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GERİ ÇEKİLEN: Kahramanmaraştaki Beş Matbaanın Bakteri ve Mantar Yükünün İncelenmesi

Year 2021, Volume: 12 Issue: 2, 184 - 189, 31.10.2021

Abstract

Dergimizde Yıl 2021, Cilt 12, Sayı 1, sayfa 10-14, 30.04.2021 tarihinde basılan “Investigation of Bacterial and Fungal Load of Five Printing House in Kahramanmaraş City” isimli makalenin daha önceden farklı ortamlarda yayınlandığı tespit edilmiştir. Bu durum dergimiz sayfasında belirtilen kuralların (https://dergipark.org.tr/tr/pub/mantar/policy) ihlaline neden olmuştur. Bu nedenle, bu makale S.Ü. Mantarcılık Uygulama ve Araştırma Merkezi Yönetim Kurulu Kararı ile geri çekilmiştir.

References

  • Adams, R.I., Miletto, M., Lindow, S.E., Taylor, J.W. and Bruns, T.D. (2014). Airborne bacterial communities in residences: similarities and differences with fungi. PLoS One, 9(3), e91283.
  • Adams, R.I., Bhangar, S., Pasut, W., Arens, E.A., Taylor, J.W., Lindow, S.E., Nazaroff, W.W. and Bruns, T.D. (2015). Chamber bioaerosol study: outdoor air and human occupants as sources of indoor airborne microbes. PLoS One, 10(5), e0128022.
  • Alabbasy, A.J. (2019). A Literature review on microbial contamination of papercurrency. IJEC, 18, 22.
  • Burrell, R. (1991). Microbiological agents as health risks in indoor air. Environmental Health Perspectives, 95, 29-34.
  • Andayani, S.J., Amanah, A. and Permatasari, T.O. (2018). Inhibitory Effect of Sansevieria trifasciata L on aerial pathogenic microfungi in tutorial rooms. In Proceedings of the International Conference on Applied Science and Health (No. 3, pp. 279-286).
  • Aydogdu, H., Asan, A., Okten, M.T. ve Ture, M. (2005). Monitoring of fungi and bacteria in the indoor air of primary schools in Edirne city, Turkey. Indoor Built Environ. 14, 411-425.
  • Benammar, L., Menasria, T., Chergui, A., Benfiala, S. and Ayachi, A. (2017). Indoor fungal contamination of traditional public baths (Hammams). International Biodeterioration & Biodegradation, 117, 115-122.
  • Biyik, H., Imali, A., Atalan, E., Tufenkci, S. and Ögün, E. (2005). Diversity of microfungi in soil polluted by cement factory. Fresenius Environmental Bulletin. 14(2) 130-137. Campbell, C.K. and Johnson, E.M. (2013). Identification of pathogenic fungi. John Wiley & Sons.
  • Demirel, R., Sen, B., Kadaifciler, D., Yoltas, A., Okten, S., Ozkale, E., Berikten, D.,Samson, R.A., Uztan, A.H., Yilmaz, N., Gunyar, Ö.A., Aydogdu, H., Asan, A., Kivanc, M., Ozdil, S. and Sakartepe, E. (2017). Indoor airborne fungal pollution in newborn units in Turkey. Environmental monitoring and assessment, 189(7), 362.
  • Do, Nascimento, J.P.M., López, A.M.Q. and Andrade, M. (2019). Airborne fungi in indoor hospital environments. Int. J. Curr. Microbiol. App. Sci, 8(1), 2749-2772.
  • Güneş, G., Bozkurt, E., Sönmez, S. and Erdinç, N. (2016). An investigation of the indoor air quality in libraries: Marmara University Central Library. Information World. 16(2).222-241.
  • Hanson, B., Zhou, Y., Bautista, E.J., Urch, B., Speck, M., Silverman, F., Muilenberg, M., Phipatanakul, W., Weinstock, G., Sodergren, E., Golde, D.R., Joanne, E. and Sordillo, J.E. (2016).
  • Characterization of the bacterial and fungal microbiome in indoor dust and outdoor air samples: a pilot study. Environmental Science: Processes & Impacts, 18(6), 713-724.
  • Hasenekoğlu, İ. (1991). Soil microfungi. Cilt:1-7. Atatürk University Publications. 689. Erzurum.
  • Imali, A., Kocer, F. and Yalcinkaya, B. (2011a). Microfungus flora of indoor and outdoor air in primary schools, Corum, Turkey. Australian Journal of Basic and Applied Sciences, 5(9), 2274-2278.
  • Imalı, A., Koçer, F. and Yalçınkaya, B. (2011b). Microfungus flora in buttons of ATM’s and some GSM phones in Çorum. Journal of TUBAV Science. 4(4) 214-218.
  • Jafari, A.A., Aminipour, M.R., Ahmadieh, M.H. and Mirzaee, F. (2015). The Rate of airborne fungal contamination in Yazd Textile Factories in 2007. Journal of Kerman University of Medical Sciences.
  • Mahfouz, T. and Anaissie, E. (2003). Prevention of fungal infections in the immunocompromised host. Current opinion in investigational drugs (London, England: 2000), 4(8), 974-990. Nevalainen, A., Täubel, M. and Hyvärinen, A. (2015). Indoor fungi: companions and contaminants. Indoor Air, 25(2), 125-156.
  • Ogbu, K.I., Pam, V.A., Chukwudi, I.C., Momoh, A.H. and Agwu, E.O. (2016). Survey of bacterial and fungal contamination on beef suya sold in jos and environs. International Journal of Science and Applied Research (ISSN: 2504-9070), 1(1).
  • Pitt, J.I. and Taylor, J.W. (2014). Aspergillus, its sexual states, and the new international code of nomenclature. Mycologia 106(5):1051–1062.
  • Pokhum, C., Intasanta, V., Yaipimai, W., Subjalearndee, N., Srisitthiratkul, C., Pongsorrarith, V., Phanomkate, N. and Chawengkijwanich, C. (2018). A facile and cost-effective method for removal of indoor airborne psychrotrophic bacterial and fungal flora based on silver and zinc oxide nanoparticles decorated on fibrous air filter. Atmospheric Pollution Research, 9(1), 172-177.
  • Samson, R.A. and Pitt, J.I. (2000). Integration of modern taxonomic methods for Penicillium and Aspergillus classification, (4rd ed.) Singapore: Harwood Academic Publisers, p:510.
  • Sarıca, S., Asan, A., Okten, M.T. and Ture, M. (2002). Monitoring indoor airborne fungi and bacteria in the different areas of Trakya University Hospital, Edirne, Turkey. Indoor Built Environ. 11, 285-292.
  • Sugeçti, S., Imalı, A. and Koçer, F. (2018). Molecular methods used in the purification of allergen proteins. International Anatolia Acad emic Online Journal. 4(2), 13-28
  • Walsh, T.J., Hayden, R.T. and Larone, D.H. (2018). Larone's medically important fungi: a guide to identification (No. Ed. 6). ASM Press. 553p.
  • Weikl, F., Tischer, C., Probst, A.J., Heinrich, J., Markevych, I., Jochner, S. and Pritsch, K. (2016). Fungal and bacterial communities in indoor dust follow different environmental determinants. PLoS One, 11(4), e0154131.
  • Yang, C., Pakpour, S., Klironomos, J. and Li, D.W. (2016). Microfungi in indoor environments: What is known and what is not. In Biology of Microfungi (pp. 373-412). Springer, Cham. Yavuz, V. (2016). Integration of digital printing technologies in printing sector, 5th Internatıonal Printing Techologies Symposium, 251-262

RETRACTED: Investigation of Bacterial and Fungal Load of Five Printing House in Kahramanmaraş City

Year 2021, Volume: 12 Issue: 2, 184 - 189, 31.10.2021

Abstract

It has been determined that the article titled "Investigation of Bacterial and Fungal Load of Five Printing House in Kahramanmaraş City" published in our journal on Year 2021, Vol 12, Issue:1, page10-14, 30.04.2021 was previously published in different media. This situation caused a violation of the rules stated on the page of our journal (https://dergipark.org.tr/tr/pub/mantar/policy). Therefore, this article has been retracted by the decision of the Board of Directors of the Selçuk Üniversity Mushroom Application and Research Center.

References

  • Adams, R.I., Miletto, M., Lindow, S.E., Taylor, J.W. and Bruns, T.D. (2014). Airborne bacterial communities in residences: similarities and differences with fungi. PLoS One, 9(3), e91283.
  • Adams, R.I., Bhangar, S., Pasut, W., Arens, E.A., Taylor, J.W., Lindow, S.E., Nazaroff, W.W. and Bruns, T.D. (2015). Chamber bioaerosol study: outdoor air and human occupants as sources of indoor airborne microbes. PLoS One, 10(5), e0128022.
  • Alabbasy, A.J. (2019). A Literature review on microbial contamination of papercurrency. IJEC, 18, 22.
  • Burrell, R. (1991). Microbiological agents as health risks in indoor air. Environmental Health Perspectives, 95, 29-34.
  • Andayani, S.J., Amanah, A. and Permatasari, T.O. (2018). Inhibitory Effect of Sansevieria trifasciata L on aerial pathogenic microfungi in tutorial rooms. In Proceedings of the International Conference on Applied Science and Health (No. 3, pp. 279-286).
  • Aydogdu, H., Asan, A., Okten, M.T. ve Ture, M. (2005). Monitoring of fungi and bacteria in the indoor air of primary schools in Edirne city, Turkey. Indoor Built Environ. 14, 411-425.
  • Benammar, L., Menasria, T., Chergui, A., Benfiala, S. and Ayachi, A. (2017). Indoor fungal contamination of traditional public baths (Hammams). International Biodeterioration & Biodegradation, 117, 115-122.
  • Biyik, H., Imali, A., Atalan, E., Tufenkci, S. and Ögün, E. (2005). Diversity of microfungi in soil polluted by cement factory. Fresenius Environmental Bulletin. 14(2) 130-137. Campbell, C.K. and Johnson, E.M. (2013). Identification of pathogenic fungi. John Wiley & Sons.
  • Demirel, R., Sen, B., Kadaifciler, D., Yoltas, A., Okten, S., Ozkale, E., Berikten, D.,Samson, R.A., Uztan, A.H., Yilmaz, N., Gunyar, Ö.A., Aydogdu, H., Asan, A., Kivanc, M., Ozdil, S. and Sakartepe, E. (2017). Indoor airborne fungal pollution in newborn units in Turkey. Environmental monitoring and assessment, 189(7), 362.
  • Do, Nascimento, J.P.M., López, A.M.Q. and Andrade, M. (2019). Airborne fungi in indoor hospital environments. Int. J. Curr. Microbiol. App. Sci, 8(1), 2749-2772.
  • Güneş, G., Bozkurt, E., Sönmez, S. and Erdinç, N. (2016). An investigation of the indoor air quality in libraries: Marmara University Central Library. Information World. 16(2).222-241.
  • Hanson, B., Zhou, Y., Bautista, E.J., Urch, B., Speck, M., Silverman, F., Muilenberg, M., Phipatanakul, W., Weinstock, G., Sodergren, E., Golde, D.R., Joanne, E. and Sordillo, J.E. (2016).
  • Characterization of the bacterial and fungal microbiome in indoor dust and outdoor air samples: a pilot study. Environmental Science: Processes & Impacts, 18(6), 713-724.
  • Hasenekoğlu, İ. (1991). Soil microfungi. Cilt:1-7. Atatürk University Publications. 689. Erzurum.
  • Imali, A., Kocer, F. and Yalcinkaya, B. (2011a). Microfungus flora of indoor and outdoor air in primary schools, Corum, Turkey. Australian Journal of Basic and Applied Sciences, 5(9), 2274-2278.
  • Imalı, A., Koçer, F. and Yalçınkaya, B. (2011b). Microfungus flora in buttons of ATM’s and some GSM phones in Çorum. Journal of TUBAV Science. 4(4) 214-218.
  • Jafari, A.A., Aminipour, M.R., Ahmadieh, M.H. and Mirzaee, F. (2015). The Rate of airborne fungal contamination in Yazd Textile Factories in 2007. Journal of Kerman University of Medical Sciences.
  • Mahfouz, T. and Anaissie, E. (2003). Prevention of fungal infections in the immunocompromised host. Current opinion in investigational drugs (London, England: 2000), 4(8), 974-990. Nevalainen, A., Täubel, M. and Hyvärinen, A. (2015). Indoor fungi: companions and contaminants. Indoor Air, 25(2), 125-156.
  • Ogbu, K.I., Pam, V.A., Chukwudi, I.C., Momoh, A.H. and Agwu, E.O. (2016). Survey of bacterial and fungal contamination on beef suya sold in jos and environs. International Journal of Science and Applied Research (ISSN: 2504-9070), 1(1).
  • Pitt, J.I. and Taylor, J.W. (2014). Aspergillus, its sexual states, and the new international code of nomenclature. Mycologia 106(5):1051–1062.
  • Pokhum, C., Intasanta, V., Yaipimai, W., Subjalearndee, N., Srisitthiratkul, C., Pongsorrarith, V., Phanomkate, N. and Chawengkijwanich, C. (2018). A facile and cost-effective method for removal of indoor airborne psychrotrophic bacterial and fungal flora based on silver and zinc oxide nanoparticles decorated on fibrous air filter. Atmospheric Pollution Research, 9(1), 172-177.
  • Samson, R.A. and Pitt, J.I. (2000). Integration of modern taxonomic methods for Penicillium and Aspergillus classification, (4rd ed.) Singapore: Harwood Academic Publisers, p:510.
  • Sarıca, S., Asan, A., Okten, M.T. and Ture, M. (2002). Monitoring indoor airborne fungi and bacteria in the different areas of Trakya University Hospital, Edirne, Turkey. Indoor Built Environ. 11, 285-292.
  • Sugeçti, S., Imalı, A. and Koçer, F. (2018). Molecular methods used in the purification of allergen proteins. International Anatolia Acad emic Online Journal. 4(2), 13-28
  • Walsh, T.J., Hayden, R.T. and Larone, D.H. (2018). Larone's medically important fungi: a guide to identification (No. Ed. 6). ASM Press. 553p.
  • Weikl, F., Tischer, C., Probst, A.J., Heinrich, J., Markevych, I., Jochner, S. and Pritsch, K. (2016). Fungal and bacterial communities in indoor dust follow different environmental determinants. PLoS One, 11(4), e0154131.
  • Yang, C., Pakpour, S., Klironomos, J. and Li, D.W. (2016). Microfungi in indoor environments: What is known and what is not. In Biology of Microfungi (pp. 373-412). Springer, Cham. Yavuz, V. (2016). Integration of digital printing technologies in printing sector, 5th Internatıonal Printing Techologies Symposium, 251-262
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Details

Primary Language English
Journal Section RESEARCH ARTICLE
Authors

Ufuk Yılmaz This is me 0000-0001-8240-1294

Ferudun Koçer This is me 0000-0002-8749-7106

Ahmet Tutuş This is me 0000-0003-2922-4916

Sinan Sönmez This is me 0000-0003-3126-9590

Publication Date October 31, 2021
Published in Issue Year 2021 Volume: 12 Issue: 2

Cite

APA Yılmaz, U., Koçer, F., Tutuş, A., Sönmez, S. (2021). RETRACTED: Investigation of Bacterial and Fungal Load of Five Printing House in Kahramanmaraş City. Mantar Dergisi, 12(2), 184-189.

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