SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2590280115> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W2590280115 endingPage "1611" @default.
W2590280115 startingPage "1600" @default.
W2590280115 abstract "Summary Trait‐based approaches represent a promising way to understand how trophic interactions shape animal communities. The approach relies on the identification of the traits that mediate the linkages between adjacent trophic levels, i.e. ‘trait‐matching’. Yet, how trait‐matching explains the abundance and diversity of animal communities has been barely explored. This question may be particularly critical in the context of land‐use intensification, currently threatening biodiversity and associated ecosystem services. We collected a large dataset on plant and grasshopper traits from communities living in 204 grasslands, in an intensively managed agricultural landscape. We used a multi‐trait approach to quantify the relative contributions of trait‐matching and land‐use intensification acting at both local and landscape scales on grasshopper functional diversity. We considered two key independent functional traits: incisor strength and body size of grasshopper species. Incisor strength, a resource‐acquisition trait, strongly matches grasshopper feeding niche. Body size correlates with mobility traits, and may determine grasshopper dispersal abilities. Plant functional diversity positively impacted the diversity of grasshopper resource‐acquisition traits, according to the degree of trait‐matching observed between plants and herbivores. However, this positive effect was significantly higher in old grasslands. In addition, the presence of specific habitats in the landscape (i.e. wood and alfalfa) strongly enhanced grasshopper resource‐acquisition trait diversity in the focal grassland. Finally, grasshopper body size increased with landscape simplification, although the response was modulated by local factors such as soil depth. Trait‐matching between plants and herbivores was an important driver explaining the abundance and diversity of resource‐acquisition traits within grasshopper communities. However, the presence of specific habitats in the surrounding landscape had also a strong influence on herbivore functional diversity in grasslands. Our study suggests that also mass effects are a central mechanism promoting higher functional diversity within animal communities in highly disturbed anthropogenic systems. A lay summary is available for this article." @default.
W2590280115 created "2017-03-03" @default.
W2590280115 creator A5017649985 @default.
W2590280115 creator A5052630931 @default.
W2590280115 creator A5062110875 @default.
W2590280115 creator A5077306226 @default.
W2590280115 creator A5085089162 @default.
W2590280115 creator A5087152591 @default.
W2590280115 date "2017-03-27" @default.
W2590280115 modified "2023-10-14" @default.
W2590280115 title "Trait‐matching and mass effect determine the functional response of herbivore communities to land‐use intensification" @default.
W2590280115 cites W1520167607 @default.
W2590280115 cites W1609810996 @default.
W2590280115 cites W1840185503 @default.
W2590280115 cites W1965719535 @default.
W2590280115 cites W1972941851 @default.
W2590280115 cites W1981968821 @default.
W2590280115 cites W1987431381 @default.
W2590280115 cites W1993066286 @default.
W2590280115 cites W1995046810 @default.
W2590280115 cites W1996091787 @default.
W2590280115 cites W2009472332 @default.
W2590280115 cites W2032903743 @default.
W2590280115 cites W2041702133 @default.
W2590280115 cites W2051282529 @default.
W2590280115 cites W2056280096 @default.
W2590280115 cites W2060683904 @default.
W2590280115 cites W2062007350 @default.
W2590280115 cites W2066965189 @default.
W2590280115 cites W2067824949 @default.
W2590280115 cites W2069002701 @default.
W2590280115 cites W2077637812 @default.
W2590280115 cites W2079095306 @default.
W2590280115 cites W2080072521 @default.
W2590280115 cites W2083932133 @default.
W2590280115 cites W2088545704 @default.
W2590280115 cites W2089514193 @default.
W2590280115 cites W2095906203 @default.
W2590280115 cites W2100528227 @default.
W2590280115 cites W2101153419 @default.
W2590280115 cites W2103317434 @default.
W2590280115 cites W2106276251 @default.
W2590280115 cites W2107625277 @default.
W2590280115 cites W2110390404 @default.
W2590280115 cites W2110618556 @default.
W2590280115 cites W2114331584 @default.
W2590280115 cites W2114795157 @default.
W2590280115 cites W2116165854 @default.
W2590280115 cites W2120226284 @default.
W2590280115 cites W2128676293 @default.
W2590280115 cites W2129163149 @default.
W2590280115 cites W2130811469 @default.
W2590280115 cites W2132272855 @default.
W2590280115 cites W2132798233 @default.
W2590280115 cites W2133311386 @default.
W2590280115 cites W2134776612 @default.
W2590280115 cites W2135727198 @default.
W2590280115 cites W2137565644 @default.
W2590280115 cites W2139226273 @default.
W2590280115 cites W2144720485 @default.
W2590280115 cites W2146616239 @default.
W2590280115 cites W2148886761 @default.
W2590280115 cites W2150597302 @default.
W2590280115 cites W2154874538 @default.
W2590280115 cites W2155157807 @default.
W2590280115 cites W2155430569 @default.
W2590280115 cites W2159255821 @default.
W2590280115 cites W2165675708 @default.
W2590280115 cites W2167406761 @default.
W2590280115 cites W2168103932 @default.
W2590280115 cites W2168261061 @default.
W2590280115 cites W2171400380 @default.
W2590280115 cites W2179371719 @default.
W2590280115 cites W2238960072 @default.
W2590280115 cites W2337083383 @default.
W2590280115 cites W2342550970 @default.
W2590280115 cites W2345536912 @default.
W2590280115 cites W4299541734 @default.
W2590280115 cites W4302823686 @default.
W2590280115 cites W875821582 @default.
W2590280115 doi "https://doi.org/10.1111/1365-2435.12849" @default.
W2590280115 hasPublicationYear "2017" @default.
W2590280115 type Work @default.
W2590280115 sameAs 2590280115 @default.
W2590280115 citedByCount "28" @default.
W2590280115 countsByYear W25902801152017 @default.
W2590280115 countsByYear W25902801152018 @default.
W2590280115 countsByYear W25902801152019 @default.
W2590280115 countsByYear W25902801152020 @default.
W2590280115 countsByYear W25902801152021 @default.
W2590280115 countsByYear W25902801152022 @default.
W2590280115 countsByYear W25902801152023 @default.
W2590280115 crossrefType "journal-article" @default.
W2590280115 hasAuthorship W2590280115A5017649985 @default.
W2590280115 hasAuthorship W2590280115A5052630931 @default.
W2590280115 hasAuthorship W2590280115A5062110875 @default.
W2590280115 hasAuthorship W2590280115A5077306226 @default.
W2590280115 hasAuthorship W2590280115A5085089162 @default.