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المؤلفون: España Guechá, Martha Sofía
المساهمون: Cayón Salinas, Daniel Gerardo, Ochoa Cadavid, Iván Erick
المصدر: Repositorio UN
Universidad Nacional de Colombia
instacron:Universidad Nacional de Colombiaمصطلحات موضوعية: Contenido de nutrientes, plant physiology, Enfermedades foliares, foliar diseases, Nutrient content, Fruiting activity, Physiopathy, Área foliar, Fisiología vegetal, 632 - Lesiones, enfermedades, plagas vegetales [630 - Agricultura y tecnologías relacionadas], Leaf area, Specific leaf area, Fisiopatía, Clorofilas, Root dry mass, Elaeis guineensis, Masa seca de raíces, Área foliar específica, Actividad de fructificación
وصف الملف: xvii, 68 páginas; application/pdf
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2Dissertation/ Thesis
المؤلفون: España Guechá, Martha Sofía
المساهمون: Cayón Salinas, Daniel Gerardo, Ochoa Cadavid, Iván Erick
مصطلحات موضوعية: 630 - Agricultura y tecnologías relacionadas::632 - Lesiones, enfermedades, plagas vegetales, Fisiología vegetal, Enfermedades foliares, Elaeis guineensis, plant physiology, foliar diseases, Nutrient content, Root dry mass, Leaf area, Specific leaf area, Physiopathy, Fruiting activity, Contenido de nutrientes, Masa seca de raíces, Clorofilas, Área foliar, Área foliar específica, Fisiopatía, Actividad de fructificación
وصف الملف: xvii, 68 páginas; application/pdf
Relation: Afrousheh, M., Ardalan, M. H.Hokmabadi, H y M. Afrousheh. 2010. Nutrient deficiency disorders in Pistaciavera seedling rootstock in relation to eco-physiological, biochemical characteristics and uptake pattern of nutrients. Scientia Horticulturae 124 (2), 141-148.; Agarwala, S.C., C. P. Sharma, S. Farooq y C. Chatterjee.1978. Effect of molybdenum deficiency on the growth and metabolism of corn plants raised in sand culture. Canadian Journal of Botany 56 (16), 1905-1908.; Agresti, A. 2007. Contingency tables. En: An introduction to categorical data analysis. Second edition. Wiley Series in probability and statistic. p. 21-64.; Ajambang, W., S. Ardie, H. A. Volkaert, M. Galdima y S. Sudarsono. 2015. Huge carbohydrate assimilates delay response to complete defoliation stress in oil palm (Elaeis guineensis Jacq.) Emir. J. Food Agric 27 (1), 126-137.; Albrigo, L. G. y R. H. Young. 1979. Citrus tree decline complex diagnostic identification of blight. Proceedings of the Florida State Horticultural Society 92, 61-63.; Albrigo, L. G. y R. H. Young. 1981. Phloem zinc accumulation in citrus trees affected with blight. HortScience 16, 158-160.; Alhudaib, K., Y. Arocha, M. Wilson y P. Jones. 2007. “Al-Wijam”, a new phytoplasma disease of date palm in Saudi Arabia. Bulletin of Insectology 60 (2), 285-286.; Ammar, M. I., M.A. Amer, M. F. Rashed. 2005. Detection of Phytoplasma associated with yellow streak disease of date palms (Phoenix dactylifera L.) in Egypt. Egyptian Journal Virology 2, 74-86.; Araus, J.L. y K.P. Hogan. 1994. Leaf structure and patterns of photoinhibition in two neotropical palms in clearings and forest understory during the dry season. American journal of botany 81 (6), 726-738.; Arias, N. 2015. Avances y plan de trabajo para 2015. Reunión grupo de trabajo. Cenipalma 16 de diciembre de 2014 p 4.; Arias, N., D. Ibagué y A. Ospino. 2014. Guía de bolsillo. Identificación y registro del plumero en palma de aceite. Colombia / Centro de Investigación en Palma de Aceite CENIPALMA. 58 p.; Barillas, J. R. V., C. F. Quinn y E. A. H. Pilon-Smits. 2011. Selenium accumulation in plants Phytotechnological applications and ecological implications. Int. J. Phytorem. 13 (1), 166-178.; Barker, A. V. y T. E. Eaton. 2015. Zinc. pp 537- 556. En: Barker, A. V. y D. J. Pilbeam. Handbook of Plant Nutrition. Second edition. Taylor& Francis Group.; Barker, A. V. y M. L. Stratton. 2015. Iron. pp 399-426.En: Barker, A. V. y D. J. Pilbeam. Handbook of Plant Nutrition. Second edition. Taylor& Francis Group.; Beirnaert, A. 1935. Introduction à la biologie florale du palmier à huile (Elaeis guineensis Jacquin). INEAC. Serie Scientifique, 5, 42p.; Belan, L. L., E. A. Pozza, M. L. Freitas, R. M. Souza, W. C. Junior y J. M. Oliveira. 2014. Diagrammatic Scale for Assessment of Bacterial Blight in Coffee Leaves. J Phytopathol 162 (11-12), 703-843.; Birch, M. W. 1963. Maximun likelihood in three-way contingency tables. Journal of the Royal Statistical Society. 25 (1), 220-233.; Bittner, F. 2014. Molybdenum metabolism in plant and crosstalk to iron. Front Plant Science 5, 1-6.; Broekmans, A. F. M. 1957. Growth, flowering and yield of the oil palm in Nigeria. Journal of the West African Institute for Oil Palm Research, 2, 187 -220.; Broschat, T. K. 2007. Boron deficiency symptoms in palms. Palms 51, 115-126.; Brown, P. H. y E. Bassil. 2011. Overview of the acquisition and utilization of boron, chlorine, copper, manganese, molybdenum and nickel by plants and prospects for improvement of micronutrient use efficiency. En: molecular and physiological basis of nutrient use efficiency in crops. First Edition. Ed John Wiley & Sons, Inc.; Brown, P. H., N. Bellaloui, M. A. Wimmer, E. S. Bassil, J. Ruiz, H. Hu, H. Pfeffer, F. Dannel y V. Romheld. 2002. Boron in plant biology. Plant Biology 4, 205-223.; Bull, R. A. 1961. Studies on the deficiency of the oil palm. Journal West African Instituted Oil Palm Research 3, 265 -272. Tomado de Rajaratham, J.A. 1972. Boron deficiency in oil palms. Expl Agric 8, 339-346.; Burnett, H. C., S. Nemec y M.A. Patterson.1982. Review of Florida citrus blight and its association with soil edaphic factors, nutrition and Fusarium solani. Tropical Pest Management 28, 416-422.; Cayón, G. 2013. Informe visita plantación Sicarare septiembre. Agustin Codazzi, Cesar. Colombia.; Cayón, D.G., C.A. Avellaneda y F. Rodriguez. 2007. Aspectos fisiológicos asociados a marchitez letal de la palma de aceite. Palmas 28 (1), 373-382.; Chan, Q., S. E. Afton y J. A. Caruso. Selenium speciation profiles in selenite-enriched soybean (Glycine Max) by HPLC-ICPMS and ESI-ITMS. Metallomics 2, 147-153. DOI:10.1039/B916194E.; Chinchilla, C. y N. Duran. 1998. Manejo de problemas sanitarios en palma de aceite. Palmas 19, 242-256.; Christenssen, R. 1997. Log-Linear Models and Logistic Regression. Second Edition. Springer. USA. 484 p.; Corley, R. H. V. 1976. Sex differentiation in oil palm, effects of growth regulators. Journal of Experimental Botany, 27 (3), 553 - 558.; Corley, R., J. Hardon y Y. Tang. 1971. Analysis of growth of the oil palm (Elaeis guineensis Jacq.), estimation of growth parameters and application in breeding. Euphyta 20, 307-315.; Corley, R. H. V. y T. K. Hong. 1982. Irrigation of oil palms in Malaysia. En: The oil palm in agriculture in the eighties. Vol 2 (Ed. B y E Pushparajah and Chew P. S.). Kuala Lumpur., Incorporated Society of Planters. p. 343 – 346.; Corley, R. H. V. y P. B. H Tinker. 2003. The oil palm. 4th edition. Blackwell Science. 592 p.; Cristancho, J. A., C. E. Castilla, M. Rojas, F. Munévar y J. H. Silva. 2007. Relación entre la saturación de Al, Mg, K y la tasa de crecimineto de la pudrición de cogollo de la palma de aceite en la Zona Oriental colombiana. Palmas 28 (2): 25 – 35.; Cros, D., A. Flori, L. Nodichao, A. Omoré y B. Nouy. 2013. Differential response to water balance and bunch load generates diversity of bunch production profiles among oil palm crosses (Elaeis guineensis). Tropical Plant Biology 6 (1), 26-36.; Espinal, L. y E. Montenegro. 1963. Formaciones vegetales de Colombia. Memoria explicativa sobre el mapa ecológico. Instituto geográfico Agustín Codazzi. IGAC. Bogotá, Colombia.; Fedepalma. 2015. Anuario estadístico 2015: La agroindustria de la palma de aceite en Colombia y en el mundo.; Fino, W., I. Valencia, H. Carrillo y F. Quiroga. 2008. Estudio detallado y semidetallado de suelos. Palma Sicarare S.A., Pororo y Tamacá S.A. Agustín Codazzi, Cesar. Colombia.; Flórez, V. y R. Cruz. 2004. Guías de laboratorio de fisiología vegetal. Primera Edición. Universidad Nacional de Colombia. Facultad de Agronomía. Bogotá D.C. 64 p.; Gerardeaux, E., L. J. Meille, J. Constantin, S. Pellerin y M. Dingkuhn. 2010. Changes in plant morphology and dry matter partitioning caused by potassium deficiency in Gossypium hirsutum (L.). Environmental and Experimental Botany 67 (3), 451-459.; Gerloff, G. C., P. R. Stout y L. H. P. Jones.1959. Molybdenum –manganeserium antagonisms in the nutrition of tomato plants. Plant Physiology 34, 608-613.; Gill, S. S. y N. Tuteja. 2011. Cadmium stres tolerance in crop plants.Probing the role of sulfur. Plant signal & Behavior 6 (2), 215-222.; Granier, C. y F. Tardieu. 2009. Multi-scale phenotyping of leaf expansion in response to environmental changes: the whole is more than the sum of parts. Plant, Cell and Environment 32, 1175-1184.; Grant, C. y M. J. Hawkesford. 2015. Sulfur. pp. 261-302. En: Barker, A.V. y D.J. Pilbeam. Handbook of Plant Nutrition. Second edition. Taylor & Francis Group.; Gruber, B. D., R. F. H. Giehl, S. Friedel y N. von Wirén. 2013. Plasticity of the Arabidopsis Root System under Nutrient Deficiencies. Plant Physiology 163,161–179.; Grusak, M. A., M. R. Broadley y P. J. White. 2016. Plant Macro‐ and Micronutrient Minerals. In eLS, John Wiley & Sons, Ltd (eds.).; Haines, W. B. y B. Benzian. 1956. Some manuring experiments on oil palm in Africa. Empire Journal of Experimental Agriculture, 24, 137 - 160.; Hajiboland, R. y F. Farhanghi. 2011. Effect of low boron supply in turnip plants under drought stress. Biologia Plantarum 55, 775-778.; Hierro, S. E. 1993. Aprovechamiento de los subproductos de palma de aceite. Palmas 14,149-153.; Hoefgen, R. y V. J. Nikiforova. 2008. Metabolomics integrated with transcriptomics: assessing systems response to sulfur-deficiency stress. Physiologia Plantarum 132, 190-198.; Hopkins, W. G. y N. P. A. Huner. 2009. Introduction to plant physiology. Fourth Edition. John Wiley & Sons, Inc. A. 523 p.; Ibagué, D.F. 2014. Caracterización y evolución de síntomas del plumero en palma de aceite. Revista Palmas 35 (4), 101-110.Ibagué, D.F. 2014. Caracterización y evolución de síntomas del plumero en palma de aceite. Revista Palmas 35 (4), 101-110.; Kaiser, B., K. Gridley y B. Ngaire. 2005. The role of molybdenum in agricultural plant production. Annals of Botany 96 (5), 745-754.; Kampfenkel, K., M.V. Montagu y D. Inzé. 1995. Effects of iron excess on nicotiana plumba ginifolia plants. Implications to oxidative stress. Plant Physiology 107, 725-735.; Kroonenberg, P. M. y A. Verbeek. 2018. The Tale of Cochran’s Rule, My Contingency Table has so Many Expected Values Smaller than 5., What Am I to Do? The American Statistician, 0, 1-9.; Landry, C., F. Bonnot, V. Ravigné, J. Carlier, D. Rengifo, J. Vaillant y C. Abadiea. 2017. A foliar disease simulation model to assist the design of new control methods against black leaf streak disease of banana. Ecological Modelling 359, 383 – 397.; Lee, S. y S. Aronoff. 1967. Boron in plants: a bioquimica role. American association for the advancement of science 158, 798-799.; López, J. 2014. Caracterización fisiológica y morfológica de palmas de aceite Taisha (Elaeis oleífera HBK Cortes) y sus híbridos (Elaeis oleífera HBK Cortes x Elaeis guineensis Jacq.) en la región Amazónica del Ecuador. Tesis maestría. Facultad de Agronomía. Universidad Nacional de Colombia. 80 p.; Maillard, A., P. Etienne, S. Diquelou, J. Trouverie, V. Billard, J.C. Yvin y A. Ourry. 2016. Nutrient deficiencies modify the ionomic composition of plant tissues: a focus on cross-talk between molybdenum and other nutrients in Brassica napus. Journal of experimental botany 67 (19), 5631-5641.; Manjeri, G., R. Muhamad y S. G. Tan. 2014. Oryctes rhinoceros Beetles., an oil palm pest in Malaysia. Annual research y review in biology, 4 (22), 3429-3439.; Mikkelsen, R. L. y H. F. Wan. 1990. The effect of selenium on sulfur uptake by barley and rice. Plant Soil 121 (1), 151–153.; Mills, H. A. y J. B. Jones Jr. 1996. Plant Analysis Handbook II. Athens, GA: Micro Macro Publishing Inc. p. 422.; Minasny, B., B. P. Malone y A. B. McBratney. 2012. Digital Soil Assessments y Beyond, proceedings of the 5th global workshop on digital soil mapping 2012, Sydaney, Australia CRC Press, Taylor and Francis Group, 482 p.; Mite, F., M. Carrillo y J. Espinosa. 2000. Influencia de la fertilización y el riego sobre el desarollo, nutrición y rendimiento de la palma africana en la zona de Quevedo. Palmas, 21 (1), 99-106.; Motta, D. F., N. A. Arias, F. Munévar, J.A. Aldana, N. Rairan, H. Cordoba, L.J. Esteban y H. Calvache. 2004. Relación entre la nutrición del cultivo y la incidencia de la pestalotiopsis de la palma de aceite en las zonas Norte y Central de Colombia. Palmas 25,179-185.; Munévar, F., A. Acosta y P. L. Gomez. 2001. Factores edaficos asociados con la pudrición de cogollo de la palma de aceite en Colombia. Palmas 22 (2), 9-19.; Munévar, F. y E. Garzon. 2014. Estudio detallado de suelos y aptitud para el cultivo de palma de aceite.Predios Santa Rosa, Caribia, Villa Carolina de Palmas Sicarare S.A.S y subdivisión Unión de Palmas Tamaca S.A.S. Agustín Codazzi, Cesar.; Munné-Bosch, S. 2008. Do perennials really senesce? Trends in plant science 13 (5), 216-220.; Najib, S., S. Ben, A. Bourogaa, N. Namsi y R. Gargouri-Bouzid. 2013. Modulated expression of ion transporters may be responsible for manganese deficiency in brittle leaf disease affected date palm (Phoenix dactylifera l.) trees. Physiological and Moleculas Plant Pathology 84, 61-69.; Namsi, A., M. Montarone, P. Serra, O. Ben Mahamoud, M. Takrouni, A. Zouba, O. Khoualdia, J. Bove y N. Duran-Vila. 2007. Manganese and brittle leaf disease of date palm trees. Journal of plant pathology 89 (1), 125 – 136.; Nenova, V. 2006. Effect of iron supply on growth and photosystem II efficiency of pea plants. General and Applied Plant Physiology special issue, 81-90.; Oren, R., K. S. Werk, N. Buchmann, R. Zimmermann. 1993. Chlorophyll – nutrient relationships identify nutritionally caused decline in Piceaabies stands. Canadian Journal of Forest Research 23 (6), 1187-1195.; Pallas, B., I. Mialet-Serra, L. Rouan, A. Clement-Vidal, J. Caliman y M. Dingkuhn. 2013. Effect of source-sink ratios on yield components., growth dynamics and structural characteristics of oil palm (Elaeis guineensis) bunches. Tree Physiology, 33, 409 – 424.; Pekker, I., E. Tel-Or y R. Mittler. 2002. Reactive oxygen intermediates and glutathione regulate the expression of cytosolic ascorbate peroxidase during iron-mediated oxidative stress in bean. Plant Molecular Biology 49(5), 429–438.; Pinzón, A.M., F. Pereira, L. Pereira, G.A. Álvarez, C.C. Almeida, F.A. Moretti., F.H. Vasconcelos, J.T. Souza. 2017. Development and Validation of a Diagrammatic Scale to Assess the Severity of Black Rot of Crucifers in Kale. Journal of Phytopathology 165 (3), 195-203.; Poorter, H. y R. de Jong. 1999. A comparison of specific leaf area, chemical composition and leaf construction costs of field plants from 15 habitats differing in productivity. New Phytologist 143, 163–176.; Ramírez, J., R. Bedoya, J. Guerrero, W. Valero, S. Otero, A. Erazo, R. Bedoya. 2004. Resumen de actividades realizadas sobre la marchitez letal 1994-2004. Palmar del Oriente S.A. 28p.; Reyes, M., A. Villegas, M. Colinas y G. Calderón. 2000. Peso específico, contenido de proteína y de clorofilas en hojas de naranjo y tangerino. Agrociencia 34, 49-55.; Sadok W., P. Naudin, B. Boussuge, B. Muller, C. Welcker y F. Tardieu. 2007. Leaf growth rate per unit thermal time follows QTL dependent daily patterns in hundreds of maize lines under naturally fluctuating conditions. Plant, Cell & Environment 30, 135–146.Sadok W., P. Naudin, B. Boussuge, B. Muller, C. Welcker y F. Tardieu. 2007. Leaf growth rate per unit thermal time follows QTL dependent daily patterns in hundreds of maize lines under naturally fluctuating conditions. Plant, Cell & Environment 30, 135–146.; Schwarz, G., R. R. Mendel y M. W. Ribbe. 2009. Molybdenum cofactors, enzymes and pathways. Nature 460, 839 – 847.; Shibles, R.M. y C.R. Weber. 1965. Leaf area, solar radiation interception and dry matter production by soybeans. Crop Science 5, 575-577.; Shinmachi, F., P. Buchner y J. L. Stroud. 2010. Influence of sulfur deficiency on the expression of specific sulfate transporters and the distribution of sulfur, selenium, and molybdenum in wheat. Plant Physiology 153, 327 – 336.; Soliman, M. F., S. F. Kostandi y M. L. van Beusichem. 1992. Influence of sulfur and nitrogen fertilizer on the uptake of iron, manganese, and zinc by corn plants grown in calcareous soil. Commun. Soil Sci. Plant Anal. 23, 1289–1300.; Sparnaaij, L. D., A. R. Rees y L. C. Chapas. 1963. Annual yield variation in the oil palm. J. West African Institute Oil Palm Research, 4, 111‐125.; Stokes, M. E., C. S. Davis y G. G. Koch. 2012. Categorical Data Analysis Using SAS. Third edition. SAS Institute Inc Cary, NC, USA. 620 p.; Stroud, J. L., F. J. Zhao y P. Buchner. 2010. Impacts of sulphur nutrition on selenium and molybdenum concentrations in wheat grain. Journal Cereal Science 52, 111–113.; Tailliez, B. 1971. The root system of the oil palm on the San Alberto Plantation in Colombia. Oleagineux 26 (7), 435-447.; Tejada, M., A. Chamizo, A. Galvan, E. Fernandez y A. Llamas. 2013. Molybdenum metabolism in plants. Metallomics 5, 1191-1203.; Tomatsu, H., J. Takano, H. Takahashi, A. Watanabe - Takahashi, N. Shibagaki y T. Fujiwara. 2007. An Arabidopsis thaliana high-affinity molybdate transporter required for efficient uptake of molybdate from soil. Proceedings of the National Academy of Sciences 104 (47), 18807-18812.; Triki, M. A., A. Zouba, O. Khoualdia, O. B. Mahamoud, M. L. Takrouni, M. Garnier, J. M. Bové, M. Montarone, A. Poupet, R. Flores, J. A. Darós, Z. G. N. Fadda, P. Moreno y N. Duran-Vila. 2003. “Maladie des feuilles cassantes” or brittle leaf disease of date palms in Tunisia: biotic or abiotic disease? Journal of Plant Pathology 85 (2), 71-79.; Turner, P. D. y R. A. Bull. 1967. Disease and disorders of the oil palm in Malaysia. Inc. Soc. Planters, Kuala Lumpur.; Vallee, B. L. y D. S. Auld. 1990. Zinc coordination, function, and structure of zinc enzymes and other proteins. Biochemistry 29, 5647– 5659.; Verbruggen, N. y C. Hermans. 2013. Physiological and molecular responses to magnesium nutritional imbalance in plants. Plant Soil 368: 87-99.; Warington, K. 2008. The growth and anatomical structure of the carrot (Davcus carota) as affected by boron deficiency. Annals of Applied Biology 27 (2),176-183.; Wimmer, N. y T. Eicher. 2013. Review: mechanisms for boron deficiency-mediated changes in plant water relations. Plant Science, 2003-204, 25-32.; Xue, T., H. Hartikainen y V. Piironen. 2001. Antioxidative and growth-promoting effect of selenium in senescing lettuce. Plant Soil 27, 55-61.; Young, R. H., H. E. Wutscher y L. G. Albrigo. 1980. Relationship between water translocation and zinc accumulation in citrus trees with and without blight. Journal of the American Society for Horticultural Science 105, 444-447.; Zakikhani, H., Y. M. Khanif, A. R. Anuar, O. Radziah y A. Soltangheisi. 2014. Effects of different levels of molybdenum on uptake of nutrients in rice cultivars. Asian Journal of Crop Science 6, 236–244.; Zembala, M., M. Filek, S. Walas, H. Mrowiec, A. Kornaś, Z. Miszalski y H. Hartikainen. 2010. Effect of selenium on macro- and microelement distribution and physiological parameters of rape and wheat seedlings exposed to cadmium stress. Plant Soil 329, 457-468.; https://repositorio.unal.edu.co/handle/unal/75882; Universidad Nacional de Colombia; Repositorio Institucional Universidad Nacional de Colombia; https://repositorio.unal.edu.co/