Pollen-chemistry variations along elevation gradients and their implications for a proxy for UV-B radiation in the plant-fossil record

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http://hdl.handle.net/10138/333013

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Seddon , A W R , Festi , D , Nieuwkerk , M , Gya , R , Hamre , B , Kruger , L C , Ostman , S A H & Robson , T M 2021 , ' Pollen-chemistry variations along elevation gradients and their implications for a proxy for UV-B radiation in the plant-fossil record ' , Journal of Ecology , vol. 109 , no. 8 , pp. 3060-3073 . https://doi.org/10.1111/1365-2745.13720

Titel: Pollen-chemistry variations along elevation gradients and their implications for a proxy for UV-B radiation in the plant-fossil record
Författare: Seddon, Alistair W. R.; Festi, Daniela; Nieuwkerk, Mayke; Gya, Ragnhild; Hamre, Borge; Kruger, Linn Cecilie; Ostman, Silje A. H.; Robson, T. Matthew
Upphovmannens organisation: Canopy Spectral Ecology and Ecophysiology
Viikki Plant Science Centre (ViPS)
Biosciences
Organismal and Evolutionary Biology Research Programme
Datum: 2021-08
Språk: eng
Sidantal: 14
Tillhör serie: Journal of Ecology
ISSN: 0022-0477
DOI: https://doi.org/10.1111/1365-2745.13720
Permanenta länken (URI): http://hdl.handle.net/10138/333013
Abstrakt: Research indicates that phenolic compounds (e.g. para-coumaric acid) found within pollen grains may be useful as a proxy to reconstruct the UV-B radiation received at the Earth's surface in the geological past. However, application of this method to the plant-fossil record currently relies on a series of untested assumptions surrounding the ecological factors driving the response of pollen grains in the contemporary environment. Here, we investigate the relationship of Pinus spp. pollen to UV-B radiation using individuals of five populations sampled from three elevation gradients across Europe. We develop a novel radiation-modelling approach, which allows us to estimate the UV-B radiation dose of individual trees, weighted by different UV-B action spectra. We then use linear mixed-effects modelling to investigate: (a) whether the variations in UV-B-absorbing compounds in Pinus pollen are best described by models using coarser (subgenus) or finer (population) taxonomic levels; and (b) the duration of the period of accumulation of UV-B-absorbing compounds in pollen, ranging from 8 to 28 days. Our results demonstrate an overall positive relationship between para-coumaric acid and UV-B radiation, best described by applying a UV-B-accumulation period spanning 12-19 days. However, we also show clear evidence for population-level factors influencing this relationship across the study locations. Synthesis. Our multidisciplinary approach, which combines expertise from palaeoecology, plant physiology and atmospheric physics, provides clear evidence that pollen-grain chemistry is subject to population-level variations. We suggest that quantitative reconstructions of long-term changes in springtime UV-B radiation are still achievable using fossil reconstructions, but only with careful consideration of the factors leading to pollen representation in sediments. Future improvements are dependent on mechanistic understanding of the local factors which mediate the UV-B response across different populations, and on upscaling knowledge at the plant level to incorporate longer-term chemical variations represented within sediment samples.
Subject: palaeoecology and land-use history
para-coumaric acid
Pinus spp
pollen
plant-climate interactions
UV-B radiation
UV-B-absorbing compounds
ABSORBING COMPOUNDS
SCREENING PIGMENTS
SOURCE AREA
SPOROPOLLENIN
SPORE
MICROSPOROGENESIS
QUANTIFICATION
REPRESENTATION
CHEMOTAXONOMY
DIVERSITY
11831 Plant biology
1181 Ecology, evolutionary biology
Referentgranskad: Ja
Licens: cc_by_nc
Användningsbegränsning: openAccess
Parallelpublicerad version: publishedVersion


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