Abstract
Hairy vetch (Vicia villosa Roth.) has been recognized as a good candidate for weed suppressive mulch in organic no-till cropping systems. In our study, the allelopathic potential of hairy vetch, fall rye (Secale cereale L.) and winter wheat (Triticum aestivum L.) (extracted species) were evaluated at both vegetative and reproductive developmental stages (extract stage) based on the germination and radicle elongation of five response species using aqueous extracts in soil microcosms. Our study found hairy vetch shoot extract to have little allelopathic potential compared to fall rye or winter wheat, both species for which the allelopathic potential is well documented. Interestingly, hairy vetch was the only extracted species to increase in allelopathic suppression of radicle elongation at the reproductive stage when plant biomass is near maximum. This result was conceivably due to the increased concentration of the putative allelochemical cyanamide in reproductive tissue. Chemical inhibition of radicle elongation in this extract, however, was only observed in the domesticated response species wheat (Triticum aestivum L.) and canola (Brassica napus L.). The allelopathic effect on germination varied and depended on extracted species, extract stage, and response species; whereas the effect on radicle elongation was similar among extracted species, yet unique within response species. This research demonstrated that allelopathy studies should include multiple allelopathic and response species to accurately quantify the magnitude of chemical effects among allelopathic species and to rule out potential phytotoxic chemical defense/detoxification mechanisms that exist in some response species.
Highlights
Allelopathy is the chemical effect of one organism, plant or microbe, on another through the release of chemi-How to cite this paper: Geddes, C.M., Cavalieri, A., Daayf, F. and Gulden, R.H. (2015) The Allelopathic Potential of Hairy Vetch (Vicia villosa Roth.) Mulch
Extracts were prepared using half the biomass compared to the present study, at a rate of 1:20 wt dry ground biomass/wt di H2O. These extracts produced a range of allelopathic effects on germination from −72.5% to 3.6% and allelopathic effects on radicle elongation ranging from −48.6% to 96.9% relative to the di H2O control
Hairy vetch was determined to be an impractical candidate species for allelopathic mulch based on germination and radicle elongation of the response species in this study
Summary
Allelopathy is the chemical effect of one organism, plant or microbe, on another through the release of chemi-How to cite this paper: Geddes, C.M., Cavalieri, A., Daayf, F. and Gulden, R.H. (2015) The Allelopathic Potential of Hairy Vetch (Vicia villosa Roth.) Mulch. This effect is most commonly viewed as amensalism, where growth in one plant is inhibited while the other plant remains unaffected. Allelopathy may manifest as a neutral/positive (stimulatory) interaction in some situations [1]-[4] This interaction has often been attributed to hormesis, defined as stimulatory effects on plant growth caused by subtoxic concentrations of allelopathic phytotoxins [4]. Fall rye, and winter wheat have been utilized as cover crops or mulches for weed suppression in organic no-till agriculture because they allow for an extended window of biomass production in areas restricted to short growing seasons. High mulch biomass combined with high weed control potential make hairy vetch an excellent candidate for weed suppressive mulch
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