Groundwater nitrate concentration evolution under climate change and agricultural adaptation scenarios: Prince Edward Island, Canada

Abstract: Abstract. Nitrate (N-NO3) concentration in groundwater, the sole source of potable water in Prince Edward Island (PEI, Canada), currently exceeds the 10 mg L−1 (N-NO3) health threshold for drinking water in 6 % of domestic wells. Increasing climatic and socio-economic pressures on PEI agriculture may further deteriorate groundwater quality. This study assesses how groundwater nitrate concentrations could evolve due to the forecasted climate change and its related potential changes in agricultural practices. Fo… Show more

“…In recent years, some studies have attempted to integrate the temporal dimension to investigate groundwater vulnerability evolution under varying environmental conditions and climate change [6,[22][23][24][25][26][27][28]. For instance, Dennis and Dennis [23] introduced temporal dynamics in the DART (Depth to water-level change, Aquifer type (storativity), Recharge and Transmissivity) vulnerability method to investigate climate change impact on groundwater vulnerability for South-African aquifers.…”

Modelling the Temporal Dynamics of Groundwater Pollution Risks at the African Scale

“…In recent years, some studies have attempted to integrate the temporal dimension to investigate groundwater vulnerability evolution under varying environmental conditions and climate change [6,[22][23][24][25][26][27][28]. For instance, Dennis and Dennis [23] introduced temporal dynamics in the DART (Depth to water-level change, Aquifer type (storativity), Recharge and Transmissivity) vulnerability method to investigate climate change impact on groundwater vulnerability for South-African aquifers.…”

Modelling the Temporal Dynamics of Groundwater Pollution Risks at the African Scale