Abstract:
The invention relates to the use of the fungus Amphobotrys ricini as a mycoherbicide to control texasweed (Caperonia palustris). Amphobotrys ricini has been found to infect and kill texasweed when applied to the plant and is considered effective at all stages of plant development.

Description:
This is a continuation of application, Ser. No. 010,747, filed Feb. 4, 1988. 
    
    
     The invention relates to the use of the fungus Amphobotrys ricini as a mycoherbicide to control texasweed (Caperonia palustris). Amphobotrys ricini has been found to infect and kill texasweed when applied to the plant and is considered effective at all stages of plant development. 
     BACKGROUND OF THE INVENTION 
     Texasweed (Caperonia palustris) is a weed known to affect rice and soybean crops throughout the Gulf Coast region of the United States. This weed, unfortunately, has been found to be extremely difficult to control. Currently available chemical herbicides, for example, are only effective against very small texasweed. Once texasweed has grown past the seedling stage, it is almost impossible to control using conventional herbicides. 
     Increased emphasis has been placed on the development of what are known as mycoherbicides. These involve the use of natural pathogens to control weeds. A fungus known to infect a weed is selected and cultured. The pathogen is then applied to the weed and allowed to normally infect the plant and kill it. The pathogen selected is one which does not affect the crop infested with the weed to be controlled. 
     An example of the use of mycoherbicides is the use of the fungus Colletotrichum gloeosporioides to control northern jointvetch (Aeschynomene virginica) in Arkansas rice and soybean production. This fungus is a known pathogen of northern jointvetch but does not affect the rice or soybean crops. The fungus is applied to this weed in an aqueous suspension. 
     One disadvantage with mycoherbicides is that the pathogens are generally specific for one variety or strain of weeds. Until now, no such mycoherbicide has been found which is effective in controlling texasweed. 
     SUMMARY OF THE INVENTION 
     The present invention lies in the use of the fungus Amphobotrys ricini to control texasweed. This fungus has been known to infect at least one member of the spurge family of plants but, to date, it has not been reported to infect texasweed. It has recently been discovered, however, that Amphobotrys ricini can infect texasweed and other members of the spurge family without affecting surrounding crops, such as rice or soybean plants. One aspect of the present invention, accordingly, involves the culturing of Amphobotrys ricini, harvesting the fungus and then applying the fungus to the texasweed and permitting normal infection to occur. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     Pursuant to the present invention, Amphobotrys ricini was isolated from black sclerotia embedded in the stem tissue of dead texasweed plants at the Texas A&amp;M University Research and Extension Station in Beaumont, Texas. The fungus was grown on potato-dextrose agar at 23° C. until conidia growth occurred. In culture, the colonies were light gray and macroscopically similar to colonies of Botrytis but was identified as Amphobotrys ricini. 
     The cultures were allowed to grow until conidia were formed. The conidiaphores were long, slender, pigmented and highly branched, with clusters of conidia at the apex of each branch. The conidia were ovoid, one-celled and hyaline. The conidia were then harvested and used to infect texasweed growing in a crop of soybeans. 
     It has been found that the fungus can be applied successfully to texasweed according to either of two methods. First, the fungus may be inoculated into the weed at a specific site. This has been accomplished by transferring the conidia using a toothpick as a probe to inoculate the stem of the plant. Within three days of inoculation, stem cankers formed at the inoculation sites. The cankers enlarged and eventually girdled the stems. Within two weeks, the entire plant was killed. 
     A second and preferred method for applying Amphobotrys as a mycoherbicide has been to spray a suspension of the conidia on the weeds to be controlled. In practicing this method, the conidial portions of the fungus were harvested and suspended in water at a concentration of 4,000 conidia per milliliter. The suspension was then sprayed in the mid-afternoon over a field of soybeans infested with texasweed. Stem cankers began appearing within three days of infection. Weeds were killed within two weeks after the spraying. No adverse effect was noted on the soybeans in the sprayed field. 
     Environmental conditions may, of course, affect the use of Amphobotrys ricini as a mycoherbicide. Thus, the herbicide should be applied in conditions suitable for the growth of the fungus. Preferably, the ambient temperature should be in the range of about 16° C. to about 30° C. . Sufficient moisture should be present in the air and field to provide proper conditions for the growth of the fungus. As rice crops are generally grown in moist fields and conditions, the humidity requirement for treating texasweed is generally met without the need for additional water or concern for administration conditions. In any event, the environmental conditions that will be required will be readily apparent to those skilled in the art. 
     It will be apparent that a number of variations in the forgoing invention may be practiced without departing from the scope or spirit of the invention. It is contemplated, for example, that cultures of the fungus can be grown on shredded texasweed. The conidia may be mixed with inert materials which do not adversely affect the fungus to aid in handling and distribution.