter and summer) at Maules Creek, Namoi, New South Wales, Australia, microbial activity was measured using the cotton strip degradation method. Unprimed cotton canvas was affixed to rulers which were then placed for six weeks in different habitats (dry bar, hyporheic zone and surface waters) at three different water regimes found at different sections of the creek (perennial, ephemeral, and losing). The microbial activity was related to the loss of cotton strip tensile strength. The water regimes were used as proxies for different stages of groundwater drawdown. Key physico-chemical variables were also measured. The preliminary results show that there is a positive correlation between moisture status (i.e. the degree of habitat saturation over six weeks) and microbial activity.This suggests that groundwater drawdown and desaturation of streambed sediments may lead to a decrease in microbial activity and therefore, the recycling of organic carbon and nutrients. This research has local implications for environmental impact assessments and global implications for the assessment and management of ecological impacts of declining shallow groundwater levels