科技报告详细信息
A Lab with a View: Findings from NASA's Aircraft Bioaerosol Collector
Verma, Sonali
关键词: AEROSOLS;    AIR SAMPLING;    AIRBORNE SURVEILLANCE RADAR;    ASCENT;    BIOMASS;    CHARACTERIZATION;    COLLECTION;    DESCENT;    MICROBIOLOGY;    SATELLITE OBSERVATION;    STAPHYLOCOCCUS;    STRATOSPHERE;    TRAJECTORY MEASUREMENT;   
RP-ID  :  ARC-E-DAA-TN72315
美国|英语
来源: NASA Technical Reports Server
PDF
【 摘 要 】

Airborne microorganisms in the upper troposphere and lower stratosphere remain elusive due to a lack of reliable sample collection systems. To address this problem, we designed, installed, and flight-validated a novel Aircraft Bioaerosol Collector (ABC) for NASA's C-20A that can make collections for microbiological research investigations up to altitudes of 13.7 km. Herein we report results from the first set of science flights-four consecutive missions flown over the United States (US) from 30 October to 2 November, 2017. To ascertain how the concentration of airborne bacteria changed across the tropopause, we collected air during aircraft Ascent/Descent (0.3 to 11 km), as well as sustained Cruise altitudes in the lower stratosphere (~12 km). Bioaerosols were captured on DNA-treated gelatinous filters inside a cascade air sampler, then analyzed with molecular and culture-based characterization. Several viable bacterial isolates were recovered from flight altitudes, including Bacillus sp., Micrococcus sp., Arthrobacter sp., and Staphylococcus sp. from Cruise samples and Brachybacterium sp. from Ascent/Descent samples. Using 16S V4 sequencing methods for a culture-independent analysis of bacteria, the average number of total OTUs was 305 for Cruise samples and 276 for Ascent/Descent samples. Surprisingly, our results revealed a homogeneous distribution of bacteria in the atmosphere up to 12 km. The observation could be due to atmospheric conditions producing similar background aerosols across the western US, as suggested by modeled back trajectories and satellite measurements. However, the influence of aircraft-associated bacterial contaminants could not be fully eliminated and that background signal was reported throughout our dataset. Considering the tremendous engineering challenge of collecting biomass at extreme altitudes where contamination from flight hardware remains an ever-present issue, we note the utility of using the stratosphere as a proving ground for planned life detection missions across the solar system.

【 预 览 】
附件列表
Files Size Format View
20190032144.pdf 23472KB PDF download
  文献评价指标  
  下载次数:31次 浏览次数:22次