Conclusion and discussion Preliminary results on the detection of

Conclusion and discussion Preliminary results on the detection of bio-aerosols in the atmosphere performed in the laboratory and in the field are presented here. The spectral shapes of differential radiance ΔL of averaged spectra were similar in both cases, and the main maxima caused by the presence of BG spores were around 1000 cm−1. Our observations indicate that it is difficult, but possible to detect bio-aerosol clouds PP2 through the use of passive remote sensing

by FTIR measurements. At this stage of our work, however, it is difficult to discern any type of biological substance. But we dare to believe that in the nearest future, through the use of refined spectrometric methods, we will be able not only to detect but also to distinguish between various kinds of biological particles and to identify them from their spectra (Ben-David and Ren 2003 and references therein, D’Amico 2005). We continue our theoretical and laboratory work, and will continue it into the future. The radiometric calibration of the measurements will be repeated. But a larger collection of datasets is needed. During the next two years we will perform new

tests, in the laboratory as well as in an open-air environment during various seasons, under differing weather conditions, and varying geometries of the measurements (the sensors will be positioned to view the releases at longer ranges), also with natural aerosols, kaolin dust and new biological materials. A new advanced method of spectral analysis

Selleckchem IACS-010759 will be also elaborated. We consider the work presented here as the first step of our preparation for remote search of MK 8931 datasheet bio-substances in the atmospheres of planets during future planetary missions to Mars and Venus. The Earth’s environment is a good proving ground in this case. Acknowledgments The work was supported by the grants: 123/N-ESA/2008/0; PBZ-MNiSW-DBO-03/1/200 and 181/1/N-HSO/08/2010/0. The authors would like to thank Military University of Technology, Military Institute of Hygiene and Epidemiology and Paclitaxel mw Military Institute of Chemistry and Radiometry for their cooperation, especially for giving us opportunity to test in the laboratory and in the field the newly constructed FTIR spectrometer. We are grateful also to the referees for their suggestions of changes of the paper. Open Access This article is distributed under the terms of the Creative Commons Attribution License which permits any use, distribution, and reproduction in any medium, provided the original author(s) and the source are credited. References Ben-David A, Ren H (2003) Detection, identification, and estimation of biological aerosols and vapours with a Fourier-transform infrared spectrometer. Appl Opt 42:4887–4900PubMedCrossRef Berk A, Bernstein LS, Robertson DC (1989) Modtran: a moderate resolution model for Lowtran 7, Report GL-TR-89-0122; Prepared for Geoph.

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