Production and Diversity of Volatile Terpenes from Plants on Calcareous and Siliceous Soils: Effect of Soil Nutrients
@article{Ormeo2008ProductionAD, title={Production and Diversity of Volatile Terpenes from Plants on Calcareous and Siliceous Soils: Effect of Soil Nutrients}, author={Elena Orme{\~n}o and Virginie Baldy and Christine Ballini and Catherine Fernandez}, journal={Journal of Chemical Ecology}, year={2008}, volume={34}, pages={1219-1229} }
Fertilizer effects on terpene production have been noted in numerous reports. In contrast, only a few studies have studied the response of leaf terpene content to naturally different soil fertility levels. Terpene content, as determined by gas chromatography/mass spectrometry/flame ionization detector, and growth of Pinus halepensis, Rosmarinus officinalis, and Cistus albidus were studied on calcareous and siliceous soils under field conditions. The effect of nitrogen (N) and extractable…
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References
SHOWING 1-10 OF 67 REFERENCES
Monoterpene and sesquiterpene emissions of three Mediterranean species through calcareous and siliceous soils in natural conditions
- Environmental Science
- 2007
Is there a feedback between N availability in siliceous and calcareous soils and Cistus albidus leaf chemical composition?
- Biology, MedicineOecologia
- 2003
In the studied plant-soil system it is not likely that higher phenolic compound concentrations were selected during evolution to enhance nutrient conservation in soil because higher phenolics were not associated with lower soil fertilities, and higher C compounds released from C. albidus accelerated N cycling by increasing N immobilization and no evidence was found for decreased gross N mineralization.
Effect of Intraspecific Competition and Substrate Type on Terpene Emissions from Some Mediterranean Plant Species
- Environmental ScienceJournal of Chemical Ecology
- 2006
Competition is an important factor that has been extensively reported in the Mediterranean area. There is evidence that leaf terpene accumulation may vary between plants growing on calcareous and…
Plant coexistence alters terpene emission and content of Mediterranean species.
- Environmental SciencePhytochemistry
- 2007
Seasonal patterns of terpene content and emission from seven Mediterranean woody species in field conditions.
- Environmental ScienceAmerican journal of botany
- 2000
From autumn to spring, the least volatile monoterpenes such as limonene were emitted at highest rates, whereas the most volatile monotene such as α-pinene and β-pinenes were the most emitted in summer.
Inter-population differences in the essential oils of Pinus caribaea needles.
- Environmental ScienceBiochemical systematics and ecology
- 2000
Variation in tissue element concentrations in Quercus ilex L. over a range of different soils
- Vegetatio
- 2004
In order to study the variability in nutrient concentrations in four tissues of Q. ilex in relation to soil properties, we selected fifteen stands in both Quercus ilex forests and Q. ilex-Pinus…
Effects of Light and Nutrient Availability on Aspen: Growth, Phytochemistry, and Insect Performance
- Environmental ScienceJournal of Chemical Ecology
- 2004
In contrast to predictions of CNB theory, substantial allocation to storage and defense compounds was found under conditions in which growth was carbon-limited (e.g., low light), suggesting a cost to defense in terms of reduced growth.