Sex-dependent resilience to extreme drought events: implications for climate change adaptation of a South American endangered tree species

Background Recent changes in climatic trends are resulting in an increased frequency and intensity of extreme events, with unknown effect on ecosystem dynamics in the near future. Extreme drought episodes are recognized as disturbance factors capable of modifying forest dynamics and tree growth. Wit...

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Bibliographic Details
Published in:Ecological processes 2024-12, Vol.13 (1), p.24-24, Article 24
Main Authors: Piraino, Sergio, Hadad, Martín Ariel, Ribas‑Fernández, Yanina Antonia, Roig, Fidel Alejandro
Format: Article
Language:English
Subjects:
Araucaria
Araucaria araucana
Argentina
Climate adaptation
Climate change
Climate change adaptation
Climatic conditions
Conservation
Current Trends in Forestry Research of Latin-America (CONFLAT Congress
Decay
Dendrochronology
dioecy
Distribution
Drought
Earth and Environmental Science
Ecosystem dynamics
ecosystems
Endangered plants
Endangered species
Environment
Extreme drought
Extreme drought event
Females
forest dynamics
Forest ecosystems
Gender
Geographical distribution
Growth rate
growth retardation
growth rings
Males
mortality
Natural resources
Plant species
Rare species
Recovery
Reduction
Resilience
Sex
species
tree growth
Tree rings
Trees
Wildlife conservation
woody plants
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Summary:Background Recent changes in climatic trends are resulting in an increased frequency and intensity of extreme events, with unknown effect on ecosystem dynamics in the near future. Extreme drought episodes are recognized as disturbance factors capable of modifying forest dynamics and tree growth. Within this context, dioecious tree species may be impacted by climatic extremes, affecting male/female proportions and, consequently, reproductive processes and species persistence. Therefore, there is an urgent need for species-specific assessments of growth tolerance to extreme dry spells in dioecious tree species, to establish effective conservation strategies for these particular natural resources. Araucaria araucana (araucaria), an endangered dioecious Patagonian tree species, has recently undergone decay and mortality episodes in response to increasing dry climatic conditions. While sex-dependent tolerance to extreme drought episodes has been assessed in the species’ humid distribution range, there is still a lack of information on the gender-based resilience of trees growing in the drier environments of the species’ distribution. Methods We reconstructed, through dendrochronological methods, the sex-dependent response of 105 araucaria individuals (55 female and 50 male trees) to five regional extreme dry spells employing a set of different indices. Resistance, recovery period, and average growth reduction of standardized tree-ring growth were examined, analysing the effect of biotic (sex, pre-drought stem tree growth) and abiotic (local climatic conditions before, during, and after extreme climatic episodes) factors on tree resilience. Results Sex influences only the species resistance to climatic disturbance, with male individuals showing lower tolerance to extreme drought events. Pre-drought radial growth rates and local meteorological conditions preceding, during, and following extreme dry spells strongly modulated araucaria radial growth resilience regardless of tree sex, influencing the species resistance, recovery period, and average growth reduction. Conclusions We provide novel and crucial information for the species conservation and management in the current climate change scenario, and contribute to the debate regarding the role of tree sex as a factor influencing woody species growth under particularly adverse climatic conditions. In the face of climate change, an increase in extreme drought events is expected in the easternmost araucaria xeric e
ISSN:2192-1709
2192-1709
DOI:10.1186/s13717-024-00505-9