Sampling technique biases in the analysis of fruit fly volatiles: a case study of Queensland fruit fly

AbstractDiverse methods have been used to sample insect semiochemicals. Sampling methods can differ in efficiency and affinity and this can introduce significant biases when interpreting biological patterns. We compare common methods used to sample tephritid fruit fly rectal gland volatiles (‘pheromones’), focusing on Queensland fruit fly, Bactrocera tryoni. Solvents of different polarity, n-hexane, dichloromethane and ethanol, were compared using intact and crushed glands. Polydimethylsiloxane, polydimethylsiloxane/divinylbenzene and polyacrylate were compared as adsorbents for solid phase microextraction. Tenax-GR and Porapak Q were compared as adsorbents for dynamic headspace sampling. Along with compounds previously reported for B. tryoni, we detected five previously unreported compounds in males, and three in females. Dichloromethane extracted more amides while there was no significant difference between the three solvents in extraction of spiroacetals except for (E,E)-2,8-dimethyl-1,7-dioxaspiro[5.5]undecane for which n-hexane extracted higher amount than both dichloromethane and ethanol. Ethanol failed to contain many of the more volatile compounds. Crushed rectal gland samples provided higher concentrations of extracted compounds than intact rectal gland samples, but no compounds were missed in intact samples. Of solid phase microextraction fibers, polyacrylate had low affinity for spiroacetals, ethyl isobutyrate and ethyl-2-methylbutanoate. Polydimethylsiloxane was more efficient for spiroacetals while type of fiber did not affect the amounts of amides and esters. In dynamic headspace sampling, Porapak was more efficient for ethyl isobutyrate and spiroacetals, while Tenax was more efficient for other esters and amides, and sampling time was a critical factor. Biases that can be introduced by sampling methods are important considerations when collecting and interpreting insect semiochemical profiles.

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Coupling of Dynamic Headspace Sampling and Solid Phase Microextraction

Chromatographia ◽

10.1365/s10337-004-0446-y ◽

2004 ◽

Vol 60 (11-12) ◽

pp. 687-691 ◽

Cited By ~ 9

Author(s):

R. C. Silva ◽

P. M. S. Aguiar ◽

F. Augusto

Keyword(s):

Solid Phase Microextraction ◽

Solid Phase ◽

Headspace Sampling ◽

Dynamic Headspace ◽

Dynamic Headspace Sampling

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Comparison and Identification of the Aroma-Active Compounds in the Root of Angelica dahurica

Molecules ◽

10.3390/molecules24234352 ◽

2019 ◽

Vol 24 (23) ◽

pp. 4352

Author(s):

Die Hu ◽

Junrui Guo ◽

Ting Li ◽

Mu Zhao ◽

Tingting Zou ◽

...

Keyword(s):

Solid Phase Microextraction ◽

Solid Phase ◽

Principal Component ◽

Extraction Methods ◽

Aroma Compounds ◽

Dynamic Headspace ◽

Active Compounds ◽

Three Samples ◽

Dynamic Headspace Sampling

Solid-phase microextraction (SPME), purge and trap (P&T), stir bar sportive extraction (SBSE), and dynamic headspace sampling (DHS) were applied to extract, separate and analyze the volatile compounds in the roots of Hangbaizhi, Qibaizhi, and Bobaizhi and the GC-O-MS/MS (AEDA) was utilized for the quantification of key aroma compounds. Totals of 52, 54, and 43 aroma-active compounds extracted from the three samples by the four extraction methods were identified. Among these methods, the SPME effectively extracted the aroma compounds from the A. dahurica. Thus, using the SPME methods for quantitative analysis based on external standards and subsequent dilution analyses, totals of 20, 21, and 17 aroma compounds were detected in the three samples by the sniffing test, and sensory evaluations indicated that the aromas of A. dahurica included herb, spice, and woody. Finally, principal component analysis (PCA) showed that the three kinds A. dahurica formed three separate groups, and partial least squares discriminant analysis (PLS-DA) showed that caryophyllene, (−)-β-elemene, nonanal, and β-pinene played an important role in the classification of A. dahurica.

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Headspace sampling of whey protein concentrate solutions using solid-phase microextraction

Food Research International ◽

10.1016/s0963-9969(98)00098-2 ◽

1998 ◽

Vol 31 (5) ◽

pp. 371-379 ◽

Cited By ~ 30

Author(s):

My Le Quach ◽

Xiao Dong Chen ◽

Ralph J. Stevenson

Keyword(s):

Whey Protein ◽

Solid Phase Microextraction ◽

Solid Phase ◽

Headspace Sampling ◽

Whey Protein Concentrate ◽

Protein Concentrate

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Developing a Method for the Collection and Analysis of Burnt Remains for the Detection and Identification of Ignitable Liquid Residues Using Body Bags, Dynamic Headspace Sampling, and TD-GC×GC-TOFMS

Separations ◽

10.3390/separations5030046 ◽

2018 ◽

Vol 5 (3) ◽

pp. 46 ◽

Cited By ~ 2

Author(s):

Katie Nizio ◽

Shari Forbes

Keyword(s):

Forensic Analysis ◽

Headspace Sampling ◽

Dynamic Headspace ◽

Flight Mass Spectrometry ◽

Detection And Identification ◽

Dynamic Headspace Sampling ◽

Fire Debris ◽

Primary Focus ◽

Ignitable Liquid ◽

And Storage

In cases of suspected arson, a body may be intentionally burnt to cause loss of life, dispose of remains, or conceal identification. A primary focus of a fire investigation, particularly involving human remains, is to establish the cause of the fire; this often includes the forensic analysis of fire debris for the detection of ignitable liquid residues (ILRs). Commercial containers for the collection of fire debris evidence include metal cans, glass jars, and polymer/nylon bags of limited size. This presents a complication in cases where the fire debris consists of an intact, or partially intact, human cadaver. This study proposed the use of a body bag as an alternative sampling container. A method was developed and tested for the collection and analysis of ILRs from burnt porcine remains contained within a body bag using dynamic headspace sampling (using an Easy-VOC™ hand-held manually operated grab-sampler and stainless steel sorbent tubes containing Tenax TA) followed by thermal desorption comprehensive two-dimensional gas chromatography–time-of-flight mass spectrometry (TD-GC×GC-TOFMS). The results demonstrated that a body bag containing remains burnt with gasoline tested positive for the presence of gasoline, while blank body bag controls and a body bag containing remains burnt without gasoline tested negative. The proposed method permits the collection of headspace samples from burnt remains before the remains are removed from the crime scene, limiting the potential for contamination and the loss of volatiles during transit and storage.

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Investigation of Volatiles Evolution during the Alcoholic Fermentation of Grape Must Using Free and Immobilized Cells with the Help of Solid Phase Microextraction (SPME) Headspace Sampling

Journal of Agricultural and Food Chemistry ◽

10.1021/jf0116092 ◽

2002 ◽

Vol 50 (13) ◽

pp. 3840-3848 ◽

Cited By ~ 41

Author(s):

Athanasios Mallouchos ◽

Michael Komaitis ◽

Athanasios Koutinas ◽

Maria Kanellaki

Keyword(s):

Solid Phase Microextraction ◽

Alcoholic Fermentation ◽

Solid Phase ◽

Immobilized Cells ◽

Headspace Sampling ◽

Grape Must ◽

Spme Headspace

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Preliminary Study on the Differences in Hydrocarbons Between Phosphine-Susceptible and -Resistant Strains of Rhyzopertha dominica (Fabricius) and Tribolium castaneum (Herbst) Using Direct Immersion Solid-Phase Microextraction Coupled with GC-MS

Molecules ◽

10.3390/molecules25071565 ◽

2020 ◽

Vol 25 (7) ◽

pp. 1565

Author(s):

Ihab Alnajim ◽

Manjree Agarwal ◽

Tao Liu ◽

Beibei Li ◽

Xin Du ◽

...

Keyword(s):

Cuticular Hydrocarbons ◽

Solid Phase Microextraction ◽

Solid Phase ◽

Rhyzopertha Dominica ◽

Gas Chromatography Mass Spectrometry ◽

Stored Grain ◽

Phosphine Resistance ◽

Significant Difference ◽

Resistant Strains ◽

Direct Immersion

Phosphine resistance is a worldwide issue threatening the grain industry. The cuticles of insects are covered with a layer of lipids, which protect insect bodies from the harmful effects of pesticides. The main components of the cuticular lipids are hydrocarbon compounds. In this research, phosphine-resistant and -susceptible strains of two main stored-grain insects, T. castaneum and R. dominica, were tested to determine the possible role of their cuticular hydrocarbons in phosphine resistance. Direct immersion solid-phase microextraction followed by gas chromatography-mass spectrometry (GC-MS) was applied to extract and analyze the cuticular hydrocarbons. The results showed significant differences between the resistant and susceptible strains regarding the cuticular hydrocarbons that were investigated. The resistant insects of both species contained higher amounts than the susceptible insects for the majority of the hydrocarbons, sixteen from cuticular extraction and nineteen from the homogenized body extraction for T. castaneum and eighteen from cuticular extraction and twenty-one from the homogenized body extraction for R. dominica. 3-methylnonacosane and 2-methylheptacosane had the highest significant difference between the susceptible and resistant strains of T. castaneum from the cuticle and the homogenized body, respectively. Unknown5 from the cuticle and 3-methylhentriacontane from the homogenized body recorded the highest significant differences in R. dominica. The higher hydrocarbon content is a key factor in eliminating phosphine from entering resistant insect bodies, acting as a barrier between insects and the surrounding phosphine environment.

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