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Litterfall and litter nutrient content in primary and secondary Amazonian ‘terra firme’ rain forest

Published online by Cambridge University Press:  10 July 2009

Mario Dantas
Affiliation:
Animal Ecology Research Group, Department of Zoology, University of Oxford, South Parks Road, Oxford, OX1 3PS, England
John Phillipson
Affiliation:
Animal Ecology Research Group, Department of Zoology, University of Oxford, South Parks Road, Oxford, OX1 3PS, England

Abstract

Litterfall in primary and secondary forests (‘capoeira’) in eastern Brazilian Amazonia was measured fortnightly from August 1979 to October 1980. The nutrient contents of the litter (N, P, K, Ca and Mg) were determined.

Litterfall differed between the two forest types (primary forest − 8.04 t ha−1 yr−1; secondary forest − 5.04 t ha−1 yr−1). The value obtained for primary forest was similar to those reported elsewhere in Brazil (mean = 8 t ha−1 yr−1) and from other regions of S. America (mean = 7.20 t ha−1 yr−1).

Prediction of net primary production from litterfall at the primary forest site gave rise to values of 14.47 and 26.53 t ha−1 yr−1. Estimates of net primary production in ‘capoeira’ ranged from 9.07 to 16.63 t ha−1 yr−1.

Seasonality of litterfall was more marked in ‘capoeira’ than primary forest but in both cases was less pronounced than elsewhere in Brazil.

Nutrient concentrations were highest in ‘capoeira’ litter, a finding which accords with results from other tropical sites; nevertheless input of nutrients per unit area of forest floor was greatest in the primary forest.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1989

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References

LITERATURE CITED

Allen, S. E., Grjmshaw, H. M., Parkinson, J. A. & Quarmby, C. (eds). 1974. Chemical analysis of ecological materials. Oxford, Blackwell Scientific Publications. 565 pp.Google Scholar
Adis, J., Furch, K. & Irmler, U. 1979. Litter production of a Central Amazonian blackwater inundation forest. Tropical Ecology 20:236245.Google Scholar
Bartholomew, W. V., Meyer, J. & Laudelout, H. 1953. Mineral nutrient immobilization under forest and grass fallow in the Yangambi (Belgian Congo) region. Publications de L'Institut National pour L'etude Agronomique du Congo Belge (INEAC) Serie Scientifique n 57pp. 128131.Google Scholar
Bazilevich, N. I., Drozdov, A. V. & Rodin, L. E. 1971. World forest productivity, its basic regularities and relationship with climatic factors. Pp. 345353 in Duvigneaud, P. (ed.). Productivity of forest ecosystems. Unesco, Paris, Proceedings of the Brussels Symposium (27–31 10 1969).Google Scholar
Beard, J. S. 1944. Climax vegetation in tropical America. Ecology 25:127158.CrossRefGoogle Scholar
Bernhard, F. 1970. Etude de la litiere et de sa contribution au cycle des elements mineraux en forest ombrophile de Cote d'lvoire. Oecologia Plantarum 5:247266.Google Scholar
Bray, J. R. & Gorham, F. 1964. Litter production in forests of the world. Advances in Ecological Research 2:101157.CrossRefGoogle Scholar
Brown, S. & Lugo, A. E. 1982. The storage and production of organic matter in tropical forests and their role in the global carbon cycle. Biotropica 14:161187.CrossRefGoogle Scholar
Cornforth, I. S. 1970. Leaf-fall in a tropical rain forest. Journal of Applied Ecology 7:603608.CrossRefGoogle Scholar
Cuevas, E. & Medina, E. 1986. Nutrient dynamics within Amazonian forest ecosystems. I. Nutrient flux in fine litter fall and efficiency of nutrient utilization. Oecologia 68:466472.CrossRefGoogle ScholarPubMed
Dantas, M., Rodrigues, I. A. & Muller, N. R. M. 1978. Estudos fitoecologicos do tropico unido brasileiro: II. Aspectos fitossociologicos de mata sobre Latossolo Amarelo em Capitao Poco, Para. Embrapa-Cpatu, Boletim de Pesquisa n. 9. EMBRAPA-CPATU, Belem.Google Scholar
Devineau, J. L. 1976. Donnees preliminaires sur la litiere et la chute des feuilles dans quelques for mations forestieres semi-decidues de moyenne Cote-d'Ivoire. Oecologia Plantarum 11(4):375–295.Google Scholar
Edwards, P. J. 1973. A study of nutrient cycling in New Guina montane forest. PhD dissertation, University of Cambridge.Google Scholar
Edwards, P. J. 1977. Studies of mineral cycling in a montane rain forest in New Guinea. II. The production and disappearance of litter. Journal of Ecology 65:971992.CrossRefGoogle Scholar
Edwards, P. J. 1982. Studies of mineral cycling in a montane rain forest in New Guinea. V. Rates of cycling in throughfall and litter fall. Journal of Ecology 70:807827.CrossRefGoogle Scholar
Embrapa-Cpatu 1980. Boletim Agrometeorologico ano 1980. Belem, Embrapa-Cpatu, 1981. 66 pp.Google Scholar
Ewell, J. J. 1976. Litterfall and leaf decomposition in a tropical forest succession in eastern Guatemala. Journal of Ecology 64:293308.CrossRefGoogle Scholar
Falesi, I. C. 1972. O estado atual dos conhecimentos sobre solos da Amazonia Brasileira. Belem, Ipean, pp. 1767. (Ipean. Boletim Tecnico, 54).Google Scholar
Fittkau, E. J. 1983. Flow of nutrients in a large open system: The basis of life in Amazonia. The environmentalist 3 (Supplement n. 5):4149.Google Scholar
Fittkau, E. J. & Klinge, H. 1973. On biomass and trophic structure of the Central Amazonian rain forest ecosystem. Biotropica 5:214.CrossRefGoogle Scholar
Folster, H. & De Las Salas, G. 1976. Litter fall and mineralization in three tropical evergreen forest stands, Colombia. Acta Cientifica Venezolana 27:196202.Google Scholar
Folster, H., De Las Salas, G. & Khana, P. 1976. A tropical evergreen forest site with perched water table, Magdalena valley, Columbia Biomass and bioelement inventory of primary and secondary vegetation. Oecologia Plantarum 11:297320.Google Scholar
Franken, M. 1979. Major nutrient and energy contents of the litterfall of a riverine forest of Central Amazonia. Tropical Ecology 20:211224.Google Scholar
Franken, M., Irmler, V. & Klinge, H. 1979. Litterfall in inundation, riverine, and terra firme forests of Central Amazonia. Tropical Ecology 20:225235.Google Scholar
Golley, F. B., McGinnis, J. T., Clements, R. G., Child, G. I. & Duever, M. J. 1975. Mineral cycling in a tropical moist forest ecosystem. Athens GA, University Press, 248 pp.Google Scholar
Herrera, A. 1979. Nutrient distribution and cycling in an Amazon caatinga forest on spodosols in southern Venezuela. PhD thesis, University of Reading.Google Scholar
Irion, G. 1978. Soil infertility in the Amazonian rain forest. Naturwissenschaften 65:515519.CrossRefGoogle Scholar
Irmler, U. 1982. Litterfall and nitrogen turnover in an Amazonian blackwater inundation forest. Plant and Soil 67:355358.CrossRefGoogle Scholar
Jenny, H., Gessel, S. P. & Bingham, P. T. 1949. Comparative study of decomposition rates of organic matter in temperate and tropical regions. Soil Science 68:419432.CrossRefGoogle Scholar
Jordan, C. F. 1982. The nutrient balance of an Amazonian rain forest. Ecology 63:647654.CrossRefGoogle Scholar
Jordan, C. F. 1983. Productivity of tropical rain forest ecosystems and the implications for their use as future wood and energy sources. Pp. 117136 in Golley, F. B. (ed.). Tropical rain forest ecosystems - structure and function. Elsevier Scientific Publishing Company, Oxford, 381 pp.Google Scholar
Jordan, C. F. & Herrera, R. 1981. Tropical rain forests: are nutrients really critical? American Naturalist 117:167180.CrossRefGoogle Scholar
Jordan, C. F. & Murphy, P. G. 1978. A latitudinal gradient of wood and litter production, and its implication regarding competition and species diversity in trees. American Midland Naturalist 99:415434.CrossRefGoogle Scholar
Kellman, M. C. 1970. Secondary plant succession in tropical montane Mindanao. School of Pacific Studies, Australia National University, Canberra, Australia.Google Scholar
Kira, T. 1978. Community architecture and organic matter dynamics in tropical lowland rain forests of Southeast Asia with special reference to Pasoh Forest, West Malaysia. Pp. 561590 in Tomlinson, P. B. & Zimmerman, M. H. (eds). Tropical trees as living systems. Cambridge University Press, New York.Google Scholar
Klinge, H. 1977. Fine litter production and nutrient return to the soil in three natural forest stands of eastern Amazonia. Geo-Eco-Trop 1:159167.Google Scholar
Klinge, H. 1978. Litter production in tropical ecosystems. Malayan Nature Journal 30:415422.Google Scholar
Klinge, H. & Rodrigues, W. A. 1968a. Litter production in an area of Amazonian terra firme forest. Part I. Litter-fall, organic carbon and total nitrogen contents of litter. Amazoniana 1:287302.Google Scholar
Klinge, H. & Rodrigues, W. A. 1968b. Litter production in an Area of Amazonian terra firme forest. Part II Mineral nutrient content of the litter. Amazoniana 1:303310.Google Scholar
Kunkel-Westphal, I. & Kunkel, P. 1979. Litterfall in a Guatamalan primary forest with details of leaf-shedding by some common tree species. Journal of Ecology 67:665686.CrossRefGoogle Scholar
Laudelout, H. & Meyer, J. 1954. II.3 Les cycles d'elements mineraux et de matiere organique on foret equatoriale congolaise. International Congress of Soil Science Transactions, 5th.:267272.Google Scholar
Leith, H. 1975. Primary productivity in ecosystems: comparative analysis of global patterns. Pp. 6788 in Van Dobben, W. H. & Lowe-McConnell, R. K. (eds). Unifying concepts in ecology. W. Junk, Hague.CrossRefGoogle Scholar
Lim, M. T. 1978. Litterfall and mineral nutrient content of litter in Pasoh Forest Reserve. Malayan Nature Journal 30:375380.Google Scholar
Luizao, F. J. 1982. Producao e decomposicao da liteira em floresta de terra firme da Amazonia Central. MSc thesis submitted to Inpa/Fua, Manaus. 107 pp.Google Scholar
Madge, D. S. 1965. Leaf fall and litter disappearance in a tropical forest. Pedobiologia 5:273288.CrossRefGoogle Scholar
Marques, D. S., Santos, J. M.Dos, , Nova, N. A. V. & Salati, E. 1977. Precipitable water and water vapor flux between Belem and Manaus. Acta Amazonica 7:355362.CrossRefGoogle Scholar
Murphy, P. G. 1975. Net primary productivity in tropical terrestrial ecosystems. Pp. 217231 in Leith, H. & Whittaker, R. H. (eds). Primary productivity of the biosphere.CrossRefGoogle Scholar
Nascimento, C. N. B. & Homma, A. K. O. 1984. Amazonia: meio ambiente e tecnologia agricola. Belem, Embrapa-Cpatu. 282 pp. (Embrapa-Cpatu.Documentos, 27).Google Scholar
Nye, P. H. 1961. Organic matter and nutrient cycles under moist tropical forest. Plant and Soil 8:333346.Google Scholar
Ogawa, H. 1978. Litter production and carbon cycling in Pasoh forest. Malayan Nature Journal 30:367373.Google Scholar
Pires, J. M. 1974. Tipos de vegetacao da Amazonia. Brasil Florestal 5:4858.Google Scholar
Pires, J. M. 1978. The forest ecosystem of the Brazilian Amazon: description, functioning and research needs. Pp. 607627 in Tropical forest ecosystems. Unesco.Google Scholar
Prance, G. T., Rodrigues, W. A. & Silva, M. F. da. 1976. Inventario florestal de 1 hectare de mata de terra firme km 30 da Estrada Manaus-Itacoatiara. Acta Amazonica 6:935.CrossRefGoogle Scholar
Proctor, J. 1983. Tropical litterfall I. Problems of data comparison. Pp. 267273 in Sutton, S. L., Whitmore, T. C. & Chadwick, A. C. (eds). Tropical rain forest: ecology and management. Blackwell Scientific Publications, Oxford.Google Scholar
Proctor, J. 1984. Tropical forest litterfall II. The data set. Pp. 83113 in Chadwick, A. C. & Sutton, S. L. (eds). Tropical rain forest: the Leeds Symposium. Leeds Philosophical and Literary Society, Leeds.Google Scholar
Proctor, J., Anderson, J. M., Fogden, S. C. L. & Vallack, H. W. 1983. Ecological studies in four contrasting lowland rain forests in Gunung Mulu forests in Gunung Mulu National Park, Sarawak. II Litterfall, Litter standing crop and preliminary observations on herbivory. Journal of Ecology 71: 261283.CrossRefGoogle Scholar
Rai, S. N. 1981. Productivity of tropical rain forest of Karnataka. PhD thesis. University of Karnataka, India.Google Scholar
Rodin, L. E. & Bazilevich, N. I. 1968. World distribution of plant biomass. Pp. 4552 in Eckardt, F. E. (ed.). Functioning of terrestrial ecosystems at the primary production level. Unesco, Liege, Proceedings of the Copenhagen Symposium.Google Scholar
Silva, B. N. R. 1982. Solos da Area do Programa Grande Carajas. Belem, EMBRAPA-CPATU, 19 pp. (Documentos, 11).Google Scholar
Silva, M. F. F. 1984. Producao anual de serrapilheira e seu conteudo mineralogico em mata tropical de terra firme, Tucurui-PA. Boletim do Museu Paraense Emilio Goeldi, Botanica, 1(1/2): 111158.Google Scholar
Silva, M. F. F. & Lobo, M. G. A. 1982. Nota sobre deposicao de materia organica em floresta de terra firme, varzea e igapo. Boletim do Museu Paraense Emilio Goeldi, nova serie, botanica, 56:113.Google Scholar
Sokal, R. R. & Rohlf, F. J. 1969. Biometry. W. H. Freeman, San Francisco, 776 pp.Google Scholar
Stark, N. 1970a. Direct nutrient cycling in the Amazon basin. Pp. 172177 in Idrobo, J. M. (ed.).II Simposio y foro de biologia tropical amazonica, Florencia (Caqueta) y Leticia (Amazonas) 1969. Pax, Bogota.Google Scholar
Stark, N. 1970b. The nutrient content of plants and soils from Brazil and Surinam. Biotropica 2:5160.CrossRefGoogle Scholar
Stark, N. 1971. Nutrient cycling II. Nutrient distribution in Amazonian vegetation. Tropical Ecology 12:177201.Google Scholar
Stark, N. & Spratt, M. 1977. Root biomass and nutrient storage in rain forest oxisols near San Carlos de Rio Negro. Tropical Ecology 18:19.Google Scholar
Swift, M. J., Heal, O. W. & Anderson, J. M. 1979. Decomposition in Terrestrial Ecosystems. Blackwell, Oxford, 372 pp.CrossRefGoogle Scholar
Tanner, E. V. J. 1980. Litterfall in montane rain forests of Jamaica and its relation to climate. Journal of Ecology 68:833848.CrossRefGoogle Scholar
Ungemach, H. 1970. Chemical rain water studies in the Amazon basin. Pp. 354858 in Idrobo, J. M. (ed.). II Simposio y foro de Biologia tropical amazonica, Florencia (Caqueta) y Leticia (Amazonas) 1969. Pax, Bogota.Google Scholar
Vitousek, P. M. 1984. Litterfall, nutrient cycling, and nutrient limitation in tropical forests. Ecology 65:285298.CrossRefGoogle Scholar
Went, F. W. & Stark, N. 1968. Mycorrhiza. BioScience 18:10351039.CrossRefGoogle Scholar