Compost may affect volatile and semi-volatile plant emissions through nitrogen supply and chlorophyll fluorescence

Compost may affect volatile and semi-volatile plant emissions through nitrogen supply and chlorophyll fluorescence

The use of composted biosolids as an amendment for forest regeneration in degraded ecosystems is growing since sewage–sludge dumping has been banned in the European Community. Its consequences on plant terpenes are however unknown. Terpene emissions of both Rosmarinus officinalis (a terpene-storing...

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Bibliographic Details
Published in:Chemosphere (Oxford) Vol. 77; no. 1; pp. 94 - 104
Main Authors: Ormeño, Elena, Olivier, Romain, Mévy, Jean Philippe, Baldy, Virginie, Fernandez, Catherine
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01-09-2009
Elsevier
Subjects:
Air. Soil. Water. Waste. Feeding
Animal, plant and microbial ecology
Applied ecology
Applied sciences
Biogenic emissions
Biological and medical sciences
biosolids composts
chlorophyll
Chlorophyll - metabolism
Chlorophyll fluorescence
Chlorophylls
Composting
Ecosystems
Ecotoxicology, biological effects of pollution
emissions
Emissions control
Environment. Living conditions
Environmental stress
Exact sciences and technology
Fluorescence
Fundamental and applied biological sciences. Psychology
leaves
Light
Medical sciences
nitrogen
Nitrogen - metabolism
nutrient availability
Nutrients
Phosphorus - metabolism
Photosynthesis
Plant Leaves - chemistry
Plant Leaves - metabolism
Plant Leaves - radiation effects
Plants (organisms)
Pollution
Public health. Hygiene
Public health. Hygiene-occupational medicine
Quercus - chemistry
Quercus - metabolism
Quercus - radiation effects
Quercus coccifera
Rosmarinus - chemistry
Rosmarinus - metabolism
Rosmarinus - radiation effects
Rosmarinus officinalis
Sesquiterpenes
Soil
Soil (material)
soil amendments
Terpenes
Terpenes - metabolism
terpenoids
Volatilization
Chlorophyll fluorescence
Nutrients
Biogenic emissions
Terpenes
Sesquiterpenes
Environmental stress
Volatile compound
Natural origin pollution
Chlorophyll
Compost
Hydrocarbon
Supply
Fluorescence
Volatile organic compound
Nitrogen
Pollutant emission
Stress
Biogenic factor
Terpene
Environment
Nutrient
Air pollution
Organic compounds
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Summary:The use of composted biosolids as an amendment for forest regeneration in degraded ecosystems is growing since sewage–sludge dumping has been banned in the European Community. Its consequences on plant terpenes are however unknown. Terpene emissions of both Rosmarinus officinalis (a terpene-storing species) and Quercus coccifera (a non-storing species) and terpene content of the former, were studied after a middle-term exposure to compost at intermediate (50 t ha −1: D50) and high (100 t ha −1: D100) compost rates, in a seven-year-old post-fire shrubland ecosystem. Some chlorophyll fluorescence parameters (Fv/Fm, ETR, Φ PSII), soil and plant enrichment in phosphorus ( P) and nitrogen ( N) were monitored simultaneously in amended and non-amended plots in order to establish what factors were responsible for possible compost effect on terpenes. Compost affected all studied parameters with the exception of Fv/Fm and terpene content. For both species, mono- and sesquiterpene basal emissions were intensified solely under D50 plots. On the contrary leaf P, leaf N levels reached in D50 were partly responsible of terpene changes, suggesting that optimal N conditions occurred therein. N also affected ETR and Φ PSII which were, in turn, robustly correlated to terpene emissions. These results imply that emissions of terpene-storing and non-storing species were under nitrogen and chlorophyll fluorescence control, and that a correct management of compost rates applied on soil may modify terpene emission rate of plants, which in turn has consequences in air quality and plant defense mechanisms.
Bibliography:http://dx.doi.org/10.1016/j.chemosphere.2009.05.014
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ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2009.05.014