SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2514842372> ?p ?o ?g. }

Showing items 1 to 85 of 85 with 100 items per page.

W2514842372 endingPage "115" @default.
W2514842372 startingPage "109" @default.
W2514842372 abstract "Summary Adipose tissue is the primary fuel storage for vertebrates and is an important component of energy budgets during periods of peak energetic demands. Investigating the composition of adipose tissue can provide information about energetics, migration, reproduction and other life‐history traits. Until now, most field methods for sampling adipose tissue of small‐bodied vertebrates have been destructive. Therefore, investigations of adipose tissue in small‐bodied vertebrates have been limited in their broadscale application. We developed a field‐ready micro‐adipose biopsy method for sampling adipose tissue of small‐bodied vertebrates, by adopting fine‐needle adipose aspiration. We applied the method to silver‐haired bats ( Lasionycteris noctivagans ) and then quantified the resulting fatty acid signatures of a summer group and an autumn group to demonstrate one possible application of the method. We successfully obtained interpretable fatty acid signatures from 74·5% of micro‐adipose biopsy attempts, with success positively correlated with body mass index. Summer and autumn groups of bats had different fatty acid signatures likely representing varied available dietary compositions at resident sites (the habitat where adipose deposits are accumulated prior to migration). The fatty acid profile of autumn silver‐haired bats was largely characterized by 16:0, 18:1 and 14:0, and the summer group was characterized by 16:0, 16:1 and 18:0. Our results suggest that fatty acid signatures have the potential to characterize the origins of migrating individuals, or the number of unique subpopulations being supported by a migration route. This field‐ready fine‐needle adipose aspiration method can be used on small‐bodied mammals and modified for application to other small‐bodied vertebrates. This non‐destructive approach to sampling adipose tissue has great value because it allows for robust sample sizes, longitudinal studies of the same individuals across space and time, and sampling of rare, threatened and endangered species." @default.
W2514842372 created "2016-09-16" @default.
W2514842372 creator A5035633387 @default.
W2514842372 creator A5041920952 @default.
W2514842372 creator A5089967200 @default.
W2514842372 creator A5091493350 @default.
W2514842372 date "2016-09-30" @default.
W2514842372 modified "2023-10-10" @default.
W2514842372 title "Minimally invasive collection of adipose tissue facilitates the study of eco‐physiology in small‐bodied mammals" @default.
W2514842372 cites W1965495607 @default.
W2514842372 cites W1972585890 @default.
W2514842372 cites W1980687720 @default.
W2514842372 cites W1987109327 @default.
W2514842372 cites W1989072040 @default.
W2514842372 cites W2019966865 @default.
W2514842372 cites W2026304377 @default.
W2514842372 cites W2029841856 @default.
W2514842372 cites W2034892065 @default.
W2514842372 cites W2035453768 @default.
W2514842372 cites W2037633980 @default.
W2514842372 cites W2040139580 @default.
W2514842372 cites W2043240068 @default.
W2514842372 cites W2049496021 @default.
W2514842372 cites W2072546445 @default.
W2514842372 cites W2076292283 @default.
W2514842372 cites W2080131055 @default.
W2514842372 cites W2083807224 @default.
W2514842372 cites W2095502331 @default.
W2514842372 cites W2095979541 @default.
W2514842372 cites W2096232530 @default.
W2514842372 cites W2116514366 @default.
W2514842372 cites W2166621640 @default.
W2514842372 cites W2179022543 @default.
W2514842372 cites W2233068617 @default.
W2514842372 cites W2289101196 @default.
W2514842372 cites W2322794166 @default.
W2514842372 cites W2514842372 @default.
W2514842372 cites W4231554770 @default.
W2514842372 cites W4299542564 @default.
W2514842372 doi "https://doi.org/10.1111/2041-210x.12646" @default.
W2514842372 hasPublicationYear "2016" @default.
W2514842372 type Work @default.
W2514842372 sameAs 2514842372 @default.
W2514842372 citedByCount "3" @default.
W2514842372 countsByYear W25148423722016 @default.
W2514842372 countsByYear W25148423722021 @default.
W2514842372 crossrefType "journal-article" @default.
W2514842372 hasAuthorship W2514842372A5035633387 @default.
W2514842372 hasAuthorship W2514842372A5041920952 @default.
W2514842372 hasAuthorship W2514842372A5089967200 @default.
W2514842372 hasAuthorship W2514842372A5091493350 @default.
W2514842372 hasBestOaLocation W25148423721 @default.
W2514842372 hasConcept C134018914 @default.
W2514842372 hasConcept C171089720 @default.
W2514842372 hasConcept C543025807 @default.
W2514842372 hasConcept C55493867 @default.
W2514842372 hasConcept C86803240 @default.
W2514842372 hasConcept C90856448 @default.
W2514842372 hasConceptScore W2514842372C134018914 @default.
W2514842372 hasConceptScore W2514842372C171089720 @default.
W2514842372 hasConceptScore W2514842372C543025807 @default.
W2514842372 hasConceptScore W2514842372C55493867 @default.
W2514842372 hasConceptScore W2514842372C86803240 @default.
W2514842372 hasConceptScore W2514842372C90856448 @default.
W2514842372 hasIssue "1" @default.
W2514842372 hasLocation W25148423721 @default.
W2514842372 hasOpenAccess W2514842372 @default.
W2514842372 hasPrimaryLocation W25148423721 @default.
W2514842372 hasRelatedWork W1995175941 @default.
W2514842372 hasRelatedWork W2035826258 @default.
W2514842372 hasRelatedWork W2046971378 @default.
W2514842372 hasRelatedWork W2058747951 @default.
W2514842372 hasRelatedWork W2316530170 @default.
W2514842372 hasRelatedWork W2334504660 @default.
W2514842372 hasRelatedWork W2937117390 @default.
W2514842372 hasRelatedWork W2947686229 @default.
W2514842372 hasRelatedWork W4240323839 @default.
W2514842372 hasRelatedWork W4244628857 @default.
W2514842372 hasVolume "8" @default.
W2514842372 isParatext "false" @default.
W2514842372 isRetracted "false" @default.
W2514842372 magId "2514842372" @default.
W2514842372 workType "article" @default.