Abstract
Groundwater dependent ecosystems (GDEs) are increasingly threatened worldwide, but the shallow groundwater resources that they are reliant upon are seldom monitored. In this study, we used satellite-based remote sensing to predict groundwater levels under groundwater dependent ecosystems across California, USA. Depth to groundwater was modelled for a 35-years period (1985–2019) within all groundwater dependent ecosystems across the state (n = 95,135). Our model was developed within Google Earth Engine using Landsat satellite imagery, climate data, and field-based groundwater data [n = 627 shallow (< 30 m) monitoring wells] as predictors in a Random Forest model. Our findings show that 1) 44% of groundwater dependent ecosystems have experienced a significant long-term (1985–2019) decline in groundwater levels compared to 28% with a significant increase; 2) groundwater level declines have intensified during the most recent two decades, with 39% of groundwater dependent ecosystems experiencing declines in the 2003–2019 period compared to 27% in the 1985–2002 period; and 3) groundwater declines are most prevalent within GDEs existing in areas of the state where sustainable groundwater management is absent. Our results indicate that declining shallow groundwater levels may be adversely impacting California’s groundwater dependent ecosystems. Particularly where groundwater levels have fallen beneath plant roots or streams thereby affecting key life processes, such as forest recruitment/succession, or hydrological processes, such as streamflow that affects aquatic habitat. In the absence of groundwater monitoring well data, our model and findings can be used to help state and local water agencies fill in data gaps of shallow groundwater conditions, evaluate potential effects on GDEs, and improve sustainable groundwater management policy in California.
Highlights
Groundwater is a critical water source for humans and ecosystems
To reveal some of these regional patterns, we summarized the proportion of Groundwater Dependent Ecosystems (GDEs) with significant increasing and decreasing groundwater level trends by the ten hydrologic regions in California (Figure 3; Supplementary Table S1)
By using GDEs as pseudomonitoring wells and leveraging 35 years of freely available satellite and climate data, we have developed a novel approach to estimate the depth of shallow groundwater for all GDEs in California
Summary
Increasing human demands for groundwater to support agriculture, industrial expansion, economic development, and population growth are resulting in the degradation of freshwater ecosystems (Dudgeon et al, 2006; Albert et al, 2020). Sustainable groundwater management policies and regulations to balance human and ecosystem water needs have been increasing worldwide (Rohde et al, 2017). It is imperative that the water needs of a diverse set of users (including GDEs) are integrated into water management decisions. Long-term shallow depth-to-groundwater data remains a significant data gap in California. The objectives of this paper are to: 1) use machine learning algorithms to model shallow depth to groundwater (DTG) underlying GDEs across California, 2) analyze long-term and multi-decadal trends in DTG beneath GDEs, and 3) determine which GDEs in California are experiencing chronic groundwater level declines
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
