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Musk Thistle Control

Recommended Practices in Natural Communities of High Quality

Cultural, mechanical, biological and chemical control methods have all been used on musk thistles with varying degrees of success in different parts of the country.

Cultural and Mechanical Methods

Musk thistle favors abandoned fields and overgrazed pastures. Rotationally grazed or deferred pasture is less susceptible to infestation than heavily grazed pastures. Although some investigators report thistle populations declined rapidly as natural succession proceeded, others report populations that persisted for twelve years in an unmanaged area.

Hand-cutting or mowing can provide control if repeated over a period of years. Hand-cutting with a sharpened shovel should insure that lateral as well as the terminal bud on the root crown are destroyed. A labor-intensive hand chopping at ground level just before flowering eliminated musk thistle at Konza Prairie, Kansas from a 350-acre pasture. The plants are apparently less likely to regrow if allowed to bolt before hand chopping the root crown. Mowing should also be timed to occur just prior to flowering.

Biological Controls

Two exotic weevils, the flower head weevil, (Rhinocyllus conicus), and the rosette weevil, (Trichosirocalus horridus) were purposely introduced from Europe and have become established in Missouri and at least ten other states. These biological control agents aid in reducing populations of the thistle. In areas of Missouri where the weevils have been present for the longest period of time (1976 to 1992), an 80- to 90-percent reduction in thistle population has occurred. These weevils are increasing and dispersing naturally. They have also been collected for recolonization throughout the state. As of 1992, flower head weevils were established and widely distributed in 65 counties, whereas the rosette weevil is presently known from 25 counties. Recent recolonizations of the rosette weevil (1990 to 1992) have been made in 13 additional counties. An integrated pest management system has been developed utilizing knowledge of thistle and weevil life cycles. This program encourages survival of the weevils through a harmonious use of herbicides and mechanical control methods. Biological control methods are intended to establish a balance between predator and target species. As a population of thistle is diminished by the weevils, weevil numbers decline. This allows the thistle to rebound and the weevil numbers to again increase. This scenario of fluctuating thistle and weevil populations does not totally eliminate musk thistle. If the thistle is eradicated from a site by herbicide application or other means, then the predator weevils will also be lost. Then future colonization of the site by musk thistle will require reintroduction of weevils or other means of treatment.

Two studies have addressed the effect of herbicides on biological control agents. In Montana, the effect of 2,4-D on Rhinocyllus conicus varied with weevil density. As larval populations increase, survival decreased. A Virginia study found that treatment with 2,4-D did not adversely affect either Rhinocyllus conicus or Trichosirocalus horridus.

Recommended Practices on Lands Other Than High-Quality Natural Areas

Chemical Controls

The effectiveness of chemical control is influenced by the weather and the stage of growth of the thistle at the time of application. Chemical control of all types is most effective in the rosette stage and least effective when musk thistle is in flower. By law, herbicides may only be applied according to label directions.

Due to its low cost, 2,4-D ester at 2-4 lb per acre (4.48 kg per half-acre) is the most commonly used herbicide. Application can be made aerially, with a tractor-mounted sprayer, with a backpack sprayer, or in granular form. Effectiveness depends on application when temperatures are not too cool and when it is not too dry. This may limit its use in early spring applications or in fall applications in some areas. 2,4-D is most effective when applied 10 to 14 days before bolting in the spring. 2,4-D is less effective than picloram or dicamba after plants have bolted.

Dicamba can be used to allow treatment earlier in the spring than 2,4-D. Dicamba at the rate of 1 pound per a provided the same control as 2 pounds per acre of 2,4-D in one study. Dicamba at 1/2 pound per acre (0.6 kg per ha) provided between 90- and 100-percent control in the year of treatment for three successive years, but residual control in the second and third years fell to 36 percent or less. Spring applications of dicamba (1/4 pound per acre) in combination with 2,4-D ester (1/2 pound per acre) gave 97-percent control by the fall of the same year.

Picloram alone or in combination with either 2,4-D or dicamba gives the best late-season control but is more expensive and carries more restrictions. These include restrictions on use near groundwater and on the season of use. Reports of effective use of picloram vary in recommended rates from .27 lb per acre (0.3 kg per half-acre) to 0.5 lb per acre (.56 kg per half-acre). The greatest attraction of picloram is that it provides excellent control during the cool, dry autumn season when neither 2,4-D nor dicamba is as effective, and when non-targeted vegetation is less susceptible. Although picloram overcomes the effects of weather, it does not fully overcome the effect of growth stage. Control of dense, even height, bolted plants using picloram in a ropewick applicator was effective, but control was poor when plants were of varying heights. Concomitant with its greater effectiveness, picloram presents a greater risk of damaging non-target species. Damage to cool-season grasses was reported in a study using higher concentrations of picloram (1 pound per acre).

Failed or Ineffective Practices

Mowing, brushhogging and spraying when thistles are in full bloom is ineffective. Cutting the stems does not kill the plant at this stage. Stems will regrow and still flower and seed. Similarly, if herbicide application does not kill the plant, which is not too uncommon, regrowth and seeding will occur.

Fire has not been effective as a method for directly controlling musk thistle. It is difficult to generate enough heat to kill the thistle's root crown and fire-scarred plants can bolt, flower and fruit.

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