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The role of geology in creating stream climate-change refugia along climate gradients

Nobuo IshiyamaForest Research Institute, Hokkaido Research Organization, Bibai, Hokkaido 079-0198, JapanMasanao SueyoshiAqua Restoration Research Center, Public Works Research Institute, Kakamigahara, Gifu 501-6021, JapanJorge García MolinosArctic Research Center, Hokkaido University, Sapporo, Hokkaido 001-0021, JapanKenta IwasakiCenter for Forest Damage and Risk Management, Forestry and Forest Products Research Institute, Tsukuba, Ibaraki 305-8687, JapanJunjiro N. NegishiField Science Center for Northern Biosphere, Hokkaido University, N9 W9, Kita-ku, Sapporo, Hokkaido 060-0809, JapanItsuro KoizumiField Science Center for Northern Biosphere, Hokkaido University, N9 W9, Kita-ku, Sapporo, Hokkaido 060-0809, JapanShigeya NagayamaAqua Restoration Research Center, Public Works Research Institute, Kakamigahara, Gifu 501-6021, JapanAkiko NagasakaForest Research Institute, Hokkaido Research Organization, Bibai, Hokkaido 079-0198, JapanYu NagasakaForest Research Institute, Hokkaido Research Organization, Bibai, Hokkaido 079-0198, JapanFutoshi NakamuraDepartment of Forest Science, Graduate School of Agriculture, Hokkaido University, N9 W9 Sapporo, Hokkaido 060-8589, Japan
2022en
ABI

Annotatsiya

Abstract Identifying climate-change refugia is a key adaptation strategy for reducing global warming impacts. Knowledge of the effects of underlying geology on thermal regime along climate gradients and the ecological responses to the geology-controlled thermal regime is essential to plan appropriate climate adaptation strategies. The dominance of volcanic rocks in the watershed is used as a landscape-scale surrogate for cold groundwater inputs to clarify the importance of underlying geology. Using statistical models, we explored the relationship between watershed geology and the mean summer water temperature of mountain streams along climate gradients in the Japanese archipelago. Summer water temperature was explained by the interaction between the watershed geology and climate in addition to independent effects. The cooling effect associated with volcanic rocks was more pronounced in streams with less summer precipitation or lower air temperatures. We also examined the function of volcanic streams as cold refugia under contemporary and future climatic conditions. Community composition analyses revealed that volcanic streams hosted distinct stream communities composed of more cold-water species compared with non-volcanic streams. Scenario analyses revealed a geology-related pattern of thermal habitat loss for cold-water species. Non-volcanic streams rapidly declined in thermally suitable habitats for lotic sculpins even under the lowest emission scenario (RCP 2.6). In contrast, most volcanic streams will be sustained below the thermal threshold, especially for low and mid-level emission scenarios (RCP 2.6, 4.5). However, the distinct stream community in volcanic streams and geology-dependent habitat loss for lotic sculpins was not uniform and was more pronounced in areas with less summer precipitation or lower air temperatures. Although further studies are needed to understand underlying mechanisms of the interplay of watershed geology and climate, findings highlight that watershed geology, climate variability, and their interaction should be considered simultaneously for effective management of climate-change refugia in mountain streams.

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