Temporal Distribution of Cladosporium and Alternaria Spores in the Atmosphere of Gelibolu (Çanakkale), Turkey
Yıl 2022,
Cilt: 13 Sayı: 1, 71 - 83, 28.04.2022
Fatemeh Fazli
,
Semih Bekil
,
Süleyman Kılınçarslan
,
Prof.dr. Adem Bıçakçı
,
Aycan Tosunoglu
Öz
This aeropalynological study aims to determine the inter-annual and seasonal variation of atmospheric spores belonging to Cladosporium Link and Alternaria Nees genera during the three years. Cladosporium and Alternaria spores are generally recorded as dominant in many atmospheric fungal spore studies and have high allergic effects on susceptible individuals. The species belonging to these two genera may also live as pathogens on the plants and cause low yield. This study was carried out for three years, between January 2018 to December 2020. Durham sampler, which is the device of the gravimetric method, was used in the research. A total of 17399 Cladosporium and Alternaria spores were recorded in the Gelibolu (Çanakkale) atmosphere for three years. The total numbers of Cladosporium spores were found about five times more than the total numbers of Alternaria spores. The maximum spore levels were recorded in June for both spore types. Summer months can be reported as a risky period in terms of Alternaria and Cladosporium pathogenicity and atmospheric fungal spore allergy in the region.
Kaynakça
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- Akgül, H., Yılmazkaya, D., Akata, I., Tosunoğlu, A. and Bıçakçı, A. (2016). Determination of airborne fungal spores of Gaziantep (SE Turkey). Aerobiologia, 32 (3) 441-452.
Al-Subai, A. (2002) Airborne fungi at Doha, Qatar. Aerobiologia 18, 175-183.
- Angulo-Romero, J., Mediavilla-Molina, A. and Domınguez- Vilches, E. (1999). Conidia of Alternaria in the atmosphere of the city of Cordoba, Spain in relation to meteorological parameters. Int. J. Biometeoro., 43 45–49.
- Anto´n, F.S., S´nchez , R.E., Rodrı´guez de la, C.D., Sa´nchez, G.A., Da´vila,I . and Sa´nchez , S.J. (2021). Comparison of Alternaria spore levels between two areas within the same city (Salamanca, Middle West Spain). Aerobiologia https://doi.org/10.1007/s10453-021-09725-4(0123456789().,-volV)( 01234567
- Artac , H., Kizilpinar Temizer, I., Özdemir, H., Pekcan, S., Doğan, C. and Reisli, I. (2014). Alternaria and Cladosporium spores in the spores in the atmosphere of Konya and their relationship with meteorological factors. Asthma Allergy Immunology, 12 130–139.
- Asan, A. (2015). Checklist of Alternaria Species Reported From Turkey, Mantar Dergisi/The Journal of Fungus, 6 (2) 43-57.
- Bağcı, S., Gürçay, M., Kuşçu, Y. and Toprak, D. (2004). Ekolojik Sistemler ve Ekolojik Planlama. Gelibolu Planlama Projesi. ODTÜ Mimarlık Fakültesi. Şehir Bölge Planlama Bölümü, Ankara.
- Bekil, S., Tosunoglu, A. and Bicakci, A. (2021). The Annual Variation of Allergenic Cladosporium and Alternaria Spores in the Atmosphere of Büyükorhan (Bursa), Turkey; Effects of Meteorological Factors. Mantar Dergisi/The Journal of Fungus, 12 (2) 122-133.
- Blackwell, M. (2011). The Fungi: 1, 2, 3 … 5.1 Million Species?. American Journal of Botany 98 (3) 426–438
- Buck, P. and Levetin, E. (1985). Airborne pollen and mold spores in a subalpine environment. Ann Allergy , 55 794–801.
- Bustos, I., Angulo, J. and Domínguez, E. (2001). Caracterizatión aeromicológica de la atmósfera del parque natural de la sierra de Hornachuelos (Córdoba), relación com los parametros meteorológicos. In: Grau S, Rendueles B, Angosto J (Eds): XIII Simposio de la Associación de Palinológos en Lengua Espanola (APLE), 2001, 61-66. Universidad de Cartagena, Cartagena 2001.
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- Chakrabarti, H.S., Das, S. and Gupta-Bhattacharya, S. (2012). Outdoor airborne fungal spora load in a suburb ofKolkata, India: its variation, meteorological determi- nants and health impact. Intl J Environ Health Res 22 37-50. http://dx.doi.org/10.1080/09603123.2011.588323
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- Gioulekas, D., Damialis, A., Papakosta, D., Spieksma, F., Giouleka, P. and Patakas, D. (2004). Allergenic fungi spore records (15 years) and sensitization in patients with respiratory allergy in Thessaloniki- Greece. J Invest Allergol Clin Immunol., 14 (3) 225-231.
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Gelibolu (Çanakkale), Türkiye Atmosferindeki Cladosporium ve Alternaria Sporlarının Zamansal Dağılımı
Yıl 2022,
Cilt: 13 Sayı: 1, 71 - 83, 28.04.2022
Fatemeh Fazli
,
Semih Bekil
,
Süleyman Kılınçarslan
,
Prof.dr. Adem Bıçakçı
,
Aycan Tosunoglu
Öz
Bu aeropalinolojik çalışma, Cladosporium Link (Havaküfü) ve Alternaria Nees (Arıküfü) cinslerine ait atmosferik sporların üç yıl süre zarfındaki yıllar arası ve mevsimsel değişimlerini belirlemeyi amaçlamaktadır. Cladosporium ve Alternaria Nees sporları birçok atmosferik mantar sporu çalışmasında dominant olarak kaydedilmiştir ve duyarlı bireyler üzerinde yüksek allerjik etkilere sahiptirler. Ayrıca bu iki cinse ait türlerin sporları, bitkiler üzerinde patojen olarak yaşayabilmekte ve bitkilerde verim kaybına da neden olmaktadılar. Bu çalışma Ocak 2018 – Aralık 2020 tarihleri arasında üç yıl süreyle gerçekleştirilmiş olup araştırmada gravimetrik yönteme dayalı Durham cihazı kullanılmıştır. Üç yıl boyunca, Gelibolu (Çanakkale) atmosferinde toplam 17399 adet Cladosporium ve Alternaria sporu kaydedilmiş ve Cladosporium sporlarının toplam sayısı, Alternaria sporlarının toplam sayısından yaklaşık beş kat daha fazla bulunmuştur. Her iki spor türü için de maksimum spor mikatarınna Haziran ayında ulaştığı kaydedilmiştir. Yaz ayları bölgede Alternaria ve Cladosporium patojenitesi ve atmosferik fungal spor alerjisi açısından riskli dönemler olarak bildirilebilir.
Kaynakça
- Aira, M.J., La-Serna, I., and Dopazo, A. (2003) Identification of fungal spores in the atmosphere of Santiago de Compostela (NW Spain) in the winter period. Polen, 12 65-76.
- Akgül, H., Yılmazkaya, D., Akata, I., Tosunoğlu, A. and Bıçakçı, A. (2016). Determination of airborne fungal spores of Gaziantep (SE Turkey). Aerobiologia, 32 (3) 441-452.
Al-Subai, A. (2002) Airborne fungi at Doha, Qatar. Aerobiologia 18, 175-183.
- Angulo-Romero, J., Mediavilla-Molina, A. and Domınguez- Vilches, E. (1999). Conidia of Alternaria in the atmosphere of the city of Cordoba, Spain in relation to meteorological parameters. Int. J. Biometeoro., 43 45–49.
- Anto´n, F.S., S´nchez , R.E., Rodrı´guez de la, C.D., Sa´nchez, G.A., Da´vila,I . and Sa´nchez , S.J. (2021). Comparison of Alternaria spore levels between two areas within the same city (Salamanca, Middle West Spain). Aerobiologia https://doi.org/10.1007/s10453-021-09725-4(0123456789().,-volV)( 01234567
- Artac , H., Kizilpinar Temizer, I., Özdemir, H., Pekcan, S., Doğan, C. and Reisli, I. (2014). Alternaria and Cladosporium spores in the spores in the atmosphere of Konya and their relationship with meteorological factors. Asthma Allergy Immunology, 12 130–139.
- Asan, A. (2015). Checklist of Alternaria Species Reported From Turkey, Mantar Dergisi/The Journal of Fungus, 6 (2) 43-57.
- Bağcı, S., Gürçay, M., Kuşçu, Y. and Toprak, D. (2004). Ekolojik Sistemler ve Ekolojik Planlama. Gelibolu Planlama Projesi. ODTÜ Mimarlık Fakültesi. Şehir Bölge Planlama Bölümü, Ankara.
- Bekil, S., Tosunoglu, A. and Bicakci, A. (2021). The Annual Variation of Allergenic Cladosporium and Alternaria Spores in the Atmosphere of Büyükorhan (Bursa), Turkey; Effects of Meteorological Factors. Mantar Dergisi/The Journal of Fungus, 12 (2) 122-133.
- Blackwell, M. (2011). The Fungi: 1, 2, 3 … 5.1 Million Species?. American Journal of Botany 98 (3) 426–438
- Buck, P. and Levetin, E. (1985). Airborne pollen and mold spores in a subalpine environment. Ann Allergy , 55 794–801.
- Bustos, I., Angulo, J. and Domínguez, E. (2001). Caracterizatión aeromicológica de la atmósfera del parque natural de la sierra de Hornachuelos (Córdoba), relación com los parametros meteorológicos. In: Grau S, Rendueles B, Angosto J (Eds): XIII Simposio de la Associación de Palinológos en Lengua Espanola (APLE), 2001, 61-66. Universidad de Cartagena, Cartagena 2001.
- Calderón, C., Lacey, J., McCartney, A. and Rosas, I. (1997). Influence of urban climate upon distribution of airborne Deuteromycete spore concentrations in Mexico City. International Journal of Biometeorology, 40 (2) 71-80.
- Caretta, G. (1992). Epidemiology of allergenic disease the fungi. Aerobiologia 8 439–445.
- Chakrabarti, H.S., Das, S. and Gupta-Bhattacharya, S. (2012). Outdoor airborne fungal spora load in a suburb ofKolkata, India: its variation, meteorological determi- nants and health impact. Intl J Environ Health Res 22 37-50. http://dx.doi.org/10.1080/09603123.2011.588323
- Charpin, J., Surinyach, R. and Frankland A.W. (1974). Atlas of European Allergenic Pollens. Paris: Sandos Editions, 229 p.
- D’Amato, G., Stanziola, A.A., Cocco, G. and Melillo, G. (1984). Mold allergy: A three year investigation (1980-82) of the airborne fungal spores in Naples, Italy. Ann Allergy., 52 363-367.
- Damialis, A. and Gioulekas, D. (2006). Airborne allergenic fungal spores and meteorological factors in Greece: Forecasting possibilities. Grana, 45 (2) 122-129.
- Ding, W., Li, L., Han, Y. and Liu, J. (2016). Site-related and seasonal variation of bioaerosol emission in an indoor wastewater treatment station: level, characteristics of particle size, and microbial structure. Aerobiologia, 32 (2) 211-224.
- Downs, S. H., Mitakakis, T. Z., Marks, G. B., Car, N. G., Belousova, E. G.and Leuppi, J. D. (2001). Clinical importance of Alternaria exposure in children. Am. J. Respir. Critic. Care Med., 164, 455–459.
- Dugan, F.M., Schubert, K. and Braun, U. (2004). Check-list of Cladosporium names. Schlechtendalia, 11 1–103.
- Eduard, W. (2009). Fungal spores: A critical review of the toxicological and epidemiological evidence as a basis for occupational exposure limit setting. Critical Reviews in Toxicology, 39 (10) 799–864.
- Gioulekas, D., Damialis, A., Papakosta, D., Spieksma, F., Giouleka, P. and Patakas, D. (2004). Allergenic fungi spore records (15 years) and sensitization in patients with respiratory allergy in Thessaloniki- Greece. J Invest Allergol Clin Immunol., 14 (3) 225-231.
- Gregory, PH. (1961). The microbiology of the atmosphere. New York: Interscience Publishers.
- Grinn-Gofroń, A., Strzelczak, A., Stępalska, D. and Myszkowska, D. (2016). A 10-year study of Alternaria and Cladosporium in two Polish cities (Szczecin and Cracow) and relationship with the meteorological parameters. Aerobiologia, 32 (1) 83-94.
- Henríquez, V., Villegas, G. and Nolla, J. (2001). Airborne fungi monitoring in Santiago, Chile. Aerobiologia, 17 137-142.
- Hjelmroos, M. (1993). Relationship between airborne fungal spore presence and weather variables, Cladosporium and Alternaria. Grana, 32 40–47.
- Ho, H.M., Rao, C.Y., Hsu, H.H., Chiu, Y.H., Liu, C.M. and Chao, H.J. (2005). Characteristics and determinants of ambient fungal spores in Hualien, Taiwan. Atmospheric Environment, 39 (32) 5839–5850.
- Ianovici, N. (2016). Atmospheric concentrations of selected allergenic fungal spores in relation to some meteorological factors, in Timişoara (Romania). Aerobiologia, 32 (1) 139-156.
- Ianovici, N. (2017). Summer airborne mycoflora of Timisoara (Romania) and relationship to meteorological parameters. Grana 56 (6) 424-435.
- Kasprzyk, I., Kaszewski, B.M., Weryszko-Chmielewska, E., Nowak, M., Sulborska, A., Kaczmarek, J. and Jedryczka, M. (2016). Warm and dry weather accelerates and elongates Cladosporium spore seasons in Poland. Aerobiologia, 32 (1) 109-126.
- Katial, R.K., Zhang, Y.M., Jones, R.H. and Dyer, P.D. (1997) Atmospheric mold spore counts in relation to meteorological parameters. Int. J. of Biomet. 41 (1), 17e22.
- Kauffman, H. F., Tomee, J. F. C., Van Der Werf, T. S., De Monchy, J. G. R. and Koeter, G. K. (1995). Review of fungus- induced asthmatic reactions. Am. J. Respir. Critic. Care Med., 151, 2109–2116.
- Kendrik, B. (2001). The Fifth Kingdom. Mycologue Publications, Waterloo, Ontario.
- Kızılpınar, İ. and Doğan, C. (2011). Allergen Alternaria and Cladosporium concentration in the atmosphere of Çamkoru, (Ankara-Turkey) 2003-2004. Hacettepe J. Biol. & Chem., 39 (4) 427-434.
- Kilic, M., Altunoglu, M.K., Akdogan, G.E., Akpınar, S. and Taskın, E. (2020). Airborne fungal spore relationships with meteorological parameters and skin prick test results in Elazig, Turkey. J. Environ. Health Sci. Eng 18 1271–1280.
- Kireçci, E. and Alagöz, G. (2019). Hava Kaynaklı Fungusların Tanısı Ve Dağılımı. “Diagnosis and distribution of fungi in the atmosphere”. Balıkesir Sağlık Bilimleri Dergisi / Balıkesır Health Scıences Journal, 8 (2) 75-80.
- Kurkela, T. (1997). The number of Cladosporium conidia in the air in different weather conditions. Grana, 36 54–61.
- Landecker, E.M. (1996). Fundamentals of Fungi. Publ. Benjamin Cumings .1996.
- Magyar, D., Frenguelli, G., Bricchi, E., Tedeschini, E., Csontos, P., Li and D. W., et al. (2009). The biodiversity of air spora in an Italian vineyard. Aerobiologia 25 99–109.
- Mitakakis, T., O'Meara, T. and Tovey, E.(2005). The effect of sunlight on allergen release from spores of the fungus Alternaria. Grana, 42 43-46.
- Mitakakis, T., Ong, E. K., Stevens, A., Guest, D., and Knox, R. B.(1997). Incidence of Cladosporium, Alternaria and total fungal spores in the atmosphere of Melbourne (Australia) over three years. Aerobiologia, 13 83–90.
- Mitakakis, T.Z. and Guest, D.I. (2001). A fungal spore calendar for the atmosphere of Melbourne, Australia, for the year 1993. Aerobiologia, 17 171–176.
- Money, NP. (2015). Spore production, discharge and dispersal. The Fungi. (3rd ed., pp. 67–97). London: Academic Press.
- Oliveira, M., Abreu, I., Ribeiro, H. and Delgado, L. (2007). Fungal spores in the atmosphere in the city of Porto and its allergological implications. Revista Portugesa de Immunoalergologia, 15 (1) 61–85.
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