Shelf life of kenaf (Hibiscus cannabinus L.) seed stored under humid tropical conditions

M.A Adebisi

mayoadebisi@yahoo.co.uk
Department of Plant Breeding and Seed Technology, Federal University of Agriculture, Abeokuta, P. M. B. 2240, Abeokuta, (FUNAAB) Ogun State, Nigeria (Nigeria)

O.A. Esuruoso


Department of Plant Breeding and Seed Technology, Federal University of Agriculture, Abeokuta, P. M. B. 2240, Abeokuta, (FUNAAB) Ogun State, Nigeria (Nigeria)

J.A Adetumbi


Institute of Agricultural Research and Training, P.M.B.5029, Moor Plantation, Ibadan, Nigeria (Nigeria)

A.M. Abdul-Rafiu


Seed Technology Unit, National Horticultural Research Inst., P.M.B. 5432, Ibadan, Nigeria (Nigeria)

T.O. Kehinde


Department of Plant Breeding and Seed Technology, Federal University of Agriculture, Abeokuta, P. M. B. 2240, Abeokuta, (FUNAAB) Ogun State, Nigeria (Nigeria)

O.O. Ajani


Department of Plant Breeding and Seed Technology, Federal University of Agriculture, Abeokuta, P. M. B. 2240, Abeokuta, (FUNAAB) Ogun State, Nigeria (Nigeria)

D.A. Agboola


Department of Biological Science, Federal University of Agriculture, Abeokuta, P. M. B. 2240, Abeokuta, Ogun State, Nigeria (Nigeria)


Abstract

Successful crop production depends initially on the availability of high-quality seed. Seed viability and vigour of four kenaf varieties during storage were investigated. Seeds of each variety were packed inside thick polythene bags and kept in Seed Stores under ambient conditions in two storage locations (Federal University of Agriculture, Abeokuta (FUNAAB) (29.8°C, 59.10 RH%) and Institute of Agricultural Research and Train- ing, Ibadan (27.5°C, 64.68 RH%) for 240 days (8 months).  Seeds were sampled during storage at 0, 60, 120, 180 and 240 days and tested for seed viability and seedling vigour index. Data collected on seed viability and seedling vigour were analyzed using ANOVA, mean separation using Duncan Multiple Range Test at 5% probability level and PROBIT analysis. The results showed differential responses in the two quality traits due to differences in storage location and varieties. Ibadan storage location provided more favourable conditions for higher seed quality compared to Abeokuta location while Ifeken 400 and Tianung had the best storage potential. The study showed that under ambient humid tropical conditions, storage period should not exceed 180 days (6 months) in order to maintain higher physiological quality with little or no cost. The PROBIT result revealed that the highest seed shelf life (longevity) of kenaf seeds of 8 to 9 months was derived for seeds of Ifeken 400 and Tianung stored in Ibadan and Abeokuta. The shortest shelf life of 6 months was esti- mated for Ifeken 100 stored in both locations.

 


Keywords:

probit modelling, storage life, seed quality, seed viability, seedling vigour

Adebisi, M. A. Daniel, I. O., Ajala, M.O. 2003. Storage life of soybean seed after seed dressing. J. of Trop. Agric. (India) 42: 37.
Google Scholar

Adebisi, M. A., Akintobi, D. C. and Oyekale, K. O. 2008. Preservation of okra seed vigour by seed treatments and storage containers. Nigerian Journal of Horticultural Science. 12:1-7.
Google Scholar

Adebisi, M. A., Ajala, M. O., Ariyo, O. J. 2004. Genetic studies on seed quality in sesame. Proceed- ings of the 29th Annual conference of the Genetics Society of Nigeria. pp 209-212.
Google Scholar

Adebisi, M.A. 2004. Variation, stability and correlation studies in seed quality and yield components of sesame (Sesamum indicum L). PhD Thesis, University of Agriculture, Abeokuta, Nigeria.
Google Scholar

Aimin, R. I. 2006. Making pulp and paper from kenaf, On the internet file://D:/ Kenaf modules. php .htm.
Google Scholar

Akintobi , D. C, Adebisi, M. A, Ola, J. A. 2006. Effects of storage conditions and period of storage on the maintenance of seed quality of sesame. Asset Series A 6: (2) : 275-285.
Google Scholar

Demir, I., Ellis, R. H. 1992. Development of pepper (Capsicum annum) seed quality. Ann. Appl. Bot., 121: 385 – 399.
Google Scholar

Duncan, D. B. 1955. Multiple Range and Multiple F-tests. Biometrics II: 1 – 42.
Google Scholar

Ellis, R. H. and Roberts, E. H. 1980. Improved Equation for the Prediction of Seed longevity. Annals of Botany, 45: 13-30.
Google Scholar

Greg, B. Wanus, S. A. E., Bishaw, Z. and Van-Caste A. J. G. 1994. Safe seed storage WANPA Seed Network Publication No. 5/4 ICARDA Aleppo. Syria.
Google Scholar

Harrington. J. F. 1972. Seed and pollen storage for the conservation of plant gene resources, pp. 510 – 521. In Franked, H.O. Benneh (eds) Genetic England 554.
Google Scholar

Kim, S. H, Choe, Z. R., Kang, J. H., Copeland, L. O. and Elias, S. G. 1994. Multiple seed vigour indi- ces to predict field emergence and performance of barley. Seed Science and Technology 22:29- 38.
Google Scholar

Nkang, A., Umoh, E. O.1996. Six months storability of five soybean cultivars as influenced by stage of harvest, storage temperature and relative humidity. Seed Science and Technol. 25:93-99
Google Scholar

Ola, A. J .2008. Effect of storage locations and container types on quality of sesame (Sesame indicum) seeds. Master of Agric. Dissertation. University of Agriculture, Abeokuta, Nigeria.71p.
Google Scholar

Raheem, A. 2006 .Seed invigoration treatments for improved germination and seedling vigour of stored okra seeds. B.Agric Project. Department of Plant Breeding and Seed Technology, University of Agriculture, Abeokuta, Nigeria. 36p.
Google Scholar

Roberts, E. H. 1973. Predicting the storage life of seeds. Seed Science and Technology 499-522. Roberts, E. H. 1983. Storage environment and the control of viability of seeds .E.H. Roberts (eds)Pg14-58.Chapman and Hall, London.
Google Scholar


Google Scholar

Thseng, F.S; Hon, F. F; Wu, S. T. 1996. Varieted Differences in germination rate, storability and flooding tolerance of soyabean seed produced from different cultural seasons and locations. Japanese Journal of Crop Science, 65, 525-531.
Google Scholar

Zanakis, G. N, Ellis, R. H, Summerfield, R. J. 1993. Response of seed longevity to moisture content in three genotype of soybean (Glycine max).Exptl. Agric. 29, 449-459.
Google Scholar

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Published
2012-12-20

Cited by

Adebisi, M. ., Esuruoso, O. ., Adetumbi, J. ., Abdul-Rafiu, A., Kehinde, T. ., Ajani, O., & Agboola, D. . (2012). Shelf life of kenaf (Hibiscus cannabinus L.) seed stored under humid tropical conditions. Plant Breeding and Seed Science, 67, 75–86. Retrieved from http://ojs.ihar.edu.pl/index.php/pbss/article/view/306

Authors

M.A Adebisi 
mayoadebisi@yahoo.co.uk
Department of Plant Breeding and Seed Technology, Federal University of Agriculture, Abeokuta, P. M. B. 2240, Abeokuta, (FUNAAB) Ogun State, Nigeria Nigeria

Authors

O.A. Esuruoso 

Department of Plant Breeding and Seed Technology, Federal University of Agriculture, Abeokuta, P. M. B. 2240, Abeokuta, (FUNAAB) Ogun State, Nigeria Nigeria

Authors

J.A Adetumbi 

Institute of Agricultural Research and Training, P.M.B.5029, Moor Plantation, Ibadan, Nigeria Nigeria

Authors

A.M. Abdul-Rafiu 

Seed Technology Unit, National Horticultural Research Inst., P.M.B. 5432, Ibadan, Nigeria Nigeria

Authors

T.O. Kehinde 

Department of Plant Breeding and Seed Technology, Federal University of Agriculture, Abeokuta, P. M. B. 2240, Abeokuta, (FUNAAB) Ogun State, Nigeria Nigeria

Authors

O.O. Ajani 

Department of Plant Breeding and Seed Technology, Federal University of Agriculture, Abeokuta, P. M. B. 2240, Abeokuta, (FUNAAB) Ogun State, Nigeria Nigeria

Authors

D.A. Agboola 

Department of Biological Science, Federal University of Agriculture, Abeokuta, P. M. B. 2240, Abeokuta, Ogun State, Nigeria Nigeria

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