Use of Fourier transform infrared (FT-IR) spectroscopy as a tool for pollen identification

Al-Holy, M. A., Lin, M., Al-Qadiri, H., Cavinato, A. G., & Rasco B. A. (2006). Classification of foodborne pathogens by Fourier transform infrared spectroscopy and pattern recognition techniques. Journal of Rapid Methods and Automation in Microbiology, 14, 189–200.

Boucher, A., Hidalgo, P., Thonnat, M., Belmonte, J., Galan, C., & Bonton, P. (2002). Development of a semi-automatic system for pollen recognition. Aerobiologia, 18, 195–201.

Chuine, I., & Belmonte, J. (2004). Improving prophylaxis for pollen allergies: Predicting the time course of the pollen load of the atmosphere of major allergenic plants in France and Spain. Grana, 43, 65–80.

Collins, S. P., Pope, R. K., Scheetz, R. W., Ray, R. I., Wagner, P. A., & Little, B. J. (1993). Advantages of environmental scanning electron microscopy in studies of microorganisms. Microscopy Research and Technique, 25, 398–405.

Corden, J. M., Stach, A., & Millington, W. M. (2002). A comparison of Betula pollen seasons at two European sites; Derby, United Kingdom and Poznan, Poland (1995–1999). Aerobiologia, 18, 45–53.

DΓÇÖAmato, G., Spieksma, F. Th. M., & Bonini, S. (1991). Allergenic pollen and pollinosis in Europe. Oxford, Great Britain: Blackwell Scientific Publications.

Faegri, K., & Iversen, J. (1989) Textbook of pollen analysis. London, Great Britain: John Wiley & Sons Ltd.

Ivleva, N. P., Niessner, R., & Panne U. (2005). Characterization and discrimination of pollen by Raman microscopy. Analytical and Bioanalytical Chemistry, 381, 261–267.

Johansson, S. G. O. (2002). Milestones in understanding allergy and its diagnosis. Clinical and Experimental Allergy: Review, 2, 2–7.

Khanduri, V. P., & Sharma, C. M. (2002). Pollen productivity variations. Pollen-ovule ratio and sexual selection in Pinus roxburghii. Grana, 41, 29–38.

Latalowa, M., Mietus, M., & Uruska, A. (2002). Seasonal variations in the atmospheric Betula pollen count in Gdansk (southern Baltic coast) in relation to meteorological parameters. Aerobiologia, 18, 33–43.

Laucks, M. L., & Davis, E. J. (1998). Chemical characterization of single pollen particles via fluorescence and raman spectroscopy. Journal of Aerosol Science, 29, s603–s604.

Laucks, M. L., Roll, G., Schweiger, G., & Davis, E. J. (2000). Physical and chemical (RAMAN) characterization of bioaerosols—pollen. Journal of Aerosol Science, 31, 307–319.

Levetin, E., & Van de Water, P. K. (2003). Pollen count forecasting. Immunology and Allergy Clinics of North America, 23, 423–442.

Mandrioli, P. (2004). Metodo di campionamento e conteggio dei granuli pollinici e delle spore fungine aerodisperse. UNI 11108.

Mariey, L., Signolle, J. P., Amiel, C., & Travert, J. (2001). Discrimination, classification, identification of microorganisms using FTIR spectroscopy and chemometrics. Vibrational Spectroscopy, 26, 151–159.

Miguel Gomez, M. A., Bratos Pérez, M. A., Martin Gil, M. A., Duenas Diez, A., Martin Rodriguez, J. F., Gutiérrez Rodriguez, P., Orduna Domingo, A., & Rodriguez Torres, A. (2003). Identification of species of Brucella using Fourier transform infrared spectroscopy. Journal of Microbiological Methods, 55, 121–131.

Moore, P. D., Webb, J. A., & Collinson, M. E. (1991). Pollen analysis. Oxford, Great Britain: Blackwell Scientific Publications.

Nabet, A., & Pezolet, M. (1997). Two-Dimensional FT-IR Spectroscopy: A Powerful Method to Study the Secondary Structure of Proteins Using H-D Exchange. Applied Spectroscopy, 51, 466–469.

Nilsson, S., & Praglowski, J. (1992). Erdtman’s Handbook of Palynology. Kobenhavn, Denmark: Munksgaard.

Orsini, F., Ami, D., Villa, A. M., Sala, G., Bellotti, M. G., & Doglia, S. M. (2000). FT-IR microspectroscopy for microbiological studies. Journal of Microbiological Methods, 42, 17–27.

Pappas, C. S., Tarantilis, P. A., Polissiou, M. G., & Harizanis, P. C. (2003). New method for pollen identification by FT-IR spectroscopy. Applied Spectroscopy, 57, 23–27.

Pastuszka, J. S., Talik, E., Hacura, A., Sloka, J., & Wlazlo, A. (2005). Chemical characterization of airborne bacteria using X-ray photoelectron spectroscopy (XPS) and Fourier transform infrared spectroscopy (FTIRS). Aerobiologia, 21, 181–192.

Petibois, C., Gionnet, K., Goncalves, M., Perromat, A., Moenner, M., & Déléris, G. (2006). Analytical performances of FT-IR spectrometry and imaging for concentration measurements within biological fluids, cells, and tissues. Analyst, 131, 640–647.

Riera, M. D., Cerdà, M. T., & Martin, J. (2002). A correlation study between airborne pollen and cases of pollinosis in humans. Aerobiologia, 18, 169–173.

Sengupta, A., Laucks, M. L., & James, D. E. (2005). Surface-enhanced Raman spectroscopy of bacteria and pollen. Applied Spectroscopy, 59, 1016–1023.

Verini, M., Rossi, N., Verrotti, A., Pelaccia, G., Nicodemo, A., & Chiarelli, F. (2001). Sensitization to environmental antigens in asthmatic children from a central Italian area. The Science of the Total Environment, 270, 63–69.

Verlato, G., Corsico, A., Villani, S., Cerveri, I., Migliore, E., Accordini, S., Carolei, A., Piccioni, P., Bugiani, M., Cascio, V., Marinoni, A., Poli, A., & De Marco, R. (2003). Is the prevalence of adult asthma and allergic rhinitis still increasing? Results of an Italian study. The Journal of Allergy and Clinical Immunology, 111, 1232–1238.