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   Striga asiatica (草本植物) English 
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    此物种详细信息 South Carolina
    状态: 外来
    入侵: 入侵
    出现纪录: ???
    来源: APHIS, 2000
    Integrated Management:: APHIS (2000) reports that S. asiatica potential for devastating important host crops led to a Congressional decision to eradicate this pest in 1957. The USDA's Animal and Plant Health Inspection Service (APHIS) established a research station and farm where it developed control methods. Since its discovery in North and South Carolina, the spread has been halted, and the acreage supporting it has been reduced by 99 percent (from 450,000 acres to about 3,400).
    Eradication is accomplished in three phases: 1) Survey activities find and map all infestations: APHIS and State cooperators have taken steps to prevent this dangerous weed from spreading from infested areas in North and South Carolina. APHIS is offering a $25 reward to anyone who identifies and reports the weed. After receiving a report, officials remove the plant to stop reproduction. Then they destroy seeds already in the soil. Finding every specimen of the slender, foot-tall S. asiatica is not without obstacles. The cooperation of landowners is essential. Scouts are sent out on foot, in vehicles, and on horseback to find infested sites. People are asked to check their own land and to report the presence of S. asiatica to an agricultural extension agent or S. asiatica personnel (APHIS, 2000).
    2) Quarantine activities prevent human spread of S. asiatica beyond the infested region: Although the tiny S. asiatica seeds can be spread by wind or water, people are the chief means of dispersal. To prevent the spread of this pest, agricultural quarantines specify conditions for moving soil, plants, or machinery out of infested areas (APHIS, 2000).
    3) Control activities seek to prevent existing plants from producing seeds and to destroy seeds already in the soil. These activities involve the cooperative efforts of Federal and State governments as well as the general public: Eliminating S. asiatica requires finding and killing plants before they go to seed and eliminating seeds already in the soil. Herbicides are used on fields infested with S. asiatica. Extensive field research has provided information on the best chemical or combination of chemicals for the given crop, weed species, and field conditions. Eliminating the microscopic seeds is another important part of eradication. Some seeds die of natural attrition or sprout only to be killed by an herbicide. However, since S. asiatica seeds can persist in the soil for a decade, efficient eradication requires accelerating the natural rate of seed germination. S. asiatica seeds can be eliminated from the soil by creating conditions that cause them to germinate when no host is present. This phenomenon is known as suicidal germination. Ethylene gas, a natural ripening agent produced by fruits, vegetables, and flowers, is injected into the soil under proper environmental conditions. It stimulates seed germination, but lacking a host, seedlings die. Soil fumigation is another alternative, albeit an expensive one. Chemicals such as methyl bromide are used on occasion to assure seed destruction (APHIS, 2000).
    The large number of acres involved and the high seed production of this pest have made eradication a slow process. However, this parasite has been eradicated from 99 percent of the infested land. In 1995, the North Carolina Department of Agriculture assumed responsibility for eradication activities in that State. APHIS personnel continue eradication activities on the remaining 400 infested acres in South Carolina. APHIS will continue to provide support to these States for surveys to verify eradication and for post-eradication treatments (APHIS, 2000).
    The majority of S. asiatica in the Carolinas have red flowers and were probably introduced from Africa (CDFA, 2006).
    最后修改 : 13/03/2006 10:09:00 a.m.

ISSG Landcare Research NBII IUCN University of Auckland