SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2402873306> ?p ?o ?g. }

Showing items 1 to 100 of ±121 with 100 items per page.

W2402873306 endingPage "2135" @default.
W2402873306 startingPage "2125" @default.
W2402873306 abstract "Abstract Resource patchiness influences consumer foraging, movement, and physiology. Fluxes across ecosystem boundaries can extend these effects to otherwise distinct food webs. Intraspecific diversity of these cross‐ecosystem subsidies can have large consequences for recipient systems. Here, we show intraspecific variation in leaf defensive chemistry of riparian trees drives local adaptation among terrestrial and riverine decomposers that consume shed leaf litter. We found extensive geographic structuring of ellagitannins, diarylheptanoids, and flavonoids in red alder trees. Ellagitannins, particularly those with strong oxidative activity, drive aquatic leaf decomposition. Further, spatial variation in these leaf components drives local ecological matching: in experiments using artificial food sources distinguished only by the chemical content of individual trees, we found decomposers both on land and in rivers more quickly consumed locally derived food sources. These results illustrate that terrestrial processes can change the chemistry of cross‐ecosystem subsidies in ways that ultimately alter ecosystem function in donor and recipient systems." @default.
W2402873306 created "2016-06-24" @default.
W2402873306 creator A5014607270 @default.
W2402873306 creator A5030830974 @default.
W2402873306 creator A5082586013 @default.
W2402873306 date "2016-08-01" @default.
W2402873306 modified "2023-10-15" @default.
W2402873306 title "Intraspecific leaf chemistry drives locally accelerated ecosystem function in aquatic and terrestrial communities" @default.
W2402873306 cites W1504853996 @default.
W2402873306 cites W1581224696 @default.
W2402873306 cites W1969055273 @default.
W2402873306 cites W1969369211 @default.
W2402873306 cites W1976530347 @default.
W2402873306 cites W1977765506 @default.
W2402873306 cites W1979597489 @default.
W2402873306 cites W1982366337 @default.
W2402873306 cites W1989441545 @default.
W2402873306 cites W1991950308 @default.
W2402873306 cites W2004056706 @default.
W2402873306 cites W2005274735 @default.
W2402873306 cites W2009344561 @default.
W2402873306 cites W2019655958 @default.
W2402873306 cites W2021752782 @default.
W2402873306 cites W2023817661 @default.
W2402873306 cites W2026054915 @default.
W2402873306 cites W2032081489 @default.
W2402873306 cites W2038723016 @default.
W2402873306 cites W2046637716 @default.
W2402873306 cites W2047562001 @default.
W2402873306 cites W2048901957 @default.
W2402873306 cites W2049247975 @default.
W2402873306 cites W2053725952 @default.
W2402873306 cites W2058518052 @default.
W2402873306 cites W2058624672 @default.
W2402873306 cites W2063649847 @default.
W2402873306 cites W2065722346 @default.
W2402873306 cites W2069438261 @default.
W2402873306 cites W2070608792 @default.
W2402873306 cites W2082008228 @default.
W2402873306 cites W2082855725 @default.
W2402873306 cites W2092008429 @default.
W2402873306 cites W2092679282 @default.
W2402873306 cites W2095912006 @default.
W2402873306 cites W2103112927 @default.
W2402873306 cites W2105319682 @default.
W2402873306 cites W2105586915 @default.
W2402873306 cites W2115490418 @default.
W2402873306 cites W2116544104 @default.
W2402873306 cites W2117794943 @default.
W2402873306 cites W2131373051 @default.
W2402873306 cites W2135400083 @default.
W2402873306 cites W2156130242 @default.
W2402873306 cites W2156400180 @default.
W2402873306 cites W2160021859 @default.
W2402873306 cites W2163806683 @default.
W2402873306 cites W2165141970 @default.
W2402873306 cites W2166390717 @default.
W2402873306 cites W2333642288 @default.
W2402873306 cites W329148769 @default.
W2402873306 cites W4300517352 @default.
W2402873306 doi "https://doi.org/10.1890/15-1763.1" @default.
W2402873306 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27859211" @default.
W2402873306 hasPublicationYear "2016" @default.
W2402873306 type Work @default.
W2402873306 sameAs 2402873306 @default.
W2402873306 citedByCount "20" @default.
W2402873306 countsByYear W24028733062017 @default.
W2402873306 countsByYear W24028733062018 @default.
W2402873306 countsByYear W24028733062019 @default.
W2402873306 countsByYear W24028733062020 @default.
W2402873306 countsByYear W24028733062021 @default.
W2402873306 countsByYear W24028733062023 @default.
W2402873306 crossrefType "journal-article" @default.
W2402873306 hasAuthorship W2402873306A5014607270 @default.
W2402873306 hasAuthorship W2402873306A5030830974 @default.
W2402873306 hasAuthorship W2402873306A5082586013 @default.
W2402873306 hasBestOaLocation W24028733061 @default.
W2402873306 hasConcept C104170005 @default.
W2402873306 hasConcept C110872660 @default.
W2402873306 hasConcept C11731853 @default.
W2402873306 hasConcept C131892835 @default.
W2402873306 hasConcept C175327387 @default.
W2402873306 hasConcept C185933670 @default.
W2402873306 hasConcept C18903297 @default.
W2402873306 hasConcept C45962647 @default.
W2402873306 hasConcept C65680412 @default.
W2402873306 hasConcept C86803240 @default.
W2402873306 hasConceptScore W2402873306C104170005 @default.
W2402873306 hasConceptScore W2402873306C110872660 @default.
W2402873306 hasConceptScore W2402873306C11731853 @default.
W2402873306 hasConceptScore W2402873306C131892835 @default.
W2402873306 hasConceptScore W2402873306C175327387 @default.
W2402873306 hasConceptScore W2402873306C185933670 @default.
W2402873306 hasConceptScore W2402873306C18903297 @default.
W2402873306 hasConceptScore W2402873306C45962647 @default.
W2402873306 hasConceptScore W2402873306C65680412 @default.
W2402873306 hasConceptScore W2402873306C86803240 @default.
W2402873306 hasFunder F4320306076 @default.