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Understanding the dairy cattle feeding strategies, awareness and perceptions of smallholder farmers on hydroponic fodder technology, Kibaha District, Tanzania

By: Denis O. Kiobia, Nelson R. Makange, David D. Maleko, Henry F. Mahoo

Key Words: Adoption, Dairy cattle, Feed, Hydroponic fodder, Seasons, Climate change, Practices

Int. J. Biosci. 16(6), 60-72, June 2020.

DOI: http://dx.doi.org/10.12692/ijb/16.6.60-72

Certification: ijb 2020 0028 [Generate Certificate]

Abstract

The role of hydroponic fodder technology (HFT) on producing nutritious green feed supplements for enhancing the productivity of dairy cattle has been mostly demonstrated in developed countries.  Despite the benefits of HFT, its adoption is yet to be popular among smallholder and landless dairy farmers in Tanzania. Here, we assess the feeding strategies, awareness, and opinions of small-scale dairy farmers on HFT. The study was a cross-sectional survey. We found that farmers practiced zero-grazing systems and none practiced on-farm pasture production. The average milk yields in the wet season were higher than milk produced in the dry season. The access to concentrates for supplementing the poor roughages was constrained by unreliable quality, dry season scarcity, and off-season high prices.  The majority of farmers were unfamiliar with HFT and few farmers who have adopted the technology were constrained by agronomic problems. The farmer’s decision to adopt the HFT or not was relatively based on additional income versus the cost of inputs. Generally, we conclude that HFT adoption is still poor or nonexistent in most of the small-scale dairy farming systems of Tanzania. Further research on potential solutions for overcoming the barriers towards HFT adoption for sustainable smallholder dairy production in peri-urban areas is recommended.

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Understanding the dairy cattle feeding strategies, awareness and perceptions of smallholder farmers on hydroponic fodder technology, Kibaha District, Tanzania

Agius A, Pastorelli G, Attard E. 2019. Cows fed hydroponic fodder and conventional diet: effects on milk quality. Archives Animal Breeding 62(2), 517.

https://doi.org/10.5194/aab-62-517-2019

Bakshi MPS, Wadhwa M, Makkar HPS. 2017. Hydroponic fodder production: A critical assessment. Broadening Horizons 48, 1-10.

Bohm M, Hutchings MR, White PCL. 2009. Contact Networks in a Wildlife-Livestock Host Community: Identifying High-Risk Individuals in the Transmission of Bovine TB among Badgers and Cattle. PLoS ONE 4(4).

https://doi.org/10.1371/journal.pone.0005016

Caudell MA, Quinlan MB, Subbiah M, Call DR, Roulette CJ, Roulette JW, Roth A, Louise Matthews L, Quinlan RJ. 2017. ‘Antimicrobial Use and Veterinary Care among Agro-pastoralists in Northern Tanzania’, PlosOne 12(1).

https://doi.org/10.1371/journal.pone.0170328

Croft MM, Hallett SG, Marshall MI. 2017.

Hydroponic production of vegetable Amaranth (Amaranthus cruentus) for improving nutritional security and economic viability in Kenya. Renewable Agriculture and Food Systems 32(6), 552-561.

https://doi.org/10.1017/S1742170516000478

Du Plooy CP, Maboko MM, Van den Heever E, Chiloane S. 2012. Research and technology transfer by the agricultural research council to sustain the South African hydroponic industry.  Acta horticulturae 947, 147-152.

Epaphras A, Karimuribo ED, Msellem SN. 2004. Effect of season and parity on lactation of crossbred Ayrshire cows reared under coastal tropical climate in Tanzania. Livestock Research for Rural Development 16(6), 2004.

Fahey C. 2012. Rooftop Hydroponic.

Agriculture. Franzel S, Wambugu C. 2007 March. The uptake of fodder shrubs among smallholders in East Africa: key elements that facilitate widespread adoption. In Forages: a pathway to prosperity for smallholder farmers. Proceedings of an international symposium. Ubon Ratchathani University, Thailand: Faculty of Agriculture (p 203-222).

Franzel S, Wambugu C, Tuwei P, Karanja G. 2003. ‘The adoption and scaling up of the use of fodder shrubs in central Kenya’, Tropical Grasslands 37, 239–250.

Gillah KA, Kifaro GC, Madsen J. 2013. Management and production levels of cross-bred dairy cattle in Dar es Salaam and Morogoro urban and peri urban areas. Journal of Livestock Research for Rural Development 25(9).

Kammar MR, Sulagitti A, Kadagi M, Biradar AP. 2019. An experience of hydroponics fodder production by farmers of Bagalkot district. Journal of Pharmacognosy and Phytochemistry 8(1), 1033-1035.

Kavana PY, Msangi BSJ. 2005. On farm dairy cattle feeding experience in eastern zone of Tanzania. Livestock Research for Rural Development, 17(6).

Keyyu JD, Kassuku AA, Msalilwa LP. 2006, Cross-sectional Prevalence of Helminth Infections in Cattle on Traditional, Small-scale and Large-scale Dairy Farms in Iringa District, Tanzania. Veterinary Research Communications 30(1), 45-55.

https://doi.org/10.1007/s11259-005-3176-1.

Kurwijila LR, Omore AO, Grace D. 2012. Tanzania dairy industry overview.

Meul M, Van Passel S, Fremaut D, Haesaert G. 2012. Higher sustainability performance of intensive grazing versus zero-grazing dairy systems. Agronomy for sustainable development 32(3), 629-638.

https://doi.org/10.1007/s13593-011-0074-5

MOA. Ministry of Agriculture. 2014. The state report of the agricultural sector in Jordan. Amman, Jordan.

Mongi H, Majule AE, Lyimo JG. 2010. Vulnerability and adaptation of rain fed agriculture to climate change and variability in semi-arid Tanzania. African Journal of Environmental Science and Technology 4(6).

https://doi.org/10.5897/AJEST09.207

Murali MR, Soundaria M, Maweswani V, Santhakumari P, Gopal V. 2011. “Hydroponics” – A Novel Alternative for Geoponic Cultivation of Medicinal Plants and Food Crops. International Journal of Pharma and Bio Sciences 2(2), 286-296.

http://www.ijpbs.net/…/38.pdf

Nadu T. 2019. Low-cost hydroponic fodder production technology for sustainable livestock farming during fodder scarcity. Current Science, 116(4), 526.

Naik PK, Karunakaran M, Swain BK, Chakurkarm EB, and Singh NP. 2016. Voluntary intake and digestibility of nutrients in heifers fed hydroponics maize (Zea mays L.) fodder. Indian Journal of Animal Nutrition 33(2), 233-235.

https://doi.org/10.5958/2231-6744.2016.00041.4

Naik PK, Swain BK, Singh NP. 2015. Production and utilization of hydroponics fodder. Indian Journal of Animal Nutrition, 32(1), 1-9.

Njima PM. 2016. An assessment of factors influencing production of hydroponics fodder among smallholder dairy farmers in Kiambu Sub-County, Kenya. Masters Dissertation, University of Nairobi, Kenya.

Paul BK, Groot JC, Birnholz CA, Nzogela B, Notenbaert A, Woyessa K, Tittonell P. 2020. Reducing agro-environmental trade-offs through sustainable livestock intensification across smallholder systems in Northern Tanzania. International Journal of Agricultural Sustainability 18(1), 35-54.

https://doi.org/10.1080/14735903.2019.1695348

Rico ALJ. 2020. Automated pH Monitoring and Controlling System for Hydroponics under Greenhouse Condition. Journal of Engineering and Applied Sciences 15(2), 523-528.

Rodriguez MC, Rodriguez HE, Ruiz AO, Flores Grado JA, Arzola C. 2004. Use of green fodder produced in hydroponic system as supplement for lactating cows during the dry season. In the Proceeding of the American Society of Animal Science p 271-274.

Salo S. 2019. Effects of Hydroponic Fodder Feeding on Milk Yield and Composition of Dairy Cow. Journal of Natural Sciences Research 9(8), 1-8.

Schaible GD, Mishara AK, Lambert DM  Panterov G. 2015. Factors influencing environmental stewardship in U.S agriculture: Conservation program participations vs. non-participants. Land use policy. United States. Land use policy 46, 125-141.

https://doi.org/10.1016/j.landusepol.2015.01.018

Sewando PT, Mutabazi KD, Mdoe NY. 2016. Vulnerability of agro-pastoral farmers to climate risks in northern and central Tanzania. Development Studies Research 3(1), 11-24.

https://doi.org/10.1080/21665095.2016.1238311

Singh S, Singh BS. 2012. May. Hydroponics–A technique for cultivation of vegetables and medicinal plants ‖. In Proceedings of 4th Global conference on Horticulture for Food, Nutrition and Livelihood Options. Bhubaneshwar, Odisha, India (p 220).

Swai ES, Karimuribo ED. 2011. Smallholder dairy farming in Tanzania: Current profiles and prospects for development. Outlook on Agriculture 40(1), 21-27.

https://doi.org/10.5367/oa.2011.0034

Sydow S. 2010. South Africa-Sustainable horticulture crop production.

Tognoni F, Pardossi A. 1998. Soilless culture for greenhouse crops in the Mediterranean countries. In Workshop on Methyl Bromide Alternatives for North African and Southern European Countries, Rome (p 143-148).

Tranel LF. 2013. Hydroponic Fodder Systems for Dairy Cattle? Animal Industry Report 659(1), 42. https://doi.org/10.31274/ans_air-180814-606.

Wambugu C, Place F, Franzel S. 2011. Research, development and scaling-up the adoption of fodder shrub innovations in East Africa. International journal of agricultural sustainability 9(1), 100-109.

https://doi.org/10.3763/ijas.2010.0562

Yamane T. 1967. Statistics, an Introductory Analysis. 2nd edition. New York: Harper and Row.

Denis O. Kiobia, Nelson R. Makange, David D. Maleko, Henry F. Mahoo.
Understanding the dairy cattle feeding strategies, awareness and perceptions of smallholder farmers on hydroponic fodder technology, Kibaha District, Tanzania.
Int. J. Biosci. 16(6), 60-72, June 2020.
https://innspub.net/ijb/understanding-dairy-cattle-feeding-strategies-awareness-perceptions-smallholder-farmers-hydroponic-fodder-technology-kibaha-district-tanzania/
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