How tree species, tree size, and topographical location influenced tree transpiration in northern boreal forests during the historic 2018 drought

Trees in northern latitude ecosystems are projected to experience increasing drought stress as a result of rising air temperatures and changes in precipitation patterns in northern latitude ecosystems. However, most drought-related studies on high-latitude boreal forests (>50 degrees N) have been...

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Main Authors: Gutierrez Lopez, Jose, Tor-Ngern, Pantana, Oren, Ram, Kozii, Nataliia, Laudon, Hjalmar, Hasselquist, Niles
Format: Article in Journal/Newspaper
Language:English
Published: 2021
Subjects:
Ecology
Northern Sweden
Online Access:https://pub.epsilon.slu.se/24778/
https://pub.epsilon.slu.se/24778/1/gutierrez_lopez_j_et_al_210701.pdf
id ftslunivuppsala:oai:pub.epsilon.slu.se:24778
record_format openpolar
spelling ftslunivuppsala:oai:pub.epsilon.slu.se:24778 2023-05-15T17:44:58+02:00 How tree species, tree size, and topographical location influenced tree transpiration in northern boreal forests during the historic 2018 drought Gutierrez Lopez, Jose Tor-Ngern, Pantana Oren, Ram Kozii, Nataliia Laudon, Hjalmar Hasselquist, Niles 2021 application/pdf https://pub.epsilon.slu.se/24778/ https://pub.epsilon.slu.se/24778/1/gutierrez_lopez_j_et_al_210701.pdf en eng eng https://pub.epsilon.slu.se/24778/1/gutierrez_lopez_j_et_al_210701.pdf Gutierrez Lopez, Jose and Tor-Ngern, Pantana and Oren, Ram and Kozii, Nataliia and Laudon, Hjalmar and Hasselquist, Niles (2021). How tree species, tree size, and topographical location influenced tree transpiration in northern boreal forests during the historic 2018 drought. Global Change Biology. 27 , 3066-3078 [Research article] Ecology Research article NonPeerReviewed info:eu-repo/semantics/article 2021 ftslunivuppsala 2022-01-09T19:16:28Z Trees in northern latitude ecosystems are projected to experience increasing drought stress as a result of rising air temperatures and changes in precipitation patterns in northern latitude ecosystems. However, most drought-related studies on high-latitude boreal forests (>50 degrees N) have been conducted in North America, with few studies quantifying the response in European and Eurasian boreal forests. Here, we tested how daily whole-tree transpiration (Q, Liters day(-1)) and Q normalized for mean daytime vapor pressure deficit (Q(DZ), Liters day(-1) kPa(-1)) were affected by the historic 2018 drought in Europe. More specifically, we examined how tree species, size, and topographic position affected drought response in high-latitude mature boreal forest trees. We monitored 30 Pinus sylvestris (pine) and 30 Picea abies (spruce) trees distributed across a topographic gradient in northern Sweden. In general, pine showed a greater Q(DZ) control compared to spruce during periods of severe drought (standardized precipitation-evapotranspiration index: SPEI < -1.5), suggesting that the latter are more sensitive to drought. Overall, Q(DZ) reductions (using non-drought Q(DZ) as reference) were less pronounced in larger trees during severe drought, but there was a species-specific pattern: Q(DZ) reductions were greater in pine trees at high elevations and greater in spruce trees at lower elevations. Despite lower Q(DZ) during severe drought, drought spells were interspersed with small precipitation events and overcast conditions, and Q(DZ) returned to pre-drought conditions relatively quickly. This study highlights unique species-specific responses to drought, which are additionally driven by a codependent interaction among tree size, relative topographic position, and unique regional climate conditions. Article in Journal/Newspaper Northern Sweden Swedish University of Agricultural Sciences (SLU): Epsilon Open Archive
institution Open Polar
collection Swedish University of Agricultural Sciences (SLU): Epsilon Open Archive
op_collection_id ftslunivuppsala
language English
topic Ecology
spellingShingle Ecology
Gutierrez Lopez, Jose
Tor-Ngern, Pantana
Oren, Ram
Kozii, Nataliia
Laudon, Hjalmar
Hasselquist, Niles
How tree species, tree size, and topographical location influenced tree transpiration in northern boreal forests during the historic 2018 drought
topic_facet Ecology
description Trees in northern latitude ecosystems are projected to experience increasing drought stress as a result of rising air temperatures and changes in precipitation patterns in northern latitude ecosystems. However, most drought-related studies on high-latitude boreal forests (>50 degrees N) have been conducted in North America, with few studies quantifying the response in European and Eurasian boreal forests. Here, we tested how daily whole-tree transpiration (Q, Liters day(-1)) and Q normalized for mean daytime vapor pressure deficit (Q(DZ), Liters day(-1) kPa(-1)) were affected by the historic 2018 drought in Europe. More specifically, we examined how tree species, size, and topographic position affected drought response in high-latitude mature boreal forest trees. We monitored 30 Pinus sylvestris (pine) and 30 Picea abies (spruce) trees distributed across a topographic gradient in northern Sweden. In general, pine showed a greater Q(DZ) control compared to spruce during periods of severe drought (standardized precipitation-evapotranspiration index: SPEI < -1.5), suggesting that the latter are more sensitive to drought. Overall, Q(DZ) reductions (using non-drought Q(DZ) as reference) were less pronounced in larger trees during severe drought, but there was a species-specific pattern: Q(DZ) reductions were greater in pine trees at high elevations and greater in spruce trees at lower elevations. Despite lower Q(DZ) during severe drought, drought spells were interspersed with small precipitation events and overcast conditions, and Q(DZ) returned to pre-drought conditions relatively quickly. This study highlights unique species-specific responses to drought, which are additionally driven by a codependent interaction among tree size, relative topographic position, and unique regional climate conditions.
format Article in Journal/Newspaper
author Gutierrez Lopez, Jose
Tor-Ngern, Pantana
Oren, Ram
Kozii, Nataliia
Laudon, Hjalmar
Hasselquist, Niles
author_facet Gutierrez Lopez, Jose
Tor-Ngern, Pantana
Oren, Ram
Kozii, Nataliia
Laudon, Hjalmar
Hasselquist, Niles
author_sort Gutierrez Lopez, Jose
title How tree species, tree size, and topographical location influenced tree transpiration in northern boreal forests during the historic 2018 drought
title_short How tree species, tree size, and topographical location influenced tree transpiration in northern boreal forests during the historic 2018 drought
title_full How tree species, tree size, and topographical location influenced tree transpiration in northern boreal forests during the historic 2018 drought
title_fullStr How tree species, tree size, and topographical location influenced tree transpiration in northern boreal forests during the historic 2018 drought
title_full_unstemmed How tree species, tree size, and topographical location influenced tree transpiration in northern boreal forests during the historic 2018 drought
title_sort how tree species, tree size, and topographical location influenced tree transpiration in northern boreal forests during the historic 2018 drought
publishDate 2021
url https://pub.epsilon.slu.se/24778/
https://pub.epsilon.slu.se/24778/1/gutierrez_lopez_j_et_al_210701.pdf
genre Northern Sweden
genre_facet Northern Sweden
op_relation https://pub.epsilon.slu.se/24778/1/gutierrez_lopez_j_et_al_210701.pdf
Gutierrez Lopez, Jose and Tor-Ngern, Pantana and Oren, Ram and Kozii, Nataliia and Laudon, Hjalmar and Hasselquist, Niles (2021). How tree species, tree size, and topographical location influenced tree transpiration in northern boreal forests during the historic 2018 drought. Global Change Biology. 27 , 3066-3078 [Research article]
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