Abstract
Climate change impacts on temperatures, precipitations, streamflows, and recharges were studied across eastern, central, and western Prince Edward Island (PEI) between climate normals in 1991–2020, 2021–2050, and 2051–2080 using observed and projected data, and SWAT modeling. Average annual temperature can significantly rise from the existing 5.90–6.86 °C to 8.26–11.09 °C in different parts during the next 30–60 years under different RCP scenarios. Average annual precipitations would not significantly change except in western PEI where a 17% likely increase would offset further warming impact; therefore, current streamflows (~650 mm/year) and recharges (~320 mm/year) would not be much affected there. However, warming and increased pumping together in its Wilmot River watershed could reduce streamflows up to 9%, and 13% during 2021–2050, and 2051–2080, respectively. In the eastern forest-dominated Bear River watershed, no significant reductions in current streamflows (~692 mm/year) or recharges (~597 mm/year) are expected. Nevertheless, near constant precipitation and warming could cumulatively reduce streamflows/recharges up to 8% there, as pumping will be negligible. In the central zone, precipitation could insignificantly increase up to 5%, but current streamflows (~737 mm/year) and recharges (~446 mm/year) would not be significantly affected, except for RCP8.5 under which streamflows could reduce by ~16% during 2051–2080. Overall, more attenuated streamflows and recharges are likely with higher quantities in late winter and early spring, and somewhat lesser ones in summer, which could reduce water supplies during the growing season. Besides, precipitation uncertainty of ~300 mm/year between dry and wet years continues to be a major water management challenge. Adapting policies and regulations to the changing environment would ensure sustainable water management in PEI.
Highlights
Direct and indirect human activities continue to alter the composition of the global atmosphere by increasing the concentration of greenhouse gases (GHG)
RCP4.5 is an intermediate scenario, and a net negative emissions one, which projects to keep global temperature rise between 2 and 3 ◦C, whereas RCP8.5 assumes emissions will rise throughout the 21st century with a projected increase in global temperatures up to 5 ◦C [1,2]
Results and DiscussionHydrological parameters analyzed under the study include temperature, precipitaHydrological patriaonm, settreearms falonwa,laynzdegdrouunnddweartetrhreecshtaurgdey, anindcrelusudltes htaevme bpeeernadteusrcrei,bepdrienctihpeis-ame tation, streamflow, ansedqugenroceu. nTdhowseaaterer prreecsehnatregdein, aspnadtiarleasnudlttesmhpaovrael dbiesaegngrdegeastciornibfoerdbienttetrhuenderstanding of trends and projections
Summary
Direct and indirect human activities continue to alter the composition of the global atmosphere by increasing the concentration of greenhouse gases (GHG). The Intergovernmental Panel on Climate Change (IPCC) projects future climates based on human GHG emissions from all sources. Different scenarios are presented, expressed in terms of radiative forces (watts/m2) expected by the year 2100. Concentration Pathways (RCPs), e.g., RCP2.6, RCP4.5, and RCP8.5. RCP2.6 targets to keep global warming below 2 ◦C above pre-industrial temperatures by 2100. RCP4.5 is an intermediate scenario, and a net negative emissions one, which projects to keep global temperature rise between 2 and 3 ◦C, whereas RCP8.5 assumes emissions will rise throughout the 21st century with a projected increase in global temperatures up to 5 ◦C [1,2]
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