Multi-scale phylogenetic structure in coastal dune plant communities across the globe

doi:10.1093/jpe/rtt069

J Plant Ecol ›› 2014, Vol. 7 ›› Issue (2): 101-114 .DOI: 10.1093/jpe/rtt069

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Multi-scale phylogenetic structure in coastal dune plant communities across the globe

Ane Kirstine Brunbjerg^1,2,*, Jeannine Cavender-Bares³, Wolf L. Eiserhardt¹, Rasmus Ejrnæs², Lonnie W. Aarssen⁴, Hannah L. Buckley⁵, Estelle Forey⁶, Florian Jansen⁷, Jens Kattge⁸, Cynthia Lane⁹, Roy A. Lubke¹⁰, Angela T. Moles¹¹, Ana Laura Monserrat¹², Robert K. Peet¹³, Julissa Roncal¹⁴, Louise Wootton¹⁵ and Jens-Christian Svenning¹

¹ Ecoinformatics & Biodiversity Group, Department of Bioscience, Aarhus University, Ny Munkegade 114, DK-8000 Aarhus C., Denmark; ² Department of Bioscience, Aarhus University, Grenaavej 14, DK-8410 Rønde, Denmark; ³ Department of Ecology, Evolution and Behavior, University of Minnesota, 1987 Upper Buford Circle, Falcon Heights, MN 55108, USA; ⁴ Department of Biology, Queens University, 116 Barrie Street, Kingston, Ontario K7L 3N6, Canada; ⁵ Department of Ecology, Lincoln University, PO Box 84, Canterbury 7647, New Zealand; ⁶ Laboratoire d'Ecologie, EA 1293 ECODIV, FED SCALE, UFR Sciences et Techniques, Université de Rouen, 76821 Mont Saint Aignan Cedex, France; ⁷ Institute of Botany and Landscape Ecology, Soldmannstr. 15, 17487 Greifswald, Germany; ⁸ Functional Biogeography Research Group, Max Planck Institute for Biogeochemistry, Hans Knoell Str. 10, 07745 Jena, Thuringia, Germany; ⁹ Lake Lily Ecology, Ltd., PO Box 8455, Canmore, AB T1W 2V2, Canada; ¹⁰ Department of Botany, Rhodes University, PO Box 94, Grahamstown, East Cape 6140, South Africa; ¹¹ Evolution & Ecology Research Centre, School of Biological, Earth and Environmental Sciences, The University of New South Wales, Botany Road, Kensington, Sydney, New South Wales 2034, Australia; ¹² Grupo de Investigación en Sistemas Ambientales Complejos, Facultad de Ingeniería, Universidad de Flores, Pedernera 275, Ciudad de Buenos Aires, Argentina; ¹³ Department of Biology, University of North Carolina, Chapel Hill, NC 27599-3280, USA; ¹⁴ Department of Biology, Memorial University of Newfoundland, 232 Elizabeth Avenue, St. John's, NL A1B 3X9, Canada; ¹⁵ Department of Biology, Georgian Court University, 900 Lakewood Avenue, Lakewood, NJ 08701, USA

Received:2013-02-27 Accepted:2013-12-21 Published:2014-03-26
Contact: Brunbjerg, Ane Kirstine

Multi-scale phylogenetic structure in coastal dune plant communities across the globe

Abstract

Abstract: Aims Studies integrating phylogenetic history and large-scale community assembly are few, and many questions remain unanswered. Here, we use a global coastal dune plant data set to uncover the important factors in community assembly across scales from the local filtering processes to the global long-term diversification and dispersal dynamics. Coastal dune plant communities occur worldwide under a wide range of climatic and geologic conditions as well as in all biogeographic regions. However, global patterns in the phylogenetic composition of coastal dune plant communities have not previously been studied.
Methods The data set comprised vegetation data from 18463 plots in New Zealand, South Africa, South America, North America and Europe. The phylogenetic tree comprised 2241 plant species from 149 families. We calculated phylogenetic clustering (Net Relatedness Index, NRI, and Nearest Taxon Index, NTI) of regional dune floras to estimate the amount of in situ diversification relative to the global dune species pool and evaluated the relative importance of land and climate barriers for these diversification patterns by geographic analyses of phylogenetic similarity. We then tested whether dune plant communities exhibit similar patterns of phylogenetic structure within regions. Finally, we calculated NRI for local communities relative to the regional species pool and tested for an association with functional traits (plant height and seed mass) thought to vary along sea–inland gradients.
Important findings Regional species pools were phylogenetically clustered relative to the global pool, indicating regional diversification. NTI showed stronger clustering than NRI pointing to the importance of especially recent diversifications within regions. The species pools grouped phylogenetically into two clusters on either side of the tropics suggesting greater dispersal rates within hemispheres than between hemispheres. Local NRI plot values confirmed that most communities were also phylogenetically clustered within regions. NRI values decreased with increasing plant height and seed mass, indicating greater phylogenetic clustering in communities with short maximum height and good dispersers prone to wind and tidal disturbance as well as salt spray, consistent with environmental filtering along sea–inland gradients. Height and seed mass both showed significant phylogenetic signal, and NRI tended to correlate negatively with both at the plot level. Low NRI plots tended to represent coastal scrub and forest, whereas high NRI plots tended to represent herb-dominated vegetation. We conclude that regional diversification processes play a role in dune plant community assembly, with convergence in local phylogenetic community structure and local variation in community structure probably reflecting consistent coastal-inland gradients. Our study contributes to a better understanding of the globally distributed dynamic coastal ecosystems and the structuring factors working on dune plant communities across spatial scales and regions.

Key words: disturbance, phylogenetic community structure, plant functional traits, plant height, seed mass

摘要：
Aims Studies integrating phylogenetic history and large-scale community assembly are few, and many questions remain unanswered. Here, we use a global coastal dune plant data set to uncover the important factors in community assembly across scales from the local filtering processes to the global long-term diversification and dispersal dynamics. Coastal dune plant communities occur worldwide under a wide range of climatic and geologic conditions as well as in all biogeographic regions. However, global patterns in the phylogenetic composition of coastal dune plant communities have not previously been studied.
Methods The data set comprised vegetation data from 18463 plots in New Zealand, South Africa, South America, North America and Europe. The phylogenetic tree comprised 2241 plant species from 149 families. We calculated phylogenetic clustering (Net Relatedness Index, NRI, and Nearest Taxon Index, NTI) of regional dune floras to estimate the amount of in situ diversification relative to the global dune species pool and evaluated the relative importance of land and climate barriers for these diversification patterns by geographic analyses of phylogenetic similarity. We then tested whether dune plant communities exhibit similar patterns of phylogenetic structure within regions. Finally, we calculated NRI for local communities relative to the regional species pool and tested for an association with functional traits (plant height and seed mass) thought to vary along sea–inland gradients.
Important findings Regional species pools were phylogenetically clustered relative to the global pool, indicating regional diversification. NTI showed stronger clustering than NRI pointing to the importance of especially recent diversifications within regions. The species pools grouped phylogenetically into two clusters on either side of the tropics suggesting greater dispersal rates within hemispheres than between hemispheres. Local NRI plot values confirmed that most communities were also phylogenetically clustered within regions. NRI values decreased with increasing plant height and seed mass, indicating greater phylogenetic clustering in communities with short maximum height and good dispersers prone to wind and tidal disturbance as well as salt spray, consistent with environmental filtering along sea–inland gradients. Height and seed mass both showed significant phylogenetic signal, and NRI tended to correlate negatively with both at the plot level. Low NRI plots tended to represent coastal scrub and forest, whereas high NRI plots tended to represent herb-dominated vegetation. We conclude that regional diversification processes play a role in dune plant community assembly, with convergence in local phylogenetic community structure and local variation in community structure probably reflecting consistent coastal-inland gradients. Our study contributes to a better understanding of the globally distributed dynamic coastal ecosystems and the structuring factors working on dune plant communities across spatial scales and regions.

Ane Kirstine Brunbjerg, Jeannine Cavender-Bares, Wolf L. Eiserhardt, Rasmus Ejrnæs, Lonnie W. Aarssen, Hannah L. Buckley, Estelle Forey, Florian Jansen, Jens Kattge, Cynthia Lane, Roy A. Lubke, Angela T. Moles, Ana Laura Monserrat, Robert K. Peet, Julissa Roncal, Louise Wootton, Jens-Christian Svenning. Multi-scale phylogenetic structure in coastal dune plant communities across the globe[J]. J Plant Ecol, 2014, 7(2): 101-114.

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Multi-scale phylogenetic structure in coastal dune plant communities across the globe

Multi-scale phylogenetic structure in coastal dune plant communities across the globe

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