Novel insights into post‐glacial vegetation change: functional and phylogenetic diversity in pollen records

QuestionHow do pollen-based functional and phylogenetic diversity help to explain post-glacial vegetation change in relation to climate and human influence? LocationEstonia and Latvia, NE Europe. MethodsWe used a data set of 1062 pollen samples from 20 sites covering the last 14500yrs to estimate plant richness, evenness, functional and phylogenetic diversity (community-weighted mean and mean pair-wise distance). We adjusted existing functional and phylogenetic diversity measures for the pollen data and tested the methods with a simulation study. The simulations showed that species-based and pollen-based diversity estimates were all significantly positively correlated. ResultsThe Late Glacial (14500-11650cal. yr BP) and the mid-Holocene (8000-4000cal. yr BP) periods showed contrasting values for most of the diversity components, and several diversity estimates were strongly associated with climate. The cold climate during the Late Glacial led to high phylogenetic diversity, and relatively low functional diversity. Climate warming during the transition from the Late Glacial to the Holocene was followed by a decrease in phylogenetic diversity but an increase in functional diversity based on plant height and seed weight. Increasing human impact in the late Holocene was associated with an increase in plant richness and decreases in functional diversity based on plant height and seed weight and in phylogenetic diversity of herbs. ConclusionsPollen-based functional and phylogenetic diversity provide novel insights into post-glacial vegetation change and its drivers. Both functional and phylogenetic diversity were closely related to climatic conditions, suggesting that trait differences play an important role in long-term community response to climate change. Our results indicate that human impact during the last two millennia has influenced functional and phylogenetic diversity negatively by suppressing plants with certain traits (functional convergence) and giving advantage to plants from certain phylogenetic lineages. We see great potential in the further development of functional and phylogenetic diversity methods for pollen data.

[1]  S. Hopper Royal Botanic Gardens Kew , 2015 .

[2]  T. Reitalu,et al.  Closing the gap between plant ecology and Quaternary palaeoecology. , 2014, Journal of vegetation science : official organ of the International Association for Vegetation Science.

[3]  A. Correa-Metrio,et al.  Environmental determinism and neutrality in vegetation at millennial time scales , 2014 .

[4]  N. Swenson Functional and Phylogenetic Ecology in R , 2014 .

[5]  S. Veski,et al.  Tree taxa immigration to the eastern Baltic region, southeastern sector of Scandinavian glaciation during the Late-glacial period (14,500–11,700 cal. b.p.) , 2014, Vegetation History and Archaeobotany.

[6]  T. Reitalu,et al.  Determinants of fine-scale plant diversity in dry calcareous grasslands within the Baltic Sea region , 2014 .

[7]  Zhiyao Tang,et al.  Patterns of species diversity and phylogenetic structure of vascular plants on the Qinghai-Tibetan Plateau , 2013, Ecology and evolution.

[8]  M. Pärtel,et al.  Functional and phylogenetic community assembly linked to changes in species diversity in a long‐term resource manipulation experiment , 2013 .

[9]  T. Koff,et al.  Long‐term drivers of forest composition in a boreonemoral region: the relative importance of climate and human impact , 2013 .

[10]  Barbara C. Schmid,et al.  Contrasting changes in taxonomic, phylogenetic and functional diversity during a long‐term succession: insights into assembly processes , 2013 .

[11]  D. Colombaroli,et al.  Changes in biodiversity and vegetation composition in the central Swiss Alps during the transition from pristine forest to first farming , 2013 .

[12]  A. Brande,et al.  Exploring Holocene Changes in Palynological Richness in Northern Europe – Did Postglacial Immigration Matter? , 2012, PloS one.

[13]  W. Durka,et al.  Daphne: a dated phylogeny of a large European flora for phylogenetically informed ecological analyses , 2012 .

[14]  T. Reitalu,et al.  Lateglacial vegetation dynamics in the eastern Baltic region between 14,500 and 11,400 cal yr BP: A complete record since the Bølling (GI-1e) to the Holocene , 2012 .

[15]  M. Rundgren,et al.  Floristic diversity in the transition from traditional to modern land-use in southern Sweden a.d. 1800–2008 , 2012, Vegetation History and Archaeobotany.

[16]  T. Reitalu,et al.  The role of landscape structure in determining palynological and floristic richness , 2012, Vegetation History and Archaeobotany.

[17]  M. Bonsall,et al.  Measuring biodiversity to explain community assembly: a unified approach , 2011, Biological reviews of the Cambridge Philosophical Society.

[18]  T. Kull,et al.  Palynological richness and pollen sample evenness in relation to local floristic diversity in southern Estonia , 2011 .

[19]  M. Bonsall,et al.  Abrupt environmental changes drive shifts in tree–grass interaction outcomes , 2011 .

[20]  M. Mayfield,et al.  Opposing effects of competitive exclusion on the phylogenetic structure of communities. , 2010, Ecology letters.

[21]  N. Roberts,et al.  A pollen-based pseudobiomisation approach to anthropogenic land-cover change , 2010 .

[22]  Campbell O. Webb,et al.  Picante: R tools for integrating phylogenies and ecology , 2010, Bioinform..

[23]  Jessie A. Wells,et al.  Land-use intensification reduces functional redundancy and response diversity in plant communities. , 2010, Ecology letters.

[24]  Wolfgang Nentwig,et al.  Plant extinctions and introductions lead to phylogenetic and taxonomic homogenization of the European flora , 2009, Proceedings of the National Academy of Sciences.

[25]  T. Lacourse Environmental change controls postglacial forest dynamics through interspecific differences in life-history traits. , 2009, Ecology.

[26]  P. Muukkonen,et al.  Invasion of Norway spruce (Picea abies) and the rise of the boreal ecosystem in Fennoscandia , 2009 .

[27]  W. O. Knaap Estimating pollen diversity from pollen accumulation rates: a method to assess taxonomic richness in the landscape , 2009 .

[28]  Fabrice DeClerck,et al.  Loss of functional diversity under land use intensification across multiple taxa. , 2009, Ecology letters.

[29]  Martin Hermy,et al.  The LEDA Traitbase: a database of life‐history traits of the Northwest European flora , 2008 .

[30]  J. Schaminée,et al.  Less lineages - more trait variation: phylogenetically clustered plant communities are functionally more diverse. , 2008, Ecology letters.

[31]  K. Gajewski,et al.  Testing the reliability of pollen-based diversity estimates , 2008 .

[32]  A. Moro,et al.  Alien flora of Europe: species diversity, temporal trends, geographical patterns and research needs. , 2008 .

[33]  B. Berglund,et al.  Long-term changes in floristic diversity in southern Sweden: palynological richness, vegetation dynamics and land-use , 2008 .

[34]  K. Willis,et al.  Species persistence in northerly glacial refugia of Europe: a matter of chance or biogeographical traits? , 2008 .

[35]  L. Saarse,et al.  Mid- and late-Holocene land-use changes inferred from pollen records, in a south-eastern Estonian upland area , 2007 .

[36]  S. Sugita,et al.  Theory of quantitative reconstruction of vegetation I: pollen from large sites REVEALS regional vegetation composition , 2007 .

[37]  L. Saarse,et al.  Fine-resolution pollen-based evidences of farming and forest development, South-Eastern Estonia , 2007 .

[38]  R. Cowling,et al.  How much evolutionary history in a 10×10 m plot? , 2006, Proceedings of the Royal Society B: Biological Sciences.

[39]  Marie-Louise Siggaard-Andersen,et al.  A new Greenland ice core chronology for the last glacial termination , 2006 .

[40]  L. Saarse,et al.  Holocene forest dynamics and human impact in southeastern Estonia , 2006 .

[41]  Wilfried Thuiller,et al.  Using niche‐based modelling to assess the impact of climate change on tree functional diversity in Europe , 2006 .

[42]  A. Hamilton,et al.  Phylogenetic diversity of forest trees in the Usambara mountains of Tanzania: correlations with altitude. , 2005 .

[43]  A. Poska,et al.  Integrated palaeoecological and historical data in the service of fine‐resolution land use and ecological change assessment during the last 1000 years in Rõuge, southern Estonia , 2005 .

[44]  F. Firbas,et al.  Über die Bestimmung der Walddichte und der Vegetation waldloser Gebiete mit Hilfe der Pollenanalyse , 1934, Planta.

[45]  BiolFlor — a new plant‐trait database as a tool for plant invasion ecology , 2004 .

[46]  P. Reich,et al.  A handbook of protocols for standardised and easy measurement of plant functional traits worldwide , 2003 .

[47]  Campbell O. Webb,et al.  Phylogenies and Community Ecology , 2002 .

[48]  A. Poska,et al.  Vegetation development and introduction of agriculture to Saaremaa Island, Estonia: the human response to shore displacement , 2002 .

[49]  M. Lindbladh The influence of former land-use on vegetation and biodiversity in the boreo-nemoral zone of Sweden , 1999 .

[50]  A. Poska,et al.  Holocene vegetation and land-use history in the environs of Lake Kahala, northern Estonia , 1999 .

[51]  Bent Vad Odgaard,et al.  Fossil pollen as a record of past biodiversity , 1999 .

[52]  R. Rousseau,et al.  Measuring Biodiversity , 1999 .

[53]  Sandra Díaz,et al.  Plant functional traits and environmental filters at a regional scale , 1998 .

[54]  N. Gotelli,et al.  NULL MODELS IN ECOLOGY , 1996 .

[55]  B Huntley,et al.  Reconstructing biomes from palaeoecological data: a general method and its application to European pollen data at 0 and 6 ka , 1996 .

[56]  H. Birks,et al.  The use of Rarefaction Analysis for Estimating Palynological Richness from Quaternary Pollen-Analytical Data , 1992 .

[57]  Ruprecht Düll,et al.  Zeigerwerte von Pflanzen in Mitteleuropa , 1992 .

[58]  R. Busing,et al.  Secondary Succession, Gap Dynamics, and Community Structure in a Southern Appalachian Cove Forest , 1989 .

[59]  G. A. Yarranton,et al.  Diversity, richness, and evenness during a primary sand dune succession at Grand Bend, Ontario , 1973 .

[60]  J. Gower A General Coefficient of Similarity and Some of Its Properties , 1971 .

[61]  S. Hurlbert The Nonconcept of Species Diversity: A Critique and Alternative Parameters. , 1971, Ecology.