Temperature-dependent shifts in phenology contribute to the success of exotic species with climate change

• Premise of the study: The study of how phenology may contribute to the assembly of plant communities has a long history in ecology. Climate change has brought renewed interest in this area, with many studies examining how phenology may contribute to the success of exotic species. In particular, th...

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Veröffentlicht in:	American journal of botany 2013-07, Vol.100 (7), p.1407-1421
Hauptverfasser:	Wolkovich, Elizabeth M, Davies, T. Jonathan, Schaefer, Hanno, Cleland, Elsa E, Cook, Benjamin I, Travers, Steven E, Willis, Charles G, Davis, Charles C
Format:	Artikel
Sprache:	eng
Schlagworte:	Botany Climate Change Climate models Demography Flowering flowering time grasslands growing season indigenous species Introduced Species invasion biology Native species niches Nonnative species non‐native species North American prairies Phenology Phylogenetics Phylogeny plant communities Plant ecology plant phenology Plant Physiological Phenomena Plants Plants - classification Plants - genetics Precipitation soil water Special Invited Articles Species Species Specificity temperate grasslands Temperature Temperature effects Time Factors United Kingdom United States
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creator	Wolkovich, Elizabeth M Davies, T. Jonathan Schaefer, Hanno Cleland, Elsa E Cook, Benjamin I Travers, Steven E Willis, Charles G Davis, Charles C
description	• Premise of the study: The study of how phenology may contribute to the assembly of plant communities has a long history in ecology. Climate change has brought renewed interest in this area, with many studies examining how phenology may contribute to the success of exotic species. In particular, there is increasing evidence that exotic species occupy unique phenological niches and track climate change more closely than native species.• Methods: Here, we use long-term records of species’ first flowering dates from five northern hemisphere temperate sites (Chinnor, UK and in the United States, Concord, Massachusetts; Fargo, North Dakota; Konza Prairie, Kansas; and Washington, D.C.) to examine whether invaders have distinct phenologies. Using a broad phylogenetic framework, we tested for differences between exotic and native species in mean annual flowering time, phenological changes in response to temperature and precipitation, and longer-term shifts in first flowering dates during recent pronounced climate change (“flowering time shifts”).• Key results: Across North American sites, exotic species have shifted flowering with climate change while native species, on average, have not. In the three mesic systems, exotic species exhibited higher tracking of interannual variation in temperature, such that flowering advances more with warming, than native species. Across the two grassland systems, however, exotic species differed from native species primarily in responses to precipitation and soil moisture, not temperature.• Conclusions: Our findings provide cross-site support for the role of phenology and climate change in explaining species’ invasions. Further, they support recent evidence that exotic species may be important drivers of extended growing seasons observed with climate change in North America.
doi_str_mv	10.3732/ajb.1200478
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In the three mesic systems, exotic species exhibited higher tracking of interannual variation in temperature, such that flowering advances more with warming, than native species. Across the two grassland systems, however, exotic species differed from native species primarily in responses to precipitation and soil moisture, not temperature.• Conclusions: Our findings provide cross-site support for the role of phenology and climate change in explaining species’ invasions. 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In the three mesic systems, exotic species exhibited higher tracking of interannual variation in temperature, such that flowering advances more with warming, than native species. Across the two grassland systems, however, exotic species differed from native species primarily in responses to precipitation and soil moisture, not temperature.• Conclusions: Our findings provide cross-site support for the role of phenology and climate change in explaining species’ invasions. 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Jonathan</au><au>Schaefer, Hanno</au><au>Cleland, Elsa E</au><au>Cook, Benjamin I</au><au>Travers, Steven E</au><au>Willis, Charles G</au><au>Davis, Charles C</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Temperature-dependent shifts in phenology contribute to the success of exotic species with climate change</atitle><jtitle>American journal of botany</jtitle><addtitle>Am J Bot</addtitle><date>2013-07</date><risdate>2013</risdate><volume>100</volume><issue>7</issue><spage>1407</spage><epage>1421</epage><pages>1407-1421</pages><issn>0002-9122</issn><eissn>1537-2197</eissn><coden>AJBOAA</coden><abstract>• Premise of the study: The study of how phenology may contribute to the assembly of plant communities has a long history in ecology. Climate change has brought renewed interest in this area, with many studies examining how phenology may contribute to the success of exotic species. 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In the three mesic systems, exotic species exhibited higher tracking of interannual variation in temperature, such that flowering advances more with warming, than native species. Across the two grassland systems, however, exotic species differed from native species primarily in responses to precipitation and soil moisture, not temperature.• Conclusions: Our findings provide cross-site support for the role of phenology and climate change in explaining species’ invasions. Further, they support recent evidence that exotic species may be important drivers of extended growing seasons observed with climate change in North America.</abstract><cop>United States</cop><pub>Botanical Society of America</pub><pmid>23797366</pmid><doi>10.3732/ajb.1200478</doi><tpages>15</tpages></addata></record>
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subjects	Botany Climate Change Climate models Demography Flowering flowering time grasslands growing season indigenous species Introduced Species invasion biology Native species niches Nonnative species non‐native species North American prairies Phenology Phylogenetics Phylogeny plant communities Plant ecology plant phenology Plant Physiological Phenomena Plants Plants - classification Plants - genetics Precipitation soil water Special Invited Articles Species Species Specificity temperate grasslands Temperature Temperature effects Time Factors United Kingdom United States
title	Temperature-dependent shifts in phenology contribute to the success of exotic species with climate change
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