Image_1_Minimum Leaf Conductance (gmin) Is Higher in the Treeline of Pinus uncinata Ram. in the Pyrenees: Michaelis’ Hypothesis Revisited.JPEG

The search for a universal explanation of the altitudinal limit determined by the alpine treeline has given rise to different hypotheses. In this study, we revisited Michaelis’ hypothesis which proposed that an inadequate “ripening” of the cuticle caused a greater transpiration rate during winter in...

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Main Authors: Amauri Bueno, David Alonso-Forn, José Javier Peguero-Pina, Aline Xavier de Souza, Juan Pedro Ferrio, Domingo Sancho-Knapik, Eustaquio Gil-Pelegrín
Format: Still Image
Language:unknown
Published: 2022
Subjects:
Botany
Plant Biology
Plant Systematics and Taxonomy
Plant Cell and Molecular Biology
Plant Developmental and Reproductive Biology
Plant Pathology
Plant Physiology
Plant Biology not elsewhere classified
cuticular waxes
minimum leaf conductance
Michaelis’ hypothesis
treeline
Pinus uncinata
Tundra
Online Access:https://doi.org/10.3389/fpls.2021.786933.s001
https://figshare.com/articles/figure/Image_1_Minimum_Leaf_Conductance_gmin_Is_Higher_in_the_Treeline_of_Pinus_uncinata_Ram_in_the_Pyrenees_Michaelis_Hypothesis_Revisited_JPEG/18967433
id ftfrontimediafig:oai:figshare.com:article/18967433
record_format openpolar
spelling ftfrontimediafig:oai:figshare.com:article/18967433 2023-05-15T18:40:34+02:00 Image_1_Minimum Leaf Conductance (gmin) Is Higher in the Treeline of Pinus uncinata Ram. in the Pyrenees: Michaelis’ Hypothesis Revisited.JPEG Amauri Bueno David Alonso-Forn José Javier Peguero-Pina Aline Xavier de Souza Juan Pedro Ferrio Domingo Sancho-Knapik Eustaquio Gil-Pelegrín 2022-01-24T04:05:53Z https://doi.org/10.3389/fpls.2021.786933.s001 https://figshare.com/articles/figure/Image_1_Minimum_Leaf_Conductance_gmin_Is_Higher_in_the_Treeline_of_Pinus_uncinata_Ram_in_the_Pyrenees_Michaelis_Hypothesis_Revisited_JPEG/18967433 unknown doi:10.3389/fpls.2021.786933.s001 https://figshare.com/articles/figure/Image_1_Minimum_Leaf_Conductance_gmin_Is_Higher_in_the_Treeline_of_Pinus_uncinata_Ram_in_the_Pyrenees_Michaelis_Hypothesis_Revisited_JPEG/18967433 CC BY 4.0 CC-BY Botany Plant Biology Plant Systematics and Taxonomy Plant Cell and Molecular Biology Plant Developmental and Reproductive Biology Plant Pathology Plant Physiology Plant Biology not elsewhere classified cuticular waxes minimum leaf conductance Michaelis’ hypothesis treeline Pinus uncinata Image Figure 2022 ftfrontimediafig https://doi.org/10.3389/fpls.2021.786933.s001 2022-01-27T00:04:48Z The search for a universal explanation of the altitudinal limit determined by the alpine treeline has given rise to different hypotheses. In this study, we revisited Michaelis’ hypothesis which proposed that an inadequate “ripening” of the cuticle caused a greater transpiration rate during winter in the treeline. However, few studies with different explanations have investigated the role of passive mechanisms of needles for protecting against water loss during winter in conifers at the treeline. To shed light on this, the cuticular transpiration barrier was studied in the transition from subalpine Pinus uncinata forests to alpine tundra at the upper limit of the species in the Pyrenees. This upper limit of P. uncinata was selected here as an example of the ecotones formed by conifers in the temperate mountains of the northern hemisphere. Our study showed that minimum leaf conductance in needles from upper limit specimens was higher than those measured in specimens living in the lower levels of the sub-alpine forest and also displayed lower cuticle thickness values, which should reinforce the seminal hypothesis by Michaelis. Our study showed clear evidence that supports the inadequate development of needle cuticles as one of the factors that lead to increased transpirational water losses during winter and, consequently, a higher risk of suffering frost drought. Still Image Tundra Frontiers: Figshare
institution Open Polar
collection Frontiers: Figshare
op_collection_id ftfrontimediafig
language unknown
topic Botany
Plant Biology
Plant Systematics and Taxonomy
Plant Cell and Molecular Biology
Plant Developmental and Reproductive Biology
Plant Pathology
Plant Physiology
Plant Biology not elsewhere classified
cuticular waxes
minimum leaf conductance
Michaelis’ hypothesis
treeline
Pinus uncinata
spellingShingle Botany
Plant Biology
Plant Systematics and Taxonomy
Plant Cell and Molecular Biology
Plant Developmental and Reproductive Biology
Plant Pathology
Plant Physiology
Plant Biology not elsewhere classified
cuticular waxes
minimum leaf conductance
Michaelis’ hypothesis
treeline
Pinus uncinata
Amauri Bueno
David Alonso-Forn
José Javier Peguero-Pina
Aline Xavier de Souza
Juan Pedro Ferrio
Domingo Sancho-Knapik
Eustaquio Gil-Pelegrín
Image_1_Minimum Leaf Conductance (gmin) Is Higher in the Treeline of Pinus uncinata Ram. in the Pyrenees: Michaelis’ Hypothesis Revisited.JPEG
topic_facet Botany
Plant Biology
Plant Systematics and Taxonomy
Plant Cell and Molecular Biology
Plant Developmental and Reproductive Biology
Plant Pathology
Plant Physiology
Plant Biology not elsewhere classified
cuticular waxes
minimum leaf conductance
Michaelis’ hypothesis
treeline
Pinus uncinata
description The search for a universal explanation of the altitudinal limit determined by the alpine treeline has given rise to different hypotheses. In this study, we revisited Michaelis’ hypothesis which proposed that an inadequate “ripening” of the cuticle caused a greater transpiration rate during winter in the treeline. However, few studies with different explanations have investigated the role of passive mechanisms of needles for protecting against water loss during winter in conifers at the treeline. To shed light on this, the cuticular transpiration barrier was studied in the transition from subalpine Pinus uncinata forests to alpine tundra at the upper limit of the species in the Pyrenees. This upper limit of P. uncinata was selected here as an example of the ecotones formed by conifers in the temperate mountains of the northern hemisphere. Our study showed that minimum leaf conductance in needles from upper limit specimens was higher than those measured in specimens living in the lower levels of the sub-alpine forest and also displayed lower cuticle thickness values, which should reinforce the seminal hypothesis by Michaelis. Our study showed clear evidence that supports the inadequate development of needle cuticles as one of the factors that lead to increased transpirational water losses during winter and, consequently, a higher risk of suffering frost drought.
format Still Image
author Amauri Bueno
David Alonso-Forn
José Javier Peguero-Pina
Aline Xavier de Souza
Juan Pedro Ferrio
Domingo Sancho-Knapik
Eustaquio Gil-Pelegrín
author_facet Amauri Bueno
David Alonso-Forn
José Javier Peguero-Pina
Aline Xavier de Souza
Juan Pedro Ferrio
Domingo Sancho-Knapik
Eustaquio Gil-Pelegrín
author_sort Amauri Bueno
title Image_1_Minimum Leaf Conductance (gmin) Is Higher in the Treeline of Pinus uncinata Ram. in the Pyrenees: Michaelis’ Hypothesis Revisited.JPEG
title_short Image_1_Minimum Leaf Conductance (gmin) Is Higher in the Treeline of Pinus uncinata Ram. in the Pyrenees: Michaelis’ Hypothesis Revisited.JPEG
title_full Image_1_Minimum Leaf Conductance (gmin) Is Higher in the Treeline of Pinus uncinata Ram. in the Pyrenees: Michaelis’ Hypothesis Revisited.JPEG
title_fullStr Image_1_Minimum Leaf Conductance (gmin) Is Higher in the Treeline of Pinus uncinata Ram. in the Pyrenees: Michaelis’ Hypothesis Revisited.JPEG
title_full_unstemmed Image_1_Minimum Leaf Conductance (gmin) Is Higher in the Treeline of Pinus uncinata Ram. in the Pyrenees: Michaelis’ Hypothesis Revisited.JPEG
title_sort image_1_minimum leaf conductance (gmin) is higher in the treeline of pinus uncinata ram. in the pyrenees: michaelis’ hypothesis revisited.jpeg
publishDate 2022
url https://doi.org/10.3389/fpls.2021.786933.s001
https://figshare.com/articles/figure/Image_1_Minimum_Leaf_Conductance_gmin_Is_Higher_in_the_Treeline_of_Pinus_uncinata_Ram_in_the_Pyrenees_Michaelis_Hypothesis_Revisited_JPEG/18967433
genre Tundra
genre_facet Tundra
op_relation doi:10.3389/fpls.2021.786933.s001
https://figshare.com/articles/figure/Image_1_Minimum_Leaf_Conductance_gmin_Is_Higher_in_the_Treeline_of_Pinus_uncinata_Ram_in_the_Pyrenees_Michaelis_Hypothesis_Revisited_JPEG/18967433
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.3389/fpls.2021.786933.s001
_version_ 1766229957755797504

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