SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2883242232> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2883242232 endingPage "346" @default.
W2883242232 startingPage "339" @default.
W2883242232 abstract "Understanding how sensitive aquatic ecosystems respond to climate change is essential for effective biodiversity conservation and management. The Tibetan Plateau (TP) is one of the most globally sensitive areas to climate change with potentially serious implications for resident fish populations and aquatic food webs. However, how the growth of TP fish responds to climate change, and how this response varies with the trophic level of different species remain unknown. We established growth-increment chronologies of two important Schizothoracinae fishes that are endemic to the TP (e.g., the omnivorous Schizopygopsis younghusbandi and the carnivorous Oxygymnocypris stewartii) from the Yarlung Tsangpo River, using otolith increment width measurements and dendrochronological methods. These growth chronologies were correlated with key indicators of environmental variation (temperature, precipitation, and river discharge) to examine the potential effects of climate change. The two chronologies displayed synchronous responses to recent climate change. In this glacial-fed river, the growth of both fish species was significantly and negatively correlated with the mean annual air temperature, while it was positively but not significantly correlated with precipitation and discharge. The higher trophic level species O. stewartii was more sensitive to climate than was the lower trophic level species S. younghusbandi, with temperature variables explaining a higher proportion of growth variability in O. stewartii (64.6%) than in S. younghusbandi (46.4%). The results collectively indicate that both species are highly sensitive to climate change, which may affect fish growth by altering water environment, fish physiological fitness and food availability. This study provides further empirical evidence of the utility of growth-increment chronologies for investigating the effects of climate change on aquatic ecosystems across different basins and water body types of the TP. These findings can inform conservation and management actions related to addressing climate change on the TP and other high-elevation temperate systems found worldwide." @default.
W2883242232 created "2018-08-03" @default.
W2883242232 creator A5015760957 @default.
W2883242232 creator A5025363929 @default.
W2883242232 creator A5038133677 @default.
W2883242232 creator A5051578642 @default.
W2883242232 date "2018-12-01" @default.
W2883242232 modified "2023-10-07" @default.
W2883242232 title "Climate-driven synchrony in growth-increment chronologies of fish from the world's largest high-elevation river" @default.
W2883242232 cites W135088208 @default.
W2883242232 cites W1543780680 @default.
W2883242232 cites W1851820387 @default.
W2883242232 cites W1952029449 @default.
W2883242232 cites W1968192147 @default.
W2883242232 cites W1969180276 @default.
W2883242232 cites W1979325436 @default.
W2883242232 cites W1981894682 @default.
W2883242232 cites W1985363751 @default.
W2883242232 cites W1990035969 @default.
W2883242232 cites W2000048385 @default.
W2883242232 cites W2000836921 @default.
W2883242232 cites W2005316323 @default.
W2883242232 cites W2006077930 @default.
W2883242232 cites W2007978549 @default.
W2883242232 cites W2009239184 @default.
W2883242232 cites W2011106851 @default.
W2883242232 cites W2016903184 @default.
W2883242232 cites W2024649846 @default.
W2883242232 cites W2024764816 @default.
W2883242232 cites W2025341145 @default.
W2883242232 cites W2030319311 @default.
W2883242232 cites W2032746623 @default.
W2883242232 cites W2043854760 @default.
W2883242232 cites W2053023284 @default.
W2883242232 cites W2059711881 @default.
W2883242232 cites W2060154645 @default.
W2883242232 cites W2064682574 @default.
W2883242232 cites W2068453615 @default.
W2883242232 cites W2075793519 @default.
W2883242232 cites W2085585287 @default.
W2883242232 cites W2092718430 @default.
W2883242232 cites W2093262970 @default.
W2883242232 cites W2098040315 @default.
W2883242232 cites W2099540110 @default.
W2883242232 cites W2103303955 @default.
W2883242232 cites W2103973624 @default.
W2883242232 cites W2108316436 @default.
W2883242232 cites W2110098148 @default.
W2883242232 cites W2116544104 @default.
W2883242232 cites W2116791145 @default.
W2883242232 cites W2117060272 @default.
W2883242232 cites W2123468149 @default.
W2883242232 cites W2128261265 @default.
W2883242232 cites W2131646550 @default.
W2883242232 cites W2132913333 @default.
W2883242232 cites W2132935831 @default.
W2883242232 cites W2135858501 @default.
W2883242232 cites W2136488638 @default.
W2883242232 cites W2148186217 @default.
W2883242232 cites W2152821670 @default.
W2883242232 cites W2153703574 @default.
W2883242232 cites W2161829879 @default.
W2883242232 cites W2163645101 @default.
W2883242232 cites W2178824704 @default.
W2883242232 cites W2264274063 @default.
W2883242232 cites W2292799094 @default.
W2883242232 cites W2295375006 @default.
W2883242232 cites W2345347212 @default.
W2883242232 cites W2412689208 @default.
W2883242232 cites W2414239904 @default.
W2883242232 cites W2461083860 @default.
W2883242232 cites W2626867014 @default.
W2883242232 cites W2740586183 @default.
W2883242232 cites W2755299846 @default.
W2883242232 cites W2783215609 @default.
W2883242232 cites W4253283180 @default.
W2883242232 cites W4362236489 @default.
W2883242232 doi "https://doi.org/10.1016/j.scitotenv.2018.07.108" @default.
W2883242232 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30029113" @default.
W2883242232 hasPublicationYear "2018" @default.
W2883242232 type Work @default.
W2883242232 sameAs 2883242232 @default.
W2883242232 citedByCount "19" @default.
W2883242232 countsByYear W28832422322019 @default.
W2883242232 countsByYear W28832422322020 @default.
W2883242232 countsByYear W28832422322021 @default.
W2883242232 countsByYear W28832422322022 @default.
W2883242232 countsByYear W28832422322023 @default.
W2883242232 crossrefType "journal-article" @default.
W2883242232 hasAuthorship W2883242232A5015760957 @default.
W2883242232 hasAuthorship W2883242232A5025363929 @default.
W2883242232 hasAuthorship W2883242232A5038133677 @default.
W2883242232 hasAuthorship W2883242232A5051578642 @default.
W2883242232 hasConcept C107054158 @default.
W2883242232 hasConcept C110872660 @default.
W2883242232 hasConcept C130217890 @default.
W2883242232 hasConcept C132651083 @default.
W2883242232 hasConcept C153294291 @default.