Cross-correlations of Biogenic Volatile Organic Compounds (BVOC) emissions typify different phenological stages and stressful events in a Mediterranean Sorghum plantation

Cross-correlations of Biogenic Volatile Organic Compounds (BVOC) emissions typify different phenological stages and stressful events in a Mediterranean Sorghum plantation

•The sorghum plantation resulted a source of BVOC, mainly methanol and acetaldehyde.•The application of SOM analysis allowed to recognize BVOC emission signatures.•Distinctive patterns of BVOC fluxes correlated with sorghum growth stages.•BVOC fluxes qualitatively differentiated stressful events of...

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Bibliographic Details
Published in:Agricultural and forest meteorology Vol. 303; p. 108380
Main Authors: Manco, Antonio, Brilli, Federico, Famulari, Daniela, Gasbarra, Daniele, Gioli, Beniamino, Vitale, Luca, Tommasi, Paul di, Loubet, Benjamin, Arena, Carmen, Magliulo, Vincenzo
Format: Journal Article
Language:English
Published: Elsevier B.V 15-06-2021
Elsevier Masson
Subjects:
Agricultural sciences
Agronomy
Earth Sciences
Ecology, environment
Eddy fluxes
Environmental Sciences
Global Changes
Growth stage
Harvest cutting
Life Sciences
Lodging
Meteorology
Oxygenated volatile organic compounds
Sciences of the Universe
Self-Organizing Maps (SOM)
Lodging
Self-Organizing Maps (SOM)
Harvest cutting
Oxygenated volatile organic compounds
Eddy fluxes
Growth stage
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Summary:•The sorghum plantation resulted a source of BVOC, mainly methanol and acetaldehyde.•The application of SOM analysis allowed to recognize BVOC emission signatures.•Distinctive patterns of BVOC fluxes correlated with sorghum growth stages.•BVOC fluxes qualitatively differentiated stressful events of lodging and cutting. Climate change will affect the growing season and increase the occurrence of extreme stressful events, thus altering crop phenological phases and the associated emission of biogenic volatile organic compounds (BVOC). BVOC exchange has been poorly investigated in field crops, especially in the Mediterranean area. In this study we report continuous measurements of BVOC fluxes and CO2 net ecosystem exchange (NEE), together with environmental variables, green area index (GAI) and aboveground biomass (AGB) during a whole growing season in a grain sorghum (Sorghum bicolor x Sorghum sudangrass., cv. Nicol, Pioneer) plantation located in Southern Europe. Results of this intensive field campaign showed that, while the bare soil of our site was a sink of BVOC, the sorghum plantation became a source of oxygenated BVOC, mainly methanol and acetaldehyde, which were emitted over the season at an average rate of 0.137 ± 0.013 and 0.070 ± 0.004 nmol m−2 s−1, respectively. In addition, the application of the advanced data mining method of Self-Organizing Maps (SOM) revealed distinctive patterns of BVOC fluxes correlating with sorghum growth stages (GS): in the first stage (GS1), developing plantlets emitted a mixture of BVOC uniquely characterized by monoterpenes; in GS2, adult plants forming an homogeneous dense canopy emitted the most abundant fluxes of a mixture of oxygenated BVOC comprising methanol, acetaldehyde, formic acid, acetone, acetic acid and n-pentenol; once plants entered the flowering stage (in GS3), only a few BVOC continued to be emitted at the highest rates (i.e. formic acid, acetone, acetic acid, n-pentenol). Moreover, the application of SOM to a sub-set of BVOC fluxes highlighted the possibility to qualitatively differentiate stressful events of plant lodging and harvest cutting. In fact, enhanced emission of acetaldehyde distinguished the BVOC mixture emitted from lodged rather than from cut and harvested sorghum plants in the field.
ISSN:0168-1923
1873-2240
DOI:10.1016/j.agrformet.2021.108380