Chemical Characteristics of Soil and of the Earthworm Casts in Commercial Plantation of Eucalyptus grandis
Keywords:
Eucalyptus, Earthworm casts, Nutrient cyclingAbstract
The chemical characteristics of earthworm casts and a soil sample from a commercial plantation of Eucalyptus grandis aged 3 years old near the city of Mogi-Guaçu in the State of São Paulo, Brazil, were compared. The casts were collected at the surface of the mineral soil, while the soil was collected at depths of 0 - 5; 5 - 10; 10 - 20 and 20 - 30 cm. The Ca+2 and Mg+2 contents of casts, in comparison to the 0 to 5 cm soil depth, were 11 times higher,while the K+ contents were 3 times higher. In addition, the cation exchange capacity (CEC) and C contents were 4.41 and 2.83 more concentrated in the casts, respectively. It was observed a decrease in Aluminum saturation (m%) from 73%, in the depth of the 0-5 cm, to 45% in the casts. While the chemical characteristics of the native earthworm casts represent a distinct improvement over the soil, it remains to be seen what influence, if any, this has on the growth and nutrition of E. grandis.
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References
ABBOTT, I. Influence of some environmental factors on indigenous earthworms in the northern jarrah forest of Western Australia. Australian Journal of Soil Research, Oxford, v. 23, n. 2, p. 271-290, 1985.
BAL, L. Zoological ripening of soil. Wageningen: Agricultural Publications and Documentation, 1982. p. (Agricultural Research Report, 850).
BELLOTE, A. F. J. Nährelementversorgung und Wuchsleistung von gedüngten Eucalyptus grandis - Plantagen im Cerrado von São Paulo (Brasilien). Freiburg:Institut fur Bodenkunde und Waldernahrungslehre der Albert-Ludwigs-Universitat Freiburg, 1990. 159p. Tese apresentada para obtenção do título de Doutor.
BLOISE, R. M.; MOREIRA, G. N. C.; DYNIA, J. F. Métodos de análise de solos e calcários. Rio de Janeiro: Embrapa-SNLCS, 1979. 32 p. (Boletim Técnico, 55).
COOK, A.. G.; CRITCHLEY, B. R.; CRITCHLEY, U.; PERFECT, T. J.; YEADON, R. Effects of cultivation and DDT on earthworm activity in a forest soil in the subhumid tropics. Journal of Applied Ecology, Oxford, v. 17, n. 1, p. 21-29, 1980.
CORTEZ, J.; BOUCHÉ, M. B. Field decomposition of leaf litters: earthworm - microorganism interactions - the ploughing-in effect. Soil Biology & Biochemestry, Elmsford, v. 30, n. 6, p. 795-804, 1998.
CUENDET, G. A comparative study of the earthworm population of four different woodland types in Wytham woods, Oxford. Pedobiologia, Jena, v. 26, p. 421-439, 1984.
EDWARDS, C. A.; BOHLEN, P. J. Biology and ecology of earthworms. 3. ed. London, Chapman & Hall, 1996. p.
EDWARDS, C. A., LOFTY, J. F. Biology of earthworms. 2. ed. London: Chapman & Hall, 1977. 297 p.
EMBRAPA. Serviço Nacional de Levantamento e Conservação de Solos. Manual de métodos de análise de solo. Rio de Janeiro, 1979. Não paginado.
GONÇALVES, J. L. M.; BARROS, N. F.; NAMBIAR, E. K. S.; NOVAIS, R. F. Soil and stand management for short-rotation plantations. In: NAMBIAR, E. K. S.; BROWN, A. G. (Ed.). Management of soil, nutrients and water in tropical plantations
forests. Canberra: ACIAR, 1997. p. 379-417. (ACIAR. Monograph, 43). GUERRA, R. T. Influência de Ponstoscolex corethurus (Glossoscolecidae, Oligochaeta) na absorção de fósforo pelas plantas utilizando 32 P como traçador. Manaus: Instituto Nacional de Pesquisas da Amazônia, 1982, 80 p. Tese.
GUERRA, R. T. Sobre a comunidade de minhocas (Annelida, Minhocas) do campus da Universidade Federal do Acre, Rio Branco (AC). Revista Brasileira de Biologia, Rio de Janeiro, v. 54, n. 4, p. 593-601, 1994.
HAIMI, J.; BOUCELHAM, M. Influence of a litter feeding earthworm, Lumbricus rubellus, on soil processes in a simulated coniferous forest floor. Pedobiologia, Jena, v. 35, p. 247-256, 1991.
KANG, B. T.; AKINNIFESI, F. K.; PLEYSIER, J. L. Effect of agroforestry woody species on earthworm activity and physicochemical properties of worm casts.
Biology and Fertility of Soils, Berlin, v. 18, p. 193-199, 1994.
LEE, K. E. Eartworms: their ecology and relations with soils and land use. London: Academic Press, 1985. 411 p.
LOPES, A. S. Available water, phosphorus fixation, and zinc levels in Brazilian cerrado soils in relation to the physical, chemical, and mineralogical properties. Raleigh: North Carolina State University, 1977. 189 p. PhD Thesis.
MEINICKE, A. C. As minhocas. Ponta Grossa: Cooperativa Central Agropecuária Campos Gerais, 1982. 124 p.
OLIVEIRA, J. B.; JACOMINE, P. K. T.; CAMARGO, M. N. Classes gerais de solos do Brasil. 2. ed. Jaboticabal: FUNEP, 1992. 201 p.
PAVAN, M. A.; BLOCH, M. F.; ZEMPULSKI, H. C.; MIYAZAWA, M.; ZOCOLER, D. C. Manual de análise química de solo e controle de qualidade. Londrina: IAPAR, 1992. 40 p.
QUADROS, R. M. B. Avaliação nutricional em plantios de Eucalyptus grandis, em diferentes solos, no Estado de São Paulo. 1996. 158 f. Dissertação (Mestrado em Ciências Florestais) - Universidade Federal do Paraná, Curitiba.
RIGHI, G. R. Minhocas da América latina: diversidade, função e valor. In: CONGRESSO BRASILEIRO DE CIÊNCIA DO SOLO, 26., 1997, Rio de Janeiro. Anais... Rio de Janeiro: Sociedade Brasileira de Ciência do Solo, 1997. 1 CD-Rom.
SCHEU, S. Mucus excretion end carbon turnover of endogeic earthworms. Biology and Fertility of Soils, Berlin, v. 12, p. 217-220, 1991.
TIUNOV, A. V.; SCHEU, S. Microbial respiration, biomass, biovolume and nutrient statusin burrow walls of Lumbricus terrestris L. (Lumbricidae). Soil Biology & Biochemestry, Elmsford, v. 31, p. 2039-2048, 1999.
TIUNOV, A. V.; SCHEU, S. Microbial biomassa, biovolume and respiration in Lumbricus terrestris L. cast material of different age. Soil Biology & Biochemestry, Elmsford, v. 32, p. 265-275, 2000.
TOMLIN, A. D.; SHIPTALO, M. J.; EDWARDS, W. M.; PROTZ, R. Earthworms and their influence on soil structure and infiltration. In: HENDRIX, P. F. (Ed.). Earthworm ecology and biogeography in Norte America. Boca Raton: Lewis, 1995. p. 159-183.
TUNNERA, B.; RAMAKRISHNAN, P. S.; BHADAURIA, T. Population dynamics of earthworms and their activity in forest ecosystems of north-east India. Journal of Tropical Ecology, Tempe, v. 7, p. 305-318, 1991.
VIEIRA, L. S.; SANTOS, P. C. T. C. Amazônia: seus sonhos e outros recursos. São Paulo: Agronômica Ceres, 1987. 416 p.
VLEESCHAUWER, D.; LAL, R. Properties of worm casts under secondary tropical forest regrowth. Soil Science, Baltimore, v. 132, p. 175-181, 1981.
WOOD, T. G. The distribution of earthworms (Megascolecidae) in relation to soils, vegetation and altitude on the slopes of Mt. Kosciusko, Australia. Journal of Animal Ecology, Oxford, v. 43, p. 87-106, 1974.
ZOU, X. M. Species effects on earthworm density in tropical tree plantations in Hawaii. Biology and Fertility of Soils, Berlin, v. 15, n. 1, p. 35-38, 1993.
ZOU, X. M.; GONZALEZ, G.; EDWARDS, C. A. Changes in earthworm density and community structure during secondary succession in abandoned tropical pastures. Soil Biology & Biochemestry, Elmsford, v. 29, p. 627-629, 1997.
ZOU, X. M.; BASHKIN, M. Soil carbon accretion and earthworm recovery following revegetation in abandoned sugarcane fields. Soil Biology & Biochemestry, Elmsford, v. 30, n. 6, p. 825-830, 1998.
BAL, L. Zoological ripening of soil. Wageningen: Agricultural Publications and Documentation, 1982. p. (Agricultural Research Report, 850).
BELLOTE, A. F. J. Nährelementversorgung und Wuchsleistung von gedüngten Eucalyptus grandis - Plantagen im Cerrado von São Paulo (Brasilien). Freiburg:Institut fur Bodenkunde und Waldernahrungslehre der Albert-Ludwigs-Universitat Freiburg, 1990. 159p. Tese apresentada para obtenção do título de Doutor.
BLOISE, R. M.; MOREIRA, G. N. C.; DYNIA, J. F. Métodos de análise de solos e calcários. Rio de Janeiro: Embrapa-SNLCS, 1979. 32 p. (Boletim Técnico, 55).
COOK, A.. G.; CRITCHLEY, B. R.; CRITCHLEY, U.; PERFECT, T. J.; YEADON, R. Effects of cultivation and DDT on earthworm activity in a forest soil in the subhumid tropics. Journal of Applied Ecology, Oxford, v. 17, n. 1, p. 21-29, 1980.
CORTEZ, J.; BOUCHÉ, M. B. Field decomposition of leaf litters: earthworm - microorganism interactions - the ploughing-in effect. Soil Biology & Biochemestry, Elmsford, v. 30, n. 6, p. 795-804, 1998.
CUENDET, G. A comparative study of the earthworm population of four different woodland types in Wytham woods, Oxford. Pedobiologia, Jena, v. 26, p. 421-439, 1984.
EDWARDS, C. A.; BOHLEN, P. J. Biology and ecology of earthworms. 3. ed. London, Chapman & Hall, 1996. p.
EDWARDS, C. A., LOFTY, J. F. Biology of earthworms. 2. ed. London: Chapman & Hall, 1977. 297 p.
EMBRAPA. Serviço Nacional de Levantamento e Conservação de Solos. Manual de métodos de análise de solo. Rio de Janeiro, 1979. Não paginado.
GONÇALVES, J. L. M.; BARROS, N. F.; NAMBIAR, E. K. S.; NOVAIS, R. F. Soil and stand management for short-rotation plantations. In: NAMBIAR, E. K. S.; BROWN, A. G. (Ed.). Management of soil, nutrients and water in tropical plantations
forests. Canberra: ACIAR, 1997. p. 379-417. (ACIAR. Monograph, 43). GUERRA, R. T. Influência de Ponstoscolex corethurus (Glossoscolecidae, Oligochaeta) na absorção de fósforo pelas plantas utilizando 32 P como traçador. Manaus: Instituto Nacional de Pesquisas da Amazônia, 1982, 80 p. Tese.
GUERRA, R. T. Sobre a comunidade de minhocas (Annelida, Minhocas) do campus da Universidade Federal do Acre, Rio Branco (AC). Revista Brasileira de Biologia, Rio de Janeiro, v. 54, n. 4, p. 593-601, 1994.
HAIMI, J.; BOUCELHAM, M. Influence of a litter feeding earthworm, Lumbricus rubellus, on soil processes in a simulated coniferous forest floor. Pedobiologia, Jena, v. 35, p. 247-256, 1991.
KANG, B. T.; AKINNIFESI, F. K.; PLEYSIER, J. L. Effect of agroforestry woody species on earthworm activity and physicochemical properties of worm casts.
Biology and Fertility of Soils, Berlin, v. 18, p. 193-199, 1994.
LEE, K. E. Eartworms: their ecology and relations with soils and land use. London: Academic Press, 1985. 411 p.
LOPES, A. S. Available water, phosphorus fixation, and zinc levels in Brazilian cerrado soils in relation to the physical, chemical, and mineralogical properties. Raleigh: North Carolina State University, 1977. 189 p. PhD Thesis.
MEINICKE, A. C. As minhocas. Ponta Grossa: Cooperativa Central Agropecuária Campos Gerais, 1982. 124 p.
OLIVEIRA, J. B.; JACOMINE, P. K. T.; CAMARGO, M. N. Classes gerais de solos do Brasil. 2. ed. Jaboticabal: FUNEP, 1992. 201 p.
PAVAN, M. A.; BLOCH, M. F.; ZEMPULSKI, H. C.; MIYAZAWA, M.; ZOCOLER, D. C. Manual de análise química de solo e controle de qualidade. Londrina: IAPAR, 1992. 40 p.
QUADROS, R. M. B. Avaliação nutricional em plantios de Eucalyptus grandis, em diferentes solos, no Estado de São Paulo. 1996. 158 f. Dissertação (Mestrado em Ciências Florestais) - Universidade Federal do Paraná, Curitiba.
RIGHI, G. R. Minhocas da América latina: diversidade, função e valor. In: CONGRESSO BRASILEIRO DE CIÊNCIA DO SOLO, 26., 1997, Rio de Janeiro. Anais... Rio de Janeiro: Sociedade Brasileira de Ciência do Solo, 1997. 1 CD-Rom.
SCHEU, S. Mucus excretion end carbon turnover of endogeic earthworms. Biology and Fertility of Soils, Berlin, v. 12, p. 217-220, 1991.
TIUNOV, A. V.; SCHEU, S. Microbial respiration, biomass, biovolume and nutrient statusin burrow walls of Lumbricus terrestris L. (Lumbricidae). Soil Biology & Biochemestry, Elmsford, v. 31, p. 2039-2048, 1999.
TIUNOV, A. V.; SCHEU, S. Microbial biomassa, biovolume and respiration in Lumbricus terrestris L. cast material of different age. Soil Biology & Biochemestry, Elmsford, v. 32, p. 265-275, 2000.
TOMLIN, A. D.; SHIPTALO, M. J.; EDWARDS, W. M.; PROTZ, R. Earthworms and their influence on soil structure and infiltration. In: HENDRIX, P. F. (Ed.). Earthworm ecology and biogeography in Norte America. Boca Raton: Lewis, 1995. p. 159-183.
TUNNERA, B.; RAMAKRISHNAN, P. S.; BHADAURIA, T. Population dynamics of earthworms and their activity in forest ecosystems of north-east India. Journal of Tropical Ecology, Tempe, v. 7, p. 305-318, 1991.
VIEIRA, L. S.; SANTOS, P. C. T. C. Amazônia: seus sonhos e outros recursos. São Paulo: Agronômica Ceres, 1987. 416 p.
VLEESCHAUWER, D.; LAL, R. Properties of worm casts under secondary tropical forest regrowth. Soil Science, Baltimore, v. 132, p. 175-181, 1981.
WOOD, T. G. The distribution of earthworms (Megascolecidae) in relation to soils, vegetation and altitude on the slopes of Mt. Kosciusko, Australia. Journal of Animal Ecology, Oxford, v. 43, p. 87-106, 1974.
ZOU, X. M. Species effects on earthworm density in tropical tree plantations in Hawaii. Biology and Fertility of Soils, Berlin, v. 15, n. 1, p. 35-38, 1993.
ZOU, X. M.; GONZALEZ, G.; EDWARDS, C. A. Changes in earthworm density and community structure during secondary succession in abandoned tropical pastures. Soil Biology & Biochemestry, Elmsford, v. 29, p. 627-629, 1997.
ZOU, X. M.; BASHKIN, M. Soil carbon accretion and earthworm recovery following revegetation in abandoned sugarcane fields. Soil Biology & Biochemestry, Elmsford, v. 30, n. 6, p. 825-830, 1998.
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Published
2002-12-30
How to Cite
QUADROS, Ruth Maria Bianchini de; BELLOTE, Antonio Francisco Jurado; DIONÍSIO, Jair Alves. Chemical Characteristics of Soil and of the Earthworm Casts in Commercial Plantation of Eucalyptus grandis. Pesquisa Florestal Brasileira, [S. l.], n. 45, p. 29–39, 2002. Disponível em: https://pfb.cnpf.embrapa.br/pfb/index.php/pfb/article/view/1748. Acesso em: 18 may. 2024.
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