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The Nonindigenous Occurrences section of the NAS species profiles has a new structure. The section is now dynamically updated from the NAS database to ensure that it contains the most current and accurate information. Occurrences are summarized in Table 1, alphabetically by state, with years of earliest and most recent observations, and the tally and names of drainages where the species was observed. The table contains hyperlinks to collections tables of specimens based on the states, years, and drainages selected. References to specimens that were not obtained through sighting reports and personal communications are found through the hyperlink in the Table 1 caption or through the individual specimens linked in the collections tables.




Faxonius virilis
Faxonius virilis
(Virile Crayfish)
Crustaceans-Crayfish
Native Transplant

Copyright Info
Faxonius virilis (Hagen, 1870)

Common name: Virile Crayfish

Synonyms and Other Names: Orconectes virilis (Hagen, 1870). Faxonius virilis underwent a reclassification in August 2017, changing the genus of non-cave dwelling Orconectes to Faxonius (Crandall and De Grave 2017).

Taxonomy: available through www.itis.govITIS logo

Identification: Individuals of this species can vary in color, ranging from a light- to olive-brown body with dark brown markings on each abdominal segment. Upper walking legs and chelae can be bluish. Tips of chelae are orange. Individuals have a long, broad rostrum and broad, flattened chelae with long fingers (Crocker and Barr 1968; Taylor et al. 2015). There is taxonomic confusion surrounding F. virilis and F. causeyi (Hobbs 1989). Faxonius nais is also often confused with F. virilis. They differ anatomically in gonopod structure; the lengthier gonopod element is more curved in F. nais (Johnson and Johnson 2008).

Size: Individuals up to 13.1 cm carapace length have been collected (Z. Barnett, unpublished data).

Native Range: Broadly, F. virilis is native to the Great Lakes, Missouri River, upper Mississippi River, and lower Ohio River and up to east of the continental divide in Montana (Taylor et al. 2015), with disjunct populations in the Black River in Missouri and Arkansas, the upper White River in Oklahoma and Arkansas, the Red River in Texas and Oklahoma, and Lake Champlain in New York (C. Taylor, pers. comm.).

Its native range in Arkansas and Oklahoma is uncertain, but it is known to be native in the Upper Black River, Upper Illinois River, and Upper White River drainages in northern Arkansas and eastern Oklahoma (C. Taylor, pers. comm.) and possibly drainages along the Texas-Oklahoma border (D. Johnson, pers. comm.). Its native range in Texas is uncertain; probably includes northeastern Texas in Bois D’arc-Island, Denton, East Fork Trinity, Elm Fork Trinity, Farmers-Mud, Lake Texoma, and Upper Trinity drainages (D. Johnson, pers. comm.). Faxonius virilis is native east of the continental divide in Montana (Crocker and Barr 1968). Its native range in southern Missouri is uncertain, but it is probably in the Upper Black River drainage (C. Taylor, pers. comm.) and in the Mississippi River drainage north of the “Bootheel” (the southeastern corner of Missouri; B. Williams, pers. comm.). Its native range in New York includes the Ausable River, Chateaugay-English, Eastern Lake Erie, Lake Champlain, Salmon, Saranac River, and St. Regis drainages (Crocker 1957; C. Taylor, pers. comm.).

Hydrologic Unit Codes (HUCs) Explained
Interactive maps: Point Distribution Maps

Nonindigenous Occurrences:

Table 1. States with nonindigenous occurrences, the earliest and latest observations in each state, and the tally and names of HUCs with observations†. Names and dates are hyperlinked to their relevant specimen records. The list of references for all nonindigenous occurrences of Faxonius virilis are found here.

StateFirst ObservedLast ObservedTotal HUCs with observations†HUCs with observations†
AL198920158Cahaba; Guntersville Lake; Locust; Middle Coosa; Middle Tallapoosa; Sipsey Fork; South Atlantic-Gulf Region; Upper Coosa
AZ1976202317Bill Williams; Black; Chevelon Canyon; Fort Pearce Wash; Little Colorado Headwaters; Lower Colorado Region; Lower Lake Powell; Lower Salt; Lower Verde; Middle Little Colorado; Rillito; San Francisco; Silver; Upper Gila-San Carlos Reservoir; Upper San Pedro; Upper Santa Cruz; Upper Verde
AR201920191Upper Ouachita
CA1939200513Big Chico Creek-Sacramento River; Butte Creek; California Region; Lower Pit; Lower Sacramento; Lower Sacramento; Sacramento-Stone Corral; San Francisco Bay; San Joaquin; Upper Cosumnes; Upper Putah; Upper Sacramento; Upper Stony
CO199320226Big Thompson; Colorado Headwaters-Plateau; Lower Yampa; Middle South Platte-Cherry Creek; Purgatoire; Upper South Platte
CT197920119Farmington River; Housatonic; New England Region; Outlet Connecticut River; Quinebaug River; Quinnipiac; Saugatuck; Shetucket River; Thames
DC198919891Middle Potomac-Anacostia-Occoquan
ID1999201916Bear Lake; Clearwater; Coeur d'Alene Lake; Goose; Idaho Falls; Lake Walcott; Little Wood; Lower Boise; Lower Henrys; Middle Bear; Pend Oreille Lake; Portneuf; Salmon Falls; Teton; Upper Snake-Rock; Upper Spokane
IL198719871Highland-Pigeon
KS200220194Kaw Lake; Lower Cottonwood; Middle Arkansas-Slate; Upper Walnut River
KY199519951North Fork Kentucky
ME197920247Lower Kennebec River; New England Region; Piscataqua-Salmon Falls; Piscataquis River; Saco River; Upper Androscoggin River; Upper Kennebec River
MD1960201212Cacapon-Town; Conococheague-Opequon; Gunpowder-Patapsco; Lower Susquehanna; Mid Atlantic Region; Middle Potomac-Anacostia-Occoquan; Middle Potomac-Catoctin; Monocacy; North Branch Potomac; Patuxent; Upper Chesapeake; Youghiogheny
MA197919929Blackstone River; Charles; Chicopee River; Concord River; Housatonic; Merrimack River; Narragansett; New England Region; Quinebaug River
MS198920141Upper Tombigbee
MO1974201213Harry S. Truman Reservoir; Lake O' The Cherokees; Lake of the Ozarks; Little Osage; Lower Gasconade; Lower Marais Des Cygnes; Marmaton; Niangua; Pomme De Terre; Sac; South Grand; Spring; Upper St. Francis
MT198820226Blackfoot; Fisher; Flathead Lake; Lower Clark Fork; Lower Flathead; Swan
NV198620172Granite Springs Valley; Lower Virgin
NH197919896Black River-Connecticut River; Merrimack River; New England; Pemigewasset River; Saco River; Winnipesaukee River
NJ198920172Hackensack-Passaic; Mid-Atlantic Region
NM198320137Jemez; Middle San Juan; Mora; Rio Grande-Albuquerque; Rio Hondo; Upper Gila-Mangas; Upper Rio Grande
NY197919994Hudson-Hoosic; Lower Hudson; Middle Hudson; Sacandaga
NC198020209Lower Dan; Middle Roanoke; Roanoke Rapids; Santee; South Fork Catawba; Upper Catawba; Upper Little Tennessee; Upper New; Upper Yadkin
OH200020002Ashtabula-Chagrin; Licking
OK1969199817Bird; Black Bear-Red Rock; Caney; Chikaskia; Cimarron Headwaters; Kaw Lake; Lake O' The Cherokees; Lower Neosho; Lower Salt Fork Arkansas; Lower Verdigris; Middle North Fork Red; Middle Verdigris; Mountain Fork; Spring; Upper Cimarron; Upper Cimarron-Bluff; Upper Cimarron-Liberal
OR202220221Middle Rogue
PA198620237Brandywine-Christina; Conococheague-Opequon; Lower Delaware; Lower Susquehanna; Lower West Branch Susquehanna; Monocacy; Schuylkill
RI197920093Blackstone River; Narragansett; New England Region
SC201820241Lower Catawba
TN198919931Upper French Broad
TX197820192El Paso-Las Cruces; San Gabriel
UT1965202119Bear Lake; Duchesne; Escalante Desert; Great Salt Lake; Lower Green-Diamond; Lower Lake Powell; Lower San Juan; Lower Virgin; Lower Weber; Price; Provo; Rush-Tooele Valleys; San Rafael; Spanish Fork; Strawberry; Upper Colorado-Kane Springs; Upper Lake Powell; Upper Virgin; Upper Weber
VT197919898Ammonoosuc River-Connecticut River; Black River-Connecticut River; Deerfield River; Lamoille River; St. Francois River; Waits River-Connecticut River; White River; Winooski River
VA1928202012Appomattox; Maury; Middle Potomac-Anacostia-Occoquan; Middle Potomac-Catoctin; North Fork Holston; North Fork Shenandoah; Shenandoah; South Fork Shenandoah; Upper Clinch, Tennessee, Virginia; Upper James; Upper New; Upper Roanoke
WA2006202010Chief Joseph; Franklin D. Roosevelt Lake; Lake Chelan; Lake Washington; Lower Crab; Lower Yakima; Methow; Puget Sound; Sanpoil; Upper Columbia-Priest Rapids
WV1970201712Coal; Conococheague-Opequon; Elk; Gauley; Greenbrier; Lower Kanawha; Lower New; Middle New; North Branch Potomac; Potomac; Shenandoah; Upper Kanawha
WY198620165Blacks Fork; Popo Agie; Upper Bear; Upper Green-Flaming Gorge Reservoir; Upper Powder

Table last updated 11/28/2024

† Populations may not be currently present.


Ecology: Faxonius virilis is found in streams with moderate flow and turbidity, abundant cover, muddy, sandy, or rocky substrate and stable water levels (Crocker and Barr 1968; Maude and Williams 1983; Z. Barnett, pers. comm.). This species is inhibited by high velocity flow (Maude and Williams 1983). Faxonius virilis does not burrow, but may tunnel (Pflieger 1996). Mating occurs during two periods: August to October and April to May, and eggs are laid in spring (Crocker and Barr 1968). Pflieger (1996) observed larger males than females in Missouri, while Z. Barnett (pers. comm.) reported no size difference in Alabama.

Means of Introduction: Probable introduction methods include bait bucket introduction (Larson and Olden 2011; Kilian et al. 2012) and intentional stocking for forage (Larson and Olden 2011). It has been stocked as forage in Montana by Montana Fish, Wildlife and Parks (Sheldon 1989) and in Utah (Johnson 1986) in several locations. Welsh and Loughman (2015) have shown that the Faxonius virilis is capable of using fish-specific dam passages to move upstream in areas in which they are introduced.

Status: Faxonius virilis is established in 24 states: Alabama (Taylor et al. 2007), Arizona (Davidson et al. 2010), California (Ruiz et al. 2000), Colorado (Clark and Lester 2005; Hobbs 1989; Martinez 2012), Connecticut (Beauchene 2011), Idaho (Lester and Clark 2005; Idaho Species Catalog 2016), Maine (Crocker 1979), Maryland (Schwartz et al. 1963), Massachusetts (Crocker 1979; Taylor et al. 2007), west of the continental divide in Montana (Sheldon 1989), Nevada (Johnson 1986), New Hampshire (Crocker 1979; Taylor et al. 2007), New Mexico (Taylor et al. 2007), North Carolina (Cooper and Armstrong 2007; Simmons and Fraley 2010), Ohio (Thoma and Jezerinac 2000; Taylor et al. 2015), Pennsylvania (GBIF 2016; Smithsonian Institution 2014), Rhode Island (Crocker 1979; Taylor et al. 2007), Tennessee (Hobbs 1989; Illinois Natural History Survey 2017; Taylor et al. 2007), Utah (Taba et al. 1965; Johnson 1986; Clark and Lester 2005; Larson and Olden 2011), Vermont (Guarino et al. 2012; Taylor et al. 2007; Crocker 1979), Virginia (Virginia Fish and Wildlife Information Service 2016), Washington (Larson et al. 2010), West Virginia (Loughman and Welsh 2010), and Wyoming (Johnson 1986; Hubert 1988; Larson and Olden 2011). It is likely a failed introduction (no longer present) in Mississippi due to no recent collections (S. Adams, pers. comm.). Its status is unknown in New Jersey (Hobbs 1989; Taylor et al. 2007), as the only reported introduction was from Hobbs (1989).

Impact of Introduction:
Summary of species impacts derived from literature review. Click on an icon to find out more...

EcologicalEconomic


Introduction of F. virilis can potentially cause decline or local extirpation of native crayfish (Loughman and Welsh 2010) and threaten freshwater biodiversity and macroinvertebrate community abundance and structure (Hanson et al. 1990; Clark and Lester 2005; MDNR 2016). This species is known to eat juvenile reptiles and amphibians, fish eggs, and macroinvertebrates (Recsetar and Bonar 2015). In the Netherlands, water bodies that have been invaded by F. virilis have shown decreases in water quality and macrophyte (plant) biomass (Roessink et al. 2017).

Faxonius virilis is the most abundant and widespread non-native crayfish in Maryland, and is associated with the decline of native spinycheek crayfish (F. limosus) and Allegheny crayfish (F. obscurus). Both native species are now extirpated from many watersheds where F. virilis is currently abundant (MDNR 2016).

Remarks: Faxonius virilis abundance decreased with stream restoration, including substrate modification by travertine and exotic fish predation (Adams and Marks 2016). Using this species as a human food resource can also potentially decrease the abundance of introduced populations (Crocker 1957; Pflieger 1996).

The native range of F. virilis in Arkansas, Missouri, Oklahoma, and Texas is uncertain. Additional native drainages are likely in Oklahoma and southern Missouri (C. Taylor, pers. comm.; D. Johnson, pers. comm.). The connectivity of native range drainages in Texas and Arkansas to adjacent drainages in Oklahoma and southern Missouri imply that these drainages in Oklahoma and southern Missouri might be native (C. Taylor, pers. comm.; D. Johnson, pers. comm.).

References: (click for full references)

Adams, K.J., and J.C. Marks. 2016. Population response of the invasive crayfish Orconectes virilis (Hagen, 1870) (Decapoda: Astacoidea: Cambaridae) to restoration: What are the consequences of changes in predatory regulation and physical habitat in Fossil Creek, Arizona, USA? Journal of Crustacean Biology 36(5):597-606. http://dx.doi.org/10.1163/1937240X-00002471.

Beauchene, M. 2011. Crayfish distribution project. Connecticut Department of Energy and Environmental Protection, Bureau of Water Protection and Land Reuse, Hartford, CT. http://www.ct.gov/deep/lib/deep/water/water_quality_management/monitoringpubs/2011_crayfishdist.pdf. Accessed on 10/27/2016.

Clark, W.H., and G.T. Lester. 2005. Range extension and ecological information for Orconectes virilis (Hagen 1870) (Decapoda: Cambaridae) in Idaho, USA. Western North American Naturalist 65(2):164-169.

Cooper, J.E. 2003. A report on adventive crayfishes in North Carolina. North Carolina State Museum of Natural Sciences, Raleigh, NC.

Cooper, J.E., and S.A. Armstrong. 2007. Locality records and other data for invasive crayfishes (Decapoda: Cambaridae) in North Carolina. Journal of the North Carolina Academy of Science 123(1):1-13.

Crandall, K.A. and S. De Grave. 2017. An updated classification of the freshwater crayfishes (Decapoda: Astacidea) of the world, with a complete species list. Journal of Crustacean Biology 37(5):615-653. https://doi.org/10.1093/jcbiol/rux070.

Crocker, D.W. 1957. The crayfishes of New York State (Decapoda, Astacidae). University of the State of New York, Albany, NY.

Crocker, D.W. 1979. The crayfishes of New England. Proceedings of the Biological Society of Washington 92:225-252.

Crocker, D.W., and D.W. Barr. 1968. Handbook of the crayfishes of Ontario. University of Toronto Press, Toronto, Ontario.

Davidson, E.W., J. Snyder, D. Lightner, G. Ruthig, J. Lucas, and J. Gilley. 2010. Exploration of potential microbial control agents for the invasive crayfish, Orconectes virilis. Biocontrol Science and Technology 20(3):297-310. http://dx.doi.org/10.1080/09583150903514023.

GBIF. 2016. Global Biodiversity Information Facility (GBIF) Database. Global Biodiversity Information Facility. http://www.gbif.org/. Accessed on 10/27/2016.

Guarino, J., C. Gastador, and E. Miller. 2012. Field guide to the crayfish of the White River watershed, east-central Vermont. White River Partnership and Verdana Ventures, LLC, Randolph, VT. http://whiteriverpartnership.org/wp-content/uploads/2014/04/Field-Guide-to-the-Crayfish-of-the-White-River-Watershed.pdf. Accessed on 10/27/2016.

Hanson, J.M., P.A. Chambers, and E.E. Prepas. 1990. Selective foraging by the crayfish Orconectes virilis and its impact on macroinvertebrates. Freshwater Biology 24:69-80.

Hobbs, H.H., Jr. 1989. An illustrated checklist of the American crayfishes (Decapoda: Astacidae, Cambaridae, and Parastacidae). Smithsonian Contributions to Zoology 480:1-236.

Hubert, W.A. 1988. Survey of Wyoming crayfishes. Great Basin Naturalist 48(3):370-372. https://ojs.lib.byu.edu/spc/index.php/wnan/article/viewFile/28867/27330.

Idaho Species Catalog. 2016. Virile crayfish (Orconectes virilis). Idaho Department of Fish and Game. https://idfg.idaho.gov/species/taxa/25571. Accessed on 10/27/2016.

Illinois Natural History Survey. 2017. Illinois Natural History Survey Collection Databases. Illinois Natural History Survey. https://biocoll.inhs.illinois.edu/portalx/collections/index.php. Accessed on 08/15/2017.

Integrated Taxonomic Information System (ITIS). 2016. Orconectes virilis. https://www.itis.gov/servlet/SingleRpt/SingleRpt?search_topic=TSN&search_value=97425#null. Accessed on 10/27/2016.

Johnson, J.E. 1986. Inventory of Utah crayfish with notes on current distribution. Great Basin Naturalist 46(4):625-631.

Johnson, S.K., and N.K. Johnson. 2008. Texas Crawdads. Crawdad Club Designs, College Station, TX.

Kilian, J.V., R.J. Klauda, S. WIdman, M. Kashiwagi, R. Bourquin, S. Weglein, and J. Schuster. 2012. An assessment of a bait industry and angler behavior as a vector of invasive species. Biological Invasions 14(7):1469-1481.

Larson, E.R., C.A. Busack, J.D. Anderson, and J.D. Olden. 2010. Widespread distribution of the non-native northern crayfish (Orconectes virilis) in the Columbia River Basin. Northwest Science 84(1):108-111.

Larson, E.R., and J.D. Olden. 2011. The state of crayfish in the Pacific Northwest. Fisheries 36(2):60-73. http://www.aquaticnuisance.org/wordpress/wp-content/uploads/2011/03/Fisheries_2011_State_of_Crayfish.pdf.

Loughman, Z. J., and S.A. Welsh. 2010. Distribution and conservation standing of West Virginia crayfishes. Southeastern Naturalist 9(3):63-78. https://www.researchgate.net/profile/Zachary_Loughman/publication/232689227_Distribution_and_Conservation_Standing_of_West_Virginia_Crayfishes/links/02e7e52b1a3173c17f000000.pdf.

Martinez, P.J. 2012. Invasive crayfish in a high desert river: Implications of concurrent invaders and climate change. Aquatic Invasions 7(2):219-234. http://dx.doi.org/10.3391/ai.2012.7.2.008.

Maude, S.H., and D.D. Williams. 1983. Behavior of crayfish in water currents: hydrodynamics of eight species with reference to their distribution patterns in southern Ontario. Canadian Journal of Fisheries and Aquatic Sciences 40:68-77.

Maryland Department of Natural Resources (MDNR). 2016. Maryland Aquatic Nuisance Species Management Plan. Maryland Department of Natural Resources, Annapolis, MD.

Pflieger, W.L. 1996. The crayfishes of Missouri. Missouri Department of Conservation, Jefferson City, Missouri.

Recsetar, M.S., and S.A. Bonar. 2015. Effectiveness of two commercial rotenone formulations in the eradication of Virile Crayfish Orconectes virilis. North American Journal of Fisheries Management 35:616-620. http://dx.doi.org/10.1080/02755947.2015.1017127.

Riegel, J.A. 1959. The systematics and distribution of crayfishes in California. California Fish and Game 45(1):29-50.

Roessink, I., Gylstra, R., Heuts, P. G. M., Specken, B., and F. Ottburg. 2017. Impact of invasive crayfish on water quality and aquatic macrophytes in the Netherlands. Aquatic Invasions 12(3):397-404.

Ruiz, G.M., P.W. Fofonoff, J.T. Carlton, M.J. Wonham, and A.H. Hines. 2000. Invasion of coastal marine communities in North America: Apparent patterns, processes, and biases. Annual Review of Ecological Systematics 31:481-531.

Schuster, G.A., C.A. Taylor, and J. Johansen. 2008. An annotated checklist and preliminary designation of drainage distribution of the crayfishes of Alabama. Southeastern Naturalist 7: 493–504.

Schwartz, F.J., R. Rubelmann, and J. Allison. 1963. Ecological population expansion of the introduced crayfish, Orconectes virilis. Ohio Journal of Science 63(6):266-273.

Sheldon, A.L. 1989. A reconnaissance of crayfish populations in western Montana. Montana Department of Fish, Wildlife and Parks.

Simmons, J. W., and S. J. Fraley. 2010. Distribution, status, and life-history observations of crayfishes in western North Carolina. Southeastern Naturalist 9(sp3):79-126. http://dx.doi.org/10.1656/058.009.s316.

Smithsonian Institution. 2014. National Museum of Natural History specimen collections. Accessed via GBIF data portal, http://www.gbif.org/dataset/5df38344-b821-49c2-8174-cf0f29f4df0d. Accessed on 10/27/2016.

Taba, S.S., J.R. Murphy, and H.H. Frost. 1965. Notes on the fishes of the Colorado River, near Moab, Utah. Proceedings of the Utah Academy of Science 42(2):280-283. http://www.nativefishlab.net/library/textpdf/13441.pdf.

Taylor, C.A., G.A. Schuster, and D.B. Wylie. 2015. Field guide to crayfishes of the Midwest. Illinois Natural History Survey, Champaign, IL.

Taylor, C.A., G.A. Schuster, J.E. Cooper, R.J. DiStefano, A.G. Eversole, P. Hamr, H.H. Hobbs III, H.W. Robison, C.E. Skelton, and R.F. Thoma. 2007. A reassessment of the conservation status of crayfishes of the United States and Canada after 10+ years of increased awareness. Fisheries 32(8):372-389. http://fl.biology.usgs.gov/pdf/AFSESCCrayfish3208.pdf.

Thoma, R.E., and R.E. Jezerinac. 2000. Ohio Crayfish and Shrimp Atlas. Ohio Biological Survey Miscellaneous Contribution, Columbus, OH: 9.

USGS BioData. 2017. Aquatic Bioassessment Data for the Nation. https://aquatic.biodata.usgs.gov. Accessed on 06/22/2017.

USDA. 2014. Crayfishes of Mississippi: Crayfish Distribution Map: Orconectes (Gremicambarus) virilis. https://www.srs.fs.usda.gov/crayfish/distmaps/CFDistMap124.pdf.

Virginia Fish and Wildlife Information Service. 2016. Occurence chapter for Crayfish, Virile (070119). Virginia Department of Game and Inland Fisheries. http://vafwis.org/fwis/booklet.html?Menu=_.Occurrence&bova=070119&version=17101. Accessed on 10/27/2016.

Welsh, S.A., and Z.J. Loughman. 2015. Upstream dispersal of an invasive crayfish aided by a fish passage facility. Management of Biological Invasions 6(3):287-294.

Author: Durland Donahou, A.

Revision Date: 7/24/2019

Peer Review Date: 11/13/2017

Citation Information:
Durland Donahou, A., 2024, Faxonius virilis (Hagen, 1870): U.S. Geological Survey, Nonindigenous Aquatic Species Database, Gainesville, FL, https://nas.er.usgs.gov/Queries/FactSheet.aspx?SpeciesID=215, Revision Date: 7/24/2019, Peer Review Date: 11/13/2017, Access Date: 11/28/2024

This information is preliminary or provisional and is subject to revision. It is being provided to meet the need for timely best science. The information has not received final approval by the U.S. Geological Survey (USGS) and is provided on the condition that neither the USGS nor the U.S. Government shall be held liable for any damages resulting from the authorized or unauthorized use of the information.

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The data represented on this site vary in accuracy, scale, completeness, extent of coverage and origin. It is the user's responsibility to use these data consistent with their intended purpose and within stated limitations. We highly recommend reviewing metadata files prior to interpreting these data.

Citation information: U.S. Geological Survey. [2024]. Nonindigenous Aquatic Species Database. Gainesville, Florida. Accessed [11/28/2024].

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