RESEARCH PAPER
Fungal spores in four catholic churches in the metropolitan area of Monterrey, Nuevo León State, Mexico – First study
1
Universidad Autónoma de Nuevo León, Facultad de Ciencias Biológicas, San Nicolás de los Garza, México
Ann Agric Environ Med. 2015;22(2):221-226
KEYWORDS
ABSTRACT
Introduction:
About 500,000 species of fungi have been described to-date, although an estimated between 1 – 1.5 million species may occur. They have a wide distribution in nature, contributing to the decomposition of organic matter and playing a part in the biogeochemical cycles of major nutrients. A small number are considered pathogens of animals and plants. There is ample historical evidence that certain types of allergies are associated with fungi; exposure to fungal allergens occurs in both outdoor and indoor spaces. Many indoor allergens are the same as those found outside buildings, entering through windows and doors, ventilation systems, or through cracks or other fissures in the walls.
Objective:
To determine the diversity and abundance of fungal spores inside four churches in the metropolitan area of Monterrey city in Mexico.
Material and Methods:
Materials and methods. The study was carried out from July 2009 – January 2010 using a Hirst type volumetric collector (Burkard Manufacturing Co Ltd).
Results:
A total of 31,629 spores from 54 taxa were registered in the four churches. The building that showed the highest amount of spores was the Santa Catarina Mártir Church with 12,766 spores, followed by Cristo Rey with 7,155 and Nuestra Señora del Roble with 6,887. Regularly high concentrations of spores were recorded from 14:00 – 20:00 hours. The highest concentration value was observed at the church of Santa Catarina Mártir at 16:00 hours with 1153 spores/m3 air.
Conclusions:
The most abundant spores in the four churches studied corresponded to Cladosporium, the Aspergillus/Penicillium complex, Coprinus, Ganoderma, Curvularia and Ustilago.
About 500,000 species of fungi have been described to-date, although an estimated between 1 – 1.5 million species may occur. They have a wide distribution in nature, contributing to the decomposition of organic matter and playing a part in the biogeochemical cycles of major nutrients. A small number are considered pathogens of animals and plants. There is ample historical evidence that certain types of allergies are associated with fungi; exposure to fungal allergens occurs in both outdoor and indoor spaces. Many indoor allergens are the same as those found outside buildings, entering through windows and doors, ventilation systems, or through cracks or other fissures in the walls.
Objective:
To determine the diversity and abundance of fungal spores inside four churches in the metropolitan area of Monterrey city in Mexico.
Material and Methods:
Materials and methods. The study was carried out from July 2009 – January 2010 using a Hirst type volumetric collector (Burkard Manufacturing Co Ltd).
Results:
A total of 31,629 spores from 54 taxa were registered in the four churches. The building that showed the highest amount of spores was the Santa Catarina Mártir Church with 12,766 spores, followed by Cristo Rey with 7,155 and Nuestra Señora del Roble with 6,887. Regularly high concentrations of spores were recorded from 14:00 – 20:00 hours. The highest concentration value was observed at the church of Santa Catarina Mártir at 16:00 hours with 1153 spores/m3 air.
Conclusions:
The most abundant spores in the four churches studied corresponded to Cladosporium, the Aspergillus/Penicillium complex, Coprinus, Ganoderma, Curvularia and Ustilago.
REFERENCES (25)
1.
Lacey ME, West JS. The air spora. A manual for catching and identifying airborne biological particles. Springer, The Netherlands, 2006.
2.
Durugbo EU, Kajero AO, Omoregie EI, Oyejide NE. A survey of outdoor and indoor airborne fungal spora in the Redemption City, Ogun State, south-western Nigeria. Aerobiologia 2013; 29: 201–216.
3.
Rosas I, Calderon C, Ulloa M, Lacey J. Abundance of airborne Penicillium CFU in relation to urbanization in Mexico city. Applied and Environmental Microbiology 1993; 59 (8): 2648–2652.
4.
Calderon C, Lacey J, McCartney A, Rosas I. Influence of urban climate upon distribution of airborne Deuteromycetes spore concentrations in Mexico city. Int J Biometerol. 1997; 40: 71–80.
5.
Rosas I, Calderón C, Martínez L, Ulloa M, Lacey J. Indoor and outdoor airborne fungal propagule concentrations in Mexico City. Aerobiologia 1997; 13: 23–30.
6.
Rocha Estrada A, Alvarado Vázquez MA, Gutiérrez Reyes R, Salcedo Martínez SM, Moreno Limón S. Variación temporal de esporas de Alternaria, Cladosporium, Coprinus, Curvularia y Venturia en el aire del área metropolitana de Monterrey, Nuevo León. Rev Int Contam Ambie. 2013; 29(2): 155–165 (in Spanish).
7.
Sorlini C. Aerobiology: general and applied aspects on the conservation of art works. Aerobiologia 1993; 9: 109–115.
8.
Petushkova J, Kandyba P. Aeromicrobiological studies in the Moscow cathedrals. Aerobiologia 1999; 15: 193–201.
9.
Madigan MT, Martinko JM, Parker JB. Biología de los Microorganismos, Prentice Hall Iberia, Madrid, 1999 (in Spanish).
10.
Dagmar SE. Biocontaminants in door environments. Cutter Information Corp USA, Arlington, 1994.
11.
García E. Modificaciones al sistema de clasificación climática de Köppen. Instituto de Geografía. Universidad Autónoma de México, México, 2004 (in Spanish).
12.
Kapp OR. Pollen and spores. Second edition. The American Association of Stratigraphic Palynologists Foundation. Dubuque, Iowa, 2000.
13.
Kendrick B. Fungal allergens. In Smith EG. Sampling and identifying allergenic pollens and moulds. Blewstone Press, San Antonio Texas, USA. 1990; 41–49.
14.
Palmas F, Cosentino S. Comparison between fungal airspore concentration at two different sites in the south of Sardinia. Grana 1990; 29: 87–95.
15.
Abbott SP. Molds and other fungi in indoor environments: Summary of biology, known health effects and references. Natural Link MOLD LAB, 2004.
16.
Caretta G. Epidemiology of allergic disease: the fungi. Aerobiologia 1992; 8: 439–445.
17.
Garret MH, Hooper BM, Cole FM, Hooper MA. Airborne fungal spores in 80 homes in the Latrobe Valley, Australia: levels, seasonality and indoor-outdoor relationship. Aerobiologia 1997; 13: 121–126.
18.
Nayar TS, Thripthi KM, Jotish PS. Status or airborne spores and pollen in a coir factory in Kerala, India. Aerobiologia 2007; 23: 131–143.
19.
Escamilla B, Comtois P, Cortes P. Fungal content of air samples from some asthmatic childrens homes in Mexico City. Aerobiologia 1995; 11: 95–100.
20.
Craig RL, Levetin E. Multi-year study of Ganoderma aerobiology. Aerobiologia 2000; 16: 75–81.
21.
Mitakakis TZ, Guest DI. A fungal spore calendar for the atmosphere of Melbourne, Australia, for the year 1993. Aerobiologia 2001; 17: 171–176.
22.
Beaumont F, Kauffman HF, Sluitter HJ, De Vries K. Sequential sampling of fungal air spores inside and outside the homes of mould-sensitive. Asthmatic patients: a search for a relationship to obstructive reactions. Ann Allergy. 1985; 55: 740–746.
23.
Cezar Fontana MB. Estudio epidemiológico de alergia a hongos y otros neumoalergénos en estudiantes de Medicina de la Universitat Autonoma de Barcelona, con relación a los niveles fúngicos ambientales. Tesis doctoral, Universidad Autónoma de Barcelona. 2009. p. 235 (in Spanish).
24.
Chakraborty S, Kumar S, Bhattacharya K. Indoor and outdoor aeromycological survey in Burdwan, West Bengal, India. Aerobiologia 2000; 16: 211–219.
25.
Aira MJ, Rodríguez-Rajo FJ, Jato V, Piontelli E. Análisis cuantitativo y cualitativo de la aeromicota aislada de la catedral de Santiago de Compostela (Galicia, España). Boletín Micológico 2006; 21: 27–34 (in Spanish).
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