Distribution and abundance of microflora in sandy beaches on the southern coast of the Baltic Sea

Mudryk, Z. J.; Perliński, P.; Skórczewski, P.; Wielgat, M.; Zdanowicz, M.

Artykuł - szczegóły

Tytuł artykułu

Distribution and abundance of microflora in sandy beaches on the southern coast of the Baltic Sea

Autorzy

Mudryk Z. J. , Perliński P. , Skórczewski P. , Wielgat M. , Zdanowicz M.

Wybrane pełne teksty z tego czasopisma

Identyfikatory

Warianty tytułu

Języki publikacji

Abstrakty

The abundance of actinomycetes, filamentous fungi and yeasts in the marine epipsammon habitat and their spatial distribution were studied with conventional plating techniques in two marine beaches (Ustka and Czołpino, southern Baltic Sea) which are characterized by different anthropic pressure levels. Actinomycetes constituted the predominant group of studied microorganisms, while the least numerous were yeasts in the sand of both studied beaches. On both of the beaches researched in this study, the amounts of accumulated actinomycetales, fungi and yeasts were similar. When analyzing the distribution of the microflora along the horizontal beach profiles we found significant differences. In the sand collected along the profile perpendicular to the shoreline in Ustka and Czołpino beaches, the highest numbers of actinomycetes, filamentous fungi and yeasts were noted in the samples from the dune and the lowest in those from the subtidal zone and waterline. Generally, higher numbers of studied microorganisms were observed in the surface than in the subsurface sand layer. The occurrence of actinomycetes, filamentous fungi and yeasts showed considerable seasonal variation.

Słowa kluczowe

Actinomycetes filamentous fungi yeasts abundance sandy beach southern Baltic Sea

Wydawca

Institute of Oceanography University of Gdańsk

Czasopismo

Oceanological and Hydrobiological Studies

Rocznik

2013

Tom

Vol. 42, No. 3

Strony

324--331

Opis fizyczny

Bibliogr. 66 poz., wykr.

Twórcy

autor

Mudryk Z. J.

Department of Experimental Biology, Pomeranian University in Słupsk, Arciszewskiego 22b, 76-200, Słupsk, Poland

autor

Perliński P.

pperlinski@apsl.edu.pl

Department of Experimental Biology, Pomeranian University in Słupsk, Arciszewskiego 22b, 76-200, Słupsk, Poland

autor

Skórczewski P.

Department of Experimental Biology, Pomeranian University in Słupsk, Arciszewskiego 22b, 76-200, Słupsk, Poland

autor

Wielgat M.

Department of Experimental Biology, Pomeranian University in Słupsk, Arciszewskiego 22b, 76-200, Słupsk, Poland

autor

Zdanowicz M.

Department of Experimental Biology, Pomeranian University in Słupsk, Arciszewskiego 22b, 76-200, Słupsk, Poland

Bibliografia

1. Anderson, J.H. (1979). In vitro survival of human pathogenic fungi in Hawaiian beach sand. Medical Mycology, 17, 13–22.
2. Arvanitidou, M. Kanellou, K. Katsouyannopoulos V. & Tsakris A. (2002). Occurrence and densities of fungi from northern Greek coastal bathing waters and their relation with faecal pollution indicators. Water Research, 36, 5127–5131.
3. Baltz, R.H. (2008). Renaissance in antibacterial discovery from actinomycetes. Current Opinion in Pharmacology, 8, 1-7.
4. Beena, K.R. Arun, A.B. Raviraja N.S. & Sridhar K.R. (2001). Association of arbuscular mycorrhizal fungi with plants of coastal sand dunes of west coast of India. Tropical Ecology, 42, 213–222.
5. Bredholt, H. & Fjaervik E. (2008). Actinomycetes from sediments in the Trondheim Fjord, Norway: Diversity and biological activity. Marine Drugs, 6, 12–24.
6. Brown, A.C. & McLachlan A. (1990). Ecology of sandy shores. Amsterdam, Elsevier, 328 p.
7. Burkowska, A. & Donderski W. (2007). Impact of humic substances on bakterioplankton in eutrophic lake. Polish Journal of Ecology, 55, 155–160.
8. Carillo-Munoz, A.J. Torres-Rodriguez, J.M. Madrenys-Brunet N. & Dronda-Ayza A. (1990). Comparative study on the survival of 5 species of dermatophytes and Scopulariopsis in beach sand under laboratory conditions. Revista Iberoamericana de Microbiologia. 7, 36–38.
9. Cordoba, A.S. Mendonca, M.M. Stuermer S.L. & Rygiewicz P.T. (2001). Diversity of arbuscular mycorrhizal fungi along a sand dune stabilization gradient: A case study at Praia da Joaquina, Ilha de Santa Catarina, South Brazil. Mycoscience, 42, 379–387.
10. Deepika, L. & Kannabiran K. (2010). Isolation and characterization of antagonistic Actinomycetes from marine soil. Journal of Microbial & Biochemical Technology, 2, 001–006. DOI: 10.4172/1948 -5948.1000015
11. Dunn, P.H. & Baker G.E. (1984). Filamentous fungal population of Hawaiian beaches. Pacific Science, 38, 232–248.
12. Ghinsberg, R.C. BarDov, L. Rotol, M. Sheinberg U. & Nitzan Y. (1994). Monitoring of selected bacteria and fungi in sand and seawater along the Tel Aviv coast. Microbios. 77, 29–40.
13. Gomes, D.N. Cavalcanti, M.A. Fernandes, M.J. Lima D.M. & Passavante J.Z. (2008). Filamentous fungi isolated from sand and water of “Bairro Novo” and “Casa Caiada” beaches, Olinda, Pernambuco, Brazil. Brazilian Journal of Biology, 68, 577–582.
14. González, M.C. Hanlin, R.T. Herrera T. & Ulloa M. (2000). Fungi colonizing hair-baits from three costal beaches of Mexico. Mycoscience, 41, 259–262.
15. de Hoog, G.S. Guarro, J. Gene J. & Figures M.J. (2000). Atlas of clinical fungi. Second edition. Utrecht, Centraallbureau voor Schimmelcultures. 1126 p
16. Hyde, K.D. & Lee S.Y. (1995). Ecology of mangrove fungi and their role in nutrient cycling. What gaps occur in our knowledge? Hydrobiologia, 295, 107–118.
17. Jędrzejczak, M.F. (1999). The degradation of stranded carrion on a Baltic Sea sandy beach. Oceanological Studies, 3, 109–141.
18. Jensen, P.R. Gontand, E. Mafnas, Ch. Mincer T.J. & Fenical W. (2005). Culturable marine actinomycete diversity from tropical Pacific Ocean sediments. Environmental Microbiology, 7, 1039–1048.
19. Jiang, Y. Wiese, J. Cao, Y.R. Xu, L.H. Imhoff J.F. & Jiang C.L., (2009). Promicromonospora flava sp. nov., isolated from sediment of the Baltic Sea. International Journal of Systematic and Evolutionary Microbiology, 59, 1599–1602.
20. Jocz, J. (2010). Dynamic concentration of protein and chlorophyll in sand beaches of diffrent anthropoppessure. Master`s Thesis. Pomeranian University Słupsk 74 p (in Polish)
21. Kingham, D.L. & Evans L.V. (1986). Pelvetia - Mycosphaerella interrelationship. In Moss, ST (Ed.) The Biology of Marine Fungi. Cambridge, Cambridge University Press. p 177–187.
22. Kirk, P.W. & Gordon A.S. (1988). Hydrocarbon degradation by filamentous marine higher fungi. Mycologia, 80, 776–782.
23. Kohlmeyer, J. & Kohlmeyer E. (1979). Marine Mycology. The Higher Fungi. Academic Press, New York 690 p.
24. Koop, K. & Griffiths C.L. (1982). The relative significance of bacteria, meio- and macrofauna on an exposed sandy beaches. Marine Biology, 66, 295–300.
25. Koop, K. Newell R.C. & Lucas M.I. (1982). Microbial regeneration of nutrients from the decomposition of macrophyte debris on the shore. Marine Ecology Progress Series, 9, 91–96.
26. Koske, R.E. & Gemma J.N. (1990). VA mycorrhizae in strand vegetation of Hawaii: Evidence for long-disrance codispersal of plants and fungi. American Journal of Botany, 77, 466–474.
27. Koske, R.E. & Gemma J.N. (1996). Arbuscular mycorrhizal fungi in Hawaiian sand dunes: island of Kauai. Pacific Science, 50, 36–45.
28. Kramarska, R. Uscinowicz, Sz. Zachowicz, J. Przezdziecki, P. Warzocha, J. Netzel J. & Janusz J. (2003). Identification of submarine deposit drifts to artificial swelling. Department of Marine in Słupsk (in Polish)
29. Larrondo, J.V. & Calvo M.A. (1989). Fungi density in sands of the Mediterranean coast beaches. Mycopathologia, 108, 185–193.
30. Lee, S.D. (2006). Brevibacterium samyangense sp. nov., an actinomycete isolated from beach sediment. International Journal of Systematic and Evolutionary Microbiology, 56, 1889-1892.
31. Malm, T. Raberg, S. Fell S. & Carlsson P. (2004). Effects of beach cast cleaning on beach quality, microbial food web and littoral macrofaunal biodiversity. Estuarine Coastal Shelf Science, 60, 339–347.
32. McLachlan, A. & Jaramillio E. (1995). Zonation on sandy beach. Oceanography and Marine Biology Annual Review, 33, 305–335.
33. Mendes, B. Urbano, P. Alves, C. Morais, J. Lapa N. & Oliveira J.S. (1998). Fungi as environmental microbiological indicators. Water Science Technology, 38, 155–162.
34. Migahed, F.F. (2003). Distribution of fungi in the sandy soil of Egyptian beach. Mycobiology, 31, 61–67.
35. Mohankumar, V. Ragupathy, S. Nirmala C.B. & Mahadevan A. (1988). Distribution of vesicular arbuscular mycorrhizae (VAM) in the sandy beach soils of madras coast. Current Science, 57, 367–368.
36. Moore-Landecker, E. (1996). Fundamentals of the fungi, 4th ed. New Jersey: Prentice-Hall 574 p.
37. Morais, P.B. Resende, M.A. Rosa C.A. & Barbosa F.A.R. (1996). Occurrence and diel distribution of yeasts in a paleo-karstic lake of southern Brazilian Revive Microbiology, 27, 182–188.
38. Morrison-Gardiner, S. (2002). Dominant fungi from Australian coral reefs. Fungal Diversity, 9, 105 - 121.
39. Mudryk, Z. Podgórska B. & Ameryk A. (2001). Bacteriological characterization of a Baltic sandy beach in summer. Ecohydrology and Hydrobiology, 4, 503–509.
40. Mudryk, Z. & Podgórska B. (2007), Abundance and distribution of culturable microorganisms in sandy beaches in south Baltic Sea. Polish Journal of Ecology, 55, 221–231.
41. Ogunmwonyi, I.H. Mazomba, N. Mabinya, L. Ngwenya, E. Green, E. Akinpelu, D.A. Olaniran, A.O. Bernard K. & Okoh A.I. (2010). Studies on the culturable marine actinomycetes isolated from the Nahoon beach in the Eastern Cape Province of South Africa. African Journal of Microbiology Research, 4, 2223–2230.
42. Olańczuk-Neyman, K. & Jankowska K. (1998). Bacteriological investigations of the sandy beach ecosystem in Sopot. Oceanologia, 40, 137–151.
43. Ouhdouch, Y. Barakate M. & Finance C. (2001). Actinomycetes of Moroccan habitats: Isolation and screening for antifungal activities. European Journal of Soil Biology, 37, 69–74.
44. Papadakis, J.A. Mavridou, A. Richardson, S.C. Lampiri M. & Marcelou U. (1997). Bather - related microbial and yeast populations in sand and seawater. Water Research, 31, 799–804.
45. Prasannarai, K. & Sridhar K.R. (2001). Diversity and abundance of higher marine fungi on woody substrates along the west coast of India. Current Science, 81, 304–311.
46. Remya, M. & Vijayakumar R. (2008). Isolation and characterization of marine antagonistic actinomycetes from west coast of India. Medicine and Biology, 15, 13–19.
47. Salvo, V.S. & Fabiano M. (2007). Mycological assessment of sediments in Ligurian beaches in the Northwestern Mediterranean: Pathogens and opportunistic pathogens. Journal of Environmental Management, 83, 365–369.
48. Sarquis, M.I.M & de Oliveira P.C. (1996). Diversity of microfungi in the sandy soil of Ipanema Beach, Rio de Janeiro, Brazil. Journal of Basic Microbiology, 36, 51–58.
49. Sato, M.I.Z. Bari, M.D. Lamparelli, C.C. Truzzi, A.C. Coelho M.C.L.S. & Hachich E.M. (2005). Sanitary quality of sands from marine recreational beaches of São Paulo, Brazil. Brazilian Journal of Microbiology, 36, 321–326.
50. Schlacher, T.A. Schoelan, D.S. Dugan, J. Lastra, M. Jones, A. Scapini F. & McLachlan A. (2008). Sandy beach ecosystems: Key feature, sampling issues, management challenges and climate change impacts. Marine Ecology, 29, 70–90.
51. Seo, J.P. & Lee S.D. (2006). Nocardia harenae sp. nov., an actinomycete isolated from beach sand. International Journal of Systematic and Evolutionary Microbiology, 56, 2203–2207.
52. Sharma, S.L. & Pant A. (2001). Crude oil degradation by a marine actinomycete Rhodococcus sp., Indian Journal of Marine Science, 30, 146–150.
53. Suthindhiran, K. & Kannabiran K. (2009). Hemolytic activity of Streptomyces VITSDK1 spp. isolated from marine sediments in southern India. Journal of Medical Mycology, 19, 77–86.
54. Suzuki, K. Nagai, K. Shimizu Y. & Suzuki Y. (1994). Search for Actinomycetes in screening for new bioactive compounds. Actinomycetologica, 8, 122–127.
55. Tadych, M. & Blaszkowski J. (2000). Arbuscular fungi and mycorrhizae (Glomales) of Slowinski National Park, Poland. Mycotaxon, 74, 463–482.
56. Uraban-Malinga, B. & Opaliński K.W. (2001). Interstitial community oxygen consumption in a Baltic sandy beaches: horizontal zonation. Oceanology, 43, 455 - 468.
57. Vezzulli, L. Zotti, M. Marin, V. Moreno, M. Pezzati E. & Fabiano M. (2008). Swash zone interstitial water is reservoir of fungal microorganisms on Mediterranean beach (Genoa City, Italy). JMBA Biodiversity Records, 2, 1–3.
58. Vieira, R.H.S.F. Rodrigues, D.P. Menezes, E.A. Evangelista, N.S.S. Reis, E.M.F. Barreto L.M. & Gonçalves F.A. (2001). Microbial contamination of sand from major beaches in Fortaleza Ceará State, Brazil. Brazilian Journal of Microbiology, 32, 77–80.
59. Vijayakumar, R. Muthukumar, C. Trajudin, N. Panneerselavan R. & Vsaravanamuthu R. (2007). Studies on the diversity of actinomycetes in the Palk Strait region of Bay of Bengal, India. Actinomycetologica, 21, 59-65.
60. Vimal, V. Rajan M.B. & Kannabiran K. (2009). Antimicrobial activity of marine Actinomycete, Nocardiopsis sp. VITSVK 5(FJ973467). Asian Journal of Medical Sciences, 1, 57–63.
61. Vogel, C. Rogerson, A. Schatz, S. Laubach, H. Tallman A. & Fell J. (2007). Prevalence of yeasts in beach sand at three bathing beaches in South Florida. Water Research, 41, 1915–1920.
62. Watanabe, T. Watanabe Y. & Nakamura K. (2003). Myrothecium dimorphum, sp. nov., a soil fungi from beach sand in the Bonin (Ogasawara) Islands, Japan. Mycoscience, 44, 283–286.
63. Zaitlin, B. Turkington, K. Parkinson D. & Clayton G. (2004). Effects of tillage and inorganic fertilizers on culturable soil actinomycete communities and inhibion of fungi by specific actinomycetes. Applied Soil Ecology, 26, 53–62.
64. Zakaria, L. Yee, T.L. Zakaria M. & Salleh B. (2011). Diversity of microfungi in sandy beach soil of Teluk Aling, Pulau Pinang. Tropical Life Sciences Research, 22, 87–97.
65. Zawadzka, E. (1996). Litho - morphodynamics in the vicinity of small ports of the Polish Central Coast. (In:) Taussik J, Mitchel J. (eds) Partnership of the Coastal Management, Samara Publ. Limited, Cardigan GB.
66. Zawadzka-Kahlau, E. (1999). Trends in South Baltic coast development during the last hundred years. Peribalticum, 7, 115–136.

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-3d8a7a9d-b2c7-48f2-9058-f4231bd6c749