Full Length Research Paper
References
Amaral JFTD, Martinez HEP, Laviola BG, Fernandes FEI, Cruz CD (2011). Nutrients use efficiency by coffee cultivars. Ciênc. Rural 41(4):621-629. |
|
Bragança SM, Carvalho CHS, Fonseca AFA, Ferrão RG (2001). Variedades clonais de café Conilon para o Estado do Espírito Santo. Pesqui. Agropecu. Bras. 36:765-770. |
|
Bragança SM, Martinez HEP, Leite HG, Santos LP, Lani JA, Sediyama CS, Alvarez VVH (2010). Acumulação de matéria seca pelo cafeeiro conilon. Rev. Ceres, 57(01):48-52. |
|
Bragança SM, Martinez HEP, Leite HG, Santos LP, Sediyama CS, Alvarez VVH, Lani JA (2008). Accumulation of macronutrients for the conilon coffee tree. J Plant Nutr. 3(01):103-120. |
|
Clemente JA, Martinez HEP, Alves LC, Lara MCR (2013). Effect of N and K doses in nutritive solution on growth, production and coffee bean size. Rev. Ceres., 60(02):279-285. |
|
Colodetti TV, Rodrigues WN, Martins LD, Tomaz MA (2014). Differential tolerance between genotypes of conilon coffee (Coffea canephora) to low availability of nitrogen in the soil. Aust. J. Crop Sci. 8:1648-1657. |
|
DaMatta FM, Cunha RL, Antunes WC, Martins SVC, Araújo WL, Fernie |
|
AR, Moraes GABK (2008). In field-grown coffee trees source-sink manipulation alters photosynthetic rates, independently of carbon metabolism, via alterations in stomatal function. New Phytol, 178:348-357. |
|
DaMatta FM, Ronchi CP, Maestri M, Barros RS (2007). Ecophysiology of coffee growth and production. Braz. Journal Plant Physiol., 19(4):485-510. |
|
Defelipo BV, Ribeiro AC (1996). Análise química do solo (metodologia). Viçosa, MG, Imprensa Universitária, 17 p. |
|
Embrapa - Empresa Brasileira de Pesquisa Agropecuária (1997). Manual de métodos de análises e classificação de solo. 2nd edn. MAPA, Rio de Janeiro. |
|
Embrapa, Empresa Brasileira de Pesquisa Agropecuária (2006). Sistema brasileiro de classificação de solos. 2nd ed. Rio de Janeiro: Embrapa. p. 306. |
|
Fageria NK (1998). Optimizing nutrient use efficiency in crop production. Rev. Bras. Eng. Agríc. Ambient. 2:6-16. (in portuguese) |
|
Ferrão RG, Cruz CD, Ferreira A, Cecon PR, Ferrão MAGF, Fonseca AFA, Carneiro PCS, Silva MF (2008). Genetic parameters in conilon coffee. Pesqui. Agropecu. Bras. 43:61-69. |
|
Ferreira D (2011). SISVAR: A computer statistical analysis system. Ciênc. agrotec. 35:1039-1042. |
|
Fonseca AFA, Ferrão MAG, Ferrão RG, Verdin FAC, Volpi OS, Zucateli F (2004). 'Conilon Vitória-Incaper 8142': improved Coffea canephora var. kouillou clone cultivar for the state of Espírito Santo. Crop Breed. Appl. Biotechnol. 4:503-505. |
|
ICO - International Coffee Organization. Statistics. Historical Data. |
|
Lani JA, Prezotti LC, Bragança SM (2007). Cafeeiro. In: Manual de recomendação de calagem e adubação para o Estado do Espírito Santo-5ª aproximação (Prezotti LC, Gomes JA, Dadalto GG, Oliveira JA eds.). SEEA/INCAPER/CEDAGRO. pp. 111-118. |
|
Ma TS, Zuazaga G (1942). Micro-Kjeldahl determination of nitrogen: a new indicator and an improved rapid method. Ind Eng Chem. 14:280-282. |
|
Machado L, Martins LD, Rodrigues WN, Ferreira DS, Cogo AD, Tomaz MA, Amaral JFT (2016). Efficiency and response of conilon coffee genotypes to nitrogen supply. Afr. J. Biotechnol. 15(35):1892-1898. |
|
Martins LD, Rodrigues WN, Machado L, Brinate SVB, Colodetti TV, Amaral JF, Tomaz MA (2015). Evidence of genetic tolerance to low availability of phosphorus in the soil among genotypes of Coffea canephora. Genet. Mol. Res. 14:10576-10587. |
|
Martins LD, Tomaz MA, Amaral JFTD, Bragança SM, Martinez HEP (2013a). Efficiency and response of conilon coffee clones to phosphorus fertilization. Rev. Ceres, 60(3):406-411. |
|
Martins LD, Tomaz MA, Amaral JFT, Braganca SM, Rodrigues WN, Reis EF (2013b). Nutritional efficiency in clones of conilon coffee for phosphorus. J. Agric. Sci. 5:130-140. |
|
Martins LD, Tomaz MA, do Amaral JFT, Christo LF, Rodrigues WN, Colodetti TV, Brinati SVB (2013c). Alterações morfológicas em clones de cafeeiro conilon submetidos a níveis de fósforo. Sci. Plena, 9(4). |
|
Morais LE, Cavatte PC, Detmann KC, Sanglard LMVP, Ronchi CP, DaMatta FM (2012). The source capacity increases with increasing precociousness of fruit maturation in field-grown clones of Conilon coffee (Coffea canephora) trees. Trees 26:1397-1402. |
|
Nogueira FD, Silva EB, Guimarães PTG. Adubação Potássica do Cafeeiro: sulfato de potássio. Lavras: SOPIB. 2001. 81 p. |
|
Partelli FL, Espindula MC, Marré WB, Vieira HD (2014). Dry matter and macronutrient accumulation in fruits of Conilon coffee with different ripening cycles. Rev. Bras. Cienc. Solo. 38:214-222. |
|
Pezzopane JRM, Pedro Júnior MJ, Thomaziello RA, Camargo MBP (2003). Escala para avaliação de estádios fenológicos do cafeeiro arábica. Bragantia, 62:499-505. |
|
Prezotti LC, Bragança SM (2013). Acúmulo de matéria seca, N, P e K em diferentes materiais genéticos de café conilon. Coffee Sci. 08:284-294. |
|
Siddiqi MY, Glass ADM (1981). Utilization index: a modified approach to the estimation and comparison of nutrient utilization efficiency in plants. J Plant Nutr. 4:289-302. |
|
Swiader JM, Chyan Y, Freiji FG (1994). Genotypic differences in nitrate uptake and utilization efficiency in pumpkin hybrids. J Plant Nutr. 17:1687-1699. |
|
Tomaz MA, Martinez HEP, Rodrigues WN, Ferrari RB, Pereira AA, Sakiyama NS (2011) Eficiência de absorção e utilização de boro, zinco, cobre e manganês em mudas enxertadas de cafeeiro. Rev. Ceres, 58:108-114. |
Copyright © 2024 Author(s) retain the copyright of this article.
This article is published under the terms of the Creative Commons Attribution License 4.0