• Title of article

    The airborne pollen flow of maize (Zea mays L.) in a multi-crop designed field plot

  • Author/Authors

    André Vogler، نويسنده , , Marianne Wettstein-B?ttig، نويسنده , , Ingrid Aulinger-Leipner، نويسنده , , Peter Stamp، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2009
  • Pages
    5
  • From page
    1776
  • To page
    1780
  • Abstract
    Previous studies on pollen dispersal helped to identify objective parameters of coexistence of genetically modified (GM) and conventional maize. Nevertheless, data on the quantity and dynamics of airborne pollen flow (APF) in air layers above and around a maize field, and its contribution to the rate of cross-pollination, are still missing. In 2004 and 2005, 690 pollen traps were arranged at different locations relative to three maize fields: in the maize fields itself, and in fields adjacent to the maize fields, consisting either of grassland or wheat stubble. The traps were positioned along strings over maize, wheat stubble and grassland at two fixed heights relative to the maize plants: immediately above (0 m) and 1 m above tassel height (1 m). Whereas the traps positioned at 0 m over maize indicated the amount of pollen shed, those located at 1 m above tassel height indicated airborne pollen flow to this upper air layer. The amount of pollen at 1 m relative to the amount of pollen just above the tassel, ranged from 4% to 40%; very high values correlated with strong winds during flowering. These winds were not strong enough to transport significant amounts of pollen farther than a few meters away from the pollen source because above both adjacent grass and wheat stubble environments, the amount of pollen at 1 m above tassel height was similarly low. In one single experiment and at 0 m above tassel height, a significantly higher amount of pollen was found over wheat stubble than over grassland. During this experiment, high temperatures and low wind speeds coincided with pollen shed, which may have favored the generation of thermals over hot surfaces, capable of lifting pollen grains.
  • Keywords
    Maize , Aerial pollen flow , Thermal , Cross-pollination , Turbulent transport , Pollen dispersal
  • Journal title
    Agricultural and Forest Meteorology
  • Serial Year
    2009
  • Journal title
    Agricultural and Forest Meteorology
  • Record number

    964875