Is there Chornobyl nuclear accident signature in Scots pine radial growth and its climate sensitivity?
NETSVETOV, Maksym
National Academy of Sciences of Ukraine = Національна академія наук України = Académie nationale des sciences d'Ukraine [NASU / НАН України]
Biodiversité, Gènes & Communautés [BioGeCo]
National Academy of Sciences of Ukraine = Національна академія наук України = Académie nationale des sciences d'Ukraine [NASU / НАН України]
Biodiversité, Gènes & Communautés [BioGeCo]
PROKOPUK, Yulia
National Academy of Sciences of Ukraine = Національна академія наук України = Académie nationale des sciences d'Ukraine [NASU / НАН України]
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National Academy of Sciences of Ukraine = Національна академія наук України = Académie nationale des sciences d'Ukraine [NASU / НАН України]
NETSVETOV, Maksym
National Academy of Sciences of Ukraine = Національна академія наук України = Académie nationale des sciences d'Ukraine [NASU / НАН України]
Biodiversité, Gènes & Communautés [BioGeCo]
National Academy of Sciences of Ukraine = Національна академія наук України = Académie nationale des sciences d'Ukraine [NASU / НАН України]
Biodiversité, Gènes & Communautés [BioGeCo]
PROKOPUK, Yulia
National Academy of Sciences of Ukraine = Національна академія наук України = Académie nationale des sciences d'Ukraine [NASU / НАН України]
< Réduire
National Academy of Sciences of Ukraine = Національна академія наук України = Académie nationale des sciences d'Ukraine [NASU / НАН України]
Langue
en
Article de revue
Ce document a été publié dans
Science of the Total Environment. 2023-06, vol. 878, p. 163132
Elsevier
Résumé en anglais
The extensive radioactive fallout resulting from the 1986 Chornobyl accident caused tree death near the nuclear power plant and perturbed trees communities throughout the whole Chornobyl exclusion zone. Thirty years into ...Lire la suite >
The extensive radioactive fallout resulting from the 1986 Chornobyl accident caused tree death near the nuclear power plant and perturbed trees communities throughout the whole Chornobyl exclusion zone. Thirty years into the post-accident period, the radiation continues to exert its fatal effects on the surviving trees. However, to what extent the continuous multi-decadal radiation exposure has affected the radial tree growth and its sensitivity to climate variation remains unascertained. In this comparative study, we measure the Scots pine radial growth and quantify its response to climate at two sites along the western track of the nuclear fallout that received significantly different doses of radiation in 1986. The common features of the two sites allow us to disentangle and intercompare the effects of sub-lethal and moderate radiation doses on the pine's growth and climatic sensitivity. We extend the response function analysis by making the first use of the Full-Duration at Half-Maximum FDHM method in dendrochronology and apply the double-moving window approach to detect the main patterns of the growth-to-climate relationships and their temporal evolution. The stand exposed to sub-lethal radiation shows a significant radial growth reduction in 1986 with a deflection period of one year. The stand exposed to moderate radiation, in contrast, demonstrates no significant decrease in growth either in 1986 or in the following years. Beyond the radiation effects, the moving response function and FDHM enabled us to detect several mutual patterns in the growth-to-climate relationships, which are seemingly unrelated to the nuclear accident. To advance our predictive understanding of the response of forest ecosystems to a massive radioactive contamination, future studies should include quantitative wood anatomy techniques.< Réduire
Mots clés en anglais
Tree ring
Radioactivity
Drought
Growth resistance
Growth recovery
Project ANR
Impact de la gestion forestière et du changement climatique sur le microclimat en sous-bois - ANR-22-PAUK-0008
Impact de la gestion forestière et du changement climatique sur le microclimat en sous-bois - ANR-21-CE32-0012
Impact de la gestion forestière et du changement climatique sur le microclimat en sous-bois - ANR-21-CE32-0012
Origine
Importé de halUnités de recherche