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Phylogenetic Conservatism in Plant PhenologyPhenological events defined points in the life cycle of a plant or animal have been regarded as highly plastic traits, reflecting flexible responses to various environmental cues. The ability of a species to track, via shifts in phenological events, the abiotic environment through time might dictate its vulnerability to future climate change. Understanding the predictors and drivers of phenological change is therefore critical. Here, we evaluated evidence for phylogenetic conservatism the tendency for closely related species to share similar ecological and biological attributes in phenological traits across flowering plants. We aggregated published and unpublished data on timing of first flower and first leaf, encompassing 4000 species at 23 sites across the Northern Hemisphere. We reconstructed the phylogeny for the set of included species, first, using the software program Phylomatic, and second, from DNA data. We then quantified phylogenetic conservatism in plant phenology within and across sites. We show that more closely related species tend to flower and leaf at similar times. By contrasting mean flowering times within and across sites, however, we illustrate that it is not the time of year that is conserved, but rather the phenological responses to a common set of abiotic cues. Our findings suggest that species cannot be treated as statistically independent when modelling phenological responses.Closely related species tend to resemble each other in the timing of their life-history events, a likely product of evolutionarily conserved responses to environmental cues. The search for the underlying drivers of phenology must therefore account for species' shared evolutionary histories.
Document ID
20140010893
Acquisition Source
Goddard Space Flight Center
Document Type
Reprint (Version printed in journal)
External Source(s)
Authors
Davies, T. Jonathan
(McGill Univ. Montreal, Quebec, Canada)
Wolkovich, Elizabeth M.
(British Columbia Univ. Vancouver, British Columbia, Canada)
Kraft, Nathan J. B.
(Maryland Univ. College Park, MD, United States)
Salamin, Nicolas
(Lausanne Univ. Switzerland)
Allen, Jenica M.
(Connecticut Univ. Storrs, CT, United States)
Ault, Toby R.
(National Center for Atmospheric Research Boulder, CO, United States)
Betancourt, Julio L.
(Geological Survey Reston, VA, United States)
Bolmgren, Kjell
(Lund Univ. Sweden)
Cleland, Elsa E.
(California Univ., San Diego La Jolla, CA, United States)
Cook, Benjamin I.
(NASA Goddard Inst. for Space Studies New York, NY, United States)
Crimmins, Theresa M.
(USA National Phenology Network Tucson, AZ, United States)
Mazer, Susan J.
(California Univ. Santa Barbara, CA, United States)
McCabe, Gregory J.
(Geological Survey Denver, CO, United States)
Pau, Stephanie
(Florida State Univ. Tallahassee, FL, United States)
Regetz, Jim
(California Univ. Santa Barbara, CA, United States)
Schwartz, Mark D.
(Wisconsin Univ. Milwaukee, WI, United States)
Travers, Steven E.
(North Dakota State Univ. Fargo, ND, United States)
Date Acquired
August 20, 2014
Publication Date
November 1, 2013
Publication Information
Publication: Journal of Ecology
Publisher: Wiley
Volume: 101
Issue: 6
Subject Category
Earth Resources And Remote Sensing
Meteorology And Climatology
Report/Patent Number
GSFC-E-DAA-TN15007
Report Number: GSFC-E-DAA-TN15007
Funding Number(s)
CONTRACT_GRANT: NSF EF-0553768
CONTRACT_GRANT: NSF BSR 88-11906
CONTRACT_GRANT: NSF IOS-0639794
CONTRACT_GRANT: NSF DBI-0905806
CONTRACT_GRANT: NSF 0080538
CONTRACT_GRANT: NSF 0218039
CONTRACT_GRANT: NSF 9411973
CONTRACT_GRANT: NSF 0218039
CONTRACT_GRANT: NSF DEB 0080529
CONTRACT_GRANT: NSF DEB 0238331
CONTRACT_GRANT: NSF DEB 0217774
CONTRACT_GRANT: NSF DEB 9411976
CONTRACT_GRANT: NSF 0922080
CONTRACT_GRANT: NSF 0614659
CONTRACT_GRANT: NSF 0620910
Distribution Limits
Public
Copyright
Public Use Permitted.
Keywords
phylogenetic conservatism
plant-climate interactions
flowering times
climate change
plasticity
spring indices
phenology
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