Annual and perennial high-Andes species have a contrasting freezing-resistance mechanism to cope with summer frosts

In high-mountain habitats, summer frosts have negative consequences for plant fitness, therefore high-mountain plants have developed mechanisms of avoidance and tolerance to cope with freezing temperatures. Various hypotheses have been proposed to explain the prevalence of one freezing-resistance me...

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Bibliographic Details
Published in:Alpine botany 2020-10, Vol.130 (2), p.169-178
Main Authors: Morales, Loreto V., Alvear, Carla, Sanfuentes, Camila, Saldaña, Alfredo, Sierra-Almeida, Ángela
Format: Article
Language:English
Subjects:
Avoidance
Biomedical and Life Sciences
Cold tolerance
Ecology
Flow resistance
Flowers
Forestry
Freezing
Leaves
Life history
Life Sciences
Mountains
Organs
Plant Ecology
Plant reproductive structures
Plant Sciences
Reproduction (biology)
Short Communication
Species
Strategy
Structure-function relationships
Summer
Thermal analysis
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Summary:In high-mountain habitats, summer frosts have negative consequences for plant fitness, therefore high-mountain plants have developed mechanisms of avoidance and tolerance to cope with freezing temperatures. Various hypotheses have been proposed to explain the prevalence of one freezing-resistance mechanism over another, focusing on thermal conditions without a consensus. We hypothesize that the prevalence of a freezing-resistance mechanism depends on the life-history strategy of the species, and is probably the consequence of a trade-off between growth/reproduction and the cost of the mechanism. Specifically, short-lived annual species should be freezing avoidant, whereas perennial long-lived species should be freezing tolerant. We used thermal analysis to determine the mechanism of freezing resistance of leaves and flowers for 10 annual and 14 perennial herb species from an alpine ecosystem in the Central Chilean Andes. We found that 70% of the annual species, their flowers and leaves were freezing avoidant, indicating that avoidance was their predominant freezing-resistance mechanism. In the case of perennial species, both mechanisms were almost equally represented in flowers and leaves. Overall, our results showed that a species freezing-resistance mechanism depends on its life-history strategy, and that leaves and flowers of single species exhibit the same freezing resistance mechanism, suggesting a common whole plant strategy. Further, freezing resistance strategies were not found to be mutually exclusive. In some cases, a specific combination of phenological, structural, and functional strategies may determine how freezing resistant vegetative and reproductive organs are to freezing during the growing season.
ISSN:1664-2201
1664-221X
DOI:10.1007/s00035-020-00239-2