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Knighton WB Herndon SC Shorter JH Miake-Lye RC Zahniser MS Akiyama K Shimono A Kitasaka K Shimajiri H Sugihara K 《Journal of the Air & Waste Management Association (1995)》2007,57(11):1370-1378
We demonstrate the use of an aldehyde scrubber system to resolve isobaric aldehyde/alkene interferences in a proton transfer reaction mass spectrometer (PTR-MS) by selectively removing the aldehydes from the gas mixture without loss of quantitative information for the alkene components. The aldehyde scrubber system uses a bisulfite solution, which scrubs carbonyl compounds from the gas stream by forming water-soluble carbonyl bisulfite addition products, and has been evaluated using a synthetic mixture of acrolein and isoprene. Trapping efficiencies of acrolein exceeded 97%, whereas the transmission efficiency of isoprene was better than 92%. Quantification of the PTR-MS response to acrolein was validated through an intercomparison study that included two derivatization methods, dinitrophenylhydrazine (DNPH) and O-(4-cyano-2-ethoxybenzyl)hydroxylamine (CNET), and a spectroscopic method using a quantum cascade laser infrared absorption spectroscopy (QCL) instrument. Finally, using cigarette smoke as a complex matrix, the acrolein content was assessed using the scrubber and compared with direct QCL-based detection. 相似文献
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Most research on animal contests has focused on the factors that influence the intensity and outcome of aggressive contests
within nonsocial species, while relatively little is known about contests in social taxa. Here, we examine contests among
queens of the social paper wasp, Polistes dominulus. Queens use multiple reproductive strategies, including nesting alone, usurping established colonies, and cooperatively joining
other queens. We stage contests between a nesting queen and a challenger to test how resource value (RV) and resource holding
potential (RHP) influence (a) who occupies the nest at the end of the contest and (b) the extent of conflict between the queen
and challenger. We found that RHP, as measured by individuals’ facial patterns and body size, influenced the outcome of the
contest. Challengers with high RHP were more likely to successfully usurp the nest than challengers with low RHP. Interestingly,
queens with relatively high RHP were more likely to form a cooperative association with the challenger than queens with lower
RHP, suggesting that queens may evict individuals that are an aggressive threat. RV influenced the intensity of conflict.
There was more aggressive conflict over large nests than over small nests. Overall, social taxa have complex contest dynamics
with important parallels to contests in nonsocial taxa. Studying contests in social taxa provides an important perspective
on the factors that influence individual decisions about conflict versus cooperation. 相似文献
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Czepiel PM Shorter JH Mosher B Allwine E McManus JB Harriss RC Kolb CE Lamb BK 《Waste management (New York, N.Y.)》2003,23(7):593-598
Landfills are the largest source of anthropogenic methane (CH4) emissions to the atmosphere in the United States. However, few measurements of whole landfill CH4 emissions have been reported. Here, we present the results of a multi-season study of whole landfill CH4 emissions using atmospheric tracer methods at the Nashua, New Hampshire Municipal landfill in the northeastern United States. The measurement data include 12 individual emission tests, each test consisting of 5-8 plume measurements. Measured emissions were negatively correlated with surface atmospheric pressure and ranged from 7.3 to 26.5 m3 CH4 min(-1). A simple regression model of our results was used to calculate an annual emission rate of 8.4 x 10(6) m3 CH4 year(-1). These data, along with CH4 oxidation estimates based on emitted landfill gas isotopic characteristics and gas collection data, were used to estimate annual CH4 generation at this landfill. A reported gas collection rate of 7.1 x 10(6) m3 CH4 year(-1) and an estimated annual rate of CH4 oxidation by cover soils of 1.2 x 10(6) m3 CH4 year(-1) resulted in a calculated annual CH4 generation rate of 16.7 x 10(6) m3 CH4 year(-1). These results underscore the necessity of understanding a landfill's dynamic environment before assessing long-term emissions potential. 相似文献
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