| scholarly article | Q13442814 |
| P50 | author | Federico Brilli | Q46138729 |
| Francesco Loreto | Q46643893 | ||
| P2093 | author name string | Csengele Barta | |
| Isabel Nogues | |||
| P2860 | cites work | Why plants emit isoprene | Q59079313 |
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| Isoprene produced by leaves protects the photosynthetic apparatus against ozone damage, quenches ozone products, and reduces lipid peroxidation of cellular membranes | Q28366407 | ||
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| Abundant oxygenates in the atmosphere: a biochemical perspective | Q35603742 | ||
| Practical approaches to plant volatile analysis | Q36379421 | ||
| On-line analysis of reactive VOCs from urban lawn mowing | Q39574894 | ||
| Transient release of oxygenated volatile organic compounds during light-dark transitions in Grey poplar leaves | Q45010407 | ||
| Arabidopsis mutants define a central role for the xanthophyll cycle in the regulation of photosynthetic energy conversion | Q46223515 | ||
| Atmospheric Aerosols: Biogeochemical Sources and Role in Atmospheric Chemistry | Q55881921 | ||
| Proton-transfer-reaction mass spectrometry (PTR–MS): on-line monitoring of volatile organic compounds at pptv levels | Q56534124 | ||
| Transient releases of acetaldehyde from tree leaves - products of a pyruvate overflow mechanism? | Q56636671 | ||
| A global model of natural volatile organic compound emissions | Q56835371 | ||
| P433 | issue | 9 | |
| P921 | main subject | volatile organic compound | Q910267 |
| P304 | page(s) | 1820-1828 | |
| P577 | publication date | 2006-09-01 | |
| P1433 | published in | Plant, Cell and Environment | Q15766307 |
| P1476 | title | On the induction of volatile organic compound emissions by plants as consequence of wounding or fluctuations of light and temperature. | |
| P478 | volume | 29 |
| Q37450749 | A unified mechanism of action for volatile isoprenoids in plant abiotic stress |
| Q37405501 | Acetaldehyde exchange above a managed temperate mountain grassland. |
| Q46242055 | Anaesthetics stop diverse plant organ movements, affect endocytic vesicle recycling and ROS homeostasis, and block action potentials in Venus flytraps. |
| Q37377655 | BVOC fluxes above mountain grassland |
| Q34903341 | Bidirectional exchange of biogenic volatiles with vegetation: emission sources, reactions, breakdown and deposition |
| Q27027767 | Biogenic volatile organic compound emissions from vegetation fires |
| Q37383776 | Biotic, abiotic and management controls on methanol exchange above a temperate mountain grassland |
| Q35887121 | Carotenoid oxidation products are stress signals that mediate gene responses to singlet oxygen in plants |
| Q56881220 | Changes in olive oil volatile organic compounds induced by water status and light environment in canopies ofOlea europaeaL. trees |
| Q60448809 | Changes in photosynthetic rate and stress volatile emissions through desiccation-rehydration cycles in desiccation-tolerant epiphytic filmy ferns (Hymenophyllaceae) |
| Q34952912 | Chemical and molecular ecology of herbivore-induced plant volatiles: proximate factors and their ultimate functions. |
| Q42149111 | Chemical signaling under abiotic stress environment in plants |
| Q91404958 | Coral endosymbionts (Symbiodiniaceae) emit species-specific volatilomes that shift when exposed to thermal stress |
| Q28744236 | Detection of plant volatiles after leaf wounding and darkening by proton transfer reaction "time-of-flight" mass spectrometry (PTR-TOF) |
| Q45149191 | Early induction of apple fruitlet abscission is characterized by an increase of both isoprene emission and abscisic acid content |
| Q58486102 | Effect of hot water treatment on peach volatile emission andMonilinia fructicoladevelopment |
| Q30855182 | Effect of land-use change and management on biogenic volatile organic compound emissions--selecting climate-smart cultivars |
| Q33312805 | Effects of feeding Spodoptera littoralis on lima bean leaves: IV. Diurnal and nocturnal damage differentially initiate plant volatile emission |
| Q30995044 | Effects of heat and drought stress on post-illumination bursts of volatile organic compounds in isoprene-emitting and non-emitting poplar |
| Q39327323 | Elevated [CO2] magnifies isoprene emissions under heat and improves thermal resistance in hybrid aspen |
| Q61988375 | Emerging Technologies Inspired by Plants |
| Q49180983 | Emission Timetable and Quantitative Patterns of Wound-Induced Volatiles Across Different Leaf Damage Treatments in Aspen (Populus Tremula). |
| Q41988908 | Emission of Volatile Compounds from Apple Plants Infested with Pandemis heparana Larvae, Antennal Response of Conspecific Adults, and Preliminary Field Trial |
| Q49421710 | Emissions of carotenoid cleavage products upon heat shock and mechanical wounding from a foliose lichen |
| Q45939138 | Evaluation of the toxicity of stress-related aldehydes to photosynthesis in chloroplasts. |
| Q64075727 | Exploiting Plant Volatile Organic Compounds (VOCs) in Agriculture to Improve Sustainable Defense Strategies and Productivity of Crops |
| Q30979648 | Facing the Future: Effects of Short-Term Climate Extremes on Isoprene-Emitting and Nonemitting Poplar |
| Q49302530 | Fading of wound-induced volatile release during Populus tremula leaf expansion |
| Q28834255 | Green Leaf Volatile Emissions during High Temperature and Drought Stress in a Central Amazon Rainforest |
| Q38700589 | Green leaf volatile production by plants: a meta-analysis. |
| Q50494981 | Green leaf volatiles and oxygenated metabolite emission bursts from mesquite branches following light-dark transitions. |
| Q37225069 | Green leaf volatiles: a plant's multifunctional weapon against herbivores and pathogens |
| Q60448900 | High within-canopy variation in isoprene emission potentials in temperate trees: Implications for predicting canopy-scale isoprene fluxes |
| Q49177624 | How specialized volatiles respond to chronic and short-term physiological and shock heat stress in Brassica nigra |
| Q49683557 | In Situ Dark Adaptation Enhances the Efficiency of DNA Extraction from Mature Pin Oak (Quercus palustris) Leaves, Facilitating the Identification of Partial Sequences of the 18S rRNA and Isoprene Synthase (IspS) Genes |
| Q33405705 | In situ investigation of leaf water status by portable unilateral nuclear magnetic resonance |
| Q50552465 | Influence of feeding and oviposition by phytophagous pentatomids on photosynthesis of herbaceous plants. |
| Q41220812 | Knock-Down of the IFR1 Protein Perturbs the Homeostasis of Reactive Electrophile Species and Boosts Photosynthetic Hydrogen Production in Chlamydomonas reinhardtii |
| Q55418555 | Leaf wound induced ultraweak photon emission is suppressed under anoxic stress: Observations of Spathiphyllum under aerobic and anaerobic conditions using novel in vivo methodology. |
| Q91757820 | Lethal heat stress-dependent volatile emissions from tobacco leaves: what happens beyond the thermal edge? |
| Q58613228 | Light-induced ozone depletion by humic acid films and submicron aerosol particles |
| Q36381374 | Methods in plant foliar volatile organic compounds research |
| Q38022054 | Modeling the isoprene emission rate from leaves. |
| Q49723640 | Mono- and sesquiterpene release from tomato (Solanum lycopersicum) leaves upon mild and severe heat stress and through recovery: from gene expression to emission responses |
| Q30662838 | Off-season biogenic volatile organic compound emissions from heath mesocosms: responses to vegetation cutting |
| Q63387128 | Ozone and Wounding Stresses Differently Alter the Temporal Variation in Formylated Phloroglucinols in Leaves |
| Q28661711 | PTR-MS in Italy: a multipurpose sensor with applications in environmental, agri-food and health science |
| Q50220493 | Petunia × hybrida floral scent production is negatively affected by high-temperature growth conditions. |
| Q38899319 | Photosynthetic limitations and volatile and non-volatile isoprenoids in the poikilochlorophyllous resurrection plant Xerophyta humilis during dehydration and rehydration |
| Q60300541 | Physiological and structural adjustments of two ecotypes of L. from different habitats in response to drought and re-watering |
| Q38193886 | Plant volatiles in extreme terrestrial and marine environments |
| Q46171851 | Postillumination isoprene emission: in vivo measurements of dimethylallyldiphosphate pool size and isoprene synthase kinetics in aspen leaves |
| Q37379048 | Qualitative and quantitative characterization of volatile organic compound emissions from cut grass. |
| Q37034496 | Quantitative patterns between plant volatile emissions induced by biotic stresses and the degree of damage |
| Q46072977 | RNAi-mediated suppression of isoprene biosynthesis in hybrid poplar impacts ozone tolerance |
| Q90150576 | Rapid Determination of Methanol In Herbaceous Distillates For Their Safety Evaluation by A New Modified Chromotropic Acid Method |
| Q42482598 | Rapid leaf development drives the seasonal pattern of volatile organic compound (VOC) fluxes in a 'coppiced' bioenergy poplar plantation. |
| Q35011919 | Reactive short-chain leaf volatiles act as powerful inducers of abiotic stress-related gene expression |
| Q89597558 | Role of Stomatal Conductance in Modifying the Dose Response of Stress-Volatile Emissions in Methyl Jasmonate Treated Leaves of Cucumber (Cucumis sativa) |
| Q59807389 | Rust Infection of Black Poplar Trees Reduces Photosynthesis but Does Not Affect Isoprene Biosynthesis or Emission |
| Q92704070 | The Trichoderma atroviride Strains P1 and IMI 206040 Differ in Their Light-Response and VOC Production |
| Q92643475 | The clock gene Gigantea 1 from Petunia hybrida coordinates vegetative growth and inflorescence architecture |
| Q38902212 | The hydroperoxide lyase branch of the oxylipin pathway protects against photoinhibition of photosynthesis. |
| Q51588347 | The impact of root temperature on photosynthesis and isoprene emission in three different plant species. |
| Q41479322 | The network of plants volatile organic compounds |
| Q58564941 | Transcriptome analysis of treated with green leaf volatiles: possible role of green leaf volatiles as self-made damage-associated molecular patterns |
| Q42587770 | Traumatin- and dinortraumatin-containing galactolipids in Arabidopsis: their formation in tissue-disrupted leaves as counterparts of green leaf volatiles |
| Q39880960 | Volatile emissions and phenolic compound concentrations along a vertical profile of Populus nigra leaves exposed to realistic ozone concentrations |
| Q56990979 | Volatile isoprenoid emission potentials are correlated with essential isoprenoid concentrations in five plant species |
| Q49377976 | Volatile organic compound emissions from Alnus glutinosa under interacting drought and herbivory stresses |
| Q56991703 | Volatile organic compounds emissions in Norway spruce (Picea abies) in response to temperature changes |
| Q60044278 | Volatilomics: a non-invasive technique for screening plant phenotypic traits |
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