DIVERSITY OF ISOLATED Trichocomaceae FROM SOIL IN TWO FOREST ECOSYSTEMS

Authors

  • Marcelo Elias Fraga UFSM
  • Marcos Gervasio Pereira
  • Deivison Jesus Barbosa
  • Maruzanete Pereira Melo

DOI:

https://doi.org/10.5902/198050981771

Keywords:

Trichocomaceae, Pinus elliotti, Corymbia citriodora, soil.

Abstract

Trichocomaceae family encompasses the greatest anamorphic fungi genera: Aspergillus and Penicillium. Many from this family have been causing food degradation, biodeterioration, animal pathologies, and some species have also been used in biotechnology as well as being responsible for mycotoxins production. This survey was carried out from 2006 to 2007 on approximately 20 years old Pinus (Pinus elliotti) and Corymbia (Corymbia citriodora) two plantation areas at Universidade Federal Rural do Rio de Janeiro, Rio de Janeiro, Brazil. At each litter area, around 500 m2, parcel was set up where 10 single samples at 70 days interval were randomly sampled. Soil temperatures by digital geothermometer at sampling point time were measured. Pluviometric precipitation annual environmental temperature during the research were also quantified. Soil temperature ranging from 21.93 to 27.69 C at pinus area as well as from 22.22 to 26.58 oC at Corymbia one was reported. The monthly minimum relative humidity was 27.2/20.5 and maximum 82.6/63.2 as well as greatest precipitation levels for 22 days in January was observed. In relation to mycobiota, an increasing colony unit formation (CFU) difference at highest temperature and relative humidity ranging from 12.8 to 58.2 and 20.3 to 83.3 x 103 for Corymbia and pinus was reported. Fungi records total number presented 190 isolated ones from five genera and 54 different species: 32 Penicillium spp., 19 Aspergillus spp., one Eupenicillium javanicu, one Eurotium chevalieri and one Sclerocleista ornate, at all. The most abundant species was Penicillium decumbens, found in all samples. The periods of greatest concentration of CFU are correlated with periods of rain, humidity and temperature. Climatic variables as precipitation and temperature have been the elements which influenced the soil mycobiota changing the most.

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References

ABARCA, M. L. et al. Taxonomy and significance of black aspergilli. Antonie van Leeuwenh., v. 86, p. 33-49, Nov. 2004.

AL-MUSALLAM, A. Revision of the black Aspergillus species. 1980. 91 f. Tese (Doutorado em Microbiologia) – Utrecht University, Ultrecht, 1980.

AUER, C. G. et al. Fungos em acículas de serrapilheira de Pinus taeda L. em povoamentos com diferentes idades. Floresta, Curitiba, v. 36, n. 3, p. 433-438, set./dez. 2006.

BRIDGE, P.; SPOONER, B. Soil fungi: diversity and detection. Plant and Soil, , v. 232, p. 147-154, Jan. 2001.

CHRISTENSEN, M.; FRISVAD, J. C.; TUTHILL, D. E. Penicillium species diversity in soil and some taxonomic and ecological notes. In: SAMSON, R. A.; PITT, J. I. Integration of Modern Taxonomic Methods for Penicillium and Aspergillus Classification. Londom: Harwood Academic Publishers, 2000. p. 309-321.

DOMSCH, K. H.; GAMS, W.; ANDERSON, T. H. Compendium of soil fungi. London: Academic Press, 1993. 860 p.

EMBRAPA. Manual de métodos de análise de solo. Embrapa Solos, Rio de Janeiro. 1997. 212 p.

EMBRAPA. CNPS. Sistema Brasileiro de Classificação de Solos. 2. ed. Rio de Janeiro, EMBRAPA Solos, 2006. 306p.

GLIESSMANN, S. R. Agroecologia: processos ecológicos em agricultura sustentável. Porto Alegre: Ed. Universidade, 2000. 653 p.

GOMES, N. C. M. et al. Bacterial diversity of the rhizosphere of maize (Zea Mays) grow in tropical soil studied by temperature gradient gel electrophoresis. Plant and Soil, , v. 232, p. 167-180, Jan. 2001.

HORN, B. W. Biodiversity of Aspergillus section Flavi in the United States: A review. Food Additive Contaminant, London, v. 24, n. 10, p. 1088-1101, Oct. 2007.

KIRK, J. L. et al. Methods of studying soil microbial diversity. Journal Microbiological Methods, London, v. 58, p. 169-188, Aug. 2004.

KLICH, M. A. Identification of common Aspergillus species. Utrecht: CBS, 2002. 116 p.

KLICH, M. A.; PITT, J. I. A laboratory guide to common Aspergillus species and their teleomorphs. North Ryde: CSIRO, 1988. 116 p.

KLICH, M. A. Biogeography of Aspergillus species in soil and litter. Mycology, Lawrence, v. 94, n. 1, p. 21-27, Jan. 2002.

MARKOVINA, A.et al. Diversity of the Trichocomaceae in the Katandra Nature Reserve, Central Coast, NSW, Australia. Mycological Research, London, v. 109, p. 964-973, Sept. 2005.

MOREIRA, M. S.; SIQUEIRA, J. O.; BRUSSAARD, L. Biodiversidade do solo em ecossistemas brasileiros. Lavras: Ed. UFLA, 2008. 768 p.

PARUNGAO, M. M.; FRYAR, S. C.; HYDE, K. D. Diversity of fungi on rainforest litter in North Queensland, Australia. Biodiversity and Conservation, v. 11, p. 1185-1194, July 2002.

PEÑA, M. L. P. et al. Respiração microbiana como indicadores da qualidade do solo em ecossistema florestal. Floresta, Curitiba, v. 35, n. 1, p. 117-126, jan./abr. 2005.

PITT, J. I. A laboratory guide to common Penicillium species. Australia: Food Science Australia a Joint Venture of CSIRO and AFISC, 2000. 197 p.

RAPER, K. B.; FENNELL, D. I. The genus Aspergillus. Baltimore: Williams & Wilkins, 1965. 686 p.

SAMSON, R. A. et al. Introduction to food and airborne fungi. 6th ed., Baarn: CBS, 2000. 389 p.

SAMSON, R. A.; FRISVAD, J. C. Penicillium subgenus Penicillium: new taxonomic schemes, mycotoxins and other extrolites. Studies in Mycology, v. 49, p. 1-251, Jan. 2004.

SAMSON, R. A.; VARGA, J. Aspergillus systematic in the genomic era. Utrecht: CBS Fungal Biodiversity Centre, 2007. 207 p. (Studies in Mycology 59)

SOCIEDADE BRASILEIRA DE SILVICULTURA. O setor florestal Brasileiro: fatos em números. Dez 2007. Disponível em: Acesso em: 04 de julho de 2008.

TAUK, S. M. Biodegradação de resíduos orgânicos no solo. Revista Brasileira de Geociências, São Paulo, v. 20, n.1-4, p. 299-301, jan./abr. 1990.

TAUK-TORNISIELO, S. M. et al. Soilborne filamentous fungi in Brasil. Journal Basic Microbiological, Weinheim, v. 45, p. 72-82, Jan. 2005.

VENEDIKIAN, N.; BONAVENTURA, S. M.; GODEAS, A. M. Estudio de las comunidades fungicas de la filosfera de Pinus taeda L. (Pinaceae) I. Variacion estacional. Gayana Botanica, Chile, v. 58, n. 2, p. 47-52, enero/marzo. 2001.

VENEDIKIAN, N.; GODEAS, A. M. Estudio de la filosfera de Pinus taeda (Pinaceae). I. Poblaciones Fúngicas. Boletín de la Sociedad Argentina de Botánica, v. 31, n. 3-4, p. 193-200, junio/dic. 1996.

VIEIRA, F. C. S.; NAHAS, E. Comparison of microbiol numbers in soils by using various culture media and temperatures. Microbiological Research, London, v. 160, p. 197-202, Apr. 2005.

VIRZO de SANTO, A. et al. Fungal mycelium and decomposition of needle litter in three contrasting coniferous forests. Acta Oecologica, Paris, v. 23, p. 247-259, fev. 2002.

Published

2010-03-30

How to Cite

Fraga, M. E., Pereira, M. G., Barbosa, D. J., & Melo, M. P. (2010). DIVERSITY OF ISOLATED Trichocomaceae FROM SOIL IN TWO FOREST ECOSYSTEMS. Ciência Florestal, 20(1), 167–175. https://doi.org/10.5902/198050981771

Issue

Section

Technical Note

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