Author Correction: Diurnal temperature range as a key predictor of plants’ elevation ranges globally

Arnaud Gallou; Alistair S. Jump; Joshua S. Lynn; Richard Field; Severin D. H. Irl; Manuel J. Steinbauer; Carl Beierkuhnlein; Jan-Chang Chen; Chang-Hung Chou; Andreas Hemp; Yohannes Kidane; Christian König; Holger Kreft; Alireza Naqinezhad; Arkadiusz Nowak; Jan-Niklas Nuppenau; Panayiotis Trigas; Jonathan P. Price; Carl A. Roland; Andreas H. Schweiger; Patrick Weigelt; Suzette G. A. Flantua; John-Arvid Grytnes

doi:10.1038/s41467-024-45797-9

Author Correction: Diurnal temperature range as a key predictor of plants’ elevation ranges globally

Arnaud Gallou, Alistair S. Jump, Joshua S. Lynn, Richard Field, Severin D. H. Irl, Manuel J. Steinbauer, Carl Beierkuhnlein, Jan-Chang Chen, Chang-Hung Chou, Andreas Hemp, Yohannes Kidane, Christian König, Holger Kreft, Alireza Naqinezhad, Arkadiusz Nowak, Jan-Niklas Nuppenau, Panayiotis Trigas, Jonathan P. Price, Carl A. Roland, Andreas H. SchweigerPatrick Weigelt, Suzette G. A. Flantua, John-Arvid Grytnes

Earth and Environmental Sciences - Academic & Research

Research output: Contribution to journal › Article › peer-review

Abstract

A prominent hypothesis in ecology is that larger species ranges are found in more variable climates because species develop broader environmental tolerances, predicting a positive range size-temperature variability relationship. However, this overlooks the extreme temperatures that variable climates impose on species, with upper or lower thermal limits more likely to be exceeded. Accordingly, we propose the ‘temperature range squeeze’ hypothesis, predicting a negative range size-temperature variability relationship. We test these contrasting predictions by relating 88,000 elevation range sizes of vascular plants in 44 mountains to short- and long-term temperature variation. Consistent with our hypothesis, we find that species’ range size is negatively correlated with diurnal temperature range. Accurate predictions of short-term temperature variation will become increasingly important for extinction risk assessment in the future.

Original language	English
Article number	1554
Journal	Nature Communications
Volume	15
Early online date	30 Nov 2023
DOIs	https://doi.org/10.1038/s41467-024-45797-9 https://doi.org/10.1038/s41467-023-43477-8
Publication status	Published - 20 Feb 2024

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10.1038/s41467-023-43477-8Licence: CC BY

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Gallou, A., Jump, A. S., Lynn, J. S., Field, R., Irl, S. D. H., Steinbauer, M. J., Beierkuhnlein, C., Chen, J.-C., Chou, C.-H., Hemp, A., Kidane, Y., König, C., Kreft, H., Naqinezhad, A., Nowak, A., Nuppenau, J.-N., Trigas, P., Price, J. P., Roland, C. A., ... Grytnes, J.-A. (2024). Author Correction: Diurnal temperature range as a key predictor of plants’ elevation ranges globally. Nature Communications, 15, Article 1554 . https://doi.org/10.1038/s41467-024-45797-9, https://doi.org/10.1038/s41467-023-43477-8

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title = "Author Correction: Diurnal temperature range as a key predictor of plants{\textquoteright} elevation ranges globally",

abstract = "A prominent hypothesis in ecology is that larger species ranges are found in more variable climates because species develop broader environmental tolerances, predicting a positive range size-temperature variability relationship. However, this overlooks the extreme temperatures that variable climates impose on species, with upper or lower thermal limits more likely to be exceeded. Accordingly, we propose the {\textquoteleft}temperature range squeeze{\textquoteright} hypothesis, predicting a negative range size-temperature variability relationship. We test these contrasting predictions by relating 88,000 elevation range sizes of vascular plants in 44 mountains to short- and long-term temperature variation. Consistent with our hypothesis, we find that species{\textquoteright} range size is negatively correlated with diurnal temperature range. Accurate predictions of short-term temperature variation will become increasingly important for extinction risk assessment in the future.",

author = "Arnaud Gallou and Jump, {Alistair S.} and Lynn, {Joshua S.} and Richard Field and Irl, {Severin D. H.} and Steinbauer, {Manuel J.} and Carl Beierkuhnlein and Jan-Chang Chen and Chang-Hung Chou and Andreas Hemp and Yohannes Kidane and Christian K{\"o}nig and Holger Kreft and Alireza Naqinezhad and Arkadiusz Nowak and Jan-Niklas Nuppenau and Panayiotis Trigas and Price, {Jonathan P.} and Roland, {Carl A.} and Schweiger, {Andreas H.} and Patrick Weigelt and Flantua, {Suzette G. A.} and John-Arvid Grytnes",

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doi = "10.1038/s41467-024-45797-9",

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Gallou, A, Jump, AS, Lynn, JS, Field, R, Irl, SDH, Steinbauer, MJ, Beierkuhnlein, C, Chen, J-C, Chou, C-H, Hemp, A, Kidane, Y, König, C, Kreft, H, Naqinezhad, A, Nowak, A, Nuppenau, J-N, Trigas, P, Price, JP, Roland, CA, Schweiger, AH, Weigelt, P, Flantua, SGA & Grytnes, J-A 2024, 'Author Correction: Diurnal temperature range as a key predictor of plants’ elevation ranges globally', Nature Communications, vol. 15, 1554 . https://doi.org/10.1038/s41467-024-45797-9, https://doi.org/10.1038/s41467-023-43477-8

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T1 - Author Correction: Diurnal temperature range as a key predictor of plants’ elevation ranges globally

AU - Gallou, Arnaud

AU - Jump, Alistair S.

AU - Lynn, Joshua S.

AU - Field, Richard

AU - Irl, Severin D. H.

AU - Steinbauer, Manuel J.

AU - Beierkuhnlein, Carl

AU - Chen, Jan-Chang

AU - Chou, Chang-Hung

AU - Hemp, Andreas

AU - Kidane, Yohannes

AU - König, Christian

AU - Kreft, Holger

AU - Naqinezhad, Alireza

AU - Nowak, Arkadiusz

AU - Nuppenau, Jan-Niklas

AU - Trigas, Panayiotis

AU - Price, Jonathan P.

AU - Roland, Carl A.

AU - Schweiger, Andreas H.

AU - Weigelt, Patrick

AU - Flantua, Suzette G. A.

AU - Grytnes, John-Arvid

PY - 2024/2/20

Y1 - 2024/2/20

N2 - A prominent hypothesis in ecology is that larger species ranges are found in more variable climates because species develop broader environmental tolerances, predicting a positive range size-temperature variability relationship. However, this overlooks the extreme temperatures that variable climates impose on species, with upper or lower thermal limits more likely to be exceeded. Accordingly, we propose the ‘temperature range squeeze’ hypothesis, predicting a negative range size-temperature variability relationship. We test these contrasting predictions by relating 88,000 elevation range sizes of vascular plants in 44 mountains to short- and long-term temperature variation. Consistent with our hypothesis, we find that species’ range size is negatively correlated with diurnal temperature range. Accurate predictions of short-term temperature variation will become increasingly important for extinction risk assessment in the future.

AB - A prominent hypothesis in ecology is that larger species ranges are found in more variable climates because species develop broader environmental tolerances, predicting a positive range size-temperature variability relationship. However, this overlooks the extreme temperatures that variable climates impose on species, with upper or lower thermal limits more likely to be exceeded. Accordingly, we propose the ‘temperature range squeeze’ hypothesis, predicting a negative range size-temperature variability relationship. We test these contrasting predictions by relating 88,000 elevation range sizes of vascular plants in 44 mountains to short- and long-term temperature variation. Consistent with our hypothesis, we find that species’ range size is negatively correlated with diurnal temperature range. Accurate predictions of short-term temperature variation will become increasingly important for extinction risk assessment in the future.

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VL - 15

JO - Nature Communications

JF - Nature Communications

M1 - 1554

ER -

Author Correction: Diurnal temperature range as a key predictor of plants’ elevation ranges globally

Abstract

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