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701.
Djati Utomo Handojo Li Xiaodong Ng Eng Tak Jonathan 《Environmental science and pollution research international》2022,29(14):20078-20084
Environmental Science and Pollution Research - 相似文献
702.
Jonathan M. P. Torres Kalina Bermúdez Marmolejo-Rodríguez Ana Judith López Eugenia López 《Environmental science and pollution research international》2022,29(41):61547-61549
Environmental Science and Pollution Research - 相似文献
703.
Heintz William J. Willis Jonathan M. 《Environmental science and pollution research international》2022,29(44):66148-66159
Environmental Science and Pollution Research - Oil spills are a significant stressor to coastal and maritime environments worldwide. The growth responses of Batis maritima and Avicennia germinans... 相似文献
704.
Escobar-Flores Jonathan Gabriel Sandoval Sarahi Gámiz-Romero Eduardo 《Environmental science and pollution research international》2022,29(41):61662-61673
Environmental Science and Pollution Research - In this study, six supervised classification algorithms were compared. The algorithms were based on cluster analysis, distance, deep learning, and... 相似文献
705.
Nick Hahlbeck William R. Tinniswood Matthew R. Sloat Jordan D. Ortega Matthew A. Wyatt Mark E. Hereford Ben S. Ramirez David A. Crook Kara J. Anlauf-Dunn Jonathan B. Armstrong 《Conservation biology》2022,36(3):e13857
A central tenet of landscape ecology is that mobile species depend on complementary habitats, which are insufficient in isolation, but combine to support animals through the full annual cycle. However, incorporating the dynamic needs of mobile species into conservation strategies remains a challenge, particularly in the context of climate adaptation planning. For cold-water fishes, it is widely assumed that maximum temperatures are limiting and that summer data alone can predict refugia and population persistence. We tested these assumptions in populations of redband rainbow trout (Oncorhynchus mykiss newberrii) in an arid basin, where the dominance of hot, hyperproductive water in summer emulates threats of climate change predicted for cold-water fish in other basins. We used telemetry to reveal seasonal patterns of movement and habitat use. Then, we compared contributions of hot and cool water to growth with empirical indicators of diet and condition (gut contents, weight–length ratios, electric phase angle, and stable isotope signatures) and a bioenergetics model. During summer, trout occurred only in cool tributaries or springs (<20 °C) and avoided Upper Klamath Lake (>25 °C). During spring and fall, ≥65% of trout migrated to the lake (5–50 km) to forage. Spring and fall growth (mean [SD] 0.58% per day [0.80%] and 0.34 per day [0.55%], respectively) compensated for a net loss of energy in cool summer refuges (–0.56% per day [0.55%]). In winter, ≥90% of trout returned to tributaries (25–150 km) to spawn. Thus, although perennially cool tributaries supported thermal refuge and spawning, foraging opportunities in the seasonally hot lake ultimately fueled these behaviors. Current approaches to climate adaptation would prioritize the tributaries for conservation but would devalue critical foraging habitat because the lake is unsuitable and unoccupied during summer. Our results empirically demonstrate that warm water can fuel cold-water fisheries and challenge the common practice of identifying refugia based only on summer conditions. 相似文献