2023
DOI: 10.1139/as-2022-0021
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Sentinel responses of Arctic freshwater systems to climate: linkages, evidence, and a roadmap for future research

Abstract: While the sentinel nature of freshwater systems is now well-recognized, widespread integration of freshwater processes and patterns into our understanding of broader climate-driven Arctic terrestrial ecosystem change has been slow. We review the current understanding across Arctic freshwater systems of key sentinel responses to climate, which are attributes of these systems with demonstrated and sensitive responses to climate forcing. These include ice regimes, temperature and thermal structure, river baseflow… Show more

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Cited by 20 publications
(12 citation statements)
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“…Arctic freshwaters, cladocerans, copepods, crustacean production, rotifers invasions of taxa previously unable to tolerate Arctic conditions (Saros et al, 2022;Wrona et al, 2006). The resulting alterations to aquatic biodiversity have the potential to produce major changes in the aquatic food webs that supply clean water (Ayala-Borda et al, 2021) and support exploited fish populations (Grosbois et al, 2022).…”
Section: Introductionmentioning
confidence: 99%
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“…Arctic freshwaters, cladocerans, copepods, crustacean production, rotifers invasions of taxa previously unable to tolerate Arctic conditions (Saros et al, 2022;Wrona et al, 2006). The resulting alterations to aquatic biodiversity have the potential to produce major changes in the aquatic food webs that supply clean water (Ayala-Borda et al, 2021) and support exploited fish populations (Grosbois et al, 2022).…”
Section: Introductionmentioning
confidence: 99%
“…The breadth of freshwater surface coverage in the Arctic results in freshwater ecosystems that contribute significantly to Arctic biodiversity (Schartau et al, 2021). Given the predicted hydro‐geomorphic and hydro‐ecological shifts (Kokelj & Burn, 2003), biodiversity is expected to vary significantly as a result of changes in abiotic disturbance regimes and physical habitats that may exclude existing resident taxa and favour the invasions of taxa previously unable to tolerate Arctic conditions (Saros et al, 2022; Wrona et al, 2006). The resulting alterations to aquatic biodiversity have the potential to produce major changes in the aquatic food webs that supply clean water (Ayala‐Borda et al, 2021) and support exploited fish populations (Grosbois et al, 2022).…”
Section: Introductionmentioning
confidence: 99%
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“…While systemic changes to Arctic ecosystems may have both antagonistic and synergistic effects on ecosystem structure and function, they manifest as alterations in water-mediated fluxes (Saros et al, 2022;Shogren et al, 2021;Tank et al, 2020;Vonk et al, 2019). The expression of changing river chemistry at the event scale can reflect the dominant sources and pathways of material as they are transferred from terrestrial zones to the stream channel (Godsey et al, 2009(Godsey et al, , 2019Moatar et al, 2017).…”
mentioning
confidence: 99%
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Surface freshwaters are pervasive across the Arctic, and the polar amplification of climate warming implies that numerous characteristics of these highly sensitive ecosystems are susceptible to change due to environmental forcings (Culp et al, 2022;Saros et al, 2022). Oxygen dynamics respond strongly to ongoing physical, chemical, and biological changes, and oxygen may therefore be considered an integrator of climate-mediated alterations in aquatic environments (Hanson et al, 2006).
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mentioning
confidence: 99%