Economic profitability of oyster mushroom production in Botswana

K B Khare; E B Khonga; M Jongman; M Leteane

Authors

K B Khare Department of Biological Sciences, University of Botswana, Private Bag 0022, Gaborone
E B Khonga Botswana College of Agriculture, Gaborone
M Jongman Department of Biological Sciences, University of Botswana, Private Bag 0022, Gaborone
M Leteane Department of Biological Sciences, University of Botswana, Private Bag 0022, Gaborone

Abstract

A hybrid of Pleurotus ostreatus x Pleurotus florida (Po x Pf), was cultivated in a low technological mushroom house at the Botswana College of Agriculture, Sebele. This oyster mushroom was grown on maize cobs, two grass species (Cenchrus ciliaris and Eragrostis pallens) and water reed (Phragmetes sp.) supplemented with 20% each of wheat bran, gram flour and cowpea pods. The highest yield of the mushroom (84.9 BE%) was obtained from pasture grass (C. ciliaris) supplemented with cowpea pods whereas BE % 82.50 was obtained when this substrate was supplemented with wheat bran and gram flour. The wheat bran, gram flour and cowpea pods when supplemented to the substrates increased the final yield of the mushroom by 8% to 20%.Maize cobs, Eragrostis pallens and Phragmetes sp. performed poorly even when supplemented, in terms of incubation period, days from spawning to the fruiting up to third flush and yield of the mushroom. Three yields, experimental yield, expected yield (80% of experimental yield) and pessimistic yield (60% of experimental yield) were used in calculation of cost-profit analysis. The experimental yield was obtained on 500 Kg of dried pasture grass as a substrate. The maximum profit of 208% (an income of BWP7458.00 per month) was observed when experimental yield was considered, and a profit of 146% (BWP 5248.00/month) and 85% (BWP 3038.00/month) can be achieved even when 80% and 60% of the experimental yield were taken into account, respectively. The profit analysis showed that oyster mushroom cultivation is a potential income generating enterprise which can be adopted by small-scale farmers and unemployed youth in Botswana.

References

Abbot, J.C. and J.P. Makhehan. 1979. Agricultural Economics and Marketing in the Topics. Longman, London. pp. 234

Balakrishnan, T. and M.C. Nair. 1997. Development in the Biotechnology of Oyster Mushrooms. In: Advances in Mushroom Biology and Production (RD Rai, BL Dhar and RN Verma eds.), pp. 83-91, Mushroom Society of India, Solan

Boyer,C.D. and L.C.Hannah. (1994). Kernel mutants from corn. Chapter 1. In: ARHallauer, ed. Speciality corns. CRC Press Inc Boca Raton. pp 1-28.

GarcÃa-Dessommes, G.J., R.G. Ramirez-Lozano, R. Morales-Rodriguez and G. Garcia-Diaz. 2007. Ruminal digestion and chemical composition of newgenotypes of buffelgrass (Cenchrusciliaris L.) under irrigation and fertilization. Interciecia 32(5):349-353.

Jandaik, C.L. 1997. History and Development of Pleurotus production in the World and Future Prospects. In: Advances in Mushroom Biology and Production (RD Rai, BL Dhar and RN Verma eds.) pp. 181-183, Mushroom Society of India, Solan, India.

Jongman, M., E.B.Khonga, K.B. Khare and T. Mubyana â€“ John. 2010. Effect of seasonal variation and supplementation on yield of oyster mushroom cultivated on indigenous grasses in Botswana. Mushroom Research 19 (2): 54 â€“ 61.

Jongman, M., K.B. Khare and E.B. Khonga. 2013. Effect of different grain spawns and substrate sterilization methods on yield of oyster mushroom in Botswana. International Journal of Bioassays 02(10) :1308 -1311.

Kelly, T.C., Y. Lu, A.A. Abdul-Baki and J.R. Teasdale. 1995. Economics of a hairy vetch mulch system for producing fresh-market tomatoes in the Mid-Atlantic region. J Amer Soc Hort 120(5) :854 â€“ 860.

Khare, K.B.,O. Achwania,S.J. Ombiriand J.M. Mutuku. 2006. Biotechnology of Oyster mushroom cultivation. Egerton Journal of Science & Technology. Series 6: 68 â€“ 86.

Khare, K.B., J.M. Mutuku, O.S. Achwania and D.O. Otaye. 2007. Studies on oyster mushroom production and economic profitability in Kenya. Mushroom Research 16 (2) : 69 â€“ 74.

Khare, K.B., J.M. Mutuku, O.S. Achwania and D.O. Otaye. 2010a. Production of two oyster mushrooms, Pleurotus sajor-caju and P. florida on supplemented and un-supplemented substrates. Botsw J Agric Appl Sci 6 (1): 4 â€“ 11.

Khare, K.B., J.M. Mutuku, O.S. Achwania and D.O. Otaye. 2010b. Effect of mycelium carriers, amount of additives on spawn quality and yield of Pleurotus sajor-caju and P. florida on wheat straw substrates sterilized using various methods. Botsw J Agric Appl Sci 6 (2):13 â€“ 21.

Khonga, E.B. 2001. Development of Appropriate Technologies for Small Holder Oyster Mushroom ( Pleurotus spp ) Production in Botswana, a Project Report. Pp. 48.

Khonga, E.B. 2003. Highlights of oyster mushroom (Pleurotus spp ) production research in Botswana. UNISWA Journal of Agriculture 12: 45 -52.

Khonga, E.B., J.O. Amarteifio and D. Modise. 2005. The effect of substrates on yield and nutritionalcomposition of oyster mushrooms (Pleurotus spp ) in Botswana. Proceedings of the second Crop Science and Production Conference, CICE, Botswana College of Agriculture, 67 â€“ 74.

Mutuku, J.M. 2005. The development of a technology for Pleurotus mushroom production in Kenya. M.Sc. Thesis, Egerton University, Kenya, pp. 64.

Oei,, P. 1996.Mushroom cultivation with special emphasis on appropriate techniques for developing countries. Tool Publications, Leiden, Netherlands, pp. 274.

Quimio,T.H., S.T. Chang and D.J. Royse. 1990. Technical guidelines for mushroom production in the tropics. F.A.O. Plant Production and Protection Paper No. 106, Rome, Italy pp.154.

Quinn, J. and R. Myers. 2001. Cultivation of Oyster Mushrooms. Jefferson Institute, Rural America program. Academic Press New York. pp.819.

Economic profitability of oyster mushroom production in Botswana

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