Adriano, F. T., and L. Ynalvez. 1932. A rapid modified method of detecting and estimating hydrocyanic acid suitable for field tests. Philippine J. of Agriculture 3(2):105–109.
Aldridge, W. N. 1945. The estimation of micro quantities of cyanide and thiocyanate. Analyst 70:474–475. London.
Bolhuis, G. G. 1952. L’emploi de la réaction par la couleur de Guignard dans la sélection du manioc. Revue International Bot. Appl. d’Agr. Tropical 32:361–362, 559–564.
Butler, G. W., and E. E. Conn. 1964. Biosynthesis of the cyanogenic glucosides linamarin and lotaustralin. J. of Biological Chemistry 239:1674–1679.
Clapp, R. C., F. H. Bissett, R. A. Coburn, and L. Long. 1966. Cyanogenesis in manioc: Linamarin and isolinamarin. Phytochemistry 5:1323–1326.
Conduto-viscosimetria em produtos amiláceos. 1972. Banco de Nordeste do Brasil, S.A. Departamento de Estudos Econômicos deo Nordeste (ETENE). Divisão de Agricultura. Pesquisas Tecnológicas sôbre a mandioca, 59–77. Fortaleza, Brasil.
Cooke, R. D. 1978b. An enzymatic assay for the total cyanide content of cassava, Manihot esculenta, Crantz. J. of the Science of Food and Agriculture 29:345–352.
Cooke, R. D. 1979. Enzymatic assay for determining the cyanide content of cassava and cassava products. Cassava information center, ed. by T. Brekelbaum, and G. Gomez, 2–14. Cali, Colombia: CIAT. Series 05EC-6.
Cooke, R. D., A. K. Howland, and S. K. Hahn. 1978. Screening cassava for low cyanide using an enzymatic assay. Experimental Agriculture 14:367–372.
Cooke, R. D., and E. M. de la Cruz. 1982b. Evaluation of enzymatic and autolytic assays for cyanide in cassava, Manihot esculenta, Crantz. J. of the Science of Food and Agriculture 33:1001–1009.
Cooke, R. D., and G. C. Blake. 1977. Enzymatic assay for total cyanide content of cassava and cassava products. Abstract, 924. 11th Federation of European Biochemical Societies Meetings, Copenhagen, Denmark.
Cooke, R. D., G. G. Blake, and J. M. Battershill. 1978. Purification of cassava linamarase. Phytochemistry 17:381–383.
Esquivel, T. F., and N. Maravalhas. 1973. J. of Agr. Food Chemistry 21:321.
Fafunso, M., and O. Bassir. 1976a. The disappearance of cyanide from cassava leaves during leaf protein extraction. West African J. of Biological and Applied Chemistry 19(2):30–34.
Fukuba, H. 1982. On the determination of cyanogenic glucosides in cassava (focusing on isotachoelectrophoretic works). Abstracts of papers, 48. Annual Meeting of Japanese Soc. of Nutrition and Food Sci., Tokyo, May 1982.
Fukuba, H., and E. M. T. Mendoza. 1984a. Determination of cyanide in cassava. Tropical root crops: Postharvest physiology and processing, ed. by I. Uritani, and E. D. Reyes, 171–181. Tokyo: Japan Scientific Societies Press.
Fukuba, H., O. Igarashi, C. M. Briones, and E. M. T. Mendoza. 1984. Cyanogenic glucosides in cassava and cassava products: Determination and detoxification. Tropical root crops: Postharvest physiology and processing, ed. by I. Uritani, and E. D. Reyes, 225–234. Tokyo: Japan Scientific Societies Press.
Gerpacio, A.L. 1980. Chemical and biological evaluation of root crops with emphasis on cassava, Manihot esculenta, as animal/poultry feed. Second Annual Report, NSDB-UPS-B-7812 Ag. 32 pg.
Gilchrest, D. G., W. E. Lueschen, and C. N. Hittle. 1967. Revised method for the preparation of standards in the sodium picrate assay of HCN. Crop Science 7:267–268.
Grossman, J., and J. A. de Assis. 1951. Ensaios de adubação. Revista Agronômica 15:169–173.
Guignard, M. L. 1895. Sur l’existenceet la localisation de l’émulsine dans les plantes du genre Manihot. Compte Rendu de l’Association Française pour l’Avancement des Sciences 23(2):593–596.
Guignard, M. L. 1906. Le haricot à acide cyanhydrique, Phaseolus lunatus L. Comptes Rendus de l’Acad. des Sci. 142:545–553. Paris.
Hofstee, J. 1953. Die Unterschiede in den Eigenschaften vershiedener Stärken un ihre Deutung. Stärke 4/5:83–86.
Holleman, L. W. J. 1955. New methods for quality research on tapioca. Et. d’Outre-Mer (March 1955), 97–108.
Ikediobi, C. O., G. O. C. Onyia, and C. E. Eluwah. 1980. A rapid and inexpensive assay for total cyanide in cassava, Manihot esculenta, Crantz, and cassava products. Agricultural and Biological Chemistry 44(12):2803–2809.
Indira, P., and J. K. Sinha. 1969a. Colorimetric method for determination of HCN in tubers and leaves of cassava, Manihot esculenta, Crantz. Indian J. of Agricultural Science 39(11):1021–1023.
Kawabata, A., V. V. Garcia, and R. R. del Rosario. 1982. Processing and utilization of root crops in the tropics. Nagoya, Japan: Nagoya Univ. Coop.
Kitajima, E. W., E. S. Normanha, and A. S. Costa. 1972. Corpúsculos do tipo micoplasma associados a uma forma de superbrotamento da mandioca, na região de Tapchula, Chiapas, México. Ciencia e Cultura 24(9):852–855. Brasil.
Lambert, J. L., J. Ramasamy, and J. V. Paukstelis. 1975. Stable reagents for the colorimetric determination of cyanide by modified König reactions. Analytical Chemistry 47:916–918.
Lavollay, J., and X. N. Bui. 1943. Technique colorimétrique de contrôle rapide de la teneur en acide cyahydrique des produits alimentaires d’origine végétale. Annales de Chimie Analytique 25:211–214.
Lian, D. M. S., K. H. Teik, and C. S. Se. 1977. Aminopeptidase isosymes of the Malaysian cassava, Manihot esculenta, Crantz, varieties. Proceedings of the Malaysian Biochemical Society 4:206–217.
Mandal, R. C., K. D. Singh, and S. B. Maini. 1973. Effect of plant density, fertility level and shootnumber on tuber yield and quality of tapioca hybrids. Indian J. of Agronomy 18(4):498–593.
Mendoza, E. M. T., M. Kojima, N. Iwatsuki, H. Fukuba, and I. Uritani. Evaluation of some methods for the analysis of cyanide in cassava. Tropical root crops: Postharvest physiology and processing, ed. by I. Uritani, and E. D. Reyes, 235–242. Tokyo: Japan Scientific Societies Press.
Mirande, M. 1909. Procéde rapide pour la recherche des plantes a acide cyanhydrique. C. R. hebd. séances Acad. Sci. 149:140–142.
Moh, C. C., and J. J. Alan. n.d. The use of Guignard test for screening cassava cultivars of low hydrocyanic acid content. (Mimeo.)
Nery, J. P. 1963. Extração de proteína da mandioca. Agronômico 15(7–8):4–5. Brazil.
Olojede-Nelson, S. O. 1970. Methods of analysis of cassava used in Chemistry and Soils Division. Nigeria: Federal Department of Agricultural Research, Memorandum 104.
Passam, H. C. 1976. Cyanide-insensitive respiration in root tubers of cassava, Manihot esculenta, Crantz. Plant Science Letters 7(3):211–218.
Pettigrew, A. R., and G. S. Fell. 1972. Simplified calorimetric determination of thiocyanate in biological fluids, and its application to investigations of toxic amblyopias. Clin. Chem. 18:996–1,000.
Pieris, N., and E. R. Jansz. 1976b. Cyanide liberation from linamarin. III. Separation of the linamarases of manioc rind by DEAE-cellulose chromatography. J. of the National Science Council of Sri Lanka 4(2):139–147.
Rajendran, N., P. G. Nair, and B. M. Kumar. 1973. A modified colorimetric method for the determination of starch in cassava tubers. Trivandrum, India: Central Tuber Crops Research Institute, 4. 8 pg.
Rao, P. V., and S. K. Hahn. 1984. J. of the Science of Food and Agriculture 35:426.
Rickard, J. E. 1986. Tannin levels in cassava, a comparison of methods of analysis. J. of the Science of Food and Agriculture 37:37–42.
Roche, P., J. Velly, and B. Joliet. 1957. Essai de détermination des seuils de carence en potasse dans le sol et dans les plantes. Revue de la Potasse 1957:1–5.
Root and tuber improvement. 1974. Annual Report 1972–1973, 21–25. Ibadan, Nigeria: IITA.
Root and tuber improvement. 1975. Annual Report 1974, 125–152. Ibadan, Nigeria: IITA.
Rosanow, M. 1973. Field experimental check on starch yields of cassava in Indonesia. Wageningen, Holland. 10 pg.
Sadik, S. 1973. Screening for acyanogenesis in cassava. Paper presented at the 3rd International Symposium on Tropical Root Crops, held at IITA, 2–9 Dec. 1973.
Sadik, S., O. U. Okereke, and S. K. Hahn. 1974. Screening for acyanogenesis in cassava. IITA Technical Bulletin 4. 4 pg.
Screening for acyanogenesis in cassava. 1974. Technical Bulletin 4. Ibadan, Nigeria: International Institute of Tropical Agriculture (IITA).
Smith, R. G. 1929. A method for the quantitative determination of cyanide in small amounts. J. of the American Chem. Society 51:1171–1174.
Teles, F. F. F. 1972b. Consideraçoes sobre um novo método de determinar nitrogênio em compostos orgânicos. Pesquisas tecnológicas sobre a mandioca, 35–56. Fortaleza, Brasil: Banco do Nordeste do Brasil, Dept. de Estudos Econômicos do Nordeste (ETENE), Divisão de Agricultura.
Van Biema, G., and F. B. Cabral. 1951. Método rápido para estimar el contenido de almidón de la yuca. Hacienda 46:50, 55, 76.
Wood, T. 1966. The isolation, properties and enzymic breakdown of linamarin from cassava. J. of the Science of Food and Agriculture 17(1):85–90.
Woolmington, K. G. 1961. Determination of hydrogen cyanide by gas chromatography. J. of Applied Chemistry 11:114–120.
Zitnak, A. 1973. Assay methods for hydrocyanic acid in plant tissues and their application in studies of cyanogenic glycosides in Manihot esculenta. Proceedings of an interdisciplinary workshop on chronic cassava toxicity, London, England, 29–30 January 1973, ed. by B. Nestel, and R. MacIntyre, 89–96. Ottawa, Canada: International Development Research Centre, IDRC-010e. 163 pg.
Zitnak, A., D. C. Hill, and J. C. Alexander. 1977. Determination of linamarin in biological tissues. Anal. Biochemistry 77:310–314.