Pectic methyl and non-methyl esters and the environmental implications of methanol emissions from plants

Finlay, Christine Jane.

January 2007

Thesis (Ph.D.) -- University of Glasgow, 2007. / PhD thesis submitted to Environmental, Agricultural and Analytical Chemistry, Department of Chemistry, University of Glasgow. Includes bibliographical references. Print version also available.

In-home formation of halogenated volatile organic compounds (VOCS): implications for human exposure and indoor air quality

Olson, David Alan

28 August 2008

Not available / text

Indoor air pollution--Health aspects

Biofiltration of volatile organic compounds using fungal-based bioreactors

Woertz, Jennifer Renee

24 May 2011

Not available / text

Filters and filtration--Evaluation

Syntheses of macrocyclic oligomers for low-VOC coating process on the surface of metal substrates

Liu, Zhen'guo

05 1900

No description available.

Oligomers

Macrocyclic compounds Synthesis

The role of fungal metabolic by-products in indoor air chemistry : analytical considerations for the evaluation of poor indoor environments

De Jesʹus, Victor Raʹul

05 1900

No description available.

Indoor air pollution

Fungi Dispersal

Volatile organic compounds

CHARACTERIZATION OF VOLATILE ORGANIC COMPOUNDS RELEASED BY STORED GRAIN INSECTS

THIRUPPATHI, SENTHILKUMAR

13 September 2010

Detecting the presence of insects at low densities can avoid total deterioration of stored grains because corrective actions can be implemented early. Tribolium castaneum (Herbst) and Cryptolestes ferrugineus (Stephens) are the major insect pests of the Canadian grain handling industry. Identification of the volatile organic compounds released by insects can be used to detect insects in stored grains. An attempt was made to identify the volatile organic compounds released by T. castaneum and C. ferrugineus by headspace analysis. The volatiles in the head space of vials with insects, insects and wheat flour, and insects and wheat, were analyzed using a GC-MS coupled with an automatic headspace sampler. Wheat with fifteen percent moisture content was used in this study along with two different insect densities. Feasibility of the automatic headspace sampler in headspace analysis was found to be positive. The sampler can do sample conditioning, absorption, trap cleaning and desorption of the volatiles into the GC-MS and speed up the process. The samples extracted at 20 strokes with 1000 µL per stroke, and desorbed at 250°C gave a clear peak of compounds. The amount of volatiles produced by T. castaneum adults varied based on insect densities, the concentration of Methyl-1, 4-benzoquinone; Ethyl-1, 4-benzoquinone; and 1-Tridecene released by ten adult insects were 355, 390 and 530 µg/L compared to 300,310 and 210 µg/L of Methyl-1, 4-benzoquinone; Ethyl-1, 4-benzoquinone; and 1-Tridecene produced by five adult insects. Extreme high and low temperature leading to death produced very high amounts of volatiles compared to insects kept at 35°C. The larvae of the T. castaneum insects did not produce any volatiles at ambient condition as well as at extreme cold and warm conditions. The C. ferrugineus adults did not produced any detectable amount of volatiles even at the higher insect density after up to 3 days. The results of the combination of T. castaneum and C. ferrugineus insects gave the same volatile organic compounds as produced by T. castaneum insects alone. The 1-Tridecene produced by T. castaneum was not reported previously in other studies.

Gas Chromatography

Mass Spectrometry

Volatile Organic Compounds

Quantification

Partitioning of VOCs in aqueous salt solutions

Bullock, Kerry Robin

12 1900

No description available.

Volatile organic compounds

Volatile organic compounds Mathematics

Solution (Chemistry) Analysis

Rates and energetics of organic vapor sorption by soils

Schlanger, Joshua Lee

08 1900

No description available.

Soil vapor extraction

Investigation of the potential for microbial reductive dechlorination of hexachlorobenzene under iron-reducing conditions

Doikos, Pavlos E.

12 1900

No description available.

Bacteria, Chemoautotrophic

Hexachlorobenzene

Bioremediation

Volatile organic compounds

Iron oxides

CHARACTERIZATION OF VOLATILE ORGANIC COMPOUNDS RELEASED BY STORED GRAIN INSECTS

THIRUPPATHI, SENTHILKUMAR

13 September 2010

Detecting the presence of insects at low densities can avoid total deterioration of stored grains because corrective actions can be implemented early. Tribolium castaneum (Herbst) and Cryptolestes ferrugineus (Stephens) are the major insect pests of the Canadian grain handling industry. Identification of the volatile organic compounds released by insects can be used to detect insects in stored grains. An attempt was made to identify the volatile organic compounds released by T. castaneum and C. ferrugineus by headspace analysis. The volatiles in the head space of vials with insects, insects and wheat flour, and insects and wheat, were analyzed using a GC-MS coupled with an automatic headspace sampler. Wheat with fifteen percent moisture content was used in this study along with two different insect densities. Feasibility of the automatic headspace sampler in headspace analysis was found to be positive. The sampler can do sample conditioning, absorption, trap cleaning and desorption of the volatiles into the GC-MS and speed up the process. The samples extracted at 20 strokes with 1000 µL per stroke, and desorbed at 250°C gave a clear peak of compounds. The amount of volatiles produced by T. castaneum adults varied based on insect densities, the concentration of Methyl-1, 4-benzoquinone; Ethyl-1, 4-benzoquinone; and 1-Tridecene released by ten adult insects were 355, 390 and 530 µg/L compared to 300,310 and 210 µg/L of Methyl-1, 4-benzoquinone; Ethyl-1, 4-benzoquinone; and 1-Tridecene produced by five adult insects. Extreme high and low temperature leading to death produced very high amounts of volatiles compared to insects kept at 35°C. The larvae of the T. castaneum insects did not produce any volatiles at ambient condition as well as at extreme cold and warm conditions. The C. ferrugineus adults did not produced any detectable amount of volatiles even at the higher insect density after up to 3 days. The results of the combination of T. castaneum and C. ferrugineus insects gave the same volatile organic compounds as produced by T. castaneum insects alone. The 1-Tridecene produced by T. castaneum was not reported previously in other studies.

Gas Chromatography

Mass Spectrometry

Volatile Organic Compounds

Quantification