Constellation, le dépôt institutionnel de l'Université du Québec à Chicoutimi

Extended xylogenesis and stem biomass production in Juniperus przewalskii Kom. during extreme late-season climatic events

Zhang Junzhou, Alexander M. Ross, Gou Xiaohua, Deslauriers Annie, Fonti Patrick, Zhang Fen et Pederson Neil. (2020). Extended xylogenesis and stem biomass production in Juniperus przewalskii Kom. during extreme late-season climatic events. Annals of Forest Science, 77, (4),

[thumbnail of s13595-020-01008-1.pdf]
Prévisualisation
PDF - Version publiée
Disponible sous licence Creative Commons (CC-BY 2.5).

1MB

URL officielle: http://dx.doi.org/doi:10.1007/s13595-020-01008-1

Résumé

Late-season extreme climatic events induced variations in wood density and extended growth for more than a month in 2016 in Juniperus przewalskii Kom. growing on the Northeastern Tibetan Plateau, suggesting extraordinary growth resilience of the species in response to short extreme events over the cold and arid region.

Context Monitoring xylem formation (xylogenesis) during extreme meteorological events helps assessing climate change impacts on tree growth.

Aims For better insight into tree-growth responses, here we compare the intra-annual formation of annual ring with and without intra-annual density fluctuation in J. przewalskii in a cold and arid environment on the Northeastern Tibetan Plateau.

Methods Cambial phenology and xylogenesis observations of five mature trees during the 2016 intra-annual density fluctuation growth ring and the five-preceding year (2011–2015) were used for comparison. The frequency of population level occurrence of intra-annual density fluctuation in 2016 was examined on additional 50 randomly selected trees.

Results The return of precipitation in conjunction with warm temperatures after summer drought promoted the growth resumption in 64% of our study trees, resulting in the observed intra-annual density fluctuation. These trees experienced a growing season 1 month longer than trees without intra-annual density fluctuation. The extended growth period resulted in a 17% increase in stem biomass in trees that experienced intra-annual density fluctuation.

Conclusion Our results highlight the extraordinary resilience of J. przewalskii trees in response to extreme climatic events in the cold and dry conditions of the Tibetan Plateau.

Type de document:Article publié dans une revue avec comité d'évaluation
ISSN:1286-4560
Volume:77
Numéro:4
Version évaluée par les pairs:Oui
Date:13 Octobre 2020
Identifiant unique:10.1007/s13595-020-01008-1
Sujets:Sciences naturelles et génie > Sciences appliquées > Climatologie et météorologie
Sciences naturelles et génie > Sciences appliquées > Foresterie et sciences du bois
Sciences naturelles et génie > Sciences naturelles > Biologie et autres sciences connexes
Département, module, service et unité de recherche:Départements et modules > Département des sciences fondamentales
Unités de recherche > Centre de recherche sur la Boréalie (CREB)
Mots-clés:climate change, drought, false rings, resilience, xylogenesis
Déposé le:23 mai 2023 17:30
Dernière modification:23 mai 2023 17:30
Afficher les statistiques de telechargements

Éditer le document (administrateurs uniquement)

Creative Commons LicenseSauf indication contraire, les documents archivés dans Constellation sont rendus disponibles selon les termes de la licence Creative Commons "Paternité, pas d'utilisation commerciale, pas de modification" 2.5 Canada.

Bibliothèque Paul-Émile-Boulet, UQAC
555, boulevard de l'Université
Chicoutimi (Québec)  CANADA G7H 2B1
418 545-5011, poste 5630