Patterns of modern pollen and plant richness across northern Europe

Abstract Sedimentary pollen offers excellent opportunities to reconstruct vegetation changes over past millennia. Number of different pollen taxa or pollen richness is used to characterise past plant richness. To improve the interpretation of sedimentary pollen richness, it is essential to understan...

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Bibliographic Details
Published in:Journal of Ecology
Main Authors: Reitalu, Triin, Bjune, Anne E., Blaus, Ansis, Giesecke, Thomas, Helm, Aveliina, Matthias, Isabelle, Peglar, Sylvia M., Salonen, J. Sakari, Seppä, Heikki, Väli, Vivika, Birks, H. John B.
Other Authors: de Lafontaine, Guillaume, Eesti Teadusagentuur, Norges Forskningsråd, H2020 European Research Council, European Regional Development Fund
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2019
Subjects:
Tundra
Online Access:http://dx.doi.org/10.1111/1365-2745.13134
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https://onlinelibrary.wiley.com/doi/pdf/10.1111/1365-2745.13134
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Summary:Abstract Sedimentary pollen offers excellent opportunities to reconstruct vegetation changes over past millennia. Number of different pollen taxa or pollen richness is used to characterise past plant richness. To improve the interpretation of sedimentary pollen richness, it is essential to understand the relationship between pollen and plant richness in contemporary landscapes. This study presents a regional‐scale comparison of pollen and plant richness from northern Europe and evaluates the importance of environmental variables on pollen and plant richness. We use a pollen dataset of 511 lake‐surface pollen samples ranging through temperate, boreal and tundra biomes. To characterise plant diversity, we use a dataset formulated from the two largest plant atlases available in Europe. We compare pollen and plant richness estimates in different groups of taxa (wind‐pollinated vs. non‐wind‐pollinated, trees and shrubs vs. herbs and grasses) and test their relationships with climate and landscape variables. Pollen richness is significantly positively correlated with plant richness ( r = 0.53). The pollen plant richness correlation improves ( r = 0.63) when high pollen producers are downweighted prior to estimating richness minimising the influence of pollen production on the pollen richness estimate. This suggests that methods accommodating pollen‐production differences in richness estimates deserve further attention and should become more widely used in Quaternary pollen diversity studies. The highest correlations are found between pollen and plant richness of trees and shrubs ( r = 0.83) and of wind‐pollinated taxa ( r = 0.75) suggesting that these are the best measures of broad‐scale plant richness over several thousands of square kilometres. Mean annual temperature is the strongest predictor of both pollen and plant richness. Landscape openness is positively associated with pollen richness but not with plant richness. Pollen richness values from extremely open and/or cold areas where pollen production is low ...

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