Managed intensive rotational grazing

Managed intensive rotational grazing

Management Intensive Rotational Grazing (MIRG) is a system of grazing in which ruminant and non-ruminant herds are regularly and systematically moved to fresh pasture with the intent to maximize the quality and quantity of forage growth. MIRG can be used with cattle, sheep, goats, pigs,[1] chickens, ducks and other animals. The herds graze one portion of pasture, or a paddock, while allowing the others to recover. The length of time a paddock is grazed will depend on the size of the herd and the size of the paddock. Resting grazed lands allows the vegetation to renew energy reserves, rebuild shoot systems, and deepen root systems, with the end result being long-term maximum biomass production.[2] MIRG is especially effective because grazers do better on the more tender younger plant stems. MIRG also leave parasites behind to die off minimizing or eliminating the need for de-wormers. Pasture systems alone can allow grazers to meet their energy requirements, and with the increased productivity of MIRG systems, the grazers obtain the majority of their nutritional needs without the supplemental feed sources that are required in continuous grazing systems.[3]

Contents

Herd health and welfare

Animal health risks

Bloat is a common problem in grazing systems for ruminants although not for pigs or poultry that if left untreated can lead to animal death. This problem occurs when foam producing compounds in plants are digested by cows, causing foam to form in the rumen of the animal and ultimately prohibiting animals from expelling gas.[4] The risk of bloat can be mitigated by seeding non-bloating legumes with the grasses.[5] Animals are especially susceptible to bloat if they are moved to new pasture sources when they are particularly hungry. It is therefore important to ensure that the herd is eating enough at the end of a rotation when forage will be more scarce, limiting the potential for animals to gorge themselves when turned onto new paddocks.[6]

Several problems are related to shade in pasture areas. Although shade provides relief from heat and reduces the risk of heat stress, animals tend to congregate in these areas which leads to nutrient loading, uneven grazing, and potential soil erosion.[7] Taller shade trees move the shade area around as the day progresses minimizing this problem.

Animal health benefits and animal welfare

Herd health benefits arise from animals having access to both space and fresh air. Freedom of movement within a paddock results in increased physical fitness, which limits the potential for injuries and abrasion, and reduces the potential of exposure to high levels of harmful disease causing microorganisms and insects.[3]

Weed control

In general, well managed rotational grazing system have rather low pasture weed establishment because the majority of niches are already filled with established forage species, making it hard for competing weeds to emerge and become established.[5] The use of multiple species in the co-grazing helps to minimize weeds. The technique of rotational grazing was developed by Larry Robertson of Vanleer, TN. He also is famous for the development that led to huge yields in tobacco production (the famous cultipacking technique). He is known as the savior to British implant folk on Bell Hollow Rd. in Cumberland Furnace, TN. Established forage plants in rotational grazing pasture systems are healthy and unstressed due to the "rest" period, enhancing the competitive advantage of the forage. Additionally, in comparison to cash grain crop production, plants which would be considered weeds are not problematic in row crops.[3] Many of these plants are actually nutritious to grazers and control of these plants is therefore not necessary in management intensive rotational systems. However, certain species such as thistles and various other weeds, are indigestible and possibly poisonous to grazers. These plant species will not be grazed by the herd and can be recognized for their prevalence in pasture systems.

A key step in managing weeds in any pasture system is identification. Once the undesired species in a pasture system are identified an integrated approach of management can be implemented to control weed populations. It is important to recognize that no single approach to weed management will result in weed free pastures; therefore, various cultural, mechanical, and chemical control methods can be combined in an integrated weed management plan.[8] Cultural controls include avoiding spreading manure contaminated with weed seeds, cleaning equipment after working in weed infested areas, and managing weed problems in fencerows and other areas near pastures. Mechanical controls such as repeated mowing, clipping, and hand weeding can also be used to effectively manage weed infestations by weakening the plant. These methods should be implemented when weed flower buds are closed or just starting to open to prevent seed production. Although these methods for managing weeds greatly reduces reliance on herbicides, weeds problems may still persist in managed grazing systems and the use of herbicides may become necessary. Use of herbicides may restrict use of a pasture for some length of time, depending on the type and amount of the chemical used. Frequently weeds in pasture systems are patchy and therefore spot treatment of herbicides may be used as a least cost methods of chemical control.[5][8]

Nutrient availability and soil fertility

If pasture systems are seeded with more than 40% legumes, commercial nitrogen fertilization is unnecessary for adequate plant growth.[9] Legumes are able to fix atmospheric nitrogen, thus providing nitrogen for themselves and surrounding plants. Although grazers remove nutrient sources from the pasture system when they feed on forage sources, the majority of the nutrients consumed by the herd are returned to the pasture system through manure. At a relatively high stocking rate, or high ration of animals per hectare, manure will be evenly distributed across the pasture system. The nutrient content in these manure sources should be adequate to meet plant requirements, making commercial fertilization unnecessary.[3] Management intensive rotational grazing systems are often associated with increased soil fertility which arises because manure is a rich source of organic matter that increases the health of soil. In addition, these pasture system are less susceptible to erosion because the land base has continuous ground cover throughout the year.

High levels of fertilizers entering waterways are a pertinent environmental concern associated with agricultural systems. However, management intensive rotational grazing systems effectively reduce the amount of nutrients that move off-farm and have the potential to cause environmental degradation.[10] These systems are fertilized with on-farm sources, and are less prone to leaching as compared to commercial fertilizers. Additionally, the system is less prone to excess nutrient fertilization, so the majority of nutrients put into the system by manure sources are utilized for plant growth.[10] Permanent pasture systems also have deeper, well established forage root systems which are more efficient at taking up nutrients from within the soil profile.[5]

Socio-cultural-economic considerations

Although milk yields are often lower in MIRG systems, net farm income per cow is often greater as compared to confinement operations. This is due to the additional costs associated with herd health and purchased feeds are greatly reduced in management intensive rotational grazing systems. Additionally, a transition to management intensive rotational grazing is associated with low start-up and maintenance costs.[11]

The main costs associated with transitioning to management intensive rotational grazing are purchasing fencing, fencers, and water supply materials.[12][13][14] If a pasture was continuously grazed in the past, likely capital has already been invested in fencing and a fencer system.[15] Cost savings to graziers can also be recognized when one considers that many of the costs associated with livestock operations are transmitted to the grazers. For example, the grazers actively harvest their own sources of food for the portion of the year where grazing is possible. This translates into lower costs for feed production and harvesting, which are fuel intensive endeavors. MIRG systems rely on the grazers to produce fertilizer sources via their excretion. There is also no need for collection, storage, transportation, and application of manure, which are also all fuel intensive. Additionally, external fertilizer use contributes to other costs such as labor, purchasing costs.[16]

It can also be demonstrated that management intensive rotational grazing system also result in time savings because the majority of work which might otherwise require human labor is transmitted to the herd.[15][16]

Environmental considerations

Pastures undergoing MIRG are less susceptible to soil erosion and associated with higher soil fertility than continuously grazed pastures. As a result, the system requires fewer commercial inputs, which have been associated with negative environmental impacts. In addition, because these systems tend to be more resilient and stable they are more capable of responding to changing environmental conditions and perturbations while not compromising productivity.[citation needed]

See also

Notes

  1. ^ "Pastured Pigs at Sugar Mountain Farm"
  2. ^ Beetz, A.E. 2004. Rotational grazing: Livestock systems guide. National Sustainable Agriculture Information Service (ATTRA).
  3. ^ a b c d Undersander, D., Albert, B., Cosgrove, D., Johnson, D., Peterson, P. 2002. Pastures for profit: A guide to rotational grazing. UW-Extension.
  4. ^ Sullivan, K., DeClue, R., Emmick, D. 2000. Prescribed grazing and feeding management for lactating dairy cows. USDA-NRCS
  5. ^ a b c d 2005. Pasture management guide. Iowa State University
  6. ^ Undersander, D., Albert, B., Cosgrove, D., Johnson, D., Peterson, P. 2002. Pastures for profit: A guide to rotational grazing. UW-Extension.
  7. ^ 2005. Pasture management guide. Iowa State University
  8. ^ a b Undersander, D., Albert, B., Cosgrove, D., Johnson, D., Peterson, P. 2002. Pastures for profit: A guide to rotational grazing. UW-Extension
  9. ^ Berntsen, J., Grant, R., Olesen, J.E., Kristensen, I.S., Vinther, F.P, Molgaard, J.P., and Petersen, B.M. 2006. Nitrogen cycling in organic farming systems with rotational grass-clover and arable crops. Soil Use and Management, 22: 197-208.
  10. ^ a b Blanchet, K., Moechnig, H., and DeJong-Hughes, J. 2003. Grazing systems planning guide. USDA-NRCS and University of Minnesota Extension and University of Minnesota Water Resource Center
  11. ^ Kriegl, T., McNair, R. 2005. Pastures of Plenty: Financial performance of Wisconsin grazing dairy farms. Center for Integrated Agricultural Systems, Center for Dairy Profitability, and Program on Agricultural Technology Studies
  12. ^ Cadwallader, T. and Cosgrove, D. Fencing systems for rotational grazing. University of Wisconsin Extension.
  13. ^ 2005. Electric fencing for serious grazers. USDA-NRCS.
  14. ^ Watering systems for grazing livestock. Great Lakes Basin Grazing Network and Michigan State University Extension.
  15. ^ a b Kriegl, T., McNair, R. 2005. Pastures of Plenty: Financial performance of Wisconsin grazing dairy farms. Center for Integrated Agricultural Systems, Center for Dairy Profitability, and Program on Agricultural Technology Studies
  16. ^ a b Undersander, D., Albert, B., Cosgrove, D., Johnson, D., Peterson, P. 2002. Pastures for profit: A guide to rotational grazing. UW-Extension.

References


Wikimedia Foundation. 2010.

Игры ⚽ Поможем сделать НИР

Look at other dictionaries:

  • Managed intensive grazing — Management Intensive Grazing (MIG,) is the practice of using rotational grazing and careful, usually daily, management to get optimal production. The technique is applied with herds of sheep, cattle, and occasionally other animals. The term MIG… …   Wikipedia

  • Agriculture — General …   Wikipedia

  • Sheep — For other uses, see Sheep (disambiguation). Domestic sheep A research flo …   Wikipedia

  • Overgrazing — Overgrazed area, by native fauna in western New South Wales, in the upper right corner. . Overgrazing occurs when plants are exposed to intensive grazing for extended periods of time, or without sufficient recovery periods. It can be caused by… …   Wikipedia

  • Mexico — /mek si koh /, n. 1. a republic in S North America. 97,563,374; 761,530 sq. mi. (1,972,363 sq. km). Cap.: Mexico City. 2. a state in central Mexico. 6,245,000; 8268 sq. mi. (21,415 sq. km). Cap.: Toluca. 3. Gulf of, Mexican, Golfo de México /gawl …   Universalium

  • Domestic pig — Swine redirects here. For other uses, see Swine (disambiguation). Domestic pig A domestic sow and her piglet. Conservation status Domesticated …   Wikipedia

  • Electric fence — An electric fence is a barrier that uses electric shocks to deter animals or people from crossing a boundary. The voltage of the shock may have effects ranging from uncomfortable, to painful or even lethal. Most electric fencing is used today for …   Wikipedia

  • Stone Barns Center for Food & Agriculture — The Stone Barns Center for Food Agriculture is a non profit farm, educational center and restaurant in Westchester County, New York. It was created on 80 acres formerly belonging to the Rockefeller estate in Pocantico Hills by David Rockefeller… …   Wikipedia

  • agricultural technology — Introduction       application of techniques to control the growth and harvesting of animal and vegetable products. Soil preparation       Mechanical processing of soil so that it is in the proper physical condition for planting is usually… …   Universalium

  • No-till farming — The article Conservation tillage redirects to this page. This article primarily discusses No till farming, which is one of several different conservation tillage techniques. Some others are Strip till and Minimum tillage …   Wikipedia

Share the article and excerpts

Direct link
Do a right-click on the link above
and select “Copy Link”