SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2806321331> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W2806321331 endingPage "1362" @default.
W2806321331 startingPage "1353" @default.
W2806321331 abstract "Summary Accurate predictions of spring plant phenology with climate change are critical for projections of growing seasons, plant communities and a number of ecosystem services, including carbon storage. Progress towards prediction, however, has been slow because the major cues known to drive phenology – temperature (including winter chilling and spring forcing) and photoperiod – generally covary in nature and may interact, making accurate predictions of plant responses to climate change complex and nonlinear. Alternatively, recent work suggests many species may be dominated by one cue, which would make predictions much simpler. Here, we manipulated all three cues across 28 woody species from two North American forests. All species responded to all cues examined. Chilling exerted a strong effect, especially on budburst (−15.8 d), with responses to forcing and photoperiod greatest for leafout (−19.1 and −11.2 d, respectively). Interactions between chilling and forcing suggest that each cue may compensate somewhat for the other. Cues varied across species, leading to staggered leafout within each community and supporting the idea that phenology is a critical aspect of species' temporal niches. Our results suggest that predicting the spring phenology of communities will be difficult, as all species we studied could have complex, nonlinear responses to future warming." @default.
W2806321331 created "2018-06-13" @default.
W2806321331 creator A5044241995 @default.
W2806321331 creator A5064754392 @default.
W2806321331 date "2018-06-05" @default.
W2806321331 modified "2023-10-11" @default.
W2806321331 title "Temperature and photoperiod drive spring phenology across all species in a temperate forest community" @default.
W2806321331 cites W1252690780 @default.
W2806321331 cites W1930242476 @default.
W2806321331 cites W1959467371 @default.
W2806321331 cites W1963970040 @default.
W2806321331 cites W1967656737 @default.
W2806321331 cites W1969059046 @default.
W2806321331 cites W1971196151 @default.
W2806321331 cites W1972335260 @default.
W2806321331 cites W1974264828 @default.
W2806321331 cites W1983047503 @default.
W2806321331 cites W1996942284 @default.
W2806321331 cites W2011703979 @default.
W2806321331 cites W2017428818 @default.
W2806321331 cites W2019365260 @default.
W2806321331 cites W2026548858 @default.
W2806321331 cites W2033856204 @default.
W2806321331 cites W2035609471 @default.
W2806321331 cites W2039388573 @default.
W2806321331 cites W2047152814 @default.
W2806321331 cites W2056317258 @default.
W2806321331 cites W2057221944 @default.
W2806321331 cites W2061515484 @default.
W2806321331 cites W2075296873 @default.
W2806321331 cites W2079995161 @default.
W2806321331 cites W2080097270 @default.
W2806321331 cites W2082693396 @default.
W2806321331 cites W2087297831 @default.
W2806321331 cites W2091179887 @default.
W2806321331 cites W2096110505 @default.
W2806321331 cites W2097445924 @default.
W2806321331 cites W2098962835 @default.
W2806321331 cites W2101264720 @default.
W2806321331 cites W2105050514 @default.
W2806321331 cites W2107680625 @default.
W2806321331 cites W2108109827 @default.
W2806321331 cites W2111459999 @default.
W2806321331 cites W2118770321 @default.
W2806321331 cites W2122966619 @default.
W2806321331 cites W2130430294 @default.
W2806321331 cites W2132718969 @default.
W2806321331 cites W2141742566 @default.
W2806321331 cites W2146804851 @default.
W2806321331 cites W2147791966 @default.
W2806321331 cites W2150824710 @default.
W2806321331 cites W2152092242 @default.
W2806321331 cites W2154107014 @default.
W2806321331 cites W2163498252 @default.
W2806321331 cites W2163595580 @default.
W2806321331 cites W2211764928 @default.
W2806321331 cites W2267714437 @default.
W2806321331 cites W2326308682 @default.
W2806321331 cites W2333336953 @default.
W2806321331 cites W2395364234 @default.
W2806321331 cites W2416499666 @default.
W2806321331 cites W2536362164 @default.
W2806321331 cites W2558724412 @default.
W2806321331 cites W2568884840 @default.
W2806321331 cites W2577537660 @default.
W2806321331 cites W2588033016 @default.
W2806321331 cites W2591093177 @default.
W2806321331 cites W2591276546 @default.
W2806321331 cites W2617760100 @default.
W2806321331 doi "https://doi.org/10.1111/nph.15232" @default.
W2806321331 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29870050" @default.
W2806321331 hasPublicationYear "2018" @default.
W2806321331 type Work @default.
W2806321331 sameAs 2806321331 @default.
W2806321331 citedByCount "171" @default.
W2806321331 countsByYear W28063213312018 @default.
W2806321331 countsByYear W28063213312019 @default.
W2806321331 countsByYear W28063213312020 @default.
W2806321331 countsByYear W28063213312021 @default.
W2806321331 countsByYear W28063213312022 @default.
W2806321331 countsByYear W28063213312023 @default.
W2806321331 crossrefType "journal-article" @default.
W2806321331 hasAuthorship W2806321331A5044241995 @default.
W2806321331 hasAuthorship W2806321331A5064754392 @default.
W2806321331 hasBestOaLocation W28063213311 @default.
W2806321331 hasConcept C110872660 @default.
W2806321331 hasConcept C115343472 @default.
W2806321331 hasConcept C127313418 @default.
W2806321331 hasConcept C127413603 @default.
W2806321331 hasConcept C132651083 @default.
W2806321331 hasConcept C137660486 @default.
W2806321331 hasConcept C188442384 @default.
W2806321331 hasConcept C18903297 @default.
W2806321331 hasConcept C197115733 @default.
W2806321331 hasConcept C2778712887 @default.
W2806321331 hasConcept C39432304 @default.
W2806321331 hasConcept C51417038 @default.
W2806321331 hasConcept C55969652 @default.