Artículos de revistas
Coffee Productivity And Root Systems In Cultivation Schemes With Different Population Arrangements And With And Without Drip Irrigation
Registro en:
Agricultural Water Management. Elsevier, v. 148, n. , p. 16 - 23, 2015.
3783774
10.1016/j.agwat.2014.08.020
2-s2.0-84907452565
Autor
Sakai E.
Barbosa E.A.A.
de Carvalho Silveira J.M.
de Matos Pires R.C.
Institución
Resumen
This study addressed the vegetative development, yield, and root development of coffee during cultivation in the absence and presence of drip irrigation and in different population arrangements over five years. A 6×2 factorial experimental scheme was used with a randomized block design and four replications. The six plantation densities were 1.60×0.50m; 1.60×0.75m; 1.60×1.00m; 3.20×0.50m; 3.20×0.75m; and 3.20×1.00m. These plantation densities were divided into irrigated and non-irrigated treatments. The analysis of variance of the interaction between planting density and irrigation revealed absence of synergism in changing the biometric parameters. However, the isolated analysis of the factors showed significant effects of plantation densities, with the arrangement of 1.60×0.50m getting the highest values of plant height and the smallest crown diameter, over the cycles. The adoption of irrigation caused significant effects on biometric parameters, with the irrigation of coffee causing increase in plant height, crown diameter and stalk diameter. The irrigated coffee in the four cycles resulted in a higher processed coffee production, especially when coffee was grown with small row spacing. The irrigated coffee obtained the average yield of 2623kgha-1, while the coffee without irrigation had an average yield of 1026kgha-1. The irrigated treatments had greater root concentrations as compared to the non-irrigated treatments. In addition, the root concentration was greater in the 0-0.5-m layer when smaller row spacing was used. 148
16 23 Aarssen, L.W., Hypotheses for the evolution of apical dominance in plants: implications for the interpretation of overcompensation (1995) OIKOS, 74, pp. 149-156 Allen, R.G., Pereira, L.S., Raes, D., Smith, M., Crop evapotranspiration-guidelines for computing crop water requirements (1998) Irrigation and Drainage Paper, 56, p. 328. , FAO, Rome Alves, M.E.B., Faria, M.A., Guimarães, R.J., Muniz, J.A., Silva, E.L., Growth of coffee crop under different irrigation water depths and fertigation (2000) Rev. Bras. Eng. Agric. Ambient., 2, pp. 219-225. , (In Portuguese, with abstract in English) Barros, R.S., Mota, J.W.S., DaMatta, F.M., Maestri, M., Decline of vegetative growth in Coffea arabica L. in relation to leaf temperature, water potential and stomatal conductance (1997) Field Crops Res., 54, pp. 65-72 Bassoi, L.H., Hopmans, J.W., Jorge, L.A.C., Alencar, C.M., Silva, J.A.M., Grapevine root distribution in drip and microsprinkler irrigation (2003) Sci. Agríc., 60 (2), pp. 377-387 Beaumont, J.H., Fukunaga, E.T., Factors affecting the growth and yield of coffee in Kona, Hawaii (1958) Bulletin 113, p. 39. , Hawaii Agricultural Experiment Station, University of Hawaii, Honolulu Bull, R.A., Studies on the effect of yield and irrigation on root and stem development in Coffea arabica L. 1. Changes in the root systems induced by mulching and irrigation (1963) Turrialba, 13, pp. 96-115 Cannell, M.G.R., Effects of irrigation, mulch and N-fertilizers on yield components of Arabica Coffee in Kenya (1973) Explor. Agric., 9, pp. 225-232 Carr, M.K.V., The water relations and irrigation requirements of coffee (2001) Explor. Agric., 37, pp. 1-36 Carvalho, C.H., Colombo, A., Scalco, M.S., Morais, A.R., Coffee tree (Coffea arabica L.) growth at high and low planting densities under different irrigation regimes (2006) Ciênc. Agrotec., 30, pp. 243-250. , (In Portuguese, with abstract in English) DaMatta, F.M., Exploring drought tolerance in coffee: a physiological approach with some insights for plant breeding (2004) Braz. J. Plant Physiol., 16, pp. 1-6 DaMatta, F.M., Ramalho, J.D.C., Impacts of drought and temperature stress on coffee physiology and production: a review (2006) Braz. J. Plant Physiol., 18, pp. 55-81 DaMatta, F.M., Ronchi, C.P., Maestri, M., Barros, R.S., Ecophysiology of coffee growth and production (2007) Braz. J. Plant Physiol., 19 (4), pp. 485-510 Dobermann, A., Nutrient use efficiency-measurement and management (2007) IFIA. Fertilizer Best Management Practices, pp. 1-28. , International Fertilizer Industry Association, Paris Esperancini, M.S.T., Paes, A.R., Investment analysis for the production of coffee irrigated and conventional systems, in region of Botucatu, State of São Paulo (2005) Inf. Econ., 35, pp. 52-60. , (In Portuguese, with abstract in English) Farooq, M., Wahid, A., Kobayashi, N., Fujita, D., Basra, S.M.A., Plant drought stress: effects, mechanisms and management (2009) Agron. Sustainable Dev., 29, pp. 185-212 Fazuolli, L.C., Gallo, P.B., Cervellini, G.J., Barroa, I., Van Raij, B., Café (1998) Instruções Agrícolas Para as Principais Culturas-Boletim 200, p. 396. , IAC, Campinas, J.I. Fahl, M.B.P. Camargo, M.A.P. Pizzinato, J.A. Betti, A.M. Melos, I.C. Maria, A.M.C. Furlani (Eds.) Jaramillo-Botero, C., Santos, R.H.S., Martinez, H.E.P., Cecon, P.R., Fardin, M.P., Production and vegetative growth of coffee trees under fertilization and shade levels (2010) Sci. Agric., 67 (6), pp. 639-645 Martinez, H.E.P., Augusto, H.S., Cruz, C.D., Pedrosa, A.W., Sampaio, N.F., Vegetative growth of the coffee plant (Coffea arabica L.) and its correlation with the production in narrower spacing (2007) Acta Sci. Agron., 29, pp. 481-489. , (In Portuguese, with abstract in English) Massarirambi, M.T., Chingwara, V., Shongwe, V.D., The effect of irrigation on synchronization of coffee (Coffea arabica L.) flowering and berry ripening at Chipinge, Zimbabwe (2009) Phys. Chem. Earth, 34, pp. 786-789 Moreira, R.C., Furlani, E., Hernandez, F.B.T., Furlani, R.C.M., Spacing to coffee (Coffea arábica L.) with and without use of irrigation (2004) Acta Sci. Agron., 26, pp. 73-78. , (In Portuguese, with abstract in English) Papadopoulos, A.P., Ormrod, D.P., Plant spacing effects growth and development of greenhouse tomato (1991) Can. J. Plant Sci., 71, pp. 297-304 Peasley, D., Rolfe, C., (2003) Developing Irrigation Strategies for Coffee Under Sub-Tropical Conditions, p. 52. , RIRDC, Barton Peel, M.C., Finlayson, B.L., McMahon, T.A., Updated world map of the Koppen-Geiger climate classification (2007) Hydrol. Earth Syst. Sci., 11, pp. 1633-1644 Pereira, S.P., Bartholo, G.F., Baliza, D.P., Sobreira, F.M., Guimarães, R.J., Growth, productivity and bienniality of coffee plants according to cultivation spacing (2011) Pesq. Agropecu. Bras., 46 (2), pp. 152-160. , (In Portuguese, with abstract in English) Pereira, S.P., Guimarães, R.J., Bartholo, G.F., Guimarães, P.T.G., Alves, J.D., Vegetative growth and yield of coffee plants (Coffea arabica L.) in two different pruning times, conducted at different spacings (2007) Ciênc. Agrotec., 31, pp. 643-649. , (In Portuguese, with abstract in English) Roberts, T.L., Improving nutrients use efficiency (2008) Turk. J. Agric. For., 32, pp. 177-182 Sakai, E., Barbosa, E.A.A., Silveira, J.M.C., Pires, R.C.M., Coffea arabica (cv. Catuaí) production and bean size under different population arrangements and soil water availability (2013) Eng. Agríc., 33 (1), pp. 145-156 Scalco, M.S., Alvarenga, L.A., Guimarães, R.J., Colombo, A., Assis, G.A., Irrigated and non-irrigated coffee (Coffea Arabica L.) under super dense condition (2011) Coffee Sci., 6 (3), pp. 193-202. , (In Portuguese, with abstract in English) Siddiqui, M.H., Oad, F.C., Buriro, U.A., Plant spacing effects on growth, yield and lint of cotton (2007) Asian J. Plant Sci., 6, pp. 415-418 Silva, C.A., Teodoro, R.E.F., Melo, B., Productivity and yield of coffee plant under irrigation levels (2008) Pesq. Agropecu. Bras., 43, pp. 387-394 Sobreira, F.M., Guimarães, R.J., Colombo, A., Scalco, M.S., Carvalho, J.G., Nitrogen and potassium fertigation in coffee at the formation phase, with high plant density (2011) Pesqui. Agropecu. Bras., 46, pp. 9-16. , (In Portuguese, with abstract in English) Zotarelli, L., Scholberg, J.M., Dukes, M.D., Muñoz-Caperna, R., Icerman, J., Tomato yield, biomass accumulation, root distribution and irrigation water use efficiency on a sandy soil, as affected by nitrogen rate and irrigation scheduling (2009) Agric. Water Manage., 96 (1), pp. 23-34