Under Siege! America’s Most Unwanted Invasive Species
The United States is under an economic and ecological siege by alien invaders — America’s Most Unwanted. More than 6,500 of these harmful non-native species cause more than 100 billion dollars in damage each year to the U.S. economy as the country battles to control the economic, ecological, and health threats these invaders pose. Increased global travel and trade are providing more pathways for both intentional and unintentional introductions of invasive species.
Invasive species affect just about everyone in every State in the country, in urban centers and wilderness areas. And their costs are borne by all of us — farmers, ranchers, businesses, and local, State, Tribal, and Federal governments.
The Cost of Invasives
Costly effects of invasives include crop decimation (cactus and gypsy moths), clogging of water facilities (quagga and zebra mussels) and waterways (hydrilla, giant salvinia), wildlife and human disease transmission (West Nile virus, monkeypox, and diseases in some ships’ ballast water), threats to commercial, native, and farmed fisheries (Asian carp, snakehead fish, sea lamprey, Asian swamp eel, whirling disease, and viral hemorrhagic septicemia), increased fire vulnerability (cheatgrass, brome, and buffelgrass) and adverse effects for ranchers and farmers (leafy spurge and cheatgrass).
Researchers with the USGS Invasive Species Program work on every one of those species mentioned; in fact, our researchers work collaboratively on all significant groups of invasive organisms in terrestrial and aquatic ecosystems in all regions of the United States. Across the Nation, our invasive species experts partner with States, other Federal agencies, businesses, agriculture, and natural resource managers to help solve the problems posed by these invaders.
Key components of invasive species activities include prevention, monitoring and forecasting threats, and control and management of established invaders.
During Invasive Species Awareness Week, we will feature some of America’s Most Unwanted each day to highlight the impacts of invasive species to the nation’s Ecosystems and economy.
Invasive Wildlife Diseases: USGS scientists collaborate with public health and animal health agencies on notable invasive zoonotic diseases – invasive diseases that are transmissible between animals and people. Such diseases are a potential collateral result of exotic animal introductions. Specialized biological containment facilities at the USGS National Wildlife Health Center (NWHC) in Madison, Wisconsin, allow scientists to provide diagnostic surveillance and research, information needed by all levels of government to adequately respond to wildlife diseases. NWHC scientists used patterns of wild bird mortality from West Nile virus, a wildlife disease introduced to the United States in 1999, as an indicator of the spread and activity level of this emerging disease. This information allowed public health officials to estimate human population risk and enact control and prevention activities. USGS and USDA surveillance also indicated that monkeypox, an invasive disease introduced to the United States from Africa through the international pet trade, had not spread from pets or humans to free-living wildlife. Since 2006, USGS along with other agencies, has been conducting surveillance and monitoring of wild birds to detect highly pathogenic avian influenza, an important zoonotic and economic disease, if it invades the United States through migratory birds.
An Emerging Bat Disease: The sudden emergence of white-nose syndrome (WNS), a devastating disease of hibernating bats, demonstrates the importance of a national and international infrastructure to investigate and respond to emerging wildlife diseases and their ecological and societal threats. Since 2008, when scientists first began investigating this unknown disease in bats of the northeastern U.S., WNS has spread to 16 states and 4 Canadian provinces. WNS has caused precipitous declines of some bat species. Not only are bats important ecologically, but a recent USGS and partner study showed their pest control services likely save the U.S. agricultural industry at least $3 billion a year. Since the USGS first identified the WNS fungus, our ongoing research has provided critical information about the fungus and the disease, guiding state, federal, NGO and tribal disease-response activities. Land-management agencies rely on our research and disease investigations to support on-the-ground actions, to help develop the WNS National Plan, and to assist with other national disease-management plans.
Viral Hemorrhagic Septicemia Virus:
Viral hemorrhagic septicemia virus (VHSV) is among the most important viral pathogens of finfish, causing losses in both freshwater and marine species. In 2005-2006, VHSV emerged in the Great Lakes Basin, resulting in a series of fish kills. As of June 2011, the virus has been found in 31 fish species from Lakes Erie, Superior, Huron, Michigan, Ontario, St. Clair, as well as the Niagara and St. Lawrence rivers, and inland lakes in Michigan, New York, Ohio, and Wisconsin. Significant VHSV outbreaks have affected many species of fish, such as muskellunge, freshwater drum, goby, burbot, yellow perch, gizzard shad, and smallmouth bass. Research by USGS scientists, in collaboration with state, federal, and Canadian partners, focuses on using molecular genetic tools to identify and track strains of the virus, developing improved diagnostic methods, determining methods for disinfection of eggs, and testing for virus transmission pathways. A three-year project funded by the Great Lakes Fishery Trust to the USGS’s Western Fisheries Research Center and colleagues at Cornell University and Michigan State University has allowed USGS scientists to compare the genetic sequences of VHSV strains obtained from fish at 37 locations in the Great Lakes Basin with those representing strains from other regions of the world. The very low level of genetic diversity within the Great Lakes is consistent with a recent, single introduction of VHSV to a native population of fish. To date, the route of introduction has not been determined.
For more information on USGS research on invasive diseases:
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