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This article in AJ

  1. Vol. 94 No. 2, p. 240-250
    Received: Jan 22, 2001

    * Corresponding author(s): m_entz@umanitoba.ca
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Potential of Forages to Diversify Cropping Systems in the Northern Great Plains

  1. Martin H. Entz *a,
  2. Vern S. Baronb,
  3. Patrick M. Carrc,
  4. Dwain W. Meyerd,
  5. S. Ray Smithe and
  6. W. Paul McCaugheyf
  1. a Dep. of Plant Sci., Univ. of Manitoba, Winnipeg, MB, Canada R3T 2N2
    b Agric. and Agri-Food Can., Lacombe Res. Cent., Lacombe, AB, Canada T4L 1W1
    c North Dakota State Univ., Dickinson Res. and Ext. Cent., 1089 State Ave., Dickinson, ND 58601
    d Dep. of Plant Sci., North Dakota State Univ., Fargo, ND 58105
    e Jr., Dep. of Crop, Soil, and Environ. Sci., 424 Smyth Hall, Virginia Tech, Blacksburg, VA 24061-0404
    f Agric. and Agri-Food Can., Brandon Res. Cent., Brandon, MB, Canada R7A 5Y3


Cultivated forage crops are grown on almost 12 million ha on the northern Great Plains. This paper reviews the benefits of diversifying annual crop rotations with forage crops and highlights innovations in forage systems. Agronomic benefits of rotating forage crops with annual grain crops include higher grain crop yields following forages (up to 13 yr in one study), shifts in the weed population away from arable crop weeds, and improved soil quality. Perennial legumes in rotation also reduce energy requirements by adding significant amounts of N to the soil. Soil water availability may limit the extent to which forages benefit following crops. Under semiarid conditions, forages can actually reduce yields of the following crops, and as such, tillage practices that conserve soil water have been developed to partially address this problem. Forages in rotation provide environmental benefits, such as C sequestration, critical habitat for wildlife, and reduced NO3 leaching. A wider range of annual plant species are now used in forage systems in an effort to extend the grazing season and to maximize use of water resources. Intensive pasture management using cultivated forages is on the increase as is the use of alfalfa (Medicago sativa L.) in grazing systems; in some cases, bloat-reduced alfalfa cultivars are used. Pasture-based systems appear to provide benefits for both animal and human health and arguably the health of the environment. Pasture systems are less nutrient exhausting than hay systems. As a result, nutrient management strategies will differ in the following crop. Additional research is required to optimize the role of cultivated pastures in grain-based cropping systems.

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Copyright © 2002. American Society of AgronomyPublished in Agron. J.94:240–250.