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Effects, distribution and uptake of silicon in banana (Musa spp.) under controlled conditions

Bibliographic reference Henriet, Céline ; Delvaux, Bruno ; Draye, Xavier ; Oppitz, I. ; Swennen, R.. Effects, distribution and uptake of silicon in banana (Musa spp.) under controlled conditions.1st International Meeting on Microbial Phosphate Solubilization (Salamanca(Spain), Jul 16-19, 2002). In: Plant and Soil : international journal on plant-soil relationships, Vol. 287, no. 1-2, p. 359-374 (2006)
Permanent URL http://hdl.handle.net/2078.1/59892
  1. Bakry F, Carreel F, Caruana ML, Côte FX, Jenny C, Tézenas du Montcel H (1997) Les bananiers. In: Charrier A, Jacquot M, Hamon S, Nicolas D (eds) L’amélioration des plantes tropicales. CIRAD, France, pp 109–139
  2. Berthelsen S, Noble AD, Garside AL (1999) An assessment of soil and plant silicon levels in North Queensland. Proc Aust Soc Sugar Cane Technol 21:92–100
  3. Cherif M, Asselin A, Belanger RR (1994) Defense responses induced by soluble silicon in cucumber roots infected by pythium spp. Phytopathology 84:236–242
  4. Corrales I, Poschenrieder C, Barcelo J (1997) Influence of silicon pretreatment on aluminium toxicity in maize roots. Plant Soil 190:203–209
  5. Delvaux B., Soils, Bananas and Plantains (1995) ISBN:9789401043175 p.230-257, 10.1007/978-94-011-0737-2_10
  6. Deren CW (2001) Plant genotype, silicon concentration, and silicon-related responses. In: Datnoff LE, Snyder GH, Korndörfer GH (eds) Silicon in agriculture. Elsevier, The Netherlands, pp 149–158
  7. Draper NR, Smith H (1981) Applied regression analysis. Wiley, New York, 709 p
  8. Epstein E (1994) The Anomaly of silicon in plant biology. Proc Natl Acad Sci USA 91:11–17
  9. Epstein E (1999) Silicon. Annu Rev Plant Physiol 50:641–664
  10. Faure G (1991) Principles and application of inorganic geochemistry. MacMillan, New York, 626 p
  11. Hay RM, Walker AJ (1989) An introduction to the physiology of crop yield. Longman, New York
  12. Hinsinger P, Barros ONF, Benedetti MF, Noack Y, Callot G (2001) Plant-induced weathering of a basaltic rock: experimental evidence. Geochim Cosmochim Acta 65:137–152
  13. Iwasaki K, Maier P, Fecht M, Horst WJ (2002) Leaf apoplastic silicon enhances manganese tolerance of cowpea (Vigna unguiculata). Plant Physiol 159:167–173
  14. Jauhari OS, Mishra RA, Tewari CB (1974) Nutrient uptake of banana (Musa paradisiaca) var. Basrai Dwarf. Indian J Agric Chem 7:73–79
  15. Jones LHP, Handreck KA (1967) Silica in soils, plants, and animals. Adv Agron 19:107–149
  16. Jones LHP, Milne AA, Wadham SM (1963) Studies of silica in the oat plant. I. Chemical and physical properties of SiO2. Plant Soil 18:207–220
  17. Karathanasis AD (2002) Mineral equilibria in environmental soil systems. In: Dixon JB, Weed SB (eds) Soil mineralogy with environmental applications. Soil Science Society of America, Madison, pp 109–151
  18. Kim SG, Kim KW, Park EW, Choi D (2002) Silicon- induced cell wall fortification of rice leaves: a possible cellular mechanism of enhanced host resistance to blast. Phytopathology 92:1095–1103
  19. Korndörfer GH, Lepsch I (2001) Effect of silicon on plant growth and crop yield. In: Datnoff LE, Snyder GH, Korndörfer GH (eds) Silicon in agriculture. Elsevier, The Netherlands, pp 133–147
  20. Lahav E., Banana nutrition, Bananas and Plantains (1995) ISBN:9789401043175 p.258-316, 10.1007/978-94-011-0737-2_11
  21. Liang Y, Si J, Römheld V (2005) Silicon uptake and transport is an active process in Cucumis sativus. New Phytol 167:797–804
  22. Ma Jian Feng, Role of silicon in enhancing the resistance of plants to biotic and abiotic stresses, 10.1080/00380768.2004.10408447
  23. Ma JF, Takahashi E (2002) Soil, fertilizer, and plant silicon research in Japan. Elsevier, The Netherlands, 281 p
  24. Ma JF, Mitani N, Nagao S, Konishi S, Tamai K, Iwashita T, Yano M (2004) Characterization of the silicon uptake system and molecular mapping of the silicon transporter gene in rice. Plant Physiol 136:3284–3289
  25. Ma JF, Tamai K, Yamaji N, Mitani N, Nagao S, Konishi S, Katsuhara M, Ishiguro M, Murata Y, Yano M (2006) A silicon transporter in rice. Nature 340:688–691
  26. Mindzie CM, Doutrelepont H, Vrydaghs L, Swennen RL, Swennen RJ, Beeckman H, De Langhe E, De Maret P (2001) First archaeological evidence of banana cultivation in Central Africa during the third millennium before present. Veg Hist Archaeobot 10:1–6
  27. Motomura H, Mita N, Suzuki M (2002) Silica accumulation in long-lived leaves of Sasa veitchii (Carriere) Rehder (Poaceae–Bambusoideae). Ann Bot (Lond) 90:149–152
  28. Opfergelt S, Cardinal D, Henriet C, Draye X, André L, Delvaux B (2006) Silicon isotope fractionation by banana (Musa spp.) grown in a continuous nutrient flow device. Plant Soil. DOI 10.1007/s11104-006-9019-1
  29. Price N. S., The origin and development of banana and plantain cultivation, Bananas and Plantains (1995) ISBN:9789401043175 p.1-13, 10.1007/978-94-011-0737-2_1
  30. Rains DW, Epstein E, Zasoski RJ, Aslam M (2006) Active silicon uptake by wheat. Plant Soil 280:223–228
  31. Raven JA (1983) The transport and function of silicon in plants. Biol Rev 58:179–207
  32. Raven JA (2001) Silicon transport at the cell and tissue level. In: Datnoff LE, Snyder GH, Korndörfer GH (eds) Silicon in agriculture. Elsevier, The Netherlands, pp 41–55
  33. Rufyikiri G, Dufey JE, Nootens D, Delvaux B (2000) Effect of aluminium on bananas (Musa spp.) cultivated in acid solutions. I. Plant growth and chemical composition. Fruits 55:367–379
  34. Rufyikiri G, Nootens D, Dufey JE, Delvaux B (2001) Effect of aluminium on bananas (Musa spp.) cultivated in acid solutions. II. Water and nutrient uptake. Fruits 56:3–14
  35. Rufyikiri G, Nootens D, Dufey JE, Delvaux B (2004) Mobilization of aluminium and magnesium by roots of banana (Musa spp.) from kaolinite and smectite clay minerals. Appl Geochem 19:633–643
  36. Simmonds NW (1962) The evolution of bananas. Longman, London
  37. Skutch Alexander F., Anatomy of Leaf of Banana, Musa sapientum L. var. Hort. Gros Michel, 10.1086/333800
  38. Smithson F (1956) Plant opal in soil. Nature 178:107
  39. Sposito G (1989) The chemistry of soils. Oxford University Press, New York, 277 p
  40. Stumm W, Morgan JJ (1996) Aquatic chemistry—chemical equilibria and rates in natural waters. Wiley, New York, 1022 p
  41. Taiz L, Zeiger E (1998) Plant physiology, 2nd edn. Sinauer Associates Inc., Sunderland, 791 p
  42. Takahashi E (1995) Uptake mode and physiological functions of silica. In: Matsuo T, Kumazawa K, Ishii R, Ishihara K, Hirata H (eds) Science of the rice plant: physiology. Foods and Agriculture Policy Research Center, Tokyo, pp 420–433
  43. Takahashi K, Ma JF, Miyake Y (1990) The possibility of silicon as an essential element for higher plants. Comments Agric Food Chem 2:99–122
  44. Tomlinson PB (1969) Anatomy of the monocotyledons. III. Commelinales-Zingiberales. Clarendon, Oxford
  45. Van der Vorm PDJ (1980) Uptake of Si by five plants species, as influenced by variations in Si-supply. Plant Soil 56:153–156
  46. Winslow MD, Okada K, Correa-Victoria F (1997) Silicon deficiency and the adaptation of tropical rice ecotypes. Plant Soil 188:239–248
  47. Yoshida S, Ohnishi Y, Kitagishi K (1962) Chemical forms, mobility, and deposition of silicon in rice plants. Soil Sci Plant Nutr 8:107–113