A great challenge for the world's scientific community has been to find alternatives for the best use, management and conservation of the Amazonian tropical rainforest. The unbalance between increasing populations and the demand for food shows the urgency for looking for new alternatives that region, avoiding excessive degradation of natural ecosystems. In this respect, scientists in all countries in the tropics are working to understand the functioning of the rainforest and come up with alternatives to use and manage this natural resource, applying the best technology not only from an economic perspective, but principally from social and ecological perspectives. The replacement of the nutrients exported by crops is normally solved by inputs of chemical and organic fertilizers, in proportions that can vary with natural soil fertility and the nature and volume of the crops. Hence, problems like erosion, leaching, and compactation can only be solved by conservation practices utilized by farmers that change as function of land topography, precipitation, crop type, cover crop, or farming land use system, depending on the technology level of the community.
Small farmers living in Manacapuru, Iranduba, Presidente Figueiredo, and Rio Preto da Eva, in Amazonas, Brazil, work on Amazonian Dark Earth (ADE) sites, cultivating vegetables and perennial crops like oranges, coconuts, cupuaçu, and others. Their land use systems include monocultures, two species mixes, and agrofor-estry systems. In general, the small farmers report that ADE is very fertile and they never need to apply chemical and organic fertilizers to get high productivity. On the other hand, studies have shown that ADE presents some nutrient limitations to plant production. Some small farmers are using large amounts of chemical and organic fertilizers and even liming unnecessarily. This intensive exploitation and the excessive use of nutrients is causing chemical degradation (Falcão et al. 2003) and even physical degradation of ADE (Teixeira and Martins 2003).
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References
Alcarde JC, Guidolin JA, Lopes AS (1991) Os Adubos e a eficiência das adubações. 2nd ed. São Paulo: ANDA (Boletim Técnico, 3), p. 35
Alvarez Venegas VH, Novais RF, Barros NF, Cantarutti RB, Lopes AS (1999) Interpretação dos resultados das análises de solos. In: Ribeiro AC, Guimarães PTG, Alavarez Venegas VH (eds) Recomendação para o uso de corretivos e fertilizantes em Minas Gerais, 5a Aproximação. Viçosa: CFSEMG, pp. 25–32
Barber SA (1995) Soil nutrient bioavailability: A mechanistic approach. New York: Wiley, p. 414
Brady NC, Weil RR (1999) The nature and properties of soil. 12th ed. Upper Saddle River, NJ: Prentice-Hall
Buckley DH, Schmidt TM (2001) The structure of microbial communities in soil and the lasting impact of cultivation. Microbial Ecology 42:11–21
Clement CR (1999) 1492 and the loss of Amazonian crop genetic resources. I. The relation between domestication and human population decline. Economic Botany 53(2):188–202
Clement CR, McCann JM, Smith NJH (2003) Agrobiodiversity in Amazonia and its relation with Dark Earths. In: Lehmann J, Kern D, Glaser B, Woods WI (eds) Amazonian Dark Earths: Origin, properties, and management. Dordrecht: Kluwer, pp. 159–178
Clement CR, Klüppel MP, German LA, Almeida SS, Major J, Aragão LEOC, Guix JC, Lleras E, WinklerPrins AMGA, Hecht SB, McCann JM (2008) Diversidade vegetal em solos antrópicos da Amazônia {Plant diversity in Amazonian Dark Earths}. In: Teixeira WG, Madari BE, Benites VM, Kern DC, Falcão NPS (eds) As Terras Pretas de Índio — Caracterização e manejo para formação de novas áreas. Brasília: Embrapa Serviço de Informação, pp in press
Comerford NB (1998) Soil P bioavailability. In: Lynch JP, Deikman J (eds) Phosphorus in plant biology: Regulatory roles in molecular, cellular, organisms, and ecosystem processes. Rockville, MD: American Society of Plant Physiologists
Falcão NPS, Borges LF (2006) Efeito da Fertilidade de Terra Preta de Índio da Amazônia Central no Estado Nutricional e na Produtividade de Mamão Hawaii (Carica papaia L.). Acta Amazônica, 36:401–406
Falcão NPS, Silva JRA (2004) Características de adsorção de fósforo em alguns solos da Amazônia Central. Acta Amazônica 34:337–342
Falcão NPS, Carvalho EJM, Comerford N (2001) Avaliação da fertilidade de solos antropogênicos da Amazônia Central. In: Congresso da Sociedade de Arqueologia Brasileira, XI. Grupo de trabalho: Terras Pretas Arqueológicas na Amazônia: Estado da Arte. Rio de Janeiro. 2 páginas
Falcão NPS, Comerford N, Lehmann J (2003) Determining nutrient bioavailability of Amazonian Dark Earth soils — methodological challenges. In: Lehmann J, Kern D, Glaser B, Woods WI (eds) Amazonian Dark Earths: Origin, properties, and management. Dordrecht: Kluwer, pp. 255–270
Falesi O (1972) Estado Atual dos Conhecimentos sobre os Solos da Amazônia Brasileira (Parte I Zoneamento Agrícola da Amazônia). IPEAN Boletim Técnico 54:17–67
Fassbender HW (1982) Química de suelos; con énfasis en suelos de América Latina. San José, Costa Rica: Instituto Interamericano de Cooperación para la Agricultura, p. 388
Fassbender HW, Bornemisza E (1994) Química de suelos, con énfases en suelos de América Latina. San José, Costa Rica: IICA, p. 420
Fierer N, Jackson RB (2006) The diversity and biogeography of soil bacterial communities. Proceedings of the National Academy of Sciences 103:626–631
Fraser J, Cardoso T, Junqueira A, Falcão N, Clement CR (2008) Historical ecology and Dark Earths in whitewater and blackwater landscapes: Comparing the Middle Madeira and Lower Negro Rivers, this volume
Glaser B, Haumaier L, Guggenberger G, Zech W (2001) The Terra Preta phenomenon — a model for sustainable agriculture in the humid tropics. Naturwissenschaften 88:37–41
Glaser B, Woods WI (2004) Amazonian Dark Earths: exploration in space and time. Springer, Berlin: Heidelberg New York
Grosch H (2005) Rekonstruktion von Besiedlungsmuster und intensität eine Terra Preta in Zentralamazonien anhand der Kleinräumigen Nährstoffverteinlung. Master's Thesis, Universität Bayreuth, Bayreuth, Alemanha
Kern DC, Kampt N (1989) Antigos assentamentos indígenas na formação de solos com terra preta arqueológica na região de Oriximiná, Pará. Revista Brasileira de Ciência do Solo 13:219–225
Kern DC, D'Aquino G, Rodrigues TE, Franzão FJL, Sombroek W, Myers TP, Neves EG (2003) Distribution of Amazonian Dark Earths in the Brazilian Amazon. In: Lehmann J, Kern D, Glaser B, Woods WI (eds) Amazonian Dark Earths: Origin, properties, and management. Dordrecht: Kluwer, pp. 51–75
Kiehl EJ (1979) Manual de Edafologia. São Paulo: Editora Agronômica Ceres, p. 264
Kim JS, Sparovek G, Longo RM, De Melo WJ, Crowley D (2007) Bacterial diversity of terra preta and pristine forest soil from the Western Amazon. Soil Biology and Biochemistry 39:684–690
Klüppel MP (2006) Sistemas agrícolas e plantas medicinais em Terras Pretas de Índio da Amazônia Central. Dissertação de Mestrado, Agricultura no Trópico Ūmido, INPA/UFAM, Manaus, AM
Kowalchuk GA, Buma DS, de Boer W, Klinkhamer PGL, van Veen HA (2002) Effects of above-ground plant species composition and diversity on the diversity of soil-borne microorganisms. Antonie van Leeuwenhoek 81:509–520
Lehmann J, Kern DC, German LA, McCann J, Martins GC, Moreira A (2003a) Soil fertility and production potential. In: Lehmann J, Kern D, Glaser B, Woods WI (eds) Amazonian Dark Earths: Origin, properties, and management. Dordrecht: Kluwer, pp. 105–124
Lehmann J, Da Silva Jr. J, Steiner C, Nehls T, Zech Wm Glaser B (2003b) Nutrient availability and leaching in an archaeological Anthrosol and a Ferrasol of the Central Amazon basin: Fertilizer, manure and charcoal amendments. Plant and Soil 249:343–357
Liang B, Lehmann J, Solomon D, Kinyangi J, Grossman J, O'Neill B, Skjemstad JO, Thies J, Luizão FJ, Petersen J, Neves EG (2006) Black carbon increases cations exchange capacity in soils. Soil Science Society of America Journal 70:1719–1730
Lima HN (2001) Gênese, Química, Mineralogia e Micromorfologia de Solos da Amazônia Ocidental. Tese de Doutorado, Universidade Federal de Viçosa. Viçosa: Minas Gerais, p. 176
Lopes AS (2005) Reservas de minerais potássicos e produção de fertilizantes potássicos no Brasil. In: Yamada T, Roberts TL (eds) Potássio na agricultura brasileira. Piracicaba: Potafos, pp. 21–32
Major J, Clement CR, DiTommaso A (2005a) Influence of market orientation on food plant diversity of farms located on Amazonian Dark Earth in the region of Manaus, Amazonas, Brazil. Economic Botany 59(1):77–86
Major J, DiTommaso A, Lehmann J, Falcão NPS (2005b) Weed seed banks, flora and dynamics on Amazonian Dark Earth and adjacent soils in the central Brazilian Amazon. Agriculture, Ecosystems and Environment 111:1–12
Malavolta E (2006) Manual de nutrição mineral de plantas. Piracicaba: Ceres, p. 631
Marschner HM (1995) Mineral nutrition of higher plants. 2nd ed. London: Academic Press, p. 889
Nannipieri P, Ascher J, Cecherini MT, Landi L, Pietramellara G, Renella G (2003) Microbial diversity and soil functions. European Journal of Soil Science 54:655–670
Prosser JI, Bohannan BJM, Curtis TP, Ellis RJ, Firestone MK, Freckleton RP, Green JL, Green LE, Killham K, Lennon JJ, Osborn AM, Solan M, van der Gast CJ, Young JPW (2007) The role of ecological theory of microbial ecology. Nature Reviews Microbiology 5:385–392
Sanchez PA (1976) Properties and management of soils in the tropics. New York: Wiley, p. 617
Sanchez PA, Cochrane TT (1980) Soils constraints in relation to major farming systems of tropical America. Los Banos: International Rice Research Institute, pp. 106–139
Smith NJH (1980) Anthrosols and human carrying capacity in Amazonia. Ann Assoc Am Geogr, 70:553–566
Sombroek WG (1966) Amazon soils: A reconnaissance of the soils of the Brazilian Amazon region. Wageningen: Center for Agriculture Publications and Documentation
Sombroek WG, Nachtergaele FO, Hebel A (1993) Amounts, dynamics and sequestering of carbon in tropical and subtropical soils. Ambio 22:417–426
Sombroek WG, Ruivo ML, Fearnside PM, Glacer B, Lehmann J (2003) Amazonian Dark Earths as carbon stores and sinks. In: Lehmann J, Kern D, Glaser B, Woods WI (eds) Amazonian Dark Earths: Origin, properties, and management. Dordrecht: Kluwer, pp. 125–139
Souza GKA, Falcão NPS (2003) Avaliação da disponibilidade de fósforo, por diversos extratores, em amostras de solos de terra preta cultivados com milho. Anais, XII Jornada de Iniciação Científica do PIBIC/INPA, 2003, Manaus, pp. 137–138
Stauffer MD, Sulewski G (2004) Fósforo essencial para a vida, In: Yamada T, Abdala SRS (eds) Fósforo na Agricultura Brasileira, ANAIS DO SIMPóSIO SOBRE FóSFORO NA AGRICULTURA BRASILEIRA Piracicaba: Potafos
Teixeira WG, Martins GC (2003) Soil physical characterization. In: Lehmann J, Kern DC, Glacer B, Woods WI (eds) Amazonian Dark Earths: Origin, properties, managements. Dordrecht: Kluwer, pp. 271–286
Vieira LS (1988) Manual da Ciência do Solo. Com ênfase aos solosTropicais. São Paulo: Ceres, p. 464
Woods WI, McCann JM (1999) The anthropogenic origin and persistence of Amazonian Dark Earths. Yearbook, Conference of Latin Americanist Geographers 25:7–14
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Falcão, N., Clement, C., Tsai, S., Comerford, N. (2009). Pedology, Fertility, and Biology of Central Amazonian Dark Earths. In: Woods, W.I., Teixeira, W.G., Lehmann, J., Steiner, C., WinklerPrins, A., Rebellato, L. (eds) Amazonian Dark Earths: Wim Sombroek's Vision. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-9031-8_11
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