Effect of storage methods of cassava planting materials on establishment and early growth vigour

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Research Paper 01/01/2018
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Effect of storage methods of cassava planting materials on establishment and early growth vigour

Baraka Barnabas Mdenye, Josiah Mwivandi Kinama, Florence M'mogi Olubayo, Benjamin Musembi Kivuva, James Wanjohi Muthomi
Int. J. Agron. Agri. Res.12( 1), 1-10, January 2018.
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Abstract

Cassava (Manihot esculenta Cruntz.) establishment depends on quality of planting materials. The experiment was done to determine the effects storage and variety on crop establishment and early growth vigour. Karembo and KME 4 varieties were stored in clamp under double shade (CUDS), horizontal under shade (HUS), vertical under shade (VUS) and horizontal under open ground (HOUG) as control for 16 weeks. Planting materials was sampled from each storage methods after every 4 weeks and taken to field to evaluate their sprouting ability, number of primary shoots formation, number of leaves, rate of leaf formation and early growth vigour. Data were subjected to ANOVA and means separated by LSD. Sprouting percentage at Kabete was 54.73 % while in Kiboko had 37.78 %. The results showed that Kabete had 1.60 number of primary shoots per plant compared to 1.04 of Kiboko. The results showed KME4 had higher sprouting than Karembo in both sites. This can be due to genetic difference among varieties. The rate of leaf formation at Kiboko was higher as compared to Kabete it could be contribute difference in temperature between locations. Thus, optimum temperature and relative humidity should be factored in cassava cuttings storage to avoid increased death of stored cuttings. In case of storage cassava cuttings, should be stored in clamp under double shade methods under low temperature and moderate RH.

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Akparobi SO, Togun AO, Ekanayake IJ. 2000. Temperature effects on leaf growth of cassava (Manihot esculenta Crantz) in controlled  environments. African Journal of Root and Tuber Crops. (4)1, 1-4.

Bridgemohan P, Bridgemohan RSH. 2014. Effect of initial stem nodal cutting strength on dry matter production and accumulation in cassava. Journal of Plant Breeding and Crop Science. 6(6), 67-72.

Centro Internacional de Agricultura Tropical (CIAT). 1987. Cassava Breeding: A Multidisciplinary review: Proceedings of a Workshop Held in the Philippines, 4 – 7 March 1985

Cheng B, Shao J. 2006. Testing Treatment Effects in Two-Way Linear Models: Additive or Full Model? The Indian Journal of Statistics 68, 392–408.

Cock JH. 2011. Cassava growth and development. In: Centro International de Agricultura Tropical (CIAT). 2011. The Cassava Handbook. A Reference Manual based on the Asian Regional Cassava Training Course, held in Thailand.

Ekanayake IJ, Osiru DSO, Porto MCM. 1997. Agronomy of cassava. Research guide 60 Training guide International Institute of tropical agriculture (IITA). Ibadan, Nigeria.

El-Sharkawy MA. 2004.Cassava biology and physiology. Plant Molecular Biology 56, 481–501.

Food and Agriculture Organization of the United Nations (FAO). 2013. Save and grow: Cassava. Italy, Rome.

Hobman FR, Hammer GL, Shepherd RK. 1987. Effects of planting time and harvest age on cassava (Manihot esculenta) in Northern Australia. II. Crop growth and yield in a seasonally-dry environment. Expl. Agric. (23), 415-424.

Howeler HR. 2002. Agronomic practices for sustainable cassava production in Asia, In: Howeler, H.R. (Eds) 2002. Cassava research and development in Asia: Exploring new opportunities for an ancient crop. Proceeding of the seventh regional workshop held in Bangkok, Tailand. October 28-November 1, 2002.

Karuku GN, Gachene CKK, Karanja N, Cornelis W, Verplancke H, Kironchi G. 2012. Soil hydraulic properties of a nitisol in Kabete, Kenya. Tropical and Subtropical Agroecosystems, 15, 595 – 609.

Kivuva BM, Sibiya J, Githiri SM, Yencho GC. 2015. Screening sweet potato genotypes for tolerance to drought stress. Field Crops Research. (171), 11–22.

Kroonenberg FA, Van E, PM. 2016. Multiplicative Models for Interaction in Three-Way ANOVA, with Applications to Plant Breeding. International Biometric Society Stable 54(4), 1315–1333.

Leihner DE. 1982. Current practices in the production of cassava planting material. In: Cock, J.H. (Eds) Global workshop on root and tuber crops propagation: Proceedings of a Regional Workshop held in Cali, Colombia, 13-16 September. 41-46 p.

Leihner DE. 1983. Storage effects on planting material and subsequent growth and root yield of cassava (Manihot esculenta Crantz). In: Proceedings of the sixth symposium of the international society for tropical root crops. Lima, Peru, February 20-25, 1983.

Mdenye BB, Kinama JM, Olubayo FM, Kivuva BM, Muthomi JW. 2016. Effect of storage methods on carbohydrate and moisture of cassava planting materials. Journal of Agricultural Science. (8)12, 100 -111 p. http://dx.doi.org/10.5539/jas. v8n12p100.

Nassar NMA, Abreu LFA, Teodoro DAP, Graciano-Ribeiro D. 2010. Drought tolerant stem anatomy characteristics in Manihot esculenta (Euphorbiaceae) and a wild relative. Genet. Mol. Res. 9(2), 1023-1031.

Oka M, Sinthuprama S, Limsila J. 1987. Variations in some characteristics of cassava stems during storage prior to taking cuttings. Japan Agricultural Research Quarterly (21)3.

Onyango CM, Harbinson J, Imungi JK, Onwonga RN, Kooten O. 2012. Effect of nitrogen source, crop maturity stage and storage conditions on phenolics and oxalate contents in vegetable amaranth (Amaranthus hypochondriacus). Journal of Agricultural Sciences. 4(7) p 219-230.

Payne R. 2012. A Guide to Anova and Design in Gen Stat (15th Edition). VSN International, Hertfordshire HP1 1ES, UK.

Penh P. 2015. Cassava handbook. UNDP trilateral cooperation cassava project phase II, Cambodia.

Ravi V, Suryakumari S. 2005. Novel technique to increase the shelf life of cassava (Manihot esculenta L.) stems stored for propagation. Advances in Horticultural Science (19)3, p 123-129.

Wasonga DO, Ambuko JL, Chemining’wa,  GN, Odeny DA, Crampton BG. 2015. Morphological characterization and selection of spider plant (Cleome Gynandra) Accessions from Kenya and South Africa. Asian Journal of Agricultural Sciences 7(4), p 36-44.