Intra-annual stem size variations converge across marginal populations of European beech

Key message The intra-annual variability in stem size of marginal beech population from south-eastern distribution range of beech in Poland is higher within than between populations. One of the key issues of the distribution of tree species is their ability to track environmental changes. European b...

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Veröffentlicht in:	Trees (Berlin, West) West), 2020-02, Vol.34 (1), p.255-265
Hauptverfasser:	Klisz, Marcin, Buttò, Valentina, Rossi, Sergio, Morin, Hubert, Jastrzębowski, Szymon
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Sprache:	eng
Schlagworte:	Agriculture Annual variations Beech Biomedical and Life Sciences Climate effects Ecological Genetics Environmental changes Environmental conditions Fagus sylvatica Forestry Life Sciences Natural selection Original Article Phenotypic plasticity Plant Anatomy/Development Plant Pathology Plant Physiology Plant Sciences Plant species Plastic properties Plasticity Populations Provenance Variation
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description	Key message The intra-annual variability in stem size of marginal beech population from south-eastern distribution range of beech in Poland is higher within than between populations. One of the key issues of the distribution of tree species is their ability to track environmental changes. European beech ( Fagus sylvatica L.) is a species highly sensitive to extreme climatic events, because of its high phenotypic plasticity. In this study, we aim to determine the variability in stem size between and within marginal beech populations. Marginal populations of beech growing under uniform environmental conditions of provenance trial offer unique opportunity to detect adaptive differentiations driven by natural selection. In this work, we studied stem size variation recorded by automatic band dendrometers in four beech marginal populations growing in a common garden in the south-eastern distribution range of beech in Poland over the period 2016–2018. Strong climatic effects and weak provenance differences in seasonal stem size variation were observed. The provenances exhibited similar climate-related seasonal stem circumference variation. A high within-provenance variation was confirmed. Temperature of spring as well as temperature and precipitation of autumn were detected as key climatic parameters mostly for onset and end of stem size variation. Maximum stem size was mostly affected by the later end of its variation, which positively affected its duration. Climatic distance between beech provenances and provenance trial had a negligible effect on the variability in seasonal stem size variation between provenances. The evidence of weak inter-provenance and high intra-provenance variation in stem size changes observed in the south-eastern distribution range indicates that an individual-based approach could be a suitable strategy, when selecting for phenotypic plasticity.
doi_str_mv	10.1007/s00468-019-01915-5
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One of the key issues of the distribution of tree species is their ability to track environmental changes. European beech ( Fagus sylvatica L.) is a species highly sensitive to extreme climatic events, because of its high phenotypic plasticity. In this study, we aim to determine the variability in stem size between and within marginal beech populations. Marginal populations of beech growing under uniform environmental conditions of provenance trial offer unique opportunity to detect adaptive differentiations driven by natural selection. In this work, we studied stem size variation recorded by automatic band dendrometers in four beech marginal populations growing in a common garden in the south-eastern distribution range of beech in Poland over the period 2016–2018. Strong climatic effects and weak provenance differences in seasonal stem size variation were observed. The provenances exhibited similar climate-related seasonal stem circumference variation. A high within-provenance variation was confirmed. Temperature of spring as well as temperature and precipitation of autumn were detected as key climatic parameters mostly for onset and end of stem size variation. Maximum stem size was mostly affected by the later end of its variation, which positively affected its duration. Climatic distance between beech provenances and provenance trial had a negligible effect on the variability in seasonal stem size variation between provenances. 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subjects	Agriculture Annual variations Beech Biomedical and Life Sciences Climate effects Ecological Genetics Environmental changes Environmental conditions Fagus sylvatica Forestry Life Sciences Natural selection Original Article Phenotypic plasticity Plant Anatomy/Development Plant Pathology Plant Physiology Plant Sciences Plant species Plastic properties Plasticity Populations Provenance Variation
title	Intra-annual stem size variations converge across marginal populations of European beech
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