A new paradigm of quantifying ecosystem stress through chemical signatures

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

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A new paradigm of quantifying ecosystem stress through chemical signatures. / Kravitz, Ben; Guenther, Alex B.; Gu, Lianhong; Karl, Thomas; Kaser, Lisa; Pallardy, Stephen G.; Peñuelas, Josep; Potosnak, Mark J.; Seco, Roger.

I: Ecosphere, Bind 7, Nr. 11, e01559, 2016.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Kravitz, B, Guenther, AB, Gu, L, Karl, T, Kaser, L, Pallardy, SG, Peñuelas, J, Potosnak, MJ & Seco, R 2016, 'A new paradigm of quantifying ecosystem stress through chemical signatures', Ecosphere, bind 7, nr. 11, e01559. https://doi.org/10.1002/ecs2.1559

APA

Kravitz, B., Guenther, A. B., Gu, L., Karl, T., Kaser, L., Pallardy, S. G., Peñuelas, J., Potosnak, M. J., & Seco, R. (2016). A new paradigm of quantifying ecosystem stress through chemical signatures. Ecosphere, 7(11), [e01559]. https://doi.org/10.1002/ecs2.1559

Vancouver

Kravitz B, Guenther AB, Gu L, Karl T, Kaser L, Pallardy SG o.a. A new paradigm of quantifying ecosystem stress through chemical signatures. Ecosphere. 2016;7(11). e01559. https://doi.org/10.1002/ecs2.1559

Author

Kravitz, Ben ; Guenther, Alex B. ; Gu, Lianhong ; Karl, Thomas ; Kaser, Lisa ; Pallardy, Stephen G. ; Peñuelas, Josep ; Potosnak, Mark J. ; Seco, Roger. / A new paradigm of quantifying ecosystem stress through chemical signatures. I: Ecosphere. 2016 ; Bind 7, Nr. 11.

Bibtex

@article{31b5e437e97e4e6683764585355b8b0b,
title = "A new paradigm of quantifying ecosystem stress through chemical signatures",
abstract = "Stress-induced emissions of biogenic volatile organic compounds (VOCs) from terrestrial ecosystems may be one of the dominant sources of VOC emissions worldwide. Understanding the ecosystem stress response could reveal how ecosystems will respond and adapt to climate change and, in turn, quantify changes in the atmospheric burden of VOC oxidants and secondary organic aerosols. Here, we argue, based on preliminary evidence from several opportunistic measurement sources, that chemical signatures of stress can be identified and quantified at the ecosystem scale. We also outline future endeavors that we see as next steps toward uncovering quantitative signatures of stress, including new advances in both VOC data collection and analysis of {"}big data.{"}.",
keywords = "Chemical signatures, Ecosystem, Stress, Volatile organic compounds",
author = "Ben Kravitz and Guenther, {Alex B.} and Lianhong Gu and Thomas Karl and Lisa Kaser and Pallardy, {Stephen G.} and Josep Pe{\~n}uelas and Potosnak, {Mark J.} and Roger Seco",
year = "2016",
doi = "10.1002/ecs2.1559",
language = "English",
volume = "7",
journal = "Ecosphere (Washington, D.C.)",
issn = "2150-8925",
publisher = "ecological society of america",
number = "11",

}

RIS

TY - JOUR

T1 - A new paradigm of quantifying ecosystem stress through chemical signatures

AU - Kravitz, Ben

AU - Guenther, Alex B.

AU - Gu, Lianhong

AU - Karl, Thomas

AU - Kaser, Lisa

AU - Pallardy, Stephen G.

AU - Peñuelas, Josep

AU - Potosnak, Mark J.

AU - Seco, Roger

PY - 2016

Y1 - 2016

N2 - Stress-induced emissions of biogenic volatile organic compounds (VOCs) from terrestrial ecosystems may be one of the dominant sources of VOC emissions worldwide. Understanding the ecosystem stress response could reveal how ecosystems will respond and adapt to climate change and, in turn, quantify changes in the atmospheric burden of VOC oxidants and secondary organic aerosols. Here, we argue, based on preliminary evidence from several opportunistic measurement sources, that chemical signatures of stress can be identified and quantified at the ecosystem scale. We also outline future endeavors that we see as next steps toward uncovering quantitative signatures of stress, including new advances in both VOC data collection and analysis of "big data.".

AB - Stress-induced emissions of biogenic volatile organic compounds (VOCs) from terrestrial ecosystems may be one of the dominant sources of VOC emissions worldwide. Understanding the ecosystem stress response could reveal how ecosystems will respond and adapt to climate change and, in turn, quantify changes in the atmospheric burden of VOC oxidants and secondary organic aerosols. Here, we argue, based on preliminary evidence from several opportunistic measurement sources, that chemical signatures of stress can be identified and quantified at the ecosystem scale. We also outline future endeavors that we see as next steps toward uncovering quantitative signatures of stress, including new advances in both VOC data collection and analysis of "big data.".

KW - Chemical signatures

KW - Ecosystem

KW - Stress

KW - Volatile organic compounds

U2 - 10.1002/ecs2.1559

DO - 10.1002/ecs2.1559

M3 - Journal article

AN - SCOPUS:84995791127

VL - 7

JO - Ecosphere (Washington, D.C.)

JF - Ecosphere (Washington, D.C.)

SN - 2150-8925

IS - 11

M1 - e01559

ER -

ID: 234278768