BVOCs and global change

Trends in Plant Science
Josep Peñuelas, Michael Staudt

Abstract

Biogenic volatile organic compounds (BVOCs) produced by plants are involved in plant growth, reproduction and defense. They are emitted from vegetation into the atmosphere and have significant effects on other organisms and on atmospheric chemistry and physics. Here, we review current knowledge on the alteration of BVOC emission rates due to climate and global changes: warming, drought, land use changes, high atmospheric CO(2) concentrations, ozone and enhanced UV radiation. These alterations are very variable depending on the doses, timing, BVOC and species, but in overall terms are likely to increase BVOC emissions. These changed emissions can lead to unforeseeable consequences for the biosphere structure and functioning, and can disturb biosphere feedback on atmospheric chemistry and climate with a direction and intensity that warrants in-depth investigation.

References

Apr 29, 2000·Nature·J Grace, M Rayment
Oct 27, 2001·Science·J Peñuelas, I Filella
Jul 13, 2002·Plant Physiology·Sandrine P Gouinguené, Ted C J Turlings
Jan 17, 2003·Nature·Todd N RosenstielRussell K Monson
Mar 26, 2003·Tree Physiology·Chris GeronRobert R. Arnts
Mar 29, 2003·Trends in Plant Science·Josep Peñuelas, Joan Llusià
Dec 11, 2003·Chemical Reviews·Roger Atkinson, Janet Arey
Apr 6, 2004·Trends in Plant Science·Ulo NiinemetsMarkus Reichstein
Oct 27, 2004·Trends in Plant Science·Jarmo K Holopainen
Apr 9, 2005·Trends in Plant Science·Josep Peñuelas, Sergi Munné-Bosch
Oct 26, 2005·Proceedings. Biological Sciences·Geraldine A WrightBrian H Smith
May 17, 2006·Trends in Ecology & Evolution·Josep Peñuelas, Joan Llusià
Aug 11, 2006·The Plant Journal : for Cell and Molecular Biology·Michael J WilkinsonC Nicholas Hewitt
Nov 7, 2006·The New Phytologist·Christian Körner
Dec 6, 2006·The Plant Journal : for Cell and Molecular Biology·Jurriaan TonTed C J Turlings
Mar 16, 2007·Proceedings of the National Academy of Sciences of the United States of America·Martin Heil, Juan Carlos Silva Bueno
May 22, 2007·Philosophical Transactions. Series A, Mathematical, Physical, and Engineering Sciences·Russell K MonsonRay Fall
Sep 25, 2007·The New Phytologist·Päivi TiivaJarmo K Holopainen
Jan 19, 2008·Nature·Martin Heimann, Markus Reichstein
Jan 24, 2008·Plant Biology·R Grote, U Niinemets
Feb 12, 2008·Trends in Plant Science·Ulo Niinemets, Josep Peñuelas
Apr 11, 2008·Nature·J LelieveldJ Williams
May 1, 2008·The Plant Journal : for Cell and Molecular Biology·Alessio FortunatiFrancesco Loreto
Aug 6, 2008·The New Phytologist·Päivi TiivaRiikka Rinnan
Nov 7, 2008·Proceedings of the National Academy of Sciences of the United States of America·Maaria LoivamäkiJörg-Peter Schnitzler
Nov 21, 2008·Environmental Pollution·Carlo CalfapietraFrancesco Loreto
Nov 22, 2008·Plant, Cell & Environment·Marcel Dicke
Jan 14, 2009·The New Phytologist·Josep Peñuelas
Mar 7, 2009·Science·Oliver L PhillipsArmando Torres-Lezama
Mar 28, 2009·Trends in Ecology & Evolution·Joshua S YuanC Neal Stewart
Mar 28, 2009·Tree Physiology·Katja BehnkeJörg-Peter Schnitzler
Apr 21, 2009·Nature Chemical Biology·Claudia E VickersFrancesco Loreto
May 9, 2009·The New Phytologist·Jullada LaothawornkitkulC Nicholas Hewitt

❮ Previous
Next ❯

Citations

Mar 29, 2014·Journal of Experimental Botany·Susanna PollastriFrancesco Loreto
May 14, 2014·Journal of Experimental Botany·Julie RipollNadia Bertin
Sep 15, 2012·Annual Review of Entomology·Jorge A ZavalaEvan H DeLucia
Sep 1, 2012·Protoplasma·Nadia ChowhanRavinder K Kohli
Jan 27, 2016·Environmental Pollution·G CarrieroE Paoletti
May 28, 2015·Proceedings of the National Academy of Sciences of the United States of America·Tuija JokinenMikko Sipilä
May 13, 2014·Global Change Biology·Gerard Farré-ArmengolJosep Peñuelas
Dec 6, 2012·Ecological Applications : a Publication of the Ecological Society of America·Allyson S D EllerRussell K Monson
Dec 24, 2015·Applications in Plant Sciences·Dušan MaterićVincent Gauci
Nov 11, 2015·Environmental Pollution·Gabriele GuidolottiCarlo Calfapietra
Jan 21, 2016·BioMed Research International·Christine BeckerAnne-Violette Lavoir
Mar 5, 2015·Plant, Cell & Environment·Michelle SchollertRiikka Rinnan
Jun 28, 2015·Bio Systems·Michel RenouSylvia Anton
Sep 4, 2015·The Science of the Total Environment·I NoguésM A Bustamante
Mar 19, 2013·Global Change Biology·Josep PeñuelasAlistair S Jump
Apr 3, 2014·Plant, Cell & Environment·J PeñuelasJ P Schnitzler
Apr 14, 2015·Journal of Geophysical Research. Atmospheres : JGR·J C Acosta NavarroI Riipinen
Mar 5, 2016·The Science of the Total Environment·Frida LindwallRiikka Rinnan
Mar 31, 2015·Global Change Biology·Arnaud SentisJean-Louis Hemptinne
May 4, 2013·Environmental Pollution·Margarita PréndezHugo Peralta
Mar 13, 2014·The Science of the Total Environment·Mark J PotosnakOthon Nunez
Aug 15, 2014·Environmental Pollution·Alessandra De MarcoMarcello Vitale
Dec 2, 2014·Photochemical & Photobiological Sciences : Official Journal of the European Photochemistry Association and the European Society for Photobiology·J F BornmanM M Caldwell

❮ Previous
Next ❯

Related Concepts

Related Feeds

Antifungals

An antifungal, also known as an antimycotic medication, is a pharmaceutical fungicide or fungistatic used to treat and prevent mycosis such as athlete's foot, ringworm, candidiasis, cryptococcal meningitis, and others. Discover the latest research on antifungals here.

Antifungals (ASM)

An antifungal, also known as an antimycotic medication, is a pharmaceutical fungicide or fungistatic used to treat and prevent mycosis such as athlete's foot, ringworm, candidiasis, cryptococcal meningitis, and others. Discover the latest research on antifungals here.

Related Papers

Trends in Plant Science
F Loreto, Jörg-Peter Schnitzler
The New Phytologist
Jullada LaothawornkitkulC Nicholas Hewitt
Trends in Plant Science
Josep Peñuelas, Joan Llusià
© 2021 Meta ULC. All rights reserved