Attraction of Choristoneura Rosaceana (Lepidoptera: Tortricidae) to Pheromone Blends in Ratios Produced in Females’ Pheromone Gland or Emitted by the Females in Michigan Apple Orchards

Trap captures of obliquebanded leafroller, Choristoneura rosaceana (Harris) to pheromone blends in ratios approximating those reported in pheromone glands and a novel blend based on a volatile headspace collection from live virgin females were evaluated in field experiments in Michigan apple orchards. In an initial field trapping study, pheromone lures composed of either a three- or four-component blend approximation of the blend present in female pheromone glands at doses ranging from 0.1 to 20 mg/lure were compared. The four-component blend was a combination of (Z)-11-tetradecenyl acetate (Z11-14:Ac), (E)-11-tetradecenyl acetate (E11-14:Ac), (Z)-11-tetradecen-1-ol (Z11-14:OH), and (Z)-11-tetradecenal (Z11-14:Al) in a ratio of 96.5:1.8:1.4:0.2, respectively, while the three-component blend lacked Z11-14:Al. Pheromone emissions by groups of virgin females and commercial lures were collected in the laboratory and analyzed by gas chromatography. These data were used to formulate a new pheromone lure that was compared to a commercial lure in a second trapping study. In the first field study, traps baited with 10 mg pheromones or above captured significantly more moths than traps baited with 1 mg or less, regardless of the blend. Surprisingly, groups of virgin females only emitted two detectable pheromone components, Z11-14:Ac and Z11-14:OH in a ratio of 37:63 which was substantially different from the blends detected in pheromone glands in the literature. The newly formulated pheromone lure based on females’ emission was more than twice as attractive as the commercial lure which emitted a 74:5:21 three-component blend of Z11-14:Ac, E11-14:Ac, and Z11-14:OH, indicating that the response of C. rosaceana to its pheromone was more strongly mediated by the pheromone quantity relative to the blend ratio.

Forest Tree Associated Bacterial Diffusible and Volatile Organic Compounds against Various Phytopathogenic Fungi

Plant growth-promoting rhizobacteria (PGPR) can potentially be used as an alternative strategy to control plant diseases. In this study, strain ST–TJ4 isolated from the rhizosphere soil of a healthy poplar was found to have a strong antifungal activity against 11 phytopathogenic fungi in agriculture and forestry. Strain ST–TJ4 was identified as Pseudomonas sp. based on 16S rRNA-encoding gene sequences. The bacterium can produce siderophores, cellulase, and protease, and has genes involved in the synthesis of phenazine, 1–phenazinecarboxylic acid, pyrrolnitrin, and hydrogen cyanide. Additionally, the volatile compounds released by strain ST–TJ4 can inhibit the mycelial growth of plant pathogenic fungi more than diffusible substances can. Based on volatile compound profiles of strain ST–TJ4 obtained from headspace collection and GC–MS/MS analysis, 1-undecene was identified. In summary, the results suggested that Pseudomonas sp. ST–TJ4 can be used as a biocontrol agent for various plant diseases caused by phytopathogenic fungi.

Diffusible and Volatile Antifungal Compounds Produced by Pseudomonas chlororaphis subsp. aurantiaca ST-TJ4 against Various Phytopathogenic Fungi

Plant growth-promoting rhizobacteria can potentially be used as an alternative strategy to control plant disease. In this study, strain ST-TJ4 isolated from the rhizosphere soil of a healthy poplar was found to have strong antifungal activity against 11 phytopathogenic fungi in agriculture and forestry. Strain ST-TJ4 was identified as Pseudomonas chlororaphis subsp. aurantiaca based on 16S rDNA sequences. The bacterium can produce siderophores, cellulase, and protease, and has genes involved in the synthesis of phenazine, 1-phenazinecarboxylic acid, pyrrolnitrin, and hydrogen cyanide. Moreover, the volatile compounds released by strain ST-TJ4 can inhibit the mycelial growth of plant pathogenic fungi more than diffusible substances can. Based on volatile compound profiles of strain ST-TJ4 obtained from headspace collection and GC-MS/MS analysis, 1-undecene was identified. In summary, the results suggested that P. chlororaphis subsp. aurantiaca ST-TJ4 can be used as a biocontrol agent for various plant diseases caused by phytopathogenic fungi.

Biogenic Volatiles Emitted from Four Cold-Hardy Grape Cultivars During Ripening

In this research dataset, we summarize for the first time volatile organic compounds (VOCs) emitted in vivo from ripening wine grapes. We studied four cold-hardy cultivars grown in the Midwestern U.S.: St. Croix, Frontenac, Marquette, and La Crescent. These cultivars have gained popularity among local growers and winemakers, but still very little is known about their performance compared with long-established V. vinifera grapes. Volatiles were collected using two novel approaches: biogenic emissions from grape clusters on a vine and single grape berries. A third approach was headspace collection of volatiles from crushed grapes. Solid-phase microextraction (SPME) was used to collect volatiles. Vacuum-assisted SPME was used in the case of single grape berry. Collected VOCs were analyzed using separation and identification on a gas chromatograph mass spectrometer (GC-MS). More than 120 VOCs were identified using mass spectral libraries. The dataset provides evidence that detecting biogenic emissions from growing grapes is feasible. The dataset provides a record of temporal and spatial variability of VOCs, many of which could potentially impart aroma and flavor in the wine. The number of VOCs detected followed the order from single berry (the least) to crushed berry (the most). Thus, more information for potential use in harvesting in order to obtain the desired flavor is found in data from crushed grapes.

Changes in the emission of volatile compounds from Hippophae rhamnoides ssp. sinensis induced by Holcocerus hippophaecolus (Lepidoptera:Cossidae)

The study explores changes in variety and content of volatile compounds in Hippophae rhamnoides ssp. sinensis damaged by Holcocerus hippophaecolus. Volatiles of healthy and artificially infested plants leaves were collected during 0–51 hours using continuous dynamic headspace-collection and analysed by using Automated Thermal Desorption-Gas Chromatography-Mass Spectrometry. Thirty-one compounds were identified, including seven alcohols, four esters, two terpenes, six aldehydes, five alkanes, two olefins, three ketones and two benzodiazepines. Compounds of (Z)-3-Hexenyl-3-methylbutanoateand 2-ethylhexyl acetate were herbivore-induced compounds. Olefins, ketones, benzodiazepines, terpenes and alkanes increased shortly after insect feeding. Aldehydes, alcohols and esters decreased in generally. Release regularity and function of compounds respectively discussed followed, especially including 2-ethylhexanol, alpha-terpineol, phytol, methyl salicylate, (Z)-3-Hexenyl-3-methylbutanoate, 2-ethylhexyl acetate, longifolene, 1,3,6-octatriene, 3,7-dimethyl-, hexanal, (Z)-3-hexen-1-ol acetate, with the purpose to approve basic date for disaster mechanisms of H. hippophaecolus.

Determination of methylamine, dimethylamine, and trimethylamine in air by high-performance liquid chromatography with derivatization using 9-fluorenylmethylchloroformate

An FMOC-based derivatization approach was developed to analyze gaseous amines by HPLC/UV. An impinger-based headspace collection and amine-derivatization system is also described.