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« Previous Abstract"Characterization of volatiles of necrotic Stenocereus thurberi and Opuntia littoralis and toxicity and olfactory preference of Drosophila melanogster, D. mojavensis wrigleyi, and D. mojavensis sonorensis to necrotic cactus volatiles"    Next Abstract"Ability of honeybee, Apis mellifera, to detect and discriminate odors of varieties of canola (Brassica rapa and Brassica napus) and snapdragon flowers (Antirrhinum majus)" »

J Agric Food Chem


Title:Multidimensional gas chromatography-olfactometry for the identification and prioritization of malodors from confined animal feeding operations
Author(s):Wright DW; Eaton DK; Nielsen LT; Kuhrt FW; Koziel JA; Spinhirne JP; Parker DB;
Address:"Microanalytics, A. Mocon Company, 2011A Lamar Drive, Round Rock, TX 78664, USA. don.wright@mdgc.com"
Journal Title:J Agric Food Chem
Year:2005
Volume:53
Issue:22
Page Number:8663 - 8672
DOI: 10.1021/jf050763b
ISSN/ISBN:0021-8561 (Print) 0021-8561 (Linking)
Abstract:"Odor profiling efforts were directed at applying to high-density livestock operations some of the lessons learned in resolving past, highly diverse, odor-focused investigations in the consumer product industry. Solid-phase microextraction (SPME) was used for field air sampling of odorous air near and downwind of a beef cattle feedyard and a swine finisher barn in Texas. Multidimensional gas chromatography-olfactometry (MDGC-O) was utilized in an attempt to define and prioritize the basic building blocks of odor character associated with these livestock operations. Although scores of potential odorant volatiles have been previously identified in high-density livestock operations, the odor profile results developed herein suggest that only a very few of these may constitute the preponderance of the odor complaints associated with these environments. This appeared to be especially true for the case of increasing distance from both cattle feedyard and swine barn facilities, with p-cresol consistently taking on the dominant odor impact role with ever increasing distance. In contrast, at- or near-site odor profiles were shown to be much more complex, with many of the well-known lower tier odorant compounds rising in relative significance. For the cattle feedyard at- or near-site odor profiles, trimethylamine was shown to represent a significantly greater individual odor impact relative to the more often cited livestock odorants such as hydrogen sulfide, the organic sulfides, and volatile fatty acids. This study demonstrates that SPME combined with a MDGC-O-mass spectrometry system can be used for the sampling, identification, and prioritization of odors associated with livestock"
Keywords:"*Animal Feed Animals Cattle Chromatography, Gas/*methods Cresols/analysis *Housing, Animal Odorants/*analysis Smell Swine;"
Notes:"MedlineWright, Donald W Eaton, David K Nielsen, Lawrence T Kuhrt, Fred W Koziel, Jacek A Spinhirne, Jarett P Parker, David B eng 2005/10/27 J Agric Food Chem. 2005 Nov 2; 53(22):8663-72. doi: 10.1021/jf050763b"

 
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