SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220798642> ?p ?o ?g. }

Showing items 1 to 100 of ±108 with 100 items per page.

W4220798642 endingPage "1034" @default.
W4220798642 startingPage "1020" @default.
W4220798642 abstract "Abstract As body size often predicts energetic requirements and fecundity, understanding the drivers behind size variation is important. Neo‐Bergmann's rule states that larger individuals are found at higher latitudes and this size variation is attributable to temperature gradients. In ectotherms, this macroecological pattern has mixed support within the literature—both the direction and mechanism of size correlation with latitude varies. We asked if two species of freshwater mussels with different thermal niche preferences, Amblema plicata and Lampsilis cardium , follow neo‐Bergmann's rule and what mechanisms might drive that latitudinal variation. Lampsilis cardium is a thermally sensitive species intolerant of high temperatures, and A. plicata is more tolerant of a wide range of temperatures. We predicted that the thermally sensitive species at southern latitudes would have stunted growth in the summer and that this stunting would produce a steeper relationship with latitude than in the thermally tolerant species. We collected and thin‐sectioned 113 A. plicata shells from 23 sites and 85 Lampsilis cardium shells from 12 sites across a latitudinal gradient in the eastern U.S.A. We used back‐calculated size‐at‐age data to determine logistic growth parameters for each taxon across this gradient. We used Bayesian model selection to evaluate how environmental information correlated with potential maximum size. We found that both mussel species reached a larger potential maximum size at higher latitudes, with the thermally sensitive species having the larger increase in potential maximum size across the gradient when compared to the thermally tolerant species. Average annual water temperature explained mussel potential maximum size better than annual catchment precipitation, annual minimum flow ratio, and species identity. Both increased average water temperature and annual catchment precipitation, two predicted outcomes of climate change, were associated with smaller potential maximum size. Reductions in mussel maximum size due to climate change induced shifts in temperature regimes and precipitation patterns could lead to reduced reproductive output of this threatened guild and subsequent changes in ecosystem function and services, such as decreased biofiltration. As climate change alters precipitation patterns and stream productivity, and increases water temperature, understanding size variation and its cause in aquatic organisms will be important for managing these vulnerable populations." @default.
W4220798642 created "2022-04-03" @default.
W4220798642 creator A5025216490 @default.
W4220798642 creator A5067565692 @default.
W4220798642 creator A5073447100 @default.
W4220798642 creator A5089414197 @default.
W4220798642 date "2022-03-09" @default.
W4220798642 modified "2023-10-10" @default.
W4220798642 title "Latitudinal variation in freshwater mussel potential maximum length in Eastern North America" @default.
W4220798642 cites W132048531 @default.
W4220798642 cites W1531640903 @default.
W4220798642 cites W1785069639 @default.
W4220798642 cites W1994020089 @default.
W4220798642 cites W2001890707 @default.
W4220798642 cites W2009239184 @default.
W4220798642 cites W2021159568 @default.
W4220798642 cites W2046346929 @default.
W4220798642 cites W2050089612 @default.
W4220798642 cites W2051515444 @default.
W4220798642 cites W2075541468 @default.
W4220798642 cites W2077713043 @default.
W4220798642 cites W2081861598 @default.
W4220798642 cites W2099540110 @default.
W4220798642 cites W2115164739 @default.
W4220798642 cites W2130189419 @default.
W4220798642 cites W2138710671 @default.
W4220798642 cites W2145746574 @default.
W4220798642 cites W2149294675 @default.
W4220798642 cites W2169266284 @default.
W4220798642 cites W2172752873 @default.
W4220798642 cites W2178685873 @default.
W4220798642 cites W2325024239 @default.
W4220798642 cites W2494960273 @default.
W4220798642 cites W2512831141 @default.
W4220798642 cites W2530736445 @default.
W4220798642 cites W2554543403 @default.
W4220798642 cites W2612843263 @default.
W4220798642 cites W2792137951 @default.
W4220798642 cites W2793176206 @default.
W4220798642 cites W2912090475 @default.
W4220798642 cites W2944879486 @default.
W4220798642 cites W2954318470 @default.
W4220798642 cites W2956969333 @default.
W4220798642 cites W2963589924 @default.
W4220798642 cites W2973916201 @default.
W4220798642 cites W2977503635 @default.
W4220798642 cites W3144293930 @default.
W4220798642 cites W4230026809 @default.
W4220798642 cites W4246633233 @default.
W4220798642 cites W44690077 @default.
W4220798642 doi "https://doi.org/10.1111/fwb.13898" @default.
W4220798642 hasPublicationYear "2022" @default.
W4220798642 type Work @default.
W4220798642 citedByCount "2" @default.
W4220798642 countsByYear W42207986422023 @default.
W4220798642 crossrefType "journal-article" @default.
W4220798642 hasAuthorship W4220798642A5025216490 @default.
W4220798642 hasAuthorship W4220798642A5067565692 @default.
W4220798642 hasAuthorship W4220798642A5073447100 @default.
W4220798642 hasAuthorship W4220798642A5089414197 @default.
W4220798642 hasConcept C102715595 @default.
W4220798642 hasConcept C122523270 @default.
W4220798642 hasConcept C13280743 @default.
W4220798642 hasConcept C13376991 @default.
W4220798642 hasConcept C153991713 @default.
W4220798642 hasConcept C159985019 @default.
W4220798642 hasConcept C180997561 @default.
W4220798642 hasConcept C185933670 @default.
W4220798642 hasConcept C18903297 @default.
W4220798642 hasConcept C192562407 @default.
W4220798642 hasConcept C204323151 @default.
W4220798642 hasConcept C205649164 @default.
W4220798642 hasConcept C2779987062 @default.
W4220798642 hasConcept C86803240 @default.
W4220798642 hasConceptScore W4220798642C102715595 @default.
W4220798642 hasConceptScore W4220798642C122523270 @default.
W4220798642 hasConceptScore W4220798642C13280743 @default.
W4220798642 hasConceptScore W4220798642C13376991 @default.
W4220798642 hasConceptScore W4220798642C153991713 @default.
W4220798642 hasConceptScore W4220798642C159985019 @default.
W4220798642 hasConceptScore W4220798642C180997561 @default.
W4220798642 hasConceptScore W4220798642C185933670 @default.
W4220798642 hasConceptScore W4220798642C18903297 @default.
W4220798642 hasConceptScore W4220798642C192562407 @default.
W4220798642 hasConceptScore W4220798642C204323151 @default.
W4220798642 hasConceptScore W4220798642C205649164 @default.
W4220798642 hasConceptScore W4220798642C2779987062 @default.
W4220798642 hasConceptScore W4220798642C86803240 @default.
W4220798642 hasIssue "6" @default.
W4220798642 hasLocation W42207986421 @default.
W4220798642 hasOpenAccess W4220798642 @default.
W4220798642 hasPrimaryLocation W42207986421 @default.
W4220798642 hasRelatedWork W2021159568 @default.
W4220798642 hasRelatedWork W2052055599 @default.
W4220798642 hasRelatedWork W2052556195 @default.
W4220798642 hasRelatedWork W2145311014 @default.
W4220798642 hasRelatedWork W2159247057 @default.
W4220798642 hasRelatedWork W2436148310 @default.