Invasion History
First Non-native North American Tidal Record: 1855First Non-native West Coast Tidal Record: 1874
First Non-native East/Gulf Coast Tidal Record: 1855
General Invasion History:
Smallmouth Bass (Micropterus dolomieu) is native to the Great Lakes, Hudson Bay, and upper Mississippi basins, from south Quebec to North Dakota and south to north Alabama and eastern Oklahoma (Page and Burr 1991). It was widely introduced by United States Fish Commission (USFC) and state fish commissions. In 1893 the United States Fish Commission shipped mixed batches of Smallmouth Bass and Largemouth Bass to 29 states as 'Black Bass' (Worth 1895). Smallmouth Bass was introduced to California in 1874 (Carlander 1977). Shipments and stocking by United States Fish Commission continued into the 1920s. After 1905, Smallmouth Bass and Largemouth Bass were listed separately in United States Fish Commission records. Stocking was continued by many state agencies to the present day. Micropterus dolomieu now have been introduced to river systems in 43 states, including Hawaii (Fuller et al. 1999). They have been introduced to the Columbia River and San Francisco estuaries, Atlantic estuaries from Virginia to New Brunswick, and many interior basins outside their native range (Fuller et al. 1999; USGS Nonindigenous Aquatic Species Program 2018). In addition, they have been introduced to countries in Europe, Asia, Africa, and South America (Food and Agriculture Organization 2018; Lever 1996). The range of the Smallmouth Bass is limited by a preference for cooler flowing or well-oxygenated waters (Page and Burr 1991).
North American Invasion History:
Invasion History on the West Coast:
Smallmouth Bass were first introduced to California and the San Francisco Bay watershed by Livingstone Stone, California Fisheries Commissioner, in 1874, with 73 adult fish from Lake Champlain, Vermont released into Napa Creek, and 12 small fish from Michigan stocked in Alameda Creek. The Napa Creek population was quickly fished out, but the Alameda Creek population became established. Additional stocking occurred in lakes and reservoirs around the Bay, and in river systems throughout California (Smith 1895; Dill and Cordone 1997). In the San Francisco estuary, Smallmouth Bass are largely confined to dead-end sloughs and the freshwater edges of the Delta (Wang 1986). Leidy (2007) reported records from San Lorenzo, Alameda, and Coyote Creeks, and the Guadalupe and Napa Rivers. In surveys of the freshwater Delta, Smallmouth Bass were a small fraction (0.2-0.3 %) of the total catch (Feyrer and Healy 2003; Brown and Michniuk 2007).
Smallmouth Bass were first introduced to the Columbia River system by an Oregon game warden who planted 425 fish, from Wisconsin, in Oswego Lake, Portland, adjacent to the Willamette River in 1924. In 1925, another stocking of Smallmouth Bass was made in the upper Willamette. By 1946, Smallmouth Bass were established in the backwaters of the lower Columbia River (Chapman 1942), the Yakima River, Washington, and the upper and lower Willamette (Lampman 1946). Smallmouth Bass were common in the lower Willamette River in 1987–1990 (Farr and Ward 1994). Two specimens were caught in a survey of Columbia Slough, Portland (2008–2009, Van Dyke et al. 2008).
Smallmouth Bass have been introduced to lakes in the interior Fraser River Basin, British Columbia, and are regarded as a threat to native fish populations, especially salmonids (McPhail 2008; Department of Fisheries and Oceans 2011). Modeling studies indicate a high potential for establishment in the lower Fraser River Basin, the Thompson River Basin, and streams of southern Vancouver Island (Sharma et al. 2009).
Invasion History on the East Coast:
Smallmouth Bass were introduced separately to many Atlantic river basins from the Savannah River (Georgia-South Carolina) to New Brunswick. South of the Potomac River, they are largely confined to Piedmont and Mountain rivers and reservoirs (Jenkins and Burkhead 1993; Rodhe et al. 1994). Further north, they are generally found in the nontidal sections of rivers, and close to the head of tide in estuaries, favoring cooler water, rock and gravel substrate, and stronger currents (Hildebrand and Schroeder 1928; Pavol and Davis 1982). The Smallmouth Bass was an early introduction to East Coast river systems. It may have been introduced to the Hudson River through the Erie Canal as early as the 1830s, though the Smallmouth and Largemouth Basses were not clearly distinguished in records until 1903 (Mills et al. 1997; Daniels et al. 2005). Other early watershed records were the Potomac (1854), the Susquehanna (1869), the Delaware (1873), the Connecticut (1855), the Kennebec & Penobscot (after 1869).
The Smallmouth Bass was introduced to the Potomac River in 1854 by railroad workers who put 20 adult fish from the Youghiogheny River (Ohio drainage) into a locomotive water-tank and released in the Chesapeake & Ohio Canal, on the Potomac River, near Cumberland (Smith 1907). Additional stocking in Potomac drainage occurred from the 1860s onward. By 1876, the first Maryland fish survey reported that this fish 'abounds' in the Potomac in Montgomery, Frederick, and Washington Counties (Uhler and Lugger 1876). 'Inside of ten years, the fish literally swarmed in all the tributaries from Mount Vernon to the Headwaters. At the present time the species offers much sport from Washington to Harpers Ferry and beyond, but is not common below the capital' (Smith 1907). Smallmouth Bass were stocked in the Susquehanna sometime around 1869 (Pennsylvania Department of Fisheries 1904; cited by Bielo 1963), and were abundant in the tidal river near Havre de Grace by 1883 (Bean 1893). A resident population below Conowingo Dam moves from non-tidal waters in winter and spring to tidal fresh waters as oxygen concentrations in the nontidal river drop in summer (Pavol and Davis 1982). Smallmouth Bass were collected in the Bohemia River (Fowler 1912; Radcliffe and Welsh 1917) and at Love Point (Hildebrand and Schroeder 1928) in upper Chesapeake Bay. One specimen was caught in the Rhode River at SERC in 1983 (Rob Aguilar, personal communication), but this species is rarely collected in brackish bay waters (Murdy et al. 1997).
Smallmouth Bass were present in the Delaware estuary at Trenton, New Jersey, by 1873 (Abbot 1877), probably introduced by private stockings, or perhaps through canals from the Hudson River. There were also numerous stockings, including one in the Delaware River, PA (405 fish; Bean 1893), and in Brandywine Creek, Delaware, in 1888 and 1903 (Raasch and Altemus 1991). These bass are now resident in the Delaware estuary (Horwitz 1986; Raasch and Altemus 1991). Weisberg et al. (1996) collected them only in the upper estuary, from Philadelphia to Trenton.
De Kay (1842) described the 'Black Huron' ('Huro nigricans'), a bass from the Great Lakes, but did not report it from the Hudson River. Both Largemouth and Smallmouth were present in the tidal Hudson River by 1903, but probably entered the river after the completion of the Erie Canal in 1827. It is currently present through the Mohawk and Hudson Rivers (Mills et al. 1997; Daniels et al. 2005).
The Smallmouth Bass was introduced to Connecticut in the 1850s (Whitworth 1996), and is well-established in the tidal Connecticut River from Hartford to East Haddam (Whitworth 1968; Marcy 1976; Connecticut Department of Environmental Protection 1998); and in the Thames River estuary (1973, Jacobson 1980).
Smallmouth Bass were introduced to Maine in 1868–1881 in lakes in many river drainages across Maine, including the Saco, Androscoggin, Kennebec, Penobscot and Saint Croix (Everhart 1966; Warner 2005). These bass have been found in Merrymeeting Bay, the Kennebec-Androscoggin estuary (Kennebec Fisheries Council 1999) and the Penobscot estuary (O'Malley et al. 2010), and likely occur in tidal fresh waters of other Maine rivers. Smallmouth Bass from Maine were officially stocked into New Brunswick and Nova Scotia rivers flowing into the Bay of Fundy from 1905 to 1953, and further spread by informal stocking. Since 1998, Smallmouth have been stocked into rivers flowing into the Gulf of St. Lawrence in New Brunswick and Nova Scotia. In 2008, it was discovered at the head Miramichi River drainage, New Brunswick, far inland, but of great concern because of its status as a major Atlantic Salmon river (LeBlanc et al. 2021).
Invasion History in Hawaii:
An early attempt to introduce Smallmouth Bass to the island of Hawaii in 1897 was unsuccessful. In 1953–58, Smallmouth Bass were introduced to streams and reservoirs on Oahu, Hawaii, and Kauai (Brock 1960; Lever 1996; USGS Nonindigenous Aquatic Species Program 2018).
Invasion History Elsewhere in the World:
Smallmouth Bass have been widely introduced in the interior of North America to 29 US states, 7 Canadian provinces, and northern Mexico (Lever 1996; Brown et al. 2009). In eastern Canada, its range is shifting northward, due to a combination of natural dispersal, climate change, and human introductions (Loppnow et al. 2013).
Smallmouth Bass have been introduced to 20 countries, but most of these introductions have been unsuccessful (Froese and Pauly 2018). In 1938, this fish was introduced to South Africa, and is established in Cape and Natal provinces, mostly in upland streams and reservoirs (Lever 1996). In the 1990s, Smallmouth Bass were introduced to Lake Aoki, central Honshu, Japan (Iguchi and Yodo 2004). Its range is limited to central Honshu, but modeling suggest that it could occupy regions on all of the islands of Japan (Iguchi et al. 2004).
Description
The Smallmouth Bass (Micropterus dolomieu) is a large predatory freshwater fish. Fishes of the family Centrarchidae (Sunfishes and Black Basses) have a laterally compressed body. They have a spiny and a soft dorsal fin, which are fused. They have 3–8 anal spines, thoracic pelvic fins, and ctenoid scales. Black Basses (Micropterus spp.) are large (over 360 mm), moderately laterally compressed, with an elongated body and a large mouth that extends under or past the eye. The base of the anal fin is less than half the length of the dorsal fin. The tail fin is shallowly forked. There is a black spot at the rear angle of the gill cover but no flap. There are dark brown lines radiating from the snout and back of the eye to the rear edge of the gill-cover (Page and Burr 1991).
The Smallmouth Bass is somewhat streamlined, with the dorsal profile of the head slightly convex. The mouth is smaller than that of the Largemouth Bass, with the upper jaw not extending past the rear half of the eye. There are 69–73 lateral line scales, 9–11 dorsal spines, 12–15 dorsal rays, 3 anal spines, and 9–12 anal rays The fish can grow to 690 mm, but a more usual large size is 400 mm. The body is olive-brown to green-brown above with dark mottling on the back and sides, and yellowish white below. The mottling on the sides is often condensed into dark bars (Page and Burr 1991; Moyle 2002).
In the 19th century, 'Black Basses' (Smallmouth and Largemouth) were frequently confused, especially when transported for stocking (Smith 1895), or in distributional records. The many Southeastern bass species (Spotted Bass—M. punctulatus; Redeye Bass—M. coosae; Shoal Bass—M. cataractae; Suwanee Bass—M. notius; Guadalupe Bass—M. treculi) were historically confused with Smallmouth Bass (Jenkins and Burkhead 1993).
Taxonomy
Taxonomic Tree
Kingdom: | Animalia | |
Phylum: | Chordata | |
Subphylum: | Vertebrata | |
Superclass: | Osteichthyes | |
Class: | Actinopterygii | |
Subclass: | Neopterygii | |
Infraclass: | Teleostei | |
Superorder: | Acanthopterygii | |
Order: | Perciformes | |
Suborder: | Percoidei | |
Family: | Centrarchidae | |
Genus: | Micropterus | |
Species: | dolomieu |
Synonyms
Micropterus dolomieui (Lacépède, 1802)
Bodianus achigan (Rafinesque, 1817)
Cichla fasciata (Lesuer, 1822)
Potentially Misidentified Species
Redeye Bass Micropterus coosae has a large mouth, with the upper maxilla extending under the rear half of the eye. The fins are brick red, with a white edge to the upper and lower edges of the tail fin. There are rows of small spots on the sides. Redeye Bass are native to the Coosa River basin of Tennessee, Georgia, and Alabama (Page and Burr 1991). They are introduced to the San Francisco estuary watershed and other basins in California (Dill and Cordone 1997; Moyle 2002).
Micropterus henshalli
Alabama Bass (Micropterus henshalli) was formerly regarded as a subspecies of Spotte Bass (M. punctulatus). It is native to the central Alabama. It was stocked in Millerton Lake in the San Joaquin River in 1974. Both Spotted and Alabama Bass are established in the Sacramento-San Joaquin watershed (Dill and Cordone 1997).
Micropterus punctulatus
Spotted Bass (Micropterus punctulatus) have clear fins, and a row of large dark spots along the lateral line, with rows of dots below. Spotted Bass are native to the Mississippi-Gulf basins, and are associated with clear, flowing rivers (Page and Burr 1991). Spotted Bass have been introduced to the San Francisco estuary watershed, Virginia tributaries of Chesapeake Bay, and South Africa (Jenkins and Burkhead 1993; Lever 1996; Dill and Cordone 1997).
Micropterus salmoides
Largemouth Bass (Micropterus salmoides) has a large mouth, with the upper jaw extending past the eye. The front and rear dorsal are nearly separate. There is a broad, black band extending from the eye to the tail, sometimes broken up into blotches. Largemouth Bass are characteristic of lakes and large rivers, with clear water and dense vegetation. Largemouth Bass are native to the Great-Lakes-Mississippi Basin, and the Atlantic Slope from North Carolina to Florida. It is introduced to the Columbia River and San Francisco estuaries, and from Chesapeake Bay to Maine (Page and Burr 1991).
Ecology
General:
The Smallmouth Bass (Micropterus dolomieu) is a freshwater predatory fish. Adults can mature at 2 years, or as late as 9 years, but more usually at age 3–4. Virginia and California populations at age 3 to 4 range from 190 to 410 mm at these ages (Jenkins and Burkhead 1994; Moyle 2002). Spawning takes place at 16–27 C, in freshwater, often moving upstream in tributaries. Adult male fish move into shallow water, ~1 m deep, near shore, and excavate a nest in sand, gravel, or rock (Hardy 1978; Wang 1986; Jenkins and Burkhead 1993; Moyle 2002). Males guard a nesting site against other males, and court females. Females may spawn with more than one male, and males may spawn with more than female. Females can carry ~2,000–21,000 eggs. Males vigorously guard the eggs through hatching and until the larvae reach 20–30 mm. Eggs take 2.5–9 days to develop at 15–26 C (Hardy 1978; Jenkins and Burkhead 1994; Moyle 2002).
Smallmouth Bass inhabit clear gravel-bottom runs and flowing pools of small to large rivers, and the rocky shoals of lakes (Hardy 1978; Page and Burr 1991; Wang 1986). In the Chesapeake Bay region, it is common in the Piedmont and Fall Line, the bottoms are rocky, and currents are strong, but this fish is rare in the Coastal Plain region, where currents are slower, temperatures are higher, and oxygen is lower (Jenkins and Burkhead 1993; Murdy et al. 1997). Preferred temperatures are 20–28 C, but Smallmouth Bass have been collected at 4 °C and have an experimental upper lethal temperature of 35 °C (Hardy 1978). They are rare in brackish water, but have been collected at 7.4 PSU (Hildebrand and Schroeder 1928). Smallmouth Bass tolerates dissolved oxygen of 0.9-1.0 ppm at 21 °C, but is usually associated with well-oxygenated waters (Carlander 1977). Juveniles feed on microcrustaceans and insects, and switch to fish and crayfish as they grow. Other prey include amphibians, insects, and other Smallmouth Bass (Jenkins and Burkhead 1993; Moyle 2002). The Largemouth (M. salmoides) and Spotted Bass (M. punctulatus) are potential competitors. Humans are the primary predators of adult fish as the Smallmouth is an esteemed gamefish.
Food:
insects; amphipods. crayfish; fishes
Consumers:
fishes, mammals, birds, humans
Competitors:
Micropterus spp.
Trophic Status:
Carnivore
CarnHabitats
General Habitat | Nontidal Freshwater | None |
General Habitat | Fresh (nontidal) Marsh | None |
General Habitat | Tidal Fresh Marsh | None |
General Habitat | Coarse Woody Debris | None |
General Habitat | Rocky | None |
Salinity Range | Limnetic | 0-0.5 PSU |
Salinity Range | Oligohaline | 0.5-5 PSU |
Salinity Range | Mesohaline | 5-18 PSU |
Tidal Range | Subtidal | None |
Vertical Habitat | Nektonic | None |
Life History
Tolerances and Life History Parameters
Minimum Temperature (ºC) | 4.4 | Experimental (Hardy 1978) |
Maximum Temperature (ºC) | 35 | Experimental (Hardy 1978; Brown et al. 2009) |
Minimum Salinity (‰) | 0 | This is a freshwater fish. |
Maximum Salinity (‰) | 7.4 | Field (Hardy 1978) |
Minimum pH | 4.1 | Carlander 1977 |
Maximum pH | 9.3 | Carlander 1977 |
Minimum Reproductive Temperature | 18.3 | Hardy 1978 |
Maximum Reproductive Temperature | 26.7 | Hardy 1978 |
Minimum Reproductive Salinity | 0 | None |
Minimum Length (mm) | 195 | Minimum adult size, Hardy 1978 |
Maximum Length (mm) | 686 | Hardy 1978 |
General Impacts
The Smallmouth Bass (Micropterus dolomieu) is an apex predator in river systems and a popular gamefish, widely introduced for food and sport. Where it has been introduced it is popular for its fighting qualities, but also raises concern as a predator on native fishes, especially anadromous salmonids and American Shad (Alosa sapidissima) in North America and native fishes in South Africa (Johnson and Dropkin 1992; Loppnow et al. 2011; LeBlanc et al. 2021).
Economic Impacts-
Fisheries- Smallmouth Bass were initially stocked and promoted as a food-fish, it is now mostly prized as a gamefish because of its size and fighting qualities (Brown et al. 2009). Its impact in fishing within the tidal limits of estuaries is small because of its preference for cool, clear, flowing waters, but it is important in the upland portions of watersheds, and can influence estuarine fisheries indirectly, through competition and predation with anadromous fishes, such as American Shad (Alosa sapidissima, Atlantic Salmon (Salmo salar, Chinook Salmon (Oncorynchus tshawytscha, or Steelhead (O. mykiss). Because of widespread disturbance to rivers through dams, pollution, and overfishing, the historical effects of Smallmouth Bass introductions are difficult to determine. However, predation by Smallmouth Bass and other introduced species has complicated restoration programs (Johnson and Dropkin 1992; U.S. Fish and Wildlife Service 1999; LeBlanc et al. 2021).
Smallmouth Bass were a major sport fisheries introduction to South Africa, intended to fill the gap between the upland trout populations, and the sluggish lowland Largemouth Bass waters. They have provided a sport fishery, but reduced or eliminated some native fish populations (Lever. 1996).
Ecological Impacts-
Predation- Smallmouth Bass (Micropterus dolomieu) has been introduced to many watersheds in North America, and some in South Africa and Japan, where there were few or no native, relatively large, spiny-rayed fishes. Soon after its introduction in the Potomac River, Smallmouth Bass were blamed by fishermen for the decrease of American Shad and "chubs, minnows, and suckers" in the upper Potomac (Ferguson 1877), although overfishing, dams, and pollution were also affecting the fisheries. In lakes and rivers of the Pacific Northwest, Smallmouth Bass predation on native trout, salmon, and minnows is significant. Bass predation on anadromous Pacific salmon (Oncorhynchus spp.) is especially problematic, because the salmon are protected by the Endangered Species Act (Carey et al. 2011). Similarly, Smallmouth Bass in the Atlantic are considered to be a moderate threat to Atlantic Salmon populations (Salmo salar) in the Maritime Provinces and Maine (U.S. Fish and Wildlife Service 1999; https://waves-vagues.dfo-mpo.gc.ca/Library/40989276.pdf). In South Africa, predation by Smallmouth Bass led to the decline and local extinction of some local cyprinid species (Barbus spp.) (Lever 1996).
Competition-Juvenile Smallmouth Bass which feed on zooplankton, insects, and small crustaceans, are competitors with juvenile salmonids and minnows for food, while adults can compete with native predators, such as the Pikeminnows Ptychocheilus. spp. of Pacific Slope rivers (Harvey and Kareiva 2005).
Regional Impacts
P090 | San Francisco Bay | Economic Impact | Fisheries | ||
Smallmouth Bass have minor, localized importance as a sport fish in California (Dill and Cordone 2007) |
|||||
P090 | San Francisco Bay | Ecological Impact | Predation | ||
In California, predation by Smallmouth Bassu was correlated with a decline in the native cyprinid Mylodon conocephalus (Hardhead), and may have had adverse effects on other native species (Dill and Cordone 1997). | |||||
CA | California | Ecological Impact | Predation | ||
In California, predation by Smallmouth Bassu was correlated with a decline in the native cyprinid Mylodon conocephalus (Hardhead), and may have had adverse effects on other native species (Dill and Cordone 1997). | |||||
CA | California | Economic Impact | Fisheries | ||
Smallmouth Bass have minor, localized importance as a sport fish in California (Dill and Cordone 2007) |
Occurrence Map
OCC_ID | Author | Year | Date | Locality | Status | Latitude | Longitude |
---|
References
Woolbright, Scott A.; Birchfield, Heath A (2019) Mermaids move inland, Frontiers in Ecology and the Environment 17(6): 340doi:10.1002/fee.2080
Abbott, C. C. (1877) IV. Notes on some fishes of the Delaware River. A. The larger acanthopterous fishes of the Dealware River, Report of the U. S. Fish Commission 1875-1876: 825-840
Bangs, Max R.; Oswald, Kenneth J.; Greig, Thomas W.; Leitner, Jean K.; Rankin, Daniel M.; Quattro, Joseph M. (2018) Introgressive hybridization and species turnover in reservoirs: a case study involving endemic and invasive basses (Centrarchidae: Micropterus) in southeastern North America, Conservation Genetics 19: 57-69
DOI 10.1007/s10592-017-1018-7
Bean, Tarleton H. (1883) Notes on fishes observed at the head of Chesapeake Bay in the spring of 1882 and upon other species of rhe same region., Proceedings of the United States National Museum 6: 365-367
Bean, Tarleton H. (1893) The fishes of Pennsylvania, In: (Eds.) . , Harrisburg PA. Pp. <missing location>
Bielo, Robert J. (1963) A fishery investigation of the Susquehanna River in Pennsylvania, In: (Eds.) . , Newark. Pp. <missing location>
Bowers, George (1911) Bureau of Fisheries- Report of the Commissioner of Fisheries for the fiscal year 1910 and special papers., Government Printing Office, Washington DC. Pp. <missing location>
Brock, Vernon E. (1960) The introduction of aquatic animals into Hawaiian waters, Internationale Revue der Gesamten Hydrobiologie 45(4): 463-480
Brown, Larry R.; Michniuk, Dennis (2007) Littoral fish assemblages of the alien-dominated Sacramento-San Joaquin Delta, California, 1980-1983 and 2001-2003., Estuaries and Coasts 90: 186-200
Brown, Larry R.; Moyle, Peter B. (1997) Invading species in the Eel River, California: successes, failures, and relationships with resident species, Environmental Biology of Fishes 47: 271-291
Brown, T. G.; Runciman, B.; Pollard, S.; Grant, A. D. A.; Bradford, M. J. (2009b) Biological synopsis of Smallmouth Bass (Micropterus dolomieu), Canadian Manuscript Report of Fisheries and Aquatic Sciences 2887: 1-50
Carey, Michael P.; Wahl, David H. (2010) Native fish diversity alters the effects of an invasive species on food webs, Ecology 91(10): 2965-2974
Carlander, Kenneth D. (1977) Handbook of Freshwater Fishery Biology. , In: (Eds.) Handbook of Freshwater Fishery Biology, Volume Two: Life History Data on Centrarchid Fishes of the U.S & Canada. , Ames. Pp. Ames
Cavallo, Bradley; Merz, Joseph; Setka, Jose (2013) Effects of predator and flow manipulation on Chinook salmon (Oncorhynchus tshawytscha) survival in an imperiled estuary, Environmental Biology of Fishes 393: 393-403
Chapman, Wilbert M. (1942) Alien fishes in the waters of the Pacific Northwest, California Fish and Game 28: 9-15
Cohen, Andrew N.; Carlton, James T. (1995) Nonindigenous aquatic species in a United States estuary: a case study of the biological invasions of the San Francisco Bay and Delta, U.S. Fish and Wildlife Service and National Sea Grant College Program (Connecticut Sea Grant), Washington DC, Silver Spring MD.. Pp. <missing location>
Collado-Vides, Ligia; Mazzei, Viviana; Thyberg, Travis; Lirman, Diego (2011) Spatio-temporal patterns and nutrient status of macroalgae in a heavily managed region of Biscayne Bay, Florida, USA, Botanica Marina 52: 377–390
DOI 10.1515/BOT.2011.046
Daniels, Robert A.; Limburg, Karin E.; Schmidt, Robert E; Strayer, David L.; Chambers, R. Christopher (2005) Changes in fish assemblages in the tidal Hudson river, New York., American Fisheries Society Symposium 45: 471-503
De Kay, James E. (1843) Mollusca, Vol. 5, Zoology of New-York., In: (Eds.) Zoology of New-York. , Albany. Pp. <missing location>
Dill, William A.; Cordone, Almo J. (1997) History and status of introduced fishes in California, 1871-1996, California Department of Fish and Game Fish Bulletin 178: 1-414
Elser, Harold J. (1960) Creel results on the Northeast River, Maryland, 1958, Chesapeake Science 1: 41-47
Ens, Nicholas J. ; Harvey, Bronwyn; Davies, Morgan M.; Thomson, Hanna M.; and 5 authors (2022) The Green Wave: Reviewing the environmental impacts of the invasive European Green Crab (Carcinus maenas) and potential management approaches, Environmental Reviews 30(2): Published online
Everhart, W. Harry (1966) Fishes of Maine, In: (Eds.) . , Augusta, Maine. Pp. <missing location>
Farr, Ruth A., Ward, David L. (1992) Fishes of the lower Willamette River, near Portland, Oregon, Northwest Science 67(1): 16-22
Ferguson, T. B. (1877) Report of a Commisioner of Fisheries of Maryland, January 1877, In: (Eds.) . , Annapolis, MD. Pp. <missing location>
Feyrer, Frederick; Healey, Michael P. (2003) Fish community structure and environmental correlates in the highly altered southern Sacramento-San Joaquin Delta., Environmental Biology of Fishes 66: 123-132
Food and Agricultural Organization 1998-2012 Database on Introductions of Aquatic Species. <missing URL>
Fowler, H. W. (1912) Records of fishes for the middle Atlantic states and Virginia, Proceedings of the Biological Society of Washington 23: 157-164
Fowler, Henry W. (1945) A study of the fishes of the southern Piedmont and coastal plain, Monographs of the Academy of Natural Sciences of Philadelphia 7: 1-395
Fowler, Henry W. (1952) A list of the fishes of New Jersey, with off-shore species, Proceedings of the Academy of Natural Sciences of Philadelphia 104: 89-151
Fritts, Anthony L; Pearson, Todd N. (2006) Effects of predation by nonnative smallmouth bass on native salmonid prey: The role of predator and prey size., Transactions of the American Fisheries Society 135: 853-860
DOI: 10. 1.577lT05{}14. I
Froese, R.; Pauly, D. (Editors). 2002-2024 FishBase.(World Wide Web electronic publication).. <missing URL>
Fuller, Pam. L.; Nico, Leo; Williams, J. D. (1999) Nonindigenous fishes introduced into inland waters of the United States, American Fisheries Society, Bethesda MD. Pp. <missing location>
Hall, John D.; Schneider, Craig W. (2025) The unexpected occurrence of a persistent population of the tropical green alga Batophora oerstedii (Ulvophyceae, Dasycladales) in Maryland waters, Brittonia 20(10): Published online
10.1007/s12228-022-09735-7
Hardy, Jerry D., Jr. (1978) Development of fishes of the Mid-Atlantic Bight. Vol. 3. Aphredoderidae through Rachycentridae., In: (Eds.) . , Washington DC. Pp. <missing location>
Hartel, Karsten E.; Halliwell, David B.; Launer, Alan E. (2002) Inland Fishes of Massachusetts, Massachusetts Audubon Society, Lincoln MA. Pp. 328 pp.
Harvey, Chris J.; Kareiva, Peter M. (2005) Community context and the influence of non-indigenous species on juvenile salmon survival in a Columbia River reservoir., Biological Invasions 7: 651-663
Haskell, Craig A.; Tiffan, Kenneth F.; Rondorf, Dennis W. (2013) The effects of juvenile American Shad planktivory on zooplankton production in Columbia River food webs, Transactions of the American Fisheries Society 142: 606-620
Hildebrand, Samuel F.; Schroeder, William C. (1928) Fishes of Chesapeake Bay, Unites States Bureau of Bisheries Bulletin 53(Pt. 1): 1-388
Horwitz, Richard J. (1986) Fishes of the Delaware estuary in Pennsylvania., In: Majundar, S.K., Brenner, F. J., Rhoads, A. F.(Eds.) Endangered and Threatened Species Programs in Pennsylvania.. , Philadelphia. Pp. 177-201
Hughes, Robert M., Gammon, James R. (1987) Longitudinal changes in fish assemblages and water quality in the Willamette River, Oregon, Transactions of the American Fisheries Society 116: 196-209
Iguchi, Kei'ichiro; Yodo, Taiga (2004) Impact of indigenous egg eaters on the early survival of exotic smallmouth bass, Ecological Research 19: 469-474
Jacobson, Paul M. (1980) Studies of the Ichthyofauna of Connecticut, Storrs Agricultural Experiment Station. Papers 82: 1-39
Jaimie Cantera K. (1001) first record of the Indo-Pacific gastropod Cypraea caput serpentis (Linnaeus 1758) at Isla de Gorgona, Colombia, Veliger 34(1): 85-87
Jenkins, Robert E.; Burkhead, Noel M. (1993) Freshwater Fishes of Virginia, American Fisheries Society, Bethesda, MD. Pp. <missing location>
Johnson, James H.; Dropkin, David S. (1992) Predation on recently released larval American shad in the Susquehanna River Basin, North American Journal of Fisheries Management 12: 504-58
Kazyak, Paul F.; Christmas, John F.; Kelly, Suzanne M.; Stranko, Scott A. (1998) Choptank River Basin: Environmental Assessment of Stream Conditions, Maryland Department of Natural Resources, Annapolis. Pp. <missing location>
Kennebec River Council 1999 The Fishery Resources of the Kennebec River. <missing URL>
LaJeunesse, Todd C.; Forsman, Zac H.; Wham, Drew C. (2014) An Indo-West Pacific ‘zooxanthella’ invasive to the western Atlantic finds its way to the Eastern Pacific via an introduced Caribbean coral, Coral Reefs 35: 577–582
DOI 10.1007/s00338-015-1388-6
Lampman, Ben Hur (1946) Coming of the Pond Fishes, Binfords & Mort, Portland, OR. Pp. <missing location>
LeBlanc, Francis; Steeves, Royce; Irlich, Ulrike; Bourque, Daniel; Akaishi, Fabiola; Gagné, Nellie (2021) Scoping the distribution of Smallmouth Bass (Micropterus dolomieu) in the Miramichi River Watershed in 2019 and 2020 using environmental DNA, Canadian Manuscript Report of Fisheries and Aquatic Sciences 3222: 1-22
Leidy, R. A. (2007) Ecology, assemblage structure, distribution, and status of fishes in streams tributary to the San Francisco estuary, California, San Francisco Estuary Institute, Oakland CA. Pp. <missing location>
Lever, Christopher (1996) Naturalized fishes of the world, Academic Press, London, England. Pp. <missing location>
Loppnow, Grace L.; Vascotto, Kris; Venturelli, Paul A. (2013) Invasive smallmouth bass (Micropterus dolomieu): history, impacts, and control, Management of Biological Invasions 4(3): 191-206
Macnamara, R.; Koutrakis, E. T.; Sapounidis, A.; Lachouvaris, D.; Arapoglou. F.; Panora, D.; McCathy, T. K. (2014) Reproductive potential of silver European eels (Anguilla anguilla) migrating from Vistonis Lake (Northern Aegean Sea, Greece)., Mediterranean Marine Science 15(3): 539-544
https://doi.org/10.12681/mms.614
Madariaga, David Jofré; Conzález, María Teresa; Dias Bórquez, Christopher; Macaya, Erasmo C.; Harrod, Chris; Thiel. Martin (2023) , None <missing volume>: Published online
Marcy, Barton C., Jr. (1976) Fishes of the lower Connecticut River and the effects of the Connecticut Yankee Plant, American Fisheries Society Monograph 1: 61-113
Massmann, William H.; Ladd, Ernest C.; McCutcheon, Henry M. (1952) A biological survey of the Rappahannock River, Virginia, Virginia Fisheries Laboratory Special Scientific Report 6: 1-152
Maurakis, Eugene; Woolcott, William S.; Jenkins, Robert E. (1987) Physiographic analyses of the longitudinal distribution of fishes in the Rappahannock River, Virginia, ASB Bulletin 34(1): 1-14
McPhail, J. D. 2008 Annotated checklist of the introduced species of freshwater fish of British Columbia (2008). http://ibis.geog.ubc.ca/biodiversity/efauna/documents/FRESHWATERFISHINTRODUCEDSPECIESMcPhail2008.pdf
McPhail, J. D., Lindsey, C. C. (1986) Zoogeography of the freshwater fishes of Cascadia (the Columbia system and rivers north to the Stikine), In: Hocutt, Charles H. and Wiley, E. O.(Eds.) The Zoogeography of North American Fishes. , New York. Pp. 615-637
Mills, Edward L.; Scheuerell, Mark D.; Carlton, James T.; Strayer, David (1997) Biological invasions in the Hudson River: an inventory and historical analysis., New York State Museum Circular 57: 1-51
Morrison, Douglas (1984) Seasonality of Batophora oerstedi (Chlorophyta), a tropical macroalga, Marine Ecology Progress Series 14: 235-244
Moyle, Peter B. (2002) Inland Fishes of California, revised and expanded, University of California Press, Berkeley CA. Pp. <missing location>
Moyle, Peter, Randall, Paul 1999 Distribution maps of fishes in California. <missing URL>
Murdy, Edward O.; Birdsong, Ray S.; Musick, John A. (1997) Fishes of Chesapeake Bay, Smithsonian Institution Press, Washington, D.C.. Pp. 57-289
O’Malley, Michael and 5 authors 2010 Penobscot estuarine fish community survey. <missing URL>
O’Reilly, M.; Nowacki, S. (2019) First record of the non-native green palpworm Marenzelleria viridis (Annelida: Spionidae) in the Clyde Estuary, Glasgow Naturalist 27(1): 45-48
https://doi.org/10.37208/tgn27107
Page, Lawrence M.; Burr, Brooks M. (1991) Freshwater Fishes: North America North of Mexico, Houghton-Mifflin, Boston. Pp. <missing location>
Pavol, Kenneth W.; Davis, Robert W. (1982) Life history and management of the smallmouth bass in the Susquehanna river below Conowingo Dam, F-29R Maryland Wildlife Administration, Maryland Department of Natural Resources, Annapolis MD. Pp. <missing location>
Plosila, Daniel S. (1961) The Susquehanna fishery study, 1957-1960: a report on the disrability and feasibility of passing fish at Conowingo Dam., Maryland Department of Research and Education, Solomons MD. Pp. <missing location>
Raasch, Maynard S. (1996) Delaware's Freshwater and Brackish-water Fishes: A Popular Account, T.F.H. Publications, Neptune, NJ. Pp. <missing location>
Raasch, Maynard S.; Altemus, Vaughn L., Sr. (1991) Delaware's freshwater and brackish water fishes, a popular account , Society of Natural History of Delaware, Wilmingotn, Delaware. Pp. <missing location>
Rabeni, Charles F. (1992) Trophic linkage between stream centrarchids and their crayfish prey, Canadian Journal of Fisheries and Aquatic Sciences 49: 1714-1722
Radcliffe, Lewis; Welsh, W. W. (1917) Notes on a collection of fishes from the head of Chesapeake Bay, Proceedings of the Biological Society of Washington 30: 35-42
Ravenel, William De C. (1902) <missing title>, United States Commission on Fish and Fisheries, Washington, D.C.. Pp. <missing location>
Redpath Museum 2014 Fishes of Quebec. <missing URL>
Reshetnikov Andrey N. and 52 authors (2023) Rarely naturalized, but widespread and even invasive: the paradox of a popular pet terrapin expansion in Eurasia, Neobiota 81: 91-127
doi: 10.3897/neobiota.81.90473
Rodhe, Fred C.; Arndt, Rudolf G.; Lindquist, David G.; Parnell, James F. (1994) <missing title>, University of North Carolina Press, Chapel Hill. Pp. <missing location>
Sanderson, Albert E. (1958) Smallmouth bass mangement in the Potomac River basin., In: (Eds.) Transactions of the 23rd Annual North American Wildlife Conference. , Washington, D. C.. Pp. 248-262
Schuchert, Peter (1996) The marine fauna of New Zealand: Athecate hydroids oand their medusae (Cnidara: Hydrozoa), New Zealand Oceanographic Institute Memoir 106: 1-159
Sharma, Sapna; Jackson, Donald (2008) Predicting smallmouth bass (Micropterus dolomieu) occurrence across North America under climate change: a comparison of statistical approaches, Canadian Journal of Fisheries and Aquatic Sciences 65: 471–481
doi:10.1139/F07-178
Short, Frederick T. (Ed.) (1992) The Ecology of the Great Bay Estuary, U. S. Navy, Environmental Protection Agency, Narragansett, RI. Pp. <missing location>
Simon, Carol A.; van Niekerk, H. Helene; Burghardt, Ingo; ten Hove, Harry A.; Kupriyanova, Elena K. (2019) Not out of Africa: Spirobranchus kraussii (Baird, 1865) is not a global fouling and invasive serpulid of Indo-Pacific origin, Biological Invasions 14(3): 221–249.
Smith, C. Lavett (1985) The Inland Fishes of New York State, New York State Department of Environmental Conservation, New York. Pp. <missing location>
Smith, C. Lavett, Lake, Thomas R. (1990) Documentation of the Hudson River fish fauna, American Museum Novitates 2981: 1-17
Smith, Hugh M. (1895) A review of the history and results of the attempts to acclimatize fish and other water animals in the Pacific states., Bulletin of the U. S. Fish Commission 15: 379-472
Smith, Hugh M. (1907) Our fish immigrants, National Geographic 18(6): 385-400
Soares, Marcelo Oliveira Xavier, Rafael de Lima Francisco Nalu Maia Dias, Monteiro da Silva Maiara Queiroz Pinto, de Lima, Jadson Xerez, Barroso (2022) Alien hotspot: Benthic marine species introduced in the Brazilian semiarid coast, Marine Pollution Bulletin 174: Published online
https://doi.org/10.1016/j.marpolbul.2021.113250
Sol, Sean Y.; Lomax, Daniel P. ; Hanson; Amanda C.; Corbett, Catherine; Johnson, Lyndal L. (2021) Fish communities in the tidal freshwater wetlands of the Lower Columbia River, Northwest Science 94(3-3): Published online
Starnes, Wayne C.; Odenkirk, John; Ashton, Matthew J. (2011) Update and analysis of fish occurrences in the lower Potomac River drainage in the vicinity of Plummers Island, Maryland—Contribution XXXI to the natural history of Plummers Island, Maryland, Proceedings of the Biological Society of Washington 124: 280-309
Strayer, David L. (2006) The Hudson River estuary, Cambridge University Press, Cambridge UK. Pp. 296-310
U.S. Fish and Wildlife Service 1999 Atlantic Salmon: report shows that Atlantic Salmon stocks need additional protection.. <missing URL>
Uhler, P. R.; Lugger, Otto (1876) <missing title>, State of Maryland, Fisheries Commission, Annapolis. Pp. <missing location>
USGS Nonindigenous Aquatic Species Program 2003-2024 Nonindigenous Aquatic Species Database. https://nas.er.usgs.gov/
Van Dyke, Erick, S. Storch, Adam J. Reesman, Martyne J. (2009) Seasonal composition and distribution of fish species in the lower Columbia slough; Completion Repor, City of Portland, Bureau of Environmental Services, Portland OR. Pp. <missing location>
Verges, Alba; Sanchez, Noemi; Peteiro, Cesar, Polo, Lluis; Brodie, Juliet (2013) Pyropia suborbiculata (Bangiales, Rhodophyta): first records from the northeastern Atlantic and Mediterranean of this North Pacific sp, Phycologia 52(2): 121-129
DOI: 10. 2216/12-003.1
Waldman, John R.; Lake, Thomas R.; Schmidt, Robert E. (2006) Biodiversity and zoogeography of the fishes of the Hudson River watershed and estuary, American Fisheries Society Symposium 51: 129-150.
Wang, Johnson C. S. (1986) Fishes of the Sacramento - San Joaquin Estuary and Adjacent Waters, California: A Guide to the Early Life Histories, IEP Technical Reports 9: 1-673
Warner, Kendall (2005) Smallmouth Bass Introductions in Maine, Fisheries 30(11): 20-26
https://doi.org/10.1577/1548-8446(2005)30[20:SBIIM]2.0.CO;2Citations: 5
Weisberg, Stephen; Himchak, Peter; Baum, Tom; Wilson, Harold T.; Allen, Russell (1996) Temporal trends in abundance of fish in the tidal Delaware River, Estuaries 19(3): 723-729
Whitworth, Walter R. (1968) Freshwater fishes of Connecticut, Bulletin, State Geological and Natural History Survey of Connecticut 101: 1-134
Whitworth, Walter R. (1996) Freshwater fishes of Connecticut, State Geological and Natural History Survey of Connecticut 114: 33-214
Worth, S. G. (1895) A review of the history and results of the attempts to acclimatize fish and other water animals in the Pacific states, In: (Eds.) Report of the United States Commission of Fish and Fisheries for 1893. , Washington D.C.. Pp. 78-138
Wright, Rosalind; et al. (2022) First direct evidence of adult European eels migrating to their breeding place in the Sargasso Sea, Scientific Reports 3,2(25362): Published online
https://doi.org/10.1038/s41598-022-19248-8