Numéro
OCL
Volume 29, 2022
Palm and palm oil / Palmier et huile de palme
Numéro d'article 23
Nombre de pages 11
Section Agronomy
DOI https://doi.org/10.1051/ocl/2022016
Publié en ligne 17 juin 2022
  • Bassey IO. 2016. Overview of oil palm production in Nigeria; comparative social and environmental impacts; the case of ekong anaku community in cross river state, Nigeria. 11 p. https://www.researchgate.net/publication/298344926. [Google Scholar]
  • Bessou C, Pardon L. 2017. Environmental impacts of palm oil products: What can we learn from LCA? IJoLCAS 1: 1–7. [Google Scholar]
  • Bonneau X, Impens R, Dassou O, Ogiamien F, Van Damme P. 2018. Optimal fertilization for oil palm (Elaeis guineensis Jacq.) plantations: Conclusions from a long-term fertiliser trial in Nigeria. In: Tielkes E, (ed) Tropentag, Ghent “Global food security and food safety: The role of universities”. Book of abstracts (online book of abstracts: http://www.tropentag.de/2018/proceedings), 594 p. [Google Scholar]
  • Bonneau X, Impens R, Buabeng M. 2017. Optimum oil palm planting density in West Africa. OCL. EDP Sciences, 10 p. https://doi.org/10.1051/ocl/2017060. [Google Scholar]
  • Bonneau X, Vandessel P, Buabeng M, Erhahuyi C. 2014. Initial results of an Oil Palm planting density experiment in west Africa. OCL 21(4): A401. EDP Sciences. https://doi.org/10.1051/ocl/2017060. [CrossRef] [EDP Sciences] [Google Scholar]
  • Ciríaco da Silva E, Custódio Nogueira RJM, Almeida da Silva M, Bandeira de Albuquerque M. 2011. Drought stress and plant nutrition. Plant Stress 5 (Special Issue 1): 32–41. ©2011 Global Science Books. https://www.researchgate.net/publication/209959355. [Google Scholar]
  • CIGE. 2013. Compréhension des interactions entre génotypes et environnements: Protocol for monitoring CIGE “field” trials, 24 p. [Google Scholar]
  • CIRAD. US 49. Montpellier, France. [Google Scholar]
  • CIRAD. 2008. Semences germées de palmier à huile CIRAD: Recommandation pour la conduite de la pré-pépinière et de"R31"pépinière. Édition scientifique : Jean-Charles Jacquemard et Dominique Boutin, 28 p. [Google Scholar]
  • Corley RHV, Tinker PB. 2016. The oil palm. Oxford: Blackwell Science Ltd. OX42DQ, 687 p. [Google Scholar]
  • Cros D, Flori A, Nodichao L, Omore A, Nouy B. 2013. Differential response to water balance and bunch load generates diversity of bunch production profiles among oil palm. Tropical Plant Biol 6: 26–36. https://doi.org/10.1007/s12042-013-9116-2. [CrossRef] [Google Scholar]
  • Dassou O, Nodichao L, Ollivier J. 2018. Oil palm (Elaeis guineensis Jacq.) leaf K and Mg contents differ with progenies: implications and research needs. . In: Tielkes E, ed. Tropentag, Ghent “Global food security and food safety: The role of universities. Book of abstracts, http://www.tropentag.de/2018/proceedings, 594 p. [Google Scholar]
  • Doğan N, Akinci S. 2011. Effects of water stress on the uptake of nutrients by bean seedlings (Phaseolus vulgaris L.). Fresenius Environ Bull 2(8a): 2163–2173. [Google Scholar]
  • Dubos B, Baron V, Bonneau X. 2019. Precision agriculture in oil palm plantations: diagnostic tools for sustainable N and K nutrient supply. OCL 26: 5. Published by EDP Sciences, https://doi.org/10.1051/ocl/2019001. [CrossRef] [EDP Sciences] [Google Scholar]
  • Dubos B, Hernán W, Jesùs A, Lòpez E, Ollivier J. 2010. Potassium uptake and storage in oil palm organs: the role of chlorine and the influence of soil characteristics in the Magdalena valley, Colombia. Nutr Cycl Agroecosyst. https://doi.org/10.1007/s10705-010-9389-x. [Google Scholar]
  • Dubos B, Caliman JP, Corrado F, Quencez P, Siswo S, Tailliez B. 1999. Rôle de la nutrition en magnésium chez le palmier à huile. Plantation–Recherche–Développement: 313–325. [Google Scholar]
  • Fabre D, Dingkuhn M, Yin X. 2020. Genotypic variation in source and sink traits affects the response of photosynthesis and growth to elevated atmospheric CO2. Plant Cell Environ: 1–15. https://doi.org/10.1111/pce.13693. [PubMed] [Google Scholar]
  • FAOSTAT. 2020. http://faostat.fao.org/site/575/DesktopDefault.aspx?PageIDD575#ancor. [Google Scholar]
  • Fairhurst T, Caliman JP, Hardter R, Witt C. 2005. Oil palm: Nutrient disorders and nutrient Management, Vol. 7, 211 p. [Google Scholar]
  • Fairhurst T, Caliman JP. 2001. Symptôme de déficiences minérales et anomalies chez le palmier à huile (Elaeis guineensis Jacq.). Guide de poche, Vol. 7, ISBN: 981-04-4840-6. [Google Scholar]
  • Fairhurst T. 1998. Nutrient deficiency symptoms and disorders in oil palm (Elaeis guineensis Jacq.). Pocket Guide. PPI, Singapore, 31 p. [Google Scholar]
  • Fairhurst T. 1996. Management of nutrients for efficient use in smallholder oil palm plantations. PhD, London: Departement of biological Sciences, Wye Collège, 211 p. [Google Scholar]
  • Fairhurst TH, Mutert E. 1999. Interpretation and management of oil palm leaf analysis data. Better Crops Int 13(1): 5. [Google Scholar]
  • Foster HL. 1999. Assessment of oil palm fertilizer requirements. In: Fairhurst T, Hardter R, eds. Oil palm management for large and sustainable yields. Singapore: PPI, PPIC and IPI, pp. 231–257. [Google Scholar]
  • Gharleghi B, Chan YFB. 2013. The economic importance of crude palm oil in Nigeria. Int J Manage Sci Bus Res 2(1): 7. ISSN (2226-8235). [Google Scholar]
  • Goh KJ, Teo CB, Chew PS, Chiu SB. 1999. Fertilizer management in oil palm: Agronomic principles and field practices. Paper presented at “Fertilizer Management For Oil Palm Plantations”, 20–21 September 1999, Sandakan, Sabah, Malaysia. Organized by ISP, Sabah North-East Branch. [Google Scholar]
  • International Plant Nutrition Institute (IPNI). Réf. #18-#11041. Les sources spécifiques des éléments nutritifs. [Google Scholar]
  • Jacquemard JC, Ollivier J, Surya E, Suryana E, Permadi P. 2009. Genetic signature in mineral nutrition in oil palm (Elaeis guineensis Jacq.): A new panorama for high yielding materials at low fertiliser cost. In : MPOB International Palm Oil Congress (Pipoc 2009), Kuala Lumpur, 9–12 November 2009. MPOB., 37 p. [Google Scholar]
  • Khalid H, Zin ZZ, Anderson JM. 2000. Decomposition processes and Nutrient release patterns of oil palm residues. J Oil Palm Res 12(I): 46–63. [Google Scholar]
  • Knecht JCX, Ramachandran R, Narayanan R. 1977. Leaf nutrient contents with age of palm in oil palm leaf sampling. Oléagineux 32(4): 139–147. Fascicule 337 p. [Google Scholar]
  • Lamade E, Ollivier J, Rozier-Abouab T, Gérardeaux E. 2014. Occurrence of potassium location in oil palm tissues with reserve sugars: consequences for oil palm K status determination. In: IOPC Conference, 17–19 June, Bali Convention Center, oral communication. [Google Scholar]
  • Legros S, Mialet-Serra I, Caliman JP. 2006. Carbohydrates reserves in 9 years old oil palm: nature, distribution and seasonal changes. In: 2006 International Oil Palm Conference: Optimum Use of Resources: Challenges and Opportunities for Sustainable Oil Palm Development, PIPOC, 19–23 June 2006, Bali, Indonesia, pp. 19–23. [Google Scholar]
  • Lynch J. 1995. Root architecture and plant productivity. Plant Physiol 109: 7–13. [CrossRef] [PubMed] [Google Scholar]
  • Naqiuddin M, Ling Ma N, Ong-Abdullah M. 2020. Potassium nutrition in the oil palm: a molecular perspective. J Oil Palm Res 32(1): 139–144. https://doi.org/10.21894/jopr.2019.0029. [Google Scholar]
  • Nodichao L, Aké S, Jourdan C. 2008. Développement du système racinaire chez le palmier à huile selon l’origine génétique et le régime hydro-potassique du sol. Agronomie Africaine 20(3): 277–289. [Google Scholar]
  • Nodichao L, Chopart JL, Roupsard O, Vauclin M, Aké S, Jourdan C. 2011. Genotypic variability of oil palm root system distribution in the field. Consequences for water uptake. Plant Soil 341: 505–520. https://doi.org/10.1007/s11104-010-0663-0. [CrossRef] [Google Scholar]
  • Nouy B, Baudouin L, Djégui N, Omoré A. 1999. Oil palm under limiting water supply conditions. Plantations, Recherche, Développement 6: 31–45. [Google Scholar]
  • Ollivier J, Flori A, Cochard B. 2017. Genetic variation in nutrient uptake and nutrient use efficiency of oil palm. J Plant Nutr 40(4): 558–573. http://doi.org/10.1080/01904167.2016.1262415. [Google Scholar]
  • Ollivier J, Permadi P, Surya E, Flori A. 2015. Some keys points on palm nutrition diagnosis. Agritrop. Cirad. [Google Scholar]
  • Omont H. 2010. Contribution à la production d’huile de palme au développement durable : problématique générale et controverses. OCL 17(6). [Google Scholar]
  • PalmElit. 2019. Manuel de l’elaeiculteur. www.palmelit.com. [Google Scholar]
  • Pardon L, Bockstaller C, Marichal R. 2020. IN-Palm: An agri-environmental indicator to assess nitrogen losses in oil palm plantations. Agron J 112(2): 786–800. https://doi.org/10.1002/agj2.20109. [CrossRef] [Google Scholar]
  • PIC. 2012. Rapport du Programme d’Intérêt Commun (PIC) entre INRAB–CIRAD et PalmElit : Bilan exercice 2011 – perspective 2012. [Google Scholar]
  • PIC. 2011. Rapport du Programme d’Intérêt Commun (PIC) entre INRAB–CIRAD et PalmElit : Bilan exercice 2010 – perspective 2011. [Google Scholar]
  • Pinta. 1973. Méthode de référence pour la détermination des éléments minéraux dans les végétaux (Reference methods for the determination of mineral elements in plants). Oleagineux 28: 87–92. [Google Scholar]
  • Prabowo E, Foster LH, Nelson S, Sitepu B, Nelson P. 2012. Practical use of oil palm nutrient physiological efficiency with regard to nutrient recovery and agronomic efficiencies at different Sumatran sites, 19 p. [Google Scholar]
  • Quencez Pierre. 1996. La culture du palmier à huile en Afrique intertropicale : les conditions du milieu physique. OCL 3(2): 116–118. [Google Scholar]
  • Rankine IR, Fairhurst TH. 1999. Field Handbook: Oil Palm Series Volume 3 – Mature. (Oil Palm Series), 2nd. ed. Singapore: PPI/ PPIC and 4T. Consultants (4T), 135 p. [Google Scholar]
  • Sundram S. 2010. Growth effect on Arbuscular mychorriza fungi on oil palm (Elaeis guineensis Jacq.) seedling. J Oil Palm Res 22: 796–802. [Google Scholar]
  • Teoh KC, Chew PS. 1988b. Use of rachis analysis as an indicator of K nutrient status in oil palm. In: Hj Hassan HAH, Chew PS, Wood BJ, Pushparajah E, eds.. Int Oil Palm/Palm Oil Conf: Progr Prospects. Terra. 2014. Chaulage : retour sur les fondamentaux. [Google Scholar]
  • USDA. 2020. Oilseeds: World Markets and Trade: Global Consumption Recovers in 2020/21 After 2019/20 Drop. United States Department of Agriculture Foreign Agricultural Service, 50 p. [Google Scholar]
  • Verheye W. 2010. Growth and production of oil palm. In: Verheye, W., ed. Land use, land cover and soil sciences. Oxford, UK: Encyclopedia of Life Support Systems (EOLSS), UNESCO-EOLSS Publishers. http://www.eolss.net. [Google Scholar]
  • WorldAtlas. 2020. Worldatlas.com. [Google Scholar]
  • XLSTAT, Version 2018-7, www.xlstat.com. [Google Scholar]

Les statistiques affichées correspondent au cumul d'une part des vues des résumés de l'article et d'autre part des vues et téléchargements de l'article plein-texte (PDF, Full-HTML, ePub... selon les formats disponibles) sur la platefome Vision4Press.

Les statistiques sont disponibles avec un délai de 48 à 96 heures et sont mises à jour quotidiennement en semaine.

Le chargement des statistiques peut être long.