Variations in Allelochemical Composition of Leachates of Different Organs and Maturity Stages of Pinus halepensis

[1]  H. Kato‐Noguchi,et al.  An allelopathic substance in red pine needles (Pinus densiflora). , 2009, Journal of plant physiology.

[2]  F. Miglietta,et al.  Inhibition of net nitrification activity in a Mediterranean woodland: possible role of chemicals produced by Arbutus unedo , 2009, Plant and Soil.

[3]  I. Hiltpold,et al.  Belowground Chemical Signaling in Maize: When Simplicity Rhymes with Efficiency , 2008, Journal of Chemical Ecology.

[4]  E. Ormeño,et al.  Regeneration failure of Pinus halepensis Mill.: The role of autotoxicity and some abiotic environmental parameters , 2008 .

[5]  R. Kohli,et al.  Caffeic acid affects early growth, and morphogenetic response of hypocotyl cuttings of mung bean (Phaseolus aureus). , 2008, Journal of plant physiology.

[6]  S. Greff,et al.  Characterization of phenolic compounds in Pinus laricio needles and their responses to prescribed burnings. , 2007, Molecules.

[7]  S. Greff,et al.  Effect of Intraspecific Competition and Substrate Type on Terpene Emissions from Some Mediterranean Plant Species , 2007, Journal of Chemical Ecology.

[8]  S. Greff,et al.  Potential allelopathic effect of Pinus halepensis in the secondary succession: an experimental approach , 2006, CHEMOECOLOGY.

[9]  Eran Pichersky,et al.  Biology of floral scent , 2006 .

[10]  E. Pichersky,et al.  The Chemical Diversity of Floral Scent , 2006 .

[11]  S. Greff,et al.  Allelopathic potential of Medicago arborea, a Mediterranean invasive shrub , 2005, CHEMOECOLOGY.

[12]  R. Tognetti,et al.  Isoprenoids content and photosynthetic limitations in rosemary and spearmint plants under water stress , 2005 .

[13]  D. Elston,et al.  Does chemical composition of individual Scots pine trees determine the biodiversity of their associated ground vegetation , 2005 .

[14]  P. Nektarios,et al.  Allelopathic Effects of Pinus halepensis Needles on Turfgrasses and Biosensor Plants , 2005 .

[15]  F. Maestre,et al.  Mechanisms underlying the interaction between Pinus halepensis and the native late‐successional shrub Pistacia lentiscus in a semi‐arid plantation , 2004 .

[16]  M. Anstett,et al.  Localization of production and emission of pollinator attractant on whole leaves of Chamaerops humilis (Arecaceae). , 2004, American journal of botany.

[17]  A. Mallik,et al.  Indirect effects of black spruce (Picea mariana) cover on community structure and function in sheep laurel (Kalmia angustifolia) dominated heath of eastern Canada , 2004, Plant and Soil.

[18]  J. Vervoort,et al.  Analytical procedure for the in-vial derivatization--extraction of phenolic acids and flavonoids in methanolic and aqueous plant extracts followed by gas chromatography with mass-selective detection. , 2004, Journal of chromatography. A.

[19]  Cui Xiao-yang,et al.  Analysis of organic acids in seleted forest litters of Northeast China , 2003, Journal of Forestry Research.

[20]  S. Greff,et al.  Phenols and flavonoids in Aleppo pine needles as bioindicators of air pollution. , 2003, Journal of environmental quality.

[21]  D. Vokou,et al.  Effects of Monoterpenoids, Acting Alone or in Pairs, on Seed Germination and Subsequent Seedling Growth , 2003, Journal of Chemical Ecology.

[22]  Marcel Dicke,et al.  Plants talk, but are they deaf? , 2003, Trends in plant science.

[23]  Inderjit,et al.  Bioassays and Field Studies for Allelopathy in Terrestrial Plants: Progress and Problems , 2003 .

[24]  M. Snook,et al.  Quantity and potential biological activity of caffeic acid in sweet potato [Ipomoea batatas (L.) Lam.] storage root periderm. , 2003, Journal of agricultural and food chemistry.

[25]  G. Flamini,et al.  Chemical composition of essential oils from needles, branches and cones of Pinus pinea, P. halepensis, P. pinaster and P. nigra from central Italy , 2003 .

[26]  Marti J. Anderson,et al.  CANONICAL ANALYSIS OF PRINCIPAL COORDINATES: A USEFUL METHOD OF CONSTRAINED ORDINATION FOR ECOLOGY , 2003 .

[27]  C. Fernández,et al.  Biochemical Responses of Pinus pinaster Trees to Fire-Induced Trunk Girdling and Crown Scorch: Secondary Metabolites and Pigments as Needle Chemical Indicators , 2002, Journal of Chemical Ecology.

[28]  Inderjit,et al.  Nature of interference potential of hairy vetch (Vicia villosa Roth) to radish (Raphanus sativus L.): does allelopathy play any role? , 2001 .

[29]  J. Butler,et al.  Caffeic Acid-Induced Changes in Plant–Water Relationships and Photosynthesis in Leafy Spurge Euphorbia esula , 2000, Journal of Chemical Ecology.

[30]  C. Chou Roles of allelopathy in plant biodiversity and sustainable agriculture , 1999 .

[31]  C. Andary,et al.  Histochemical and Cytochemical Investigations of Phenols in Roots of Banana Infected by the Burrowing Nematode Radopholus similis. , 1998, Phytopathology.

[32]  J. Retana,et al.  Seed germination and seedling performance of two Mediterranean tree species, holm oak (shape Quercus ilex L.) and Aleppo pine (shape Pinus halepensis Mill.): a multifactor experimental approach , 1998, Plant Ecology.

[33]  J. Bryant,et al.  Chemical diversity of several Betulaceae species: comparison of phenolics and terpenoids in northern birch stems , 1996, Trees.

[34]  U. Blum Allelopathic interactions involving phenolic acids. , 1996, Journal of nematology.

[35]  M. Morey,et al.  Litter fall and decomposition in aPinus halepensisforest on Mallorca , 1995 .

[36]  F. Pellissier Effect of phenolic compounds in humus on the natural regeneration of spruce , 1994 .

[37]  C. White Monoterpenes: Their effects on ecosystem nutrient cycling , 1994, Journal of Chemical Ecology.

[38]  C. Gallet Allelopathic potential in bilberry-spruce forests: Influence of phenolic compounds on spruce seedlings , 1994, Journal of Chemical Ecology.

[39]  R. Adams,et al.  Identification of Essential Oils by Ion trap Mass Spectroscopy , 1989 .

[40]  A. Mallik,et al.  Inhibition of black spruce seedling growth by forest-floor substrates of central Newfoundland , 1988 .

[41]  C. Malosse,et al.  Phytoalexines et réactions de défense de la tomate aux infections par Phytophthora parasitica et Verticillium albo-atrum , 1986 .

[42]  Peter M. Vitousek,et al.  Ecosystem Succession and Nutrient Retention: A Hypothesis , 1975 .

[43]  J. Dunlop,et al.  Influence of Phenolic Acids on Ion Uptake: IV. Depolarization of Membrane Potentials. , 1974, Plant physiology.

[44]  A. Glass Influence of Phenolic Acids upon Ion Uptake III. INHIBITION OF POTASSIUM ABSOBPTION , 1974 .

[45]  V. Castillo,et al.  Pine plantation bands limit seedling recruitment of a perennial grass under semiarid conditions , 2009 .

[46]  J. Byers,et al.  Monoterpene chemodiversity of ponderosa pine in relation to herbivory and bark beetle colonization , 2005, CHEMOECOLOGY.

[47]  SONGJin-feng,et al.  Analysis of organic acids in selected forest litters of Northeast China , 2003 .

[48]  J. Holopainen,et al.  Concentrations of secondary compounds in Scots pine needles at different stages of decomposition , 2002 .

[49]  E. Levizou,et al.  The influence of drought, shade and availability of mineral nutrients on exudate phenolics of Dittri , 2002 .

[50]  R. Adams,et al.  II – ION TRAP MASS SPECTROSCOPY , 1989 .

[51]  Influence of Phenolic Acids on Ion Uptake , 2022 .