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References
Alleoni LRF, Cambri M, Caires EF, Garbuio FJ (2009). Acidity and aluminum speciation as affected by surface liming in tropical no-till soils. Soil Sci. Soc. Am. J. 74(3):1010-1017. Crossref |
||||
Bair KE, Davenport JR (2012). Influence of recent acidification on available phosphorus indices and sorption in Washington State soils. Soil Sci. Soc. Am. J. 76(2):515-521. Crossref |
||||
Churka Blum S, Caires EF, Alleoni LRF (2013). Lime and phosphogypsum application and sulfate retention in subtropical soils under no-till system. J. Soil Sci. Plant Nutr. 13(2):279-300. | ||||
Briedis C, Sá JCM, Caires EF, Navarro JF, Inagaki TM, Boer A, Ferreira AO, Quadros Neto C, Canalli LB, Santos JB (2012). Changes in organic matter pools and increases in carbon sequestration in response to surface liming in na oxisol under long-term- no-till. Soil Sci. Soc. Am. J. 76(1):151-160. Crossref |
||||
Caires EF, Chueiri WA, Madruga EF, Figueiredo A (1998). Changes in soil chemical characteristics by surface application of lime and gypsum and soybean response in no-tillage system. Rev. Bras. Cienc. Solo, 22(1):27-34. Crossref |
||||
Caires EF, Fonseca AF, Feldhaus IC, Blum J (2001). Root growth and nutrient uptake by soybean as affected by lime and gypsum, under a no-tillage system. Rev. Bras. Cienc. Solo, 25(4):1029–1040. Crossref |
||||
Caires EF, Blum J, Barth G, Garbuio FJ, Kusman MT (2003). Changes in chemical soil characteristics and soybean response to lime and gypsum applications in a no-tillage system. Rev. Bras. Cienc. Solo, 27(2):275-286. | ||||
Caires EF, Alleoni LRF, Cambri MA, Barth G (2005). Surface application of lime for crop grain production under a no-till system. Agron. J. 97(3):791–798. Crossref |
||||
Caires EF, Garbuio FJ, Churka S, Barth G, Correa JCL (2008). Effect of soil acidity amelioration by surface liming on no-till corn, soybean and wheat root growth and yield. Eur. J. Agron. 28(1):57–64. Crossref |
||||
Camargo MS, Pereira HS, Korndörfer GH, Queiroz AA, Reis CB (2007). Soil reaction and absorption of silicon by rice. Sci. Agric. 64(2):176-180. Crossref |
||||
CONAB (2013). Acompanhamento de safra brasileira: grãos, décimo segundo levantamento, setembro 2013 / Companhia Nacional de Abastecimento. Brasília: Conab, 2011. Disponível em: | ||||
Conyers MK, Heenan DP, McGhie WJ, Poile GP (2003). Amelioration of acidity with time by limestone under contrasting tillage. Soil Till Res. 72(1):85-94. Crossref |
||||
Crusciol CAC, Nascente AS, Soratto RP, Rosolem CA (2013). Upland rice growth and mineral nutrition as affected by cultivars and sulfur availability. Soil Sci. Soc. Am. J. 77(1):328-335. Crossref |
||||
Doorenbos J, Pruitt WO (1976). Las necesidades de agua de los cultivos. FAO, Roma (Estúdio FAO Riego y Drenage, P. 24). | ||||
EMBRAPA (1997). Manual of soil analysis methods. National Research Center of Soil, Rio de Janeiro, RJ, Brazil. | ||||
Fageria NK (2008). Optimum soil acidity indices for dry bean production on an Oxisol in no-tillage system. Commun. Soil Sci. Plant Anal. 39(5/6):845-857. Crossref |
||||
Fageria NK, Baligar VC (2008). Ameliorating soil acidity of tropical Oxisols by liming for sustainable crop production. Adv. Agron. 99:345–399. Crossref |
||||
Fageria NK (2009). The use of nutrients in crop production. CRC Press, Boca Raton, Florida. | ||||
Fageria NK, Baligar VC, Jones CA (2011). Growth and mineral nutrition of field crops. CRC Press, Boca Raton, FL. | ||||
Fageria NK, Nascente AS (2014). Management of Soil Acidity of South American Soils for Sustainable Crop Production. Adv. Agron. 128:221-275. Crossref |
||||
Gascho GJ, Parker MB (2001). Long-term liming effects on Coastal Plain soils and crops. Agron. J. 93(6):1305-1315. Crossref |
||||
Lêdo JCS, Hossne WS, Pedroso MZ (2007). Introduction to nanotechnology-provoked bioethical questions. Bioethikos 1:61-67. | ||||
Lopes AS, Cox FR (1979). Relação de características físicas, químicas e mineralógicas com fixação de fósforo em solos sob cerrados. Rev. Bras. Cienc. Solo 3(1):82-88. | ||||
Malavolta E, Vitti GC, Oliveira SA (1997). Avaliação do estado nutricional das plantas: princípios e aplicações. 2nd ed. POTAFOS, Piracicaba, SP, Brazil. | ||||
McBride MB (1994). Environmental chemistry of soils. University Press, New York. | ||||
Mendez J, Kamprath J (1978). Liming of latosols and the effect on phosphorus response. Soil Sci. Soc. Am. J. 42(1):86-88. Crossref |
||||
Miranda LN, Azevedo JA, Miranda JCC, Gomes AC (2000). Productivity of dry bean in relation to phosphate fertilizer and irrigation in a Cerrado soil. Pesq. Agropec. Bras. 35(4):703-710. | ||||
Miranda LN, Miranda JCC, Rein TA, Gomes AC (2005). Lime under no-tillage and conventional planting systems for soybean and corn in Red Latosol (Oxisol). Pesq. Agropec. Bras. 40(6):563-572. Crossref |
||||
Nascente AS, Kluthcouski J, Crusciol CAC, Cobucci T, Oliveira P (2012). Fertilization of dry bean cultivars in tropical lowlands. Pesq. Agropec. Trop. 42(4):407-415. Crossref |
||||
Oliveira EL, Pavan MA (1996). Control of soil acidity in no-tillage system for soybean production. Soil Tillage Res. 38(1/2):47-57. Crossref |
||||
Pagani A, Mallarino AP (2012). Soil pH and crop grain yield as affected by the source and rate of lime. Soil Sci. Soc. Am. J. 76(5):1877-1886. Crossref |
||||
Quaggio JA, van Raij B, Malavolta E (1985). Alternative use of the SMP-buffer solution to determine lime requirement of soils. Com. Soil Sci. Plant Anal. 16(3):245-260. Crossref |
||||
Reichardt K (1987). The water in agricultural system. Manole, São Paulo, SP, Brazil. | ||||
Rosolem CA, Assis JS, Santiago AD (1994). Root growth and mineral nutrition of corn hybrids as affected by phosphorus and lime. Commun. Soil Sci. Plant Anal. 25(13/14):2491–2499. Crossref |
||||
Rosolem CA, Rosseto CAV, Fernandes DM, Ishimura I (1993). Potassium fertilization, root morphology and potassium absorption by soybean. J. Plant Nutr. 16(3):479–492. Crossref |
||||
SAS Institute (1999). Procedure guide for personal computers. Version 5. Cary, USA. | ||||
Silva EB, Resende JCF, Cintra WBR (2001). Response of dry bean to phosphorus doses in sandy soil. Cienc. Rural 31(6):973-977. | ||||
Silva LM, Lemos LB, Crusciol CAC, Feltran JC (2004). Root system of dry bean cultivars as response of liming. Pesq. Agropec. Bras, 39(7):701-707. Crossref |
||||
Siqueira-Batista R, Silva LM, Souza RRM, Prado HJP, Silva CA, Roças G, Oliveira AL, Helayel-Neto JA (2010). Nanoscience and nanotechnology as topical themes for a discussion on science, technology, society and environment. Cienc. Edu. 16(2):479-490. | ||||
Soratto RP, Crusciol CAC (2008a). Chemical soil attributes as affected by lime and phosphogypsum surface application in a recently established no-tillage system. Rev. Bras. Cienc. Solo 32(2):675-688. Crossref |
||||
Soratto RP, Crusciol CAC (2008b). Dolomite and phosphogypsum surface application effects on annual crops nutrition and yield. Agron. J. 100(2):261–270. Crossref |
||||
Sousa DMG Lobato E (2003) Cerrado: soil correction and fertilization. Embrapa Cerrados, Planaltina, DF, Brazil. | ||||
Souza FS, Faquin V, Torres PRF, Baliza DP (2006). Liming and organic fertilizer: influence on phosphorus adsorption in soils. Rev. Bras. Cienc. Solo 30(6):975-983. | ||||
Souza HA, Natale W, Rozane DE, Hernandes A, Romualdo LM (2011). Liming and fertilization with boron in production of bean. Rev. Cienc. Agron. 42(2):249-257. Crossref |
||||
Sparovek G, De Jong van Lier Q, Dourado Neto D (2007). Computer assisted Köppen climate classification for Brazil. Int. J. Climatol. 27(2):257-266. Crossref |
||||
Tang C, Rengel Z, Diatloff E, Gazey CR (2003). Responses of wheat and barley to liming on a sandy soil with subsoil acidity. Field Crop Res. 80(3):235-244. Crossref |
||||
Valderrama M, Buzetti S, Benett CGS, Andreotti M, Arf O, Sá ME (2009). Sources and doses of nitrogen and phosphorus in no till dry beans. Pesq. Agropec. Trop. 39(3):191-196. | ||||
Zucareli C, Prando AM, Ramos Jr EU, Nakagawa J (2011). Phosphorus on the productivity and seed quality of bean Carioca Precoce cultivated during the rainy season. Cienc. Agron. 42(1):32-38. Crossref |
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