Effects of elevated growth temperature and enhanced atmospheric vapour pressure deficit on needle and root terpenoid contents of two Douglas fir provenances

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

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Effects of elevated growth temperature and enhanced atmospheric vapour pressure deficit on needle and root terpenoid contents of two Douglas fir provenances. / Duan, Qiuxiao; Kleiber, Anita; Jansen, Kirstin et al.
in: Environmental and Experimental Botany, Jahrgang 166, 103819, 01.10.2019.

Publikation: Beiträge in ZeitschriftenZeitschriftenaufsätzeForschungbegutachtet

Harvard

Duan, Q, Kleiber, A, Jansen, K, Junker, LV, Kammerer, B, Han, G, Zimmer, I, Rennenberg, H, Schnitzler, JP, Ensminger, I, Gessler, A & Kreuzwieser, JF 2019, 'Effects of elevated growth temperature and enhanced atmospheric vapour pressure deficit on needle and root terpenoid contents of two Douglas fir provenances', Environmental and Experimental Botany, Jg. 166, 103819. https://doi.org/10.1016/j.envexpbot.2019.103819

APA

Duan, Q., Kleiber, A., Jansen, K., Junker, L. V., Kammerer, B., Han, G., Zimmer, I., Rennenberg, H., Schnitzler, J. P., Ensminger, I., Gessler, A., & Kreuzwieser, J. F. (2019). Effects of elevated growth temperature and enhanced atmospheric vapour pressure deficit on needle and root terpenoid contents of two Douglas fir provenances. Environmental and Experimental Botany, 166, Artikel 103819. https://doi.org/10.1016/j.envexpbot.2019.103819

Vancouver

Bibtex

@article{28b5deb360f247879cd72ae8d4231cad,
title = "Effects of elevated growth temperature and enhanced atmospheric vapour pressure deficit on needle and root terpenoid contents of two Douglas fir provenances",
abstract = "In the present work, we studied the effects of elevated air temperatures, which were above the optimum for photosynthesis, in combination with enhanced atmospheric VPD on two Douglas fir provenances grown under controlled conditions in a climate chamber. Provenance Monte Creek (MC) from the menziesii-glauca transition zone, Southern British Columbia, Canada, was derived from a dry environment receiving ca. half of the precipitation at its natural site than the interior provenance Pend Oreille (PO) from a mesic site in Northeast Washington State, US. We determined the terpenoid contents in needles and roots of the trees as well as terpene emission from needles and terpenoid synthase activities observing clear provenance-specific patterns. Whereas total terpenoid contents in needles dropped significantly in provenance PO in response to thermal stress, they remained unaffected in MC. The drop in terpenoid content in PO was due to decreased abundance of almost all identified terpenoids with exception of five compounds. Terpene emission was significantly enhanced in thermal-stressed provenance MC but it was unaffected in provenance PO. Oppositely, root terpenoid contents were rather stable in both provenances upon high temperature and enhanced atmospheric VPD. Similarly, we did not observe stress effects on terpenoid synthase activity, which was used as a proxy for the formation of terpenoids. The results indicate that features of the original habitat of the trees determine plant chemotypic properties, for example, thermal stress related responses. The observed decrease of terpenoid levels in needles of PO after long-term exposure to elevated temperature/enhanced atmospheric VPD, might weaken stress-exposed trees. Since terpenoids are essential components of the conifers{\textquoteright} defense arsenal against herbivores, decreased terpenoid levels might increase susceptibility of stressed trees to above- and belowground herbivore challenges.",
keywords = "Douglas fir provenances, Elevated growth temperature, Terpene emission, Terpenoid contents, Terpenoid synthase activity, Biology, Environmental planning",
author = "Qiuxiao Duan and Anita Kleiber and Kirstin Jansen and Junker, {Laura Verena} and Bernd Kammerer and Gang Han and Ina Zimmer and Heinz Rennenberg and Schnitzler, {J{\"o}rg Peter} and Ingo Ensminger and Arthur Gessler and Kreuzwieser, {J{\"u}rgen Frohn}",
year = "2019",
month = oct,
day = "1",
doi = "10.1016/j.envexpbot.2019.103819",
language = "English",
volume = "166",
journal = "Environmental and Experimental Botany",
issn = "0098-8472",
publisher = "Elsevier B.V.",

}

RIS

TY - JOUR

T1 - Effects of elevated growth temperature and enhanced atmospheric vapour pressure deficit on needle and root terpenoid contents of two Douglas fir provenances

AU - Duan, Qiuxiao

AU - Kleiber, Anita

AU - Jansen, Kirstin

AU - Junker, Laura Verena

AU - Kammerer, Bernd

AU - Han, Gang

AU - Zimmer, Ina

AU - Rennenberg, Heinz

AU - Schnitzler, Jörg Peter

AU - Ensminger, Ingo

AU - Gessler, Arthur

AU - Kreuzwieser, Jürgen Frohn

PY - 2019/10/1

Y1 - 2019/10/1

N2 - In the present work, we studied the effects of elevated air temperatures, which were above the optimum for photosynthesis, in combination with enhanced atmospheric VPD on two Douglas fir provenances grown under controlled conditions in a climate chamber. Provenance Monte Creek (MC) from the menziesii-glauca transition zone, Southern British Columbia, Canada, was derived from a dry environment receiving ca. half of the precipitation at its natural site than the interior provenance Pend Oreille (PO) from a mesic site in Northeast Washington State, US. We determined the terpenoid contents in needles and roots of the trees as well as terpene emission from needles and terpenoid synthase activities observing clear provenance-specific patterns. Whereas total terpenoid contents in needles dropped significantly in provenance PO in response to thermal stress, they remained unaffected in MC. The drop in terpenoid content in PO was due to decreased abundance of almost all identified terpenoids with exception of five compounds. Terpene emission was significantly enhanced in thermal-stressed provenance MC but it was unaffected in provenance PO. Oppositely, root terpenoid contents were rather stable in both provenances upon high temperature and enhanced atmospheric VPD. Similarly, we did not observe stress effects on terpenoid synthase activity, which was used as a proxy for the formation of terpenoids. The results indicate that features of the original habitat of the trees determine plant chemotypic properties, for example, thermal stress related responses. The observed decrease of terpenoid levels in needles of PO after long-term exposure to elevated temperature/enhanced atmospheric VPD, might weaken stress-exposed trees. Since terpenoids are essential components of the conifers’ defense arsenal against herbivores, decreased terpenoid levels might increase susceptibility of stressed trees to above- and belowground herbivore challenges.

AB - In the present work, we studied the effects of elevated air temperatures, which were above the optimum for photosynthesis, in combination with enhanced atmospheric VPD on two Douglas fir provenances grown under controlled conditions in a climate chamber. Provenance Monte Creek (MC) from the menziesii-glauca transition zone, Southern British Columbia, Canada, was derived from a dry environment receiving ca. half of the precipitation at its natural site than the interior provenance Pend Oreille (PO) from a mesic site in Northeast Washington State, US. We determined the terpenoid contents in needles and roots of the trees as well as terpene emission from needles and terpenoid synthase activities observing clear provenance-specific patterns. Whereas total terpenoid contents in needles dropped significantly in provenance PO in response to thermal stress, they remained unaffected in MC. The drop in terpenoid content in PO was due to decreased abundance of almost all identified terpenoids with exception of five compounds. Terpene emission was significantly enhanced in thermal-stressed provenance MC but it was unaffected in provenance PO. Oppositely, root terpenoid contents were rather stable in both provenances upon high temperature and enhanced atmospheric VPD. Similarly, we did not observe stress effects on terpenoid synthase activity, which was used as a proxy for the formation of terpenoids. The results indicate that features of the original habitat of the trees determine plant chemotypic properties, for example, thermal stress related responses. The observed decrease of terpenoid levels in needles of PO after long-term exposure to elevated temperature/enhanced atmospheric VPD, might weaken stress-exposed trees. Since terpenoids are essential components of the conifers’ defense arsenal against herbivores, decreased terpenoid levels might increase susceptibility of stressed trees to above- and belowground herbivore challenges.

KW - Douglas fir provenances

KW - Elevated growth temperature

KW - Terpene emission

KW - Terpenoid contents

KW - Terpenoid synthase activity

KW - Biology

KW - Environmental planning

UR - http://www.scopus.com/inward/record.url?scp=85069719374&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/1a361ece-b235-3790-b3c7-72a8c1778ae2/

U2 - 10.1016/j.envexpbot.2019.103819

DO - 10.1016/j.envexpbot.2019.103819

M3 - Journal articles

AN - SCOPUS:85069719374

VL - 166

JO - Environmental and Experimental Botany

JF - Environmental and Experimental Botany

SN - 0098-8472

M1 - 103819

ER -

DOI