Fungos micorrízicos arbusculares em solos de área poluída com metais pesados

Klauberg-Filho, O.; Siqueira, J. O.; Moreira, F. M. S.

doi:10.1590/S0100-06832002000100012

Resumos

Os fungos micorrízicos arbusculares (FMAs) ocorrem de forma generalizada e formam importante simbiose com a maioria das plantas, mesmo em solos poluídos com metais pesados. Neste estudo, avaliaram-se a ocorrência e a diversidade dos FMAs em quatro locais com gramíneas em uma área de solo contaminado com metais pesados pela extração e industrialização do Zn. Verificou-se a ocorrência generalizada dos FMAs nos locais estudados, sendo esta influenciada pelas concentrações de metais no solo. Encontrou-se um total de 21 espécies, sendo: sete pertencentes ao gênero Acaulospora, seis de Scutellospora, cinco de Glomus, duas de Gigaspora e uma de Entrophospora,Glomus occultum, Acaulospora morrowiae, Acaulospora mellea, Glomus intraradices, Glomus clarum e Scutellospora pellucida foram as de maior ocorrência. A densidade de esporos, a riqueza de espécies e o aumento da dominância relacionaram-se inversamente com as concentrações de metais no solo. Acaulospora mellea, Glomus clarum e Glomus occultum dominaram as populações de esporos no solo. Concluiu-se que os metais pesados exerceram efeito diferenciado sobre os FMAs, dependendo do grau de poluição.

poluição do solo; ecologia microbiana; diversidade de fungos micorrízicos

The arbuscular mycorrhizal fungi (AMF) are ubiquitous establishing symbiosis with a large number of plants in spite of soil contamination with heavy metals.This study aimed to evaluate AMF occurrence and diversity in soils of four locations cultivated with grass species and contaminated with heavy metals as a result of Zn extraction and industrialization. AMFs were found in all locations, with species predominance being affected by heavy metal concentration in soil. Twenty one species were identified, belonging to the following genus: Acaulospora (seven species), Scutellospora (six species), Glomus (five species), Gigaspora (two species), Entrophospora (one species).The most frequent species identified were: Glomus occultum, Acaulospora morrowiae, Acaulospora mellea, Glomus intraradiaces, Glomus clarum, and Scutellospora pellucida. Spore density, species richness and increase in species dominance were all inversely related to heavy metal concentration.The AMF populations were dominated by Acaulospora mellea, Glomus clarum, and Glomus occultum.It was concluded that heavy metals exert differential effects on AMF populations, which are affected by the level of heavy metal pollution.

soil pollution; microbial ecology; heavy metals; arbuscular mycorrhizal fungi; mycorrhizal fungi diversity

SEÇÃO III - BIOLOGIA DO SOLO

Fungos micorrízicos arbusculares em solos de área poluída com metais pesados(¹ (1 ) Parte da Tese de Doutorado do primeiro autor, apresentada ao Departamento de Ciência do Solo da Universidade Federal de Lavras - UFLA. Financiado pelo convênio FAEPE/CMM e FAPEMIG. )

Vesicular arbuscular mycorrhizae fungi in soils polluted with heavy metals

O. Klauberg-Filho^I; J. O. Siqueira^II; F. M. S. Moreira^II

^IProfessor do Departamento de Ciência do Solo, Universidade do Estado de Santa Catarina - UDESC-CAV. Caixa Postal 281, CEP 88520-000 Lages (SC). E-mail: a2okf@cav.udesc.br

^IIProfessor do Departamento de Ciência do Solo, Universidade Federal de Lavras - UFLA. Caixa Postal37, CEP 37200-000 Lavras (MG). Bolsista do CNPq

RESUMO

Os fungos micorrízicos arbusculares (FMAs) ocorrem de forma generalizada e formam importante simbiose com a maioria das plantas, mesmo em solos poluídos com metais pesados. Neste estudo, avaliaram-se a ocorrência e a diversidade dos FMAs em quatro locais com gramíneas em uma área de solo contaminado com metais pesados pela extração e industrialização do Zn. Verificou-se a ocorrência generalizada dos FMAs nos locais estudados, sendo esta influenciada pelas concentrações de metais no solo. Encontrou-se um total de 21 espécies, sendo: sete pertencentes ao gênero Acaulospora, seis de Scutellospora, cinco de Glomus, duas de Gigaspora e uma de Entrophospora,Glomus occultum, Acaulospora morrowiae, Acaulospora mellea, Glomus intraradices, Glomus clarum e Scutellospora pellucida foram as de maior ocorrência. A densidade de esporos, a riqueza de espécies e o aumento da dominância relacionaram-se inversamente com as concentrações de metais no solo. Acaulospora mellea, Glomus clarum e Glomus occultum dominaram as populações de esporos no solo. Concluiu-se que os metais pesados exerceram efeito diferenciado sobre os FMAs, dependendo do grau de poluição.

Termos de indexação: poluição do solo, ecologia microbiana, diversidade de fungos micorrízicos.

SUMMARY

The arbuscular mycorrhizal fungi (AMF) are ubiquitous establishing symbiosis with a large number of plants in spite of soil contamination with heavy metals.This study aimed to evaluate AMF occurrence and diversity in soils of four locations cultivated with grass species and contaminated with heavy metals as a result of Zn extraction and industrialization. AMFs were found in all locations, with species predominance being affected by heavy metal concentration in soil. Twenty one species were identified, belonging to the following genus: Acaulospora (seven species), Scutellospora (six species), Glomus (five species), Gigaspora (two species), Entrophospora (one species).The most frequent species identified were: Glomus occultum, Acaulospora morrowiae, Acaulospora mellea, Glomus intraradiaces, Glomus clarum, and Scutellospora pellucida. Spore density, species richness and increase in species dominance were all inversely related to heavy metal concentration.The AMF populations were dominated by Acaulospora mellea, Glomus clarum, and Glomus occultum.It was concluded that heavy metals exert differential effects on AMF populations, which are affected by the level of heavy metal pollution.

Index terms: soil pollution, microbial ecology, heavy metals, arbuscular mycorrhizal fungi, mycorrhizal fungi diversity.

Texto completo disponível apenas em PDF.

Full text available only in PDF format.

LITERATURA CITADA

Recebido para publicação em junho de 2000

Aprovado em agosto de 2001

ALVARENGA, M.I.N. Propriedades físicas, químicas e biológicas de um Latossolo Vermelho-Escuro em diferentes ecossistemas. Lavras, Universidade Federal de Lavras, 1996. 211p. (Tese de Doutorado)
BAREA, J.M.; AZCÓN-AGUILAR, C.; OCAMPO, J.A. & AZCÓN, R. Morfologia, anatomia y citologia de las micorrizas vesiculo-arbusculares. In: BAREA, J.M. & LIVARES, J., eds. Fijación y movilización biológica de nutrientes, Madrid, 1991. p.149-173.
BETHLENFALVAY, G.J. & FRANSON, R.L. Manganese toxicity alleviated by mycorrhizae in soybean. J. Plant Nutr., 12:953-970, 1989.
BRUNDRETT, M. Mycorrhizas in natural ecosystems. Adv. Ecol. Res., 21:171- 313, 1991.
CHRISTIE, P. & KILPATRICK, D.J. Vesicular-arbuscular mycorrhiza infection and cut grassland following long-term slurry application. Soil Biol. Biochem., 24:325-330, 1992.
COLPAERT, J.V. Biological interactions: the significance of root-microbial symbioses for phytorestauration of metal - contaminated soils. In: VANGRONSVEL, J. & CUNNINGHAM, S.D., eds. Metal-contaminated soils georgetown, 1998. p.75-84.
CORBETT, E.A.; ANDERSON, R.C. & RODGERS, C.S. Prairie revegetation of strip mine in Illinois: fifteen years after establishment. Rest. Ecol., 4:346-354, 1996.
CUENCA, G.; ANDRADE, Z. & ESCALANTE, G. Diversity of Glomalean spores from natural disturbed and revegetated communities growing on nutrient-poor tropical soils. Soil Biol. Biochem., 30:711-719, 1998.
DAHLIN, S.; ERNST, W.; MARTENSSON, A.T. & BAATH, E. Where's the limit? Changes in the microbiological properties of agricultural soils at low levels of metal contamination. Soil Biol. Biochem., 29:1405-1415, 1997.
DIAS JUNIOR, H.E.; MOREIRA, F.M.S.; SIQUEIRA, J.O. & SILVA, R. Metais pesados, densidade e atividade microbiana em solo contaminado por rejeitos de indústria de zinco. R. Bras. Ci. Solo, 22:631-640, 1998.
DÍAZ-RAVIÑA, M. & BAATH, E. Development of metal tolerance in soil bacterial communities exposed to experimentally increased metal levels. Appl. Environm. Microbiol., 62:2970-2977, 1996.
EMPRESA BRASILEIRA DE PESQUISA AGROPECUÁRIA - EMBRAPA. Manual de métodos de análise do solo. Rio de Janeiro, 1979. não paginado.
ERNST, W.H.O.; VAN DUIN, W.E. & OOLBEKKING, G.T. Vesicular-arbuscular mycorrhiza in dune vegetation. Acta Bot. Neerl., 33:151-160, 1984.
GALLI, U.; SCHÜEPP, H. & BRUNOLD, C. Heavy metal binding by mycorrhizal fungi. Physiol. Plant., 92:364-368, 1993.
GERDEMANN, J.B. & NICOLSON, T.H. Spores of mycorrhizal Endogone species extracted from soil by wet sieving and decanting. Trans. British Mycol. Soc., 46:235-246, 1963.
GILDON, A. & TINKER, P.B. A Heavy metal-tolerant strain of a mycorrhizal fungus. Trans. Br. Mycol. Soc., 77:648-649, 1981.
GILDON, A. & TINKER, P.B. Interactions of vesicular-arbuscular infection and heavy metal in plants. I. The effect of heavy metals on the development of vesicular-arbuscular mycorrhizas. New Phytol., 95:247-261, 1983.
GIOVANNETTI, W.A.J. & MOSSE, B. An evaluation of techniques for measuring vesicular arbuscular mycorrhizal infection in roots. New Phytol., 84:489-400, 1980.
GRIFFIÖEN, W.A.J. Characterization of a heavy metal tolerant endomycorrhizal fungus from surroundings of a zinc refinery. Mycorrhiza, 4:197-200, 1994.
GRIFFIÖEN, W.A.J.; IETSWAART, J.H. & ERNEST, W.H.O. Mycorrhizal infection of an Agrostis capillaris population on copper contaminated soil. Plant Soil, 158:83-89, 1994.
INVAM. International Culture Collection of Arbuscular and Vesicular-Arbuscular Mycorrhizal Fungi. URL: http://invam.caf.wvu.edu/myc_info/taxonomy/species.htm Consultado em 1998.
IETSWAART, J.H.; GRIFFIÖEN, W.A.J. & ERNST, W.H.O. Seasonality of VAM infection in three populations of Agrostis capillaris (Gramineae) on soil with or without heavy metal enrichment. Plant Soil, 139:67-73, 1992.
JEFFRIES, P. & DODD, J.CC. Functional ecology of micorrhizal fungi in sustainable soil-plant systems. In: AZCON-AGUILAR, C. & BAREA, J.M., eds. Mycorrhizas in integrated systems: from genes to plant development. Luxembourg, European Commission, EUR 16728, 1996. p.497-501.
KABATA-PENDIAS, A. & PENDIAS, H. Trace elements in soils and plants. Boca Raton, CRC Press, 1985. 315p.
KOSKE, R.E. & GEMMA, J.N. A modified procedure for staning roots to detect VA mycorrhizas. Mycol. Res., 92:486-488, 1989.
KOSKE. R.E. & WALKER, C. Species of Scutellospora (Endogonaceae) with smooth-walled spores from maritime sand dunes: two new species and a redescription of the spores Scutellospora pellucida and Scutellospora calospora Mycotaxon, 27:219-235, 1986.
KURLE, J.E. & PFLEGER, F.L. Management influences on arbuscular mycorrhizal fungal species composition in a corn-soybean rotation. Agron. J., 88:155-161, 1996.
LEYVAL, C.; TURNAU, K. & HASELWANDTER, K. Effect of heavy metal pollution on mycorrhizal colonization and function: physiological, ecological and applied aspects. Mycorrhiza, 7:139-153, 1997.
MIRANDA, J.C.C. & MIRANDA, L.N. Micorriza arbuscular. In: Biologia dos solos dos cerrados. VARGAS, M.A.T. & HUNGRIA, M., eds. Planaltina, Empresa Brasileira de Pesquisa Agropecuária, 1997. p.69-123.
MORTON, J.B. Problems and solutions for integration of glomalean taxonomy, systematic biology, and the study of mycorrhizal phenomena. Mycorrhiza, 2:97-109, 1993.
NOGUEIRA, A.V. As micorrizas e o excesso de metais. In: SIQUEIRA, J.O., ed. Avanços em fundamentos e aplicação de micorrizas. Lavras: Universidade Federal de Lavras, 1996. p.135-174.
NOYD, R.K.; PFLEGER, F.L. & RUSSELLE, M.P. Interactions beween native prairie grasses and indigenous arbuscular mycorrhizal fungi: implications for reclamation of taconite iron ore tailing. New Phytol., 129:651-660, 1995.
PAWLOWSKA, T.E.; BLASZKOWSKI, J. & RÜHLING, A. The mycorrhizal status of plants colonizing a calamine spoil mound in southern Poland. Mycorrhiza, 6:499-505, 1996.
RAMAN, N.; NAGARAJAN, N.; GOPINATHAN, S.; SAMBANDAN, K. Mycorrhizal status of plant species colonizing a magnesite mine spoil in India. Biol. Fertil. Soils, 16:76-78, 1993.
RIBEIRO FILHO, M.R.; CURI, N.; SIQUEIRA, J.O. & MOTTA, P.E.F. Metais pesados em solos de área de rejeitos de indústria de processamento de zinco. R. Bras. Ci. Solo, 23:453-464, 1999.
SAGGIN-JÚNIOR, O.J. & SIQUEIRA, J.O. Micorrizas arbusculares em cafeeiro. In: SIQUEIRA, J.O., ed. Avanços em fundamentos e aplicação de micorrizas. Lavras, Universidade Federal de Lavras, 1996. p.203-254.
SAMBANDAN, K.; KANNAN, K. & RAMAN, N. Distribution of vesicular-arbuscular mycorrhizal fungi in heavy metal polluted soils of Tamil Nadu, Índia. J. Environ. Biol., 13:159-167, 1992.
SCHENCK, N.C.; SIQUEIRA, J.O. & OLIVEIRA, E. Changes in the incidence of mycorrhizal fungi with changes in ecosystems. In: VANCURA, V. & KUNC, F., eds. Interrelationships between microorganisms and plants in soil. New York, Elsevier, 1989. p.125-129.
SCHENCK, N.C. & PEREZ, Y. Manual for identification of VA mycorrhizal fungi. Synergistic, 2. ed. Gainesville, INVAM, 1987. 244p.
SIQUEIRA, J.O.; COLOZZI-FILHO, A. & OLIVEIRA, E. Ocorrência de micorrizas arbusculares em agro e ecossistemas do estado de Minas Gerais. Pesq. Agropec. Bras., 24:1499-1506, 1989.
SIQUEIRA, J.O.; PEREIRA, M.A.M.; SIMÃO, J.B.P.; MOREIRA, F.M.S. Efeito da formononetina (7 Hidroxi, 4' metoxi Isoflavona) na colonização micorrízica e crescimento do milho em solo contendo excesso de metais pesados. R. Bras. Ci. Solo, 23:561-568, 1999.
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VANGRONSVELD, J.; COLPAERT, J.V. & VAN TICHELEN, K.K. Reclamation of a bare industrial area contaminated by non-ferrous metals: physicochemical and biological evaluation of the durability of soil treatment and revegetation. Environ. Poll., 94:131-140, 1996.
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WEISSENHORN, I.; LEYVAL, C. & BERTHELIN, J. Cd-tolerant arbuscular mycorrhizal (AM) fungi from heavy-metal polluted soils. Plant Soil, 157:247-256, 1993.
WEISSENHORN, I.; LEYVAL, C. & BERTHELIN, J. Bioavalability of heavy metals and abundance of arbuscular mycorrhiza in a soil polluted by atmospheric deposition from a smelter. Biol. Fertil. Soils, 19:22-28, 1995a.
WEISSENHORN, I.; MENCH, M. & LEYVAL, C. Bioavailability of heavy metals and arbuscular mycorrhiza in a sewage-sludge-amended sandy soil. Soil Biol. Biochem., 27:287-296, 1995b.

(1

) Parte da Tese de Doutorado do primeiro autor, apresentada ao Departamento de Ciência do Solo da Universidade Federal de Lavras - UFLA. Financiado pelo convênio FAEPE/CMM e FAPEMIG.

Datas de Publicação

Publicação nesta coleção
30 Set 2014
Data do Fascículo
Mar 2002

Histórico

Recebido
Jun 2000
Aceito
Ago 2001

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

[1] ALVARENGA, M.I.N. Propriedades físicas, químicas e biológicas de um Latossolo Vermelho-Escuro em diferentes ecossistemas. Lavras, Universidade Federal de Lavras, 1996. 211p. (Tese de Doutorado)

[2] BAREA, J.M.; AZCÓN-AGUILAR, C.; OCAMPO, J.A. & AZCÓN, R. Morfologia, anatomia y citologia de las micorrizas vesiculo-arbusculares. In: BAREA, J.M. & LIVARES, J., eds. Fijación y movilización biológica de nutrientes, Madrid, 1991. p.149-173.

[3] BETHLENFALVAY, G.J. & FRANSON, R.L. Manganese toxicity alleviated by mycorrhizae in soybean. J. Plant Nutr., 12:953-970, 1989.

[4] BRUNDRETT, M. Mycorrhizas in natural ecosystems. Adv. Ecol. Res., 21:171- 313, 1991.

[5] CHRISTIE, P. & KILPATRICK, D.J. Vesicular-arbuscular mycorrhiza infection and cut grassland following long-term slurry application. Soil Biol. Biochem., 24:325-330, 1992.

[6] COLPAERT, J.V. Biological interactions: the significance of root-microbial symbioses for phytorestauration of metal - contaminated soils. In: VANGRONSVEL, J. & CUNNINGHAM, S.D., eds. Metal-contaminated soils georgetown, 1998. p.75-84.

[7] CORBETT, E.A.; ANDERSON, R.C. & RODGERS, C.S. Prairie revegetation of strip mine in Illinois: fifteen years after establishment. Rest. Ecol., 4:346-354, 1996.

[8] CUENCA, G.; ANDRADE, Z. & ESCALANTE, G. Diversity of Glomalean spores from natural disturbed and revegetated communities growing on nutrient-poor tropical soils. Soil Biol. Biochem., 30:711-719, 1998.

[9] DAHLIN, S.; ERNST, W.; MARTENSSON, A.T. & BAATH, E. Where's the limit? Changes in the microbiological properties of agricultural soils at low levels of metal contamination. Soil Biol. Biochem., 29:1405-1415, 1997.

[10] DIAS JUNIOR, H.E.; MOREIRA, F.M.S.; SIQUEIRA, J.O. & SILVA, R. Metais pesados, densidade e atividade microbiana em solo contaminado por rejeitos de indústria de zinco. R. Bras. Ci. Solo, 22:631-640, 1998.

[11] DÍAZ-RAVIÑA, M. & BAATH, E. Development of metal tolerance in soil bacterial communities exposed to experimentally increased metal levels. Appl. Environm. Microbiol., 62:2970-2977, 1996.

[12] EMPRESA BRASILEIRA DE PESQUISA AGROPECUÁRIA - EMBRAPA. Manual de métodos de análise do solo. Rio de Janeiro, 1979. não paginado.

[13] ERNST, W.H.O.; VAN DUIN, W.E. & OOLBEKKING, G.T. Vesicular-arbuscular mycorrhiza in dune vegetation. Acta Bot. Neerl., 33:151-160, 1984.

[14] GALLI, U.; SCHÜEPP, H. & BRUNOLD, C. Heavy metal binding by mycorrhizal fungi. Physiol. Plant., 92:364-368, 1993.

[15] GERDEMANN, J.B. & NICOLSON, T.H. Spores of mycorrhizal Endogone species extracted from soil by wet sieving and decanting. Trans. British Mycol. Soc., 46:235-246, 1963.

[16] GILDON, A. & TINKER, P.B. A Heavy metal-tolerant strain of a mycorrhizal fungus. Trans. Br. Mycol. Soc., 77:648-649, 1981.

[17] GILDON, A. & TINKER, P.B. Interactions of vesicular-arbuscular infection and heavy metal in plants. I. The effect of heavy metals on the development of vesicular-arbuscular mycorrhizas. New Phytol., 95:247-261, 1983.

[18] GIOVANNETTI, W.A.J. & MOSSE, B. An evaluation of techniques for measuring vesicular arbuscular mycorrhizal infection in roots. New Phytol., 84:489-400, 1980.

[19] GRIFFIÖEN, W.A.J. Characterization of a heavy metal tolerant endomycorrhizal fungus from surroundings of a zinc refinery. Mycorrhiza, 4:197-200, 1994.

[20] GRIFFIÖEN, W.A.J.; IETSWAART, J.H. & ERNEST, W.H.O. Mycorrhizal infection of an Agrostis capillaris population on copper contaminated soil. Plant Soil, 158:83-89, 1994.

[21] INVAM. International Culture Collection of Arbuscular and Vesicular-Arbuscular Mycorrhizal Fungi. URL: http://invam.caf.wvu.edu/myc_info/taxonomy/species.htm Consultado em 1998.

[22] IETSWAART, J.H.; GRIFFIÖEN, W.A.J. & ERNST, W.H.O. Seasonality of VAM infection in three populations of Agrostis capillaris (Gramineae) on soil with or without heavy metal enrichment. Plant Soil, 139:67-73, 1992.

[23] JEFFRIES, P. & DODD, J.CC. Functional ecology of micorrhizal fungi in sustainable soil-plant systems. In: AZCON-AGUILAR, C. & BAREA, J.M., eds. Mycorrhizas in integrated systems: from genes to plant development. Luxembourg, European Commission, EUR 16728, 1996. p.497-501.

[24] KABATA-PENDIAS, A. & PENDIAS, H. Trace elements in soils and plants. Boca Raton, CRC Press, 1985. 315p.

[25] KOSKE, R.E. & GEMMA, J.N. A modified procedure for staning roots to detect VA mycorrhizas. Mycol. Res., 92:486-488, 1989.

[26] KOSKE. R.E. & WALKER, C. Species of Scutellospora (Endogonaceae) with smooth-walled spores from maritime sand dunes: two new species and a redescription of the spores Scutellospora pellucida and Scutellospora calospora Mycotaxon, 27:219-235, 1986.

[27] KURLE, J.E. & PFLEGER, F.L. Management influences on arbuscular mycorrhizal fungal species composition in a corn-soybean rotation. Agron. J., 88:155-161, 1996.

[28] LEYVAL, C.; TURNAU, K. & HASELWANDTER, K. Effect of heavy metal pollution on mycorrhizal colonization and function: physiological, ecological and applied aspects. Mycorrhiza, 7:139-153, 1997.

[29] MIRANDA, J.C.C. & MIRANDA, L.N. Micorriza arbuscular. In: Biologia dos solos dos cerrados. VARGAS, M.A.T. & HUNGRIA, M., eds. Planaltina, Empresa Brasileira de Pesquisa Agropecuária, 1997. p.69-123.

[30] MORTON, J.B. Problems and solutions for integration of glomalean taxonomy, systematic biology, and the study of mycorrhizal phenomena. Mycorrhiza, 2:97-109, 1993.

[31] NOGUEIRA, A.V. As micorrizas e o excesso de metais. In: SIQUEIRA, J.O., ed. Avanços em fundamentos e aplicação de micorrizas. Lavras: Universidade Federal de Lavras, 1996. p.135-174.

[32] NOYD, R.K.; PFLEGER, F.L. & RUSSELLE, M.P. Interactions beween native prairie grasses and indigenous arbuscular mycorrhizal fungi: implications for reclamation of taconite iron ore tailing. New Phytol., 129:651-660, 1995.

[33] PAWLOWSKA, T.E.; BLASZKOWSKI, J. & RÜHLING, A. The mycorrhizal status of plants colonizing a calamine spoil mound in southern Poland. Mycorrhiza, 6:499-505, 1996.

[34] RAMAN, N.; NAGARAJAN, N.; GOPINATHAN, S.; SAMBANDAN, K. Mycorrhizal status of plant species colonizing a magnesite mine spoil in India. Biol. Fertil. Soils, 16:76-78, 1993.

[35] RIBEIRO FILHO, M.R.; CURI, N.; SIQUEIRA, J.O. & MOTTA, P.E.F. Metais pesados em solos de área de rejeitos de indústria de processamento de zinco. R. Bras. Ci. Solo, 23:453-464, 1999.

[36] SAGGIN-JÚNIOR, O.J. & SIQUEIRA, J.O. Micorrizas arbusculares em cafeeiro. In: SIQUEIRA, J.O., ed. Avanços em fundamentos e aplicação de micorrizas. Lavras, Universidade Federal de Lavras, 1996. p.203-254.

[37] SAMBANDAN, K.; KANNAN, K. & RAMAN, N. Distribution of vesicular-arbuscular mycorrhizal fungi in heavy metal polluted soils of Tamil Nadu, Índia. J. Environ. Biol., 13:159-167, 1992.

[38] SCHENCK, N.C.; SIQUEIRA, J.O. & OLIVEIRA, E. Changes in the incidence of mycorrhizal fungi with changes in ecosystems. In: VANCURA, V. & KUNC, F., eds. Interrelationships between microorganisms and plants in soil. New York, Elsevier, 1989. p.125-129.

[39] SCHENCK, N.C. & PEREZ, Y. Manual for identification of VA mycorrhizal fungi. Synergistic, 2. ed. Gainesville, INVAM, 1987. 244p.

[40] SIQUEIRA, J.O.; COLOZZI-FILHO, A. & OLIVEIRA, E. Ocorrência de micorrizas arbusculares em agro e ecossistemas do estado de Minas Gerais. Pesq. Agropec. Bras., 24:1499-1506, 1989.

[41] SIQUEIRA, J.O.; PEREIRA, M.A.M.; SIMÃO, J.B.P.; MOREIRA, F.M.S. Efeito da formononetina (7 Hidroxi, 4' metoxi Isoflavona) na colonização micorrízica e crescimento do milho em solo contendo excesso de metais pesados. R. Bras. Ci. Solo, 23:561-568, 1999.

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Brasil

Brasil

Fungos micorrízicos arbusculares em solos de área poluída com metais pesados

Vesicular arbuscular mycorrhizae fungi in soils polluted with heavy metals

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Datas de Publicação

Histórico