Welcome to the all-new Vetlearn

  • Vetlearn is getting a new home. Starting this fall,
    Vetlearn becomes part of the NAVC VetFolio family.

    You'll have access to the entire Compendium and
    Veterinary Technician archives and get to explore
    even more ways to learn and earn CE by becoming
    a VetFolio subscriber. Subscriber benefits:
  • Over 500 hours of interactive CE Videos
  • An engaging new Community for tough cases
    and networking
  • Three years of NAVC Conference Proceedings
  • All-new articles (CE and other topics) for the entire
    healthcare team

To access Vetlearn, you must first sign in or register.


  • Registration for new subscribers will open in September 2014!
  • Watch for additional exciting news coming soon!
Become a Member

Veterinarian Technician September 2009 (Vol 30, No 9)

Grasshoppers Can Transmit Virus to Livestock

    Rangeland plants may be harboring a virus that grasshoppers are transmitting to cattle, horses, and other hoofed mammals, according to research by Agricultural Research Service (ARS) scientists.

    A recent outbreak of vesicular stomatitis virus (VSV) in the southwest United States has disrupted rodeos and prompted quarantines. VSV is a viral disease that causes sporadic outbreaks in the United States, most recently in 2006.

    Barbara Drolet, PhD, of the ARS Arthropod-Borne Animal Diseases Research Laboratory (ABADRL) in Laramie, WY, and Justin Derner, PhD, of the ARS High Plains Grasslands Research Station in Cheyenne, WY, have shown that under laboratory conditions, rangeland plants can harbor VSV and pass the virus to grazing grasshoppers.

    This research, published recently in the journal Applied and Environmental Microbiology, is the first to demonstrate the stability of VSV on rangeland plant surfaces.

    Although rarely fatal, VSV causes painful blisters on cattle, horses, and other hoofed mammals. During outbreaks, infected animals salivate heavily and shed the virus, which results in direct animal-to-animal transmission. Soil and plants have been hypothesized to be virus sources, but current recommendations for VSV control do not include decontamination of corrals and pastures.

    To determine the window of opportunity for grasshoppers to ingest viable VSV from contaminated plants, Drolet and Derner selected 14 rangeland plant species that grasshoppers eat and exposed the plants to VSV in a laboratory setting. In the lab, several species harbored viable virus for up to 24 hours.

    The scientists then exposed two plant species to VSV and fed them to grasshoppers 24 hours later. The grasshoppers became infected. These results support the hypothesis that grasshopper-cattle-grasshopper transmission of VSV is possible.

    The scientists next tested a common grasshopper pesticide and found that, in addition to reducing the grasshopper population, the pesticide inactivated VSV on contact, thereby reducing a source of virus for livestock and grasshoppers. Although such use would require additional US Environmental Protection Agency registration, the pesticide—or a similar virus-inactivating spray—may help limit VSV outbreaks.

    The results of this study could be useful in making disease management decisions during future outbreaks, not only by offering a potential control method, but by making it possible to assess risk more accurately.

    ARS is the principal intramural scientific research agency in the US Department of Agriculture.

    Source: Laura McGinnis, Agricultural Research Service, USDA

    NEXT: IFAW Helps Taiwanese Animals After Typhoon Morakot