Affran, D.K. 1968. Cassava and its economic importance. Ghana Farmer, 12(4): 172-178.
Angel, F., Giraldo, F., Gomez, R., Iglesias, C., Thome, J., & Roca, W. 1993. Use of RFLPs and RAPDs in cassava genomic studies. In: W.M. Roca & A.M. Thro, eds. Proceedings of the First International Scientific Meeting of the Cassava Biotechnology Network, Cartagena, Colombia, August 1992. Working Document 123. Cali, Colombia, CIAT.
Arias-Garzon, D.I. & Sayre, R.T. 1993. Differential inhibition of transient gene expression in cassava root and leaf tissues. In: W.M. Roca & A.M. Thro, eds. Proceedings of the First International Scientific Meeting of the Cassava Biotechnology Network, Cartagena, Colombia, August 1992. Working Document 123. Cali, Colombia, CIAT.
Bai, K B.V. 1987. Recent advances in cassava genetics and cytogenetics. In: C. Hershey, ed. Cassava breeding: a multidisciplinary review pp. I -24. Cali, Colombia, CIAT.
Balagopalan, C., Padmaja, G., Panda, S.K. & Moorthy, S.N. 1988. Cassava in food, feed and industry Boca Raton, Fl., USA, CRC Press Incorporated.
Becker-Andre, M., Schulze-Lefert, P. & Hahlbrock, K. l 991. Structural comparison, modes of expression and putative cis-acting elements of the two 4-coumarate: coenzyme A ligase genes in potato. J. Biol. Chem., 266: 8551 -8559.
Beeching, J., Dodge, A., Moore, K. & Rickard, J.E. 1994. Physiological deterioration in cassava: possibility for its control. Trop. Sci. (in press)
Benfey, P.N. & Chua, N.H. 1990. The cauliflower mosaic virus 35S promoter: combinatorial regulation of transcription in plants. Sci., 250: 959-966.
Benfey, P.N., Ren, L. & Chua, N.H. 1990a. Tissue-specific expression from CaMV 35S enhancer subdomains in early stages of plant development. European Molecular Biology Organization Journal, 9: 1677- 1684.
Benfey, P.N., Ren, L. & Chua, N.H. 1990b. Combinatorial and synergistic properties of CaMV 35S enhancer subdomains. European Molecular Biology Organization Journal, 9: 1685- 1696.
Bertram, R.B. 1993. Application of molecular techniques to genetic resources of cassava (Manihot esculenta Crantz-Euphorbiaceae): interspecific evolutionary relationships and intraspecific characterization. University of Maryland, USA. (Ph.D thesis)
Bidney, D., Seelonge, C., Martich, J., Burrus, M., Sims, L. & Huffman, G. 1992. Microprojectile bombardment of plant tissues increases transformation frequency by Agrobacterium tumefaciens. Plant Molecular Biology, 18: 301-313.
Booth, R.H. 1976. Storage of fresh cassava (Manihot esculenta) 1: post-harvest deterioration and its control. Exper. Agric., 12: 103- 111.
Booth, R.H. 1978. A review of root rot diseases in cassava. In: T. Brekelbaum, A. Bellotii & J.C. Lozano, eds. Proceedings of the Cassava Protection Workshop, Cali, Colombia, November 1977. Cali, Colombia, CIAT.
Bottema, J.W.T. & Henry, G. 1990. History, current status and potential of cassava use in Asia. In: R. Howeler, ed. Cassava breeding, agronomy and utilization research in Asia, pp. 3-26. Bangkok, Thailand, CIAT.
Bottema, J.W.T. & Henry, G. 1991. Current potential of cassava products in Asia. Palawija News (Bogor, Indonesia), pp. 1-8.
Bowler, J., Van Montagu, M. & Inze, D. 1992. Superoxide dismutase and stress tolerance: annual review plant physiology. Plant Molecular Biology, 43: 83- 116.
Bowler, C., Slooten, L., Vanderbrandens, S., De Rycke, R., Botterman, J., Sybesma C., Van Montagu M. & Inze, D. 1991. Manganese superoxide dismutase can reduce cellular damage mediated by oxygen radicals in transgenic plants. European Molecular Biology Organization Journal, 10: 1723- 1732.
Bowles, D.J. 1990. Defence-related proteins in higher plants. Ann. R. Biochem., 59: 873907.
Brown, A.H.D. 1989. The case for core collections. In: A.H.D. Brown, O.H. Frankel, R.D. Marsheall and J.T. William, eds. The use of plant genetic resources, pp. 136156. Cambridge, UK, Cambridge University Press.
Burton, C.L. 1970. Diseases of tropical vegetables in the Chicago market. Trop. Agric. (Trinidad), 47: 303-313.
Cabral, G.B., Aragao, FJ.L., Matsumoto, K., Monte-Neshich, D.C. & Rech, E.L. 1993. Cassava tissue culture: multiple shoots and somatic embryogenesis. In: W.M. Roca & A.M. Thro, eds. Proceedings of the First International Scientific Meeting of the Cassava Biotechnology Network, Cartagena, Colombia, August 1992.
Working Document 123. Cali, Colombia, CIAT.
Cassava Newsletter (1991). Cassava commercialization in Paraguay. Cassava Newsletter, 15(1): 6-9.
Cataño, M.L., Mornan, K., Plazas,J. & Roca, W. 1993. Isolation and in vitro culture of immature cassava pollen. Cali, Colombia, CIAT. (in review)
Christou, P., McCabe, D.E., Martinell, B.J. & Swain, W.F. 1990. Soybean genetic engineering: commercial production of transgenic plants. Trends in Biotechnology, 8: 145-151.
Chuzel, G. 1991. Cassava starch: current and potential use in Latin America. Cassava Newsletter, 15(1): 9-1 1.
CIAT. 1983. Cassava Programme, annual reports 1982/83. Cali, Colombia, CIAT.
CIAT. 1987. Global cassava research and development. The cassava economy of Asia: adapting to economic change. Documentation of cassava demand studies conducted in Asia in collaboration with national programmes. Draft version prepared for the Technical Advisory Committee for the Nairobi meeting, June 1987. Cali, Colombia, CIAT.
CIAT. 1988. Cassava Programme, annual report 1985. Working Document 38. Cali, Colombia, CIAT.
CIAT. 1991. Cassava Programme, annual report 1990. Working Document 95. Cali, Colombia, CIAT.
CIAT. 1992. Cassava Programme 1987-1991. Working Document 116. Cali, Colombia, CIAT.
CIAT. 1993. Cassava Programme, annual report 1992. Cali, Colombia, CIAT. (in press)
Cock, J.H. 1985. Cassava: new potential for a neglected crop. London, Westview Press.
Conkling, M.A., Cheng, C.l., Yamamoto, Y.T. & Goodman, H.M. 1990. Isolation of transcriptionally regulated root-specific genes from tobacco. Plant Physiol., 93: 12031211.
Coursey, D.G. & Booth, R.H. 1977. Post-harvest problems of non-grain staples. Acta Horticulturae, 53: 23-33.
Dendy, D.A.V. & Trotter, B.W. 1988. Wheatless and composite breads: technologies awaiting adoption. Entwicklung und Laendlicher Raum (Frankfurt am Main), 88(6): 1318.
Dietrich, A., Mayer, J.E. & Hahlbrock, K. 1990. Fungal elicitor triggers rapid, transient and specific protein phosphorylation in parsley cell suspension cultures. J. Biol. Chem., 265: 6360-6368.
Dixon, R.A. & Harrison, M.J. I 990. Activation, structure and organization of genes involved in microbial defence in plants. Advan. Genet., 28: 165-234.
Doku, E.V. 1969. Cassava in Ghana. Ghana Universities Press.
Ecker, J.R. & Davis, R.W. 1987. Plant defence genes are regulated by ethylene. Proc. Nat. Acad. Sci. USA, 84: 5202-5206.
Ekundayo, J.A. & Daniel, T.M. 1973. Cassava rot and its control. Transactions of the British Mycological Society, 61: 27-32.
Falcon, W.O., Jones, W.O., Pearson, S.R. et al. 1984. The cassava economy of Java. Stanford, Cal, USA, Stanford University Press.
FAO. 1980-1990. Production Yearbooks. Rome, FAO.
Farmer, E.E., Johnson, R.R. & Ryan, C.A. 1992. Regulation of expression of proteinase inhibitor genes by methyl jasmonate and jasmonic acid. Plant Physiol., 98: 995- 1002.
Fauquet, C., Schopke, C., Chavarriaga, P., Sangare, A. & Beachy, R.N. 1993. Genetic engineering technologies to control viruses and their application to cassava viruses. In: W.M. Roca & A.M. Thro, eds. Proceedings of the First International Scientific Meeting of the Cassava Biotechnology Network Cartagena, Colombia, August 1992. Working Document 123. Cali, Colombia, CIAT.
Finer,JJ. & McMullen, M.D. 1990. Transformation of cotton (Gossypium hirsutum L) via particle bombardment. Plant Cell Reports, 8: 586-589.
Franche, C., Bogusz, D., Schopke, C., Fauquet, C. & Beachy, R.N. 1991. Transient gene expression in cassava using high-velocity microprojectiles. Plant Molecular Biology, 17:493-498.
Fritze, K., Staiger, D., Czaja, I., Walden, R., Schell, J. & Wing, D. 1991. Developmental and UV light regulation of the snapdragon chalcone synthase promoter. Plant Cell Reports, 3: 893-905.
Fritzemeier, K.H., Cretin, C., Kombrink, E., Rohwer, F., Taylor, J., Scheel, D. & Hahlbrock, K. 1987. Transient induction of phenylalanine ammonia-lyase and 4coumarate:CoA ligase mRNAs in potato leaves infected with virulent or avirulent races of Phytophthora infestans. Plant Physiol., 85: 34-41.
Gordon-Kamm, WJ., Spencer, T.M., O'Brien, J.V., Start, W.G., Daines, R.J.,
Adams, T.R., Mangano, M.L., Chambers, S.A., Zachwieja, SJ., Willetts, N.G., Adams, J.R.W.R., Mackey, C.J., Krueger, R.W., Kausch, A.P. & Leamux, P.G. 1991 Transformation of maize using microprojectile bombardment an update and perspective In Vitro Cellular and Developmental Biology, 27P 21 -27
Graner, E.A. 1941 Polyploid cassava induced by colchicine treatment J. Hered., 32: 281288.
Gulick, P., Hershey, C. & Esquinas-Alcazar, J. 1983. Genetic resources of cassava and wild relatives. Rome, International Board for Plant Genetic Resources.
Hahlbrock, K. & Scheel, D. 1989 Physiology and molecular biology of phenylpropanoid metabolism Annual Review of Plant Physiology and Plant Molecular Biology, 40: 347-369
Hahn, S.K., Bai, K.V. & Asiedu, R. 1990. Tetraploids, triploids and 2n pollen from diploid interspecific crosses with cassava Theor. A. Gen., 79: 433-439.
Hahn, S.K., Terry, E.R. & Leuschner, K. 1980. Breeding cassava for resistance to cassava mosaic disease Euphytica, 29: 673-683
Hahn, S.K., Terry, E.R., Leuschner, K.,Akobundo, I.O., Okoli, C. & Lal, R. 1979. Cassava improvement in Africa Field Crops Research, 2: 193-226
Henry, G. 1991 Adoption of cassava technologies: constraints, strategies and impact. In: G. Henry, ed. Trends in ClAT commodities 1991, pp 22-40 Working Document 93 Cali, Colombia,CIAT
Hershey, C. 1984 Breeding cassava for adaptation to stress conditions development of a methodology In: F.S. Shideler and H. Ricon, eds. Proceedings of the Sixth Symposium of the International Society of Tropical Root Crops, Lima, Peru, February 1993, pp 303-314 Lima, Peru, International Potato Center, CIP.
Hershey, C., Iglesias, C., Iwanaga, M. & Thome, J. 1993. Definition of a eve collection for cassava. In: C. Iglesias & M Iwanaga, eds Proceedings of the International Workshop on Cassava Genetic Resources, Rome Rome, CIAT/IITA/ IBPGR
Hershey, C. & Jennings, D.L. 1992 Progress in breeding cassava for adaptation to stress. Pl. Breed. Abst., 62: 823-831.
Hershey; C. & Ocampo, C. 1989. New marker genes found in cassava Cassava Newsletter, 13 1-5
Hirose, S., Data, E.S. & Quevedo, M.A.1984 Changes in respiration and ethylene production in cassava roots in relation to post-harvest deterioration ln: 1. Uritani & E.D. Reyes. eds. Tropical root crops: post-harvest physiology and processing, pp. 83-89. Tokyo, Japan Scientific Societies Press.
Hyodo, H. 1991. Stress/wound ethylene. In: A.K. Mattoo & J.C. Suttle, eds. The plant hormone ethylene, pp. 43-63. London, CRC Press.
Iglesias, C. & Hershey, C. 1993. Cassava breeding at CIAT: heritability estimates and genetic progress throughout the 1980s. In: Proceedings of the Ninth Symposium of the International Society of Tropical Root Crops. IITA. Accra, Ghana. (in press)
Iglesias, C., Calle, F., Hershey, C., Jaramillo, G., & Mesa, E. 1994. Sensitivity of cassava (Manihot esculenta Crabtz) genotypes to environmental changes. Field Crops Research. (in press)
Janssen, W. & Wheatley, C.1985. Urban cassava markets: the impact of fresh root storage. Food Policy, 8: 265-277.
Jefferson, R.A., Kavanagh, T.A. & Bevan, M.W. 1987. GUS fusions: -glucuronidase as a sensitive and versatile gene fusion marker in higher plants. European Molecular Biology Organization Journal, 6: 3901-3907.
Jones, W.O. 1959. Manioc in Africa. Stanford, Cal, USA, Stanford University Press.
Kaulen, H., Schell, J. & Kreuzaler, F. 1986. Light-induced expression of the chimeric chalcone synthase-NPTII gene in tobacco cells. European Molecular Biology Organization Journal, 5: 1-8.
Kawano, K. 1980. Cassava. In: W.R. Fehr & H.H. Handley, eds. Hybridization of Crop Plants, pp. 225-233. Madison, Wisc., USA, American Society of Agronomy.
Kawano, K., Amaya, A., Daza, P. & Rios, M. 1978. Factors affecting efficiency of hybridization and selection in cassava. Crop Sci., 17: 373-376.
Kawano, K. & Rojanaridpiched, C. 1983. Genetic study on post-harvest root deterioration in cassava. Kasetsart J., 17: 14-26.
Kay, D.E. 1987. Root crops, second edition, revised by E.G.B. Gooding, Crop and Product Digest No. 2. London, Tropical Development and Research Institute.
Klein,T.M.,Wolf, E.D., Wu, R. & Sanford,J.C.1987. High-velocity microprojectiles for delivering nucleic acids into living cells. Nature, 327: 70-73.
Kosugi, S., Ohashi, Y., Nakajima, K. & Arai, Y. 1990. An improved assay for glucuronidase in transformed cells: methanol almost completely suppresses a putative endogenous -glucuronidase activity. Plant Sci., 70: 133-140.
Krishnan, R., Magoon, M.L. & Bai, K.V. 1970. The pachytene karyotype of Manihot glaziovii. Genet. Iber., 22: 177-191.
Lagrimini, L.M. 1991. Wound-induced deposition of polyphenols in trangenic plants overexpressing peroxidase. Plant Physiol., 96: 577-583.
Lalaguna, F. & Agudo, M. 1989. Relationship between changes in lipid with ageing of cassava roots and senescence parameters. Phytochem., 28: 2059-2062.
Lancaster, P.A., Ingram, J.S., Lim, M.Y. & Coursey, D.G. 1982. Traditional cassavabased foods: survey of processing techniques. Econ. Bot., 36(1): 12-45.
Logemann, J., Mayer, J.E., Schell, J. & Willmitzer, L. 1988. Differential expression of genes in potato tubers after wounding. Proc. Nat. Acad. Sci. USA, 85: 1136- 1140
Lois, R. & Hahlbrock, K. 1992. Differential wound activation of members of the phenylalanine ammonia-lyase and 4-coumarate:CoA ligase gene families in various organs of parsley plants. Z. Naturfors. Sect. C: Biosc., 47: 90-94.
Lorenzo, G. de, Ranucci, A., Bellinncamp, D., Salvi, G. & Cervone, F. 1987. Elicitation of phenylalanine ammonia-lyase in Daucus curota by oligogalacturonides released from sodium polypectate from homogeneous polygalacturonase. Plant Sci., 51: 147-150.
Lynam, J.K. 1991. The development potential of root crops in Africa. Enhvicklungund Laendlicher Raum (Frankfurt am Main),91 (1): 8- 12 .
Lynch, D.V. & Thompson, J.E.1984. Lipoxygenase-mediated production of superoxide anions in senescing plant tissue. Federation of European Biochemical Societies Letters, 173: 251 -254.
Magoon, M.L., Jos, J.S., Vasudeman, K.N. & Nair, S.G. 1969. Cytomorphological studies on induced polyploids of cassava. Genet.. Iber., 21: 27-47.
Magoon, M.L., Krishnan, R. & Bai, K.V. 1969. Morphology of the pachytene chromosomes and meiosis in Manihot esculenta Crantz. Cytol., 34: 612-626.
Majumder, S.K. 1955. Some studies on the microbial rot of tapioca. Bull. Cent. Food Technol. Res. Inst. (Mysore), 4: 164.
Marriott, J., Been, B.O. & Perkins, C. 1979. The aetiology of vascular discoloration in cassava roots after harvest: development of endogenous resistance in stored roots. Physiol. Plant., 45: 51-56.
Martin, T., Schmidt, R., Altmann, T. & Frommer, W.B. 1992. Non-destructive assay systems for detection of -glucuronidase activity in higher plants. Plant Molecular Biology Reports, 10: 37-46.
Mathews, H., Schoepke, C., Carcamo, R., Chavarriaga, P., Fauquet, C. & Beachy, R.N. 1993. Improvement of somatic embryogenesis and plant recovery in cassava. Plant Cell Reports, 12: 328-333.
Medford, J.I., Elmer, J.S. & Klee, HJ. I 991. Molecular cloning and characterization of genes expressed in shoot apical meristems. Plant Cell Reports, 3: 359-370.
Meyer, P., Heidmann, I., Forkmann, G. & Saedler, H. 1987. A new petunia flower colour generated by transformation of a mutant with a maize gene. Nature, 330: 677678.
Miche, J.C. 1984. FAO mission on the harvesting, processing and the use of cassava in Thailand and in Africa. In: Proceedings of the Workshop on Processing Technologies for Cassava and Other Tropical Root and Tubers in Africa, hosted by the African Development Bank, Abidjan, Côte d'Ivoire, November 1983, Vol. l. Rome, FAO.
Moerschbacher, B.M., Noll, U., Ocampo, C.A., Flott, B.E., Gotthardt, U., Wuestefeld, A. & Reisener, H.J. 1990. Hypersensitive lignification response as the mechanism of non-host resistance of wheat against oat crown rust. Physiol. Plan., 78: 609-615.
Nassar, N.M.A. 1989. Broadening the genetic base of cassava, Manihot esculenta Crantz, by interspecific hybridization. Can. J. Plant Sci., 69: 1071-1073.
NRI. 1992. Collaborative study of cassava in Africa (COSCA). Phase 1: processing component, COSCA Working Paper No. 7. Chatham, UK, Natural Resources Institute.
Nichols, RJ.W. 1947. Breeding cassava for virus resistance. East African Agricultural Journal of Kenya, Tanganyika, Uganda and Zanzibar, 12: 184-194.
Noon, R.A. & Booth, R.H. 1977. Nature of post-harvest deterioration of cassava roots. Trans. B. Mycol. Soc., 69: 287-290.
Ocampo, C., Hershey, C., Iglesias, C. & Iwanaga, M. 1993. Esterase isozyme fingerprinting of the cassava germplasm collection held at CIAT. In: W.M. Roca & A.M. Thro, eds. Proceedings of the First International Scientific Meeting of the Cassava Biotechnology Network, Cartagena, Colombia, August 1992. Working Document 123. Cali, Colombia, CIAT.
Oeller, P.W., Min-Wong, L., Taylor, L.P., Pike, D.A. & Theologis, A. 1991. Reversible inhibition of tomato senescence by antisense RNA. Sci., 254: 437-439.
Pancoro, A. & Hughes, M.A. 1992. In-situ localization of cyanogenic -glucosidase (linamarase) gene expression in leaves of cassava (Manihot esculenta Cranz) using nonisotopic riboprobes. Plant Journal for Cell and Molecular Biology, 2: 821-827.
Passam, H.C. & Noon, R.A. 1977. Deterioration of yams and cassava during storage. Ann. App. Biol., 85: 436-440.
Passam, H.C., Read, S.J. & Rickard, J.E. 1976. Wound repair in yam tuber: physiological processes during repair. New Phytol., 77: 325-331.
Plumbley, MA., Hughes, P.A. & Marriott, J. 1981. Studies on peroxidases and vascular discoloration in cassava root tissue. J. Sci. Food Agr., 32: 723-731.
Potrykus, I. 1992. Microtargeting of microprojectiles to target areas in the micrometre range. Nature, 355: 568-569.
Raemakers, C.J.J.M., Amati, M., Staritsky, G., Jacobsen, E. & Visser, R.G.F. 1991. Primary and secondary somatic embryogenesis in cassava. Acta Bot. Neerl., 40: 239-241.
Raemakers, C.J.J.M., Amati, M., Staritsky, G., Jacobsen, E. & Visser, R.G.F. 1993. Cyclic somatic embryogenesis and plant regeneration in cassava. Ann. Bot., 71.
Raemakers, C.J.J.M., Jacobsen, E. & Visser, R.G.F. 1993. Cyclic somatic embryogenesis and plant transformation in cassava. In: W.M. Roca & A.M. Thro, eds. Proceedings of the First International Scientific Meeting of the Cassava Biotechnology Network, Cartagena, Colombia, August 1992. Working Document 123. Call, Colombia, CIAT.
Rickard, J.E. 1981. Biochemical changes involved in the post-harvest deterioration of cassava roots. Trop. Sci., 23: 235-237.
Rickard, J.E. 1982. Investigation into post-harvest behaviour of cassava roots and their response to wounding. University of London. (Ph.D. thesis)
Rickard, J.E. 1985. Physiological deterioration in cassava roots. J. Sci. Food Agri., 36: 167176.
Rickard, J.E. & Coursey, D.G. 1981. Cassava storage. Part 1: storage of fresh cassava roots. Trop. Sci., 23: 1-32.
Rickard, J.E., Marriott, J. & Gahan, P.B. 1979. Occlusions in cassava xylem vessels associated with vascular discoloration. Ann. Bot., 43: 523-527.
Rickard, J., Wheatley, C. & Gilling, J. 1992. Report on visit to Ghana to assess potential for fresh cassava shelf-life extension technology. Chatham, UK, Natural Resources Institute. (internal document)
Rogers, DJ. & Appan, S.G. 1973. Manihot and Manihotoides (Euphorhiaceae): a computerassisted study Monograph 13. New York, Organization for Flora Neotropica.
Rosahl, S., Eckes, P., Schell, J. & Willmitzer, L. 1986. Organ-specific gene expression in potato: isolation and characterization of tuber-specific cDNA sequences. Mol. Gen. Genet., 202: 368-373.
Salehuzzaman, S.N.I.M., Jacobsen, E. & Visser, R.G.F. 1992. Cloning, partial sequencing and expression of a cDNA coding for branching enzyme in cassava. Plant Molecular Biology 20: 809-819.
Sarria, R., Gomez, A., Cataño, M., Herrera, P.V., Calderon, A., Mayer, J.E. & Roca, W.M. 1993. Towards the development of Agrobacterium tumefaciens and particle bombardment-mediated cassava transformation. In: W.M. Roca & A.M. Thro, eds. Proceedings of the First International Scientific Meeting of the Cassava Biotechnology Network, Cartagena, Colombia, August 1992. Working Document 123. Cali, Colombia, CIAT.
Schopke, C., Chavarriaga, P., Fauquet, C. & Beachy, R.N. 1993. Cassava tissue culture and transformation: improvement of culture media and the effect of different antibiotics on cassava. In: W.M. Roca & A.M. Thro, eds. Proceedings of the First International Scientific Meeting of the Cassava Biotechnology Network, Cartagena, Colombia, August 1992. Working Document 123. Cali, Colombia, CIAT.
Smith, A.G., Gasser, C.S., Budelier, K.A. & Fraley, R.T. 1990. Identification and characterization of stamen- and tapetum-specific genes from tomato. Mol. Gen. Genet, 222: 9-16.
Staiger, D., Kaulen, H. & Schell, J. 1989. ACACGTG motif of the Antirrhinum majus chalcone synthase promoter is recognized by an evolutionarily conserved nuclear protein. Proc. Nat. Acad. Sci. USA, 86: 6930-6934.
Stamp, J.A. & Henshaw, G.G. 1982. Somatic embryogenesis in cassava. Z. Pflanzenphysiol., 105: 183- 187.
Stamp, J.A. & Henshaw, G.G. 1987a. Secondary somatic embryogenesis and plant regeneration in cassava. Plant Cell Tissue and Organ Culture, 10: 227-233.
Stamp, J.A. & Henshaw, G.G. 1987b. Somatic embryogenesis from clonal leaf tissue of cassava Ann. Bot., 59: 45-50.
Sudarmonowati, E. & Henshaw, G.G. 1993. The induction of somatic embryogenesis of recalcitrant cassavacultivars using picloram and dicamba. In: W.M. Roca&A.M. Thro, eds. Proceedings of the First International Scientific Meeting of the Cassava Biotechnology Network Cartagena, Colombia, August 1992. Working Document 123. Cali, Colombia, CIAT.
Szabados, L., Hoyos, R. & Roca, W.M. 1987. In vitro somatic embryogenesis and plant regeneration of cassava. Plant Cell Reports, 6: 248-251.
Tanaka, Y., Data, E.S., Hirose, E.S., Taniguchi, T. & Uritani, 1.1983. Biochemical changes in secondary metabolites in wounded and deteriorated cassava roots. Agr. Biol. Chem., 47: 693-700.
Taniguchi, T. & Data, E.S. 1984. The role of microorganisms in post-harvest deterioration of cassava roots. In: 1. Uritani & E.D. Reyes eds. Tropical root crops: post-harvest physiology and processing, pp. 79-81. Tokyo, Japan Scientific Societies Press.
Tanigachi, T., Data, E.S., Burden, O.J., Gorgonio, M.A. & Umeres, E. 1984. Production of antifungal substances in cassava roots in response to physiological and microbial deterioration. In: 1. Uritani & E.D. Reyes eds. Tropical root crops: postharvest physiology and processing, pp. 145-149. Tokyo, Japan Scientific Societies Press.
Taylor, N.J., Clarke, M. & Henshaw, G.G. 1992. The induction of somatic embryogenesis in 15 African and one South American cassava cultivars. In: W.M. Roca & A.M. Thro, eds. Proceedings of the First International Scientific Meeting of the Cassava Biotechnology Network, Cartagena, Colombia August 1992. Working Document 123. Cali, Colombia CIAT.
Tello, L.M. 1988. An lists histológico e isoenzim tico durante la inducción de la embriogénesis somtica en yuca (Manihot esculenta Crantz). Universidad del Valle, Cali, Columbia. (Ph.D. Thesis)
Thanh, N.C. 1974. Technology of cassava chips and pellets processing in Thailand. In: E.V. Aruello, B. Nestel & E. Campbell, eds. Cassava processing and storage. proceedings of an interdisciplinary workshop, Pattaya, Thailand, April 1974. International Development Research Centre Monographs, IRDC 031 e, pp. 113122. Ottawa, Canada, International Development Research Centre.
Thompson, J.E., Brown, J.H., Paliyath, G., Todd, J.F. & Yao, K. 1991. Membrane phospholipid catabolism primes the production of activated oxygen in senescing tissues. In: E.J. Pell & K.L. Steffen, eds. Active oxygen/oxidative stress and plant metabolism, pp. 57-75. Rockville, Maryland, USA, American Society for Plant Physiology.
Trewavas, A. & Gilroy,, S. 1991. Signal transduction in plant cells. Trends in Genetics, 7: 356-361.
Vick, B.A. & Zimmerman, D.C. 1984. Biosynthesis of jasmonic acid by several plant species. Plant Physiol., 75: 458-461.
Wegmann, K. 1970. Untersuchungen uber die ursachen des schnellen verderbens von Maniokwurzeln und due wirksamkeit von Konservierrungstoffen in Maniokmehl. Brot und Geback, 24(9): 175- 178.
Wheatley, C.C. 1982. Studies on cassava (Manihot esculenta Crantz) root postharvest physiological deterioration. University of London. (Ph.D. Thesis)
Wheatley, C.C. 1989. Conservation of cassava roots in polyethelene bags. CIAT Study Guide 04SC-07.06. Cali, Colombia, CIAT.
Wheatley, C.C. & Best, R. 1991. How can traditional forms of nutrition be maintained in urban centres: the case of cassava. Entwicklung und Laendlicher Raum (Frankfurt am Main), 91(1): 13-16.
Wheatley, C.C. & Gomez, G. 1985. Evaluation of some quality characteristics in cassava storage roots. Qual. Plant., 35: 121 - 129.
Wheatley, C.C. & Schwabe, W.W. 1985. Scopeletin involvement in post-harvest physiological deterioration of cassava root (Manihot esculenta Crantz). J. Exper Bot, 36: 783-791.
Wilson, T.M.A. 1993. Strategies to protect crop plants against viruses: pathogen derived resistance blossoms. Proc. Nat. Acad. Sci. USA, 90: 3134-3141.
WRI. 1990. World resources 1990-91. New York, Oxford University Press.
Yang, J.S., Ge, K.L., Luo, M., Wang, Y.Z., Wang, B., Hu, R.X., Qian, M., Tan, J.Z., Lee, N. & Testa, D. 1991. Introduction of foreign genes into small cell groups (partialenzymically digested) in rice and regeneration of transgenic plants. Acta Bot. Sin., 33: 825-832.