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Fodder (/ˈfɒdər/), also called provender (/ˈprɒvəndər/), is any agricultural foodstuff used specifically to feed domesticated livestock, such as cattle, rabbits, sheep, horses, chickens and pigs. "Fodder" refers particularly to food given to the animals (including plants cut and carried to them), rather than that which they forage for themselves (called forage). Fodder includes hay, straw, silage, compressed and pelleted feeds, oils and mixed rations, and sprouted grains and legumes (such as bean sprouts, fresh malt, or spent malt). Most animal feed is from plants, but some manufacturers add ingredients to processed feeds that are of animal origin.
The worldwide animal feed trade produced 1.245 billion tons of compound feed in 2022 according to an estimate by the International Feed Industry Federation, with an annual growth rate of about 2%. The use of agricultural land to grow feed rather than human food can be controversial (see food vs. feed); some types of feed, such as corn (maize), can also serve as human food; those that cannot, such as grassland grass, may be grown on land that can be used for crops consumed by humans. In many cases the production of grass for cattle fodder is a valuable intercrop between crops for human consumption, because it builds the organic matter in the soil. When evaluating if this soil organic matter increase mitigates climate change, both permanency of the added organic matter as well as emissions produced during use of the fodder product have to be taken into account. Some agricultural byproducts fed to animals may be considered unsavory by humans.
Common plants specifically grown for fodder
- Alfalfa (lucerne)
- Barley
- Common duckweed
- Birdsfoot trefoil
- Brassica spp.
- Clover
- Grass
- Bermuda grass
- Brome
- False oat grass
- Fescue
- Heath grass
- Meadow grasses (from naturally mixed grassland swards)
- Orchard grass
- Ryegrass
- Timothy-grass
- Corn (maize)
- Millet
- Oats
- Sorghum
- Soybeans
- Trees (pollard tree shoots for "tree-hay")
- Wheat
Types
- Biochar for cattle
- Bran
- Conserved forage plants: hay and silage
- Compound feed and premixes, often called pellets, nuts or (cattle) cake
- Crop residues: stover, copra, straw, chaff, sugar beet waste
- Fish meal
- Freshly cut grass and other forage plants
- Grass or lawn clipping waste
- Green maize
- Green sorghum
- Horse gram
- Leaves from certain species of trees
- Meat and bone meal (now illegal in cattle and sheep feeds in many areas due to risk of BSE)
- Molasses
- Native green grass
- Oilseed press cake (cottonseed, safflower, sunflower, soybean, peanut or groundnut)
- Oligosaccharides
- Processed insects (i.e. processed maggots)
- Seaweed (including Asparagopsis taxiformis which is used mainly as a supplement to reduce methane emissions by up to 90%)
- Seeds and grains, either whole or prepared by crushing, milling, etc.
- Single cell protein(can also be made from atmospheric CO2)
- Sprouted grains and legumes
- Yeast extract (brewer's yeast residue)
Health concerns
In the past, bovine spongiform encephalopathy (BSE, or "mad cow disease") spread through the inclusion of ruminant meat and bone meal in cattle feed due to prion contamination. This practice is now banned in most countries where it has occurred. Some animals have a lower tolerance for spoiled or moldy fodder than others, and certain types of molds, toxins, or poisonous weeds inadvertently mixed into a feed source may cause economic losses due to sickness or death of the animals. The US Department of Health and Human Services regulates drugs of the Veterinary Feed Directive type that can be present within commercial livestock feed.
Droughts
Increasing intensities and frequencies of drought events put rangeland agriculture under pressure in semi-arid and arid geographic areas. Innovative emergency fodder production concepts have been reported, such as bush-based animal fodder production in Namibia. During extended dry periods, some farmers have used woody biomass fibre from encroacher bush as their primary source of cattle feed, adding locally-available supplements for nutrients as well as to improve palatability.
Production of sprouted grains as fodder
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Fodder in the form of sprouted cereal grains such as barley, and legumes can be grown in small and large quantities.
Systems have been developed recently that allow for many tons of sprouts to be produced each day, year round. Sprouted grains can significantly increase the nutritional value of the grain compared with feeding the ungerminated grain to stock. They use less water than traditional forage, making them ideal for drought conditions. Sprouted barley and other cereal grains can be grown hydroponically in a carefully-controlled environment. Hydroponically-grown sprouted fodder at 150 mm tall with a 50 mm root mat is at its peak for animal feed.
Although products such as barley are grain, when sprouted they are approved by the American Grassfed Association to be used as livestock feed.
See also
- Cannon fodder (metaphorical usage)
- Circular agriculture
- Factory farming
- Feed manufacturing
- Food-feed system
- Pasture
References
- "Global Feed Statistics". International Feed Industry Federation. Retrieved 18 March 2024.
- Devlamynck, Reindert; Meers, Erik (May 2018). "Valorization of agricultural wastewater streams into an alternative protein source duckweed".
- Daly 2019:Mr Pow said his innovative farming system could help livestock producers become more profitable while helping to address the impact of climate change.
- Logsdon 2004, p. .
- "Fodder trees for more milk and income" (PDF). Department for International Development. Archived from the original (PDF) on 2015-09-27. Retrieved 2015-09-22.
- Medeiros, João (9 March 2014). "How AgriProtein makes chicken food from maggots". Wired.
- Giec, A; Skupin, J (1988). "Single cell protein as food and feed". Nahrung. 32 (3): 219–29. doi:10.1002/food.19880320302. PMID 3292921.
- Mupangwa, Johnfisher; Lutaaya, Emmanuel; Shipandeni, Maria Ndakula Tautiko; Kahumba, Absalom; Charamba, Vonai; Shiningavamwe, Katrina Lugambo (2023), Fanadzo, Morris; Dunjana, Nothando; Mupambwa, Hupenyu Allan; Dube, Ernest (eds.), "Utilising Encroacher Bush in Animal Feeding", Towards Sustainable Food Production in Africa: Best Management Practices and Technologies, Sustainability Sciences in Asia and Africa, Singapore: Springer Nature, pp. 239–265, doi:10.1007/978-981-99-2427-1_14, ISBN 978-981-99-2427-1, retrieved 2023-07-13
- Shiningavamwe, Katrina Lugambo; Lutaaya, Emmanuel; Mupangwa, Johnfisher (2024-05-14), Feed intake, growth performance and carcass characteristics of Damara lambs fed bush-based rations from four encroacher bush species, doi:10.21203/rs.3.rs-4241387/v1, retrieved 2024-06-13
- "Report on the Bush-to-Feed Pilot Projet in the African Wild Dog Community Forest". Ministry of Agriculture, Water and Forestry. 2018.
- Matthys, Donald (2018-11-30). "Manual on how to produce animal feed from local encroached bush launched". Namibia Economist.
- "Turning bush to feed in face of drought". The Namibian. 2016-10-18. Archived from the original on 2020-06-25. Retrieved 2020-06-22.
- Sneath, Roger; McIntosh, Felicity (October 2003). Review of Hydroponic Fodder Production for Beef Cattle. Meat & Livestock Australia Limited. p. 15. ISBN 1740365038. Retrieved 7 June 2018.
- Sneath, Roger; McIntosh, Felicity (October 2003). Review of Hydroponic Fodder Production for Beef Cattle. Meat & Livestock Australia Limited. ISBN 1740365038. Retrieved 7 June 2018.
Hydroponic sprouts may have profitable application in intensive, small-scale livestock situations with high value outputs, where land and alternative feed costs are high, and where the quality changes (eg less starch, more lysine, vitamins, etc) due to sprouting are advantageous to the particular livestock.
Works cited
- Logsdon, Gene (2004). All Flesh Is Grass. Ohio University: Swallow Press. Chapter 20. ISBN 0-8040-1069-2.
- Daly, Jon (18 October 2019). "Poo-eating beetles and charcoal used by WA farmer to combat climate change". ABC.net.au. Australian Broadcasting Corporation.
Further reading
- Zhou, Yiqin. Compar Fresh or Ensiled Fodders (e.g., Grass, Legume, Corn) on the Production of Greenhouse Gases Following Enteric Fermentation in Beef Cattle. Rouyn-Noranda, Qué.: Université du Québec en Abitibi-Témiscamingue, 2011. N.B.: Research report.
- Ritthausen, Karl Heinrich (1872). Die Eiweisskörper der Getreidearten, Hülsenfrüchte und Ölsamen: Beiträge zur Physiologie der Samen der Culturgewächse, der Nahrungs- und Futtermittel (in German). Verlag von Max Cohen.
External links
- UK Food Standards Agency, Animal feed legislation and guidance Archived 2010-12-13 at the Wayback Machine
- FAO Feed Safety guidelines Archived 2010-12-02 at the Wayback Machine