| P50 | author | Ian T. Baldwin | Q1655646 |
| | Meredith C. Schuman | Q30347615 |
| P2093 | author name string | Mario Kallenbach | |
| | Daniel Veit | |
| | Elisabeth J Eilers | |
| | Youngjoo Oh | |
| P2860 | cites work | Herbivory-induced volatiles function as defenses increasing fitness of the native plant Nicotiana attenuata in nature | Q21128798 |
| | MetaboAnalyst: a web server for metabolomic data analysis and interpretation | Q24655530 |
| | ISSR and AFLP analysis of the temporal and spatial population structure of the post-fire annual, Nicotiana attenuata, in SW Utah | Q24792767 |
| | Insects betray themselves in nature to predators by rapid isomerization of green leaf volatiles | Q28291876 |
| | Molecular interactions between the specialist herbivore Manduca sexta (Lepidoptera, Sphingidae) and its natural host Nicotiana attenuata. II. Accumulation of plant mRNAs in response to insect-derived cues | Q28346648 |
| | Web-based inference of biological patterns, functions and pathways from metabolomic data using MetaboAnalyst | Q28746102 |
| | Honing in on phenotypes: comprehensive two-dimensional gas chromatography of herbivory-induced volatile emissions and novel opportunities for system-level analyses | Q30457907 |
| | Online, real-time detection of volatile emissions from plant tissue | Q30458036 |
| | Effects of feeding Spodoptera littoralis on lima bean leaves: IV. Diurnal and nocturnal damage differentially initiate plant volatile emission | Q33312805 |
| | Solvent compatibility of poly(dimethylsiloxane)-based microfluidic devices | Q34279256 |
| | Sorptive sample preparation -- a review | Q34638434 |
| | Indanoyl amino acid conjugates: tunable elicitors of plant secondary metabolism | Q35054590 |
| | Ecophysiological comparison of direct and indirect defenses in Nicotiana attenuata | Q36312597 |
| | Practical approaches to plant volatile analysis | Q36379421 |
| | Feeding-induced rearrangement of green leaf volatiles reduces moth oviposition | Q36845366 |
| | Headspace sampling of the volatile fraction of vegetable matrices | Q36876944 |
| | Development of a Direct Headspace Collection Method from Arabidopsis Seedlings Using HS-SPME-GC-TOF-MS Analysis | Q37512736 |
| | Natural history-driven, plant-mediated RNAi-based study reveals CYP6B46's role in a nicotine-mediated antipredator herbivore defense | Q37543729 |
| | Silicone rod and silicone tube sorptive extraction | Q37642959 |
| | The evolutionary context for herbivore-induced plant volatiles: beyond the 'cry for help'. | Q37667232 |
| | Multiple stress factors and the emission of plant VOCs | Q37689942 |
| | Plant defense elicitors: analogues of jasmonoyl-isoleucine conjugate | Q37767024 |
| | The specificity of herbivore-induced plant volatiles in attracting herbivore enemies | Q38002641 |
| | Applications of polydimethylsiloxane in analytical chemistry: a review | Q38051785 |
| | Volatile organic compound mediated interactions at the plant-microbe interface | Q38123723 |
| | Applications of in vivo and in vitro solid-phase microextraction techniques in plant analysis: A review. | Q38131189 |
| | Canopy light cues affect emission of constitutive and methyl jasmonate-induced volatile organic compounds in Arabidopsis thaliana | Q42007701 |
| | Oxylipin channelling in Nicotiana attenuata: lipoxygenase 2 supplies substrates for green leaf volatile production | Q42020576 |
| | Changing pollinators as a means of escaping herbivores | Q42022250 |
| | Molecular interactions between the specialist herbivore Manduca sexta (Lepidoptera, Sphigidae) and its natural host Nicotiana attenuata. VIII. An unbiased GCxGC-ToFMS analysis of the plant's elicited volatile emissions | Q42026721 |
| | Making sense of nectar scents: the effects of nectar secondary metabolites on floral visitors of Nicotiana attenuata | Q42034338 |
| | Defensive function of herbivore-induced plant volatile emissions in nature. | Q42054565 |
| | Stir bar sorptive extraction for the determination of ppq-level traces of organotin compounds in environmental samples with thermal desorption-capillary gas chromatography--ICP mass spectrometry | Q43587654 |
| | Polymorphism in jasmonate signaling partially accounts for the variety of volatiles produced by Nicotiana attenuata plants in a native population. | Q45963099 |
| | Petunia flowers solve the defence/apparency dilemma of pollinator attraction by deploying complex floral blends. | Q50547975 |
| | Time-weighted average water sampling in Lake Ontario with solid-phase microextraction passive samplers. | Q50961653 |
| | Comparison of glass vessels and plastic bags for enclosing living plant parts for headspace analysis. | Q51726678 |
| | Characterization of the sorption of gaseous and organic solutes onto polydimethyl siloxane solid-phase microextraction surfaces using the Abraham model. | Q51901202 |
| | Half-lives and field soil concentrations of Alliaria petiolata secondary metabolites. | Q52912268 |
| | A statistical overview of standard (IUPAC and ACS) and new procedures for determining the limits of detection and quantification: Application to voltammetric and stripping techniques (Technical Report) | Q60314286 |
| | Biomimetic measurement of allelochemical dynamics in the rhizosphere | Q81692806 |
| P433 | issue | 6 | |
| P921 | main subject | field experiment | Q1283519 |
| | plant volatile | Q124159016 |
| P304 | page(s) | 1060-1072 | |
| P577 | publication date | 2014-05-21 | |
| P1433 | published in | The Plant Journal | Q15766987 |
| P1476 | title | A robust, simple, high-throughput technique for time-resolved plant volatile analysis in field experiments | |
| P478 | volume | 78 | |