Description

Bousfield and Hoover (1997) split the genus Corophium into 13 genera, 3 of which are represented in Chesapeake Bay. This division follows long-recognized divisions within the former genus (e.g. Shoemaker 1934; Crawford 1937), now treated as a subfamily (Corophinae), by Bousfield and Hoover.

Monocorophium insidiosum was described from England in 1937 (Crawford 1937), and subsequently recognized in North American Atlantic and Pacific waters (Shoemaker 1947).

Synonymy - Say (1817) described 'Podocerus cylindricus' from Egg Harbor NJ. The original type material was lost, but Smith and Verrill (1873) assigned the name 'Corophium cylindricum' to a common corophiid of southern New England, and this form was formally described by Holmes (1905). Subsequently, this name was very widely applied on the Atlantic Coast of the United States. However, it is not clear that Say's material was a corophiin (Shoemaker 1934). Bousfield and Hoover (1997) consider 'C. cylindricum' as a synonym of M. insidiosum, based on 'distributional overlap'. Shoemaker (1934) re-identified all available vouchered specimens of 'C. cylindricum' as 'C. acherusicum'. Since M. insidiosum was not described until 1937, it is possible that Shoemaker may have overlooked this species. In recent Chesapeake collections, M. acherusicum greatly outnumbers M. insidiosum. Therefore, we have assumed that early records of 'C. cylindricum' in Chesapeake Bay refer to M. acherusicum.

'Corophium bonelli' was a confusion with a very similar boreal species, now Monocorophium bonelli (Crawford 1937; Bousfield and Hoover 1997). A mixture of M. bonelli and M. insidiosum appear to have been identified as 'Corophium pseudoacherusicum,' which Shoemaker (1934) gave a range on both sides of the Atlantic, from Nova Scotia to Argentina (Shoemaker 1934; Crawford 1937; Shoemaker 1947).

Taxonomy

Kingdom	Phylum	Class	Order	Family	Genus
Animalia	Crustacea	Malacostraca	Amphipoda	Corophiidae	Monocorophium

Synonyms

Corophium insidiosum; Corophium bonelli; Corophium pseudoacherusicum?; Corophium cylindricum?;

Invasion History

Chesapeake Bay Status

First Record	Population	Range	Introduction	Residency	Source Region	Native Region	Vectors
1978	Established	Unknown	Cryptogenic	Regular Resident	Western Atlantic	Eastern Atlantic	Shipping(Fouling Community, Ballast Water), Natural Dispersal(Natural Dispersal)

History of Spread

Monocorophiumn insidiosum an epifaunal tube-building amphipod, has a distributional history similar to that of M. acherusicum, and is also widely dispersed by shipping (Cohen and Carlton 1995; Bousfield and Hoover 1997). In the case of M. insidiosum, the history is complicated by taxonomic confusions with the very similar M. bonelli, distributed in boreal Atlantic waters of Europe and North America (Crawford 1937), and probably also with M. acherusicum (Shoemaker 1934; Bousfield and Hoover 1997). M. insidiosum was described from Plymouth, England in 1937 (Crawford 1937), and subsequently found to range from Denmark to the Mediterranean (France-Greece) (Lincoln 1979; Bellan-Santini 1982). It has been collected from Argentina [reported as C. pseudoacherusicum by Shoemaker (1934), re-identified byCrawford (1937)], Chile (Shoemaker 1947), Hawaii (Cohen and Carlton 1995), Japan (Bousfield and Hoover 1997), and the eastern Pacific. Specimens were collected on the Pacific coast as early as 1915 in WA (Cohen and Carlton 1995), and it now ranges from British Columbia to CA (Bousfield and Hoover 1997). This species has been collected from dock areas in England (Millbay Pontoon, West Wharf) (Crawford 1937) and buoys in the west Atlantic (Bousfield 1973).

In the western Atlantic, the date of first record is uncertain because of taxonomic confusion. Bousfield and Hoover (1997) consider Say's (1818) 'Podocerus cylindricus' and Smith and Verrill's 'Corophium cylindricum' (Smith and Verrill 1873) to be synonyms of M. insidiosum. [Note that Shoemaker (1934, 1947) considers C. cylindricum to be a synonym of M. acherusicum.]. Shoemaker (1947) cited specimens of M. cylindricum collected from Newburyport MA, and Long Island Sound (Amityville NY), but did not give the dates. The West Atlantic specimens he examined are no longer in the United States National Museum of Natural History Crustacea catalogs. Consequently, we give an East Pacific collection (WA, 1915; Cohen and Carlton 1995) as the earliest date for North America, but M. insidiosum were probably collected earlier from the West Atlantic. Chapman (2000) considers M. insidosum to be native to the Northwest Atlantic, and introduced to the coast of Europe, but we regard it as cryptogenic. The historical record makes it difficult to determine on which side of the Atlantic this species originated. Its apparently expanding range to the southward is suggestive of introduction, but this may be an artifact of the diffusion of taxonomic knowledge.

Western Atlantic records are summarized below:

Cape Cod, North - The northern limit of M. insidiosum's range was given as Newburyport MA (Shoemaker 1947), and later as Chaleur Bay (Quebec) and Cape Breton Island (Nova Scotia) southwards (Bousfield 1973).

Cape Cod to Delaware Bay - The southern limit of M. insidiosum's range was given as Long Island Sound (Shoemaker 1947; Bousfield 1973).

Delaware Bay - Monocorophium insidiosum was common on jetties near the mouth of the Bay at Lewes DE, present on sand beaches at Cape Henlopen, and 'present' to 'common' on oyster bars from Mahon River to Broadkill River DE (Watling and Maurer 1972).

Adjacent Coastal Waters North of Chesapeake Bay - Monocorophium insidiosum was abundant in Indian River and Rehoboth Bays, just north of our study area (Watling and Maurer 1972; Maurer 1977). It is probably present in MD-VA coastal bays north of the the mouth of Chesapeake Bay, but was not collected in this region by Feeley and Wass (1971).

Chesapeake Bay- Monocorophium insidiosum was not reported by Feeley and Wass (1971), or by Marsh (1973), who examined epifauna of Zostera marina (Eelgrass). The first Chesapeake record of this species was in lower Chesapeake Bay in 1978 by Dauer et al. (1984) on the eastern and western shores (Old Plantation Creek - Cherrystone Inlet and Lynn Haven - Broad Bays). A single specimen was found on a fouling plate at Cape Charles VA in 1995. Another specimen was collected in Scotts Creek, a branch of the Elizabeth River, Norfolk VA, collected in summer of 1996 (Ruiz et al. unpublished data).

Coastal Waters South of Chesapeake Bay - Monocorophium insidiosum was 'known only from the Beaufort-Morehead City area, often locally abundant. Large numbers found in concrete holding tanks at the Institute of Marine Sciences, Morehead City' (Fox and Bynum 1975). In the 1990s, it has been reported from the Indian River Lagoon on the Atlantic coast of FL and the Suwanee River estuary on the FL Gulf coast (Mason et al. 1994; Nelson 1995)

History Referencess - Bellan-Santini 1982; Bousfield 1973; Bousfield and Hoover 1997; Chapman 2000; Cohen and Carlton 1995; Crawford 1937; Feeley and Wass 1971; Fox and Bynum 1975; Lincoln 1979; Marsh 1973; Maurer 1977; Ruiz et al. unpublished data; Say 1818; Shoemaker 1934; Shoemaker 1947; Verrill and Smith 1873; United States National Museum of Natural History collections; Watling and Maurer 1972

Invasion Comments

Invasion Status - We consider this species cryptogenic in the Western Atlantic, because its possible dispersal by shipping into the western Atlantic probably occurred decades or centuries before the taxonomic recognition of the species. However, its absence in Feeley and Wass's (1971) and Marsh's (1973) surveys, and the localized nature of Fox and Bynum's (1975) NC records suggest a natural or anthropogenic range extension either southward along the coast, or into the Bay from coastal waters.

Vector(s) of Introduction- Ballast water is considered to be the likeliest vector into Chesapeake Bay, given the recent date of first record of this species in the Chesapeake. While anti-fouling paints may have reduced the probability of fouling as a vector, it remains a strong possibility.

Ecology

Environmental Tolerances

	For Survival		For Reproduction
	Minimum	Maximum	Minimum	Maximum
Temperature (ºC)		27.0		27.0
Salinity (‰)	13.0	38.0
Oxygen	well-oxygenated
pH
	Salinity Range	poly-eu

Age and Growth

	Male	Female
Minimum Adult Size (mm)	1.7	3.0
Typical Adult Size (mm)	4.2	4.9
Maximum Adult Size (mm)	4.6	5.3
Maximum Longevity (yrs)	0.6	0.6
Typical Longevity (yrs	0.3	0.4

Reproduction

	Start	Peak	End
Reproductive Season
Typical Number of Young Per Reproductive Event
Sexuality Mode(s)
Mode(s) of Asexual Reproduction
Fertilization Type(s)
More than One Reproduction Event per Year
Reproductive Startegy
Egg/Seed Form

Impacts

Economic Impacts in Chesapeake Bay

Monocorophium insidiosum is a common food of juvenile commercial fishes, but not different in this role from native species, to our knowledge.

Economic Impacts Outside of Chesapeake Bay

Where it is abundant, Monocorphium insidiosum, like M. acherusicum is probably an important prey of juvenile commercial fishes (Onbe 1966).

Barnard (1958) suggested that high densities of mat-forming fouling organisms such as corophiids (M. acherusicum; M. insidosum) and Polydora might deter the settlement of marine borers on wooden pilings.

References- Barnard 1958; Onbe 1966

Ecological Impacts on Chesapeake Native Species

The tube-dwelling amphipod Monocorophium insidiosum is locally common in coastal bays in Delaware, and probably also in MD and VA north of the mouth of the Chesapeake. It could have some impacts on native biota. However, the invasion status of the species is uncertain (cryptogenic), and if it is an invader, it could have simply displaced native corophiids.

Herbivory - Together with other tube-building, suspension-feeding amphipods, M. insidiosum could have a local effect on densities of phytoplankton and suspended detritus (Barnard 1958).

Competition - Competition among corophiin species in Chesapeake Bay has been suggested as a factor influencing their distributions (Feeley 1967). However, this has not been tested experimentally.

Habitat Change - Tubes of corophiids represent a considerable modification of surfaces, which could affect other fouling taxa. Construction of tubes on vegetation could affect the plants' photosynthesis, masses of tubes on hard surfaces could provide habitat for meiofauna and smaller infauna.

Food/Prey - Monocorophium insidiosum is a likely prey of juvenile fishes, as is M. acherusicum (Onbe 1966) and probably elsewhere.

References - Barnard 1958; Feeley 1967; Onbe 1966

Ecological Impacts on Other Chesapeake Non-Native Species

Monocorophium insidiosum is a potential competitor with the cryptogenic M. acherusicum, but interactions of the two species are apparently unstudied.

References

Barnard, J. Laurens (1958) Amphipod crustaceans as fouling organisms in Los Angeles-Long Beach Harbors, with reference to the influence of seawater turbidity, California Fish and Game 44: 161-170

Bellan-Santini, Denise; Karaman, Gordon; Krapp-Schickel, Gertraud; Ledoyer, Michel; Myers, Alan A.; Ruffo, Sandro; Schiecke, Ulrich (1982) The Amphipoda of the Mediterranean: Part 1. Gammaridea (Acanthonotozomatidae to Gammaridae), Memoires de l'Institut Oceanographique (Monaco) 13: 1-364

Birklund, Jorgen (1977) Biomass, growth and production of the amphipod Corophium insidiosum Crawford, and preliminary notes on Corophium volutator (Pallas), Ophelia : 187-203

Bousfield, E. L.; Hoover, P. M. (1997) The amphipod superfamily Corophioidea on the Pacific coast of North America. Part V. Family Corophiidae: Corophiinae, new subfamily. Systematics and distributional ecology., Amphipacifica 2: 67-139

Bousfield, E.L. (1973) Shallow-water gammaridean Amphipoda of New England., , Ithaca, NY. Pp.

Chapman, John W. (2000) Climate effects on the geography of nonindigenous peracaridan crustacean introductions in estuaries., In: Pederson, Judith(Eds.) Marine Bioinvasions. , Cambridge MA. Pp. 66-80

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, , Washington DC, Silver Spring MD.. Pp.

Crawford, G. I. (1937) A review of the amphipod genus Corophium, with notes on the British species., Journal of the Marine Biological Association of the United Kingdom 21: 589-630

Dauer, Daniel M.; Stokes, Thomas L.; Barker, Howard R.; Ewing, Michael R.; Sourbreer, Jerry W. (1984) Macrobenthic communities of the lower Chesapeake Bay. IV. Bay-wide transects and the inner continental shelf., Internationale Revue der Gesamten Hydrobiologie 69: 1-22

Feeley, James B.; Wass, Marvin L. (1971) The distribution and ecology of the Gammaridea (Crustacea: Amphipoda) of the lower Chesapeake estuaries., Special Papers in Marine Science 2: 1-58

Fox, Richard S.; Bynum, Kenneth H. (1975) The amphipod crustaceans of North Carolina estuarine waters, Chesapeake Science 16: 223-237

Grabe, Stephen A. (1981) Occurence of Mysidopsis almyra Bowman, 1964 (Mysidacea) in the Patapsco River estuary (Upper Chesapeake Bay), Maryland, U.S.A., Proceedings of the Biological Society of Washington 94: 863-865

Grabe, Stephen A. (1996) Composition and seasonality of nocturnal peracarid zooplankton from coastal New Hampshire (USA) waters, 1978-1980., Journal of Plankton Research 18: 881-894

Karakiri, Maria; Nicolaidu, Artemis (1987) Population studies on the Amphipoda of Mazoma lagoon (Greece), Helgolander Meeresuntersuchungen 41: 453-454

Lincoln, Roger J. (1979) British Marine Amphipoda: Gammaridea., In: (Eds.) . , London. Pp.

Long, Edward R. (1968) The associates of four species of marine sponges of Oregon and Washington, Pacific Science 22: 347-351

Marsh, G. Alex (1973) The Zostera epifaunal community in the York River, Virginia, Chesapeake Science 14: 87-97

Maurer, Don (1977) Estuarine benthic invertebrates of Indian River and Rehoboth Bays, Delaware, Internationale Revue der Gesamten Hydrobiologie 62: 591-629

Nair, K. K. C.; Anger, K. (1979) Life cycle of Corophium insidiosum (Crustacea, Amphipoda) in laboratory culture, Helgoländer Wissenschaftliche Meeresuntersuchungen 32: 279-294

Onbe, Takashi (1966) Observations on the tubicolous amphipod, Corophium acherusicum, in Fukuyama harbor area, Journal of the Faculty of Fisheries and Animal Husbandry of Hiroshima University 6: 323-338

Say, Thomas (1817) An account of the Crustacea of the United States., Journal of the Academy of Natural Sciences of Philadelphia 1: 57-63, 65-80, 97-101

Sheader, Martin (1978) Distribution and reproductive biology of Corophium insidosum (Amphipoda) on the north-east coast of England, Journal of the Marine Biological Association of the United Kingdom 58: 585-596

Shoemaker, Clarence R. (1934a) The amphipod genus Corophium on the east coast of America, Proceedings of the Biological Society of Washington 47: 23-32

Shoemaker, Clarence R. (1947) Further notes on the amphipod genus Corophium, from the east coast of North America, Journal of the Washington Academy of Sciences 37: 47-63

Verrill, A.E.; Smith, S.I. (1873) VIII. Report upon the invertebrate animals of Vineyard Sound and the adjacent waters, with an account of the physical characters of the region., 1 , . Pp. 1-757

Watling, Les; Maurer, Don (1972) Marine shallow water amphipods of the Delaware Bay area, U.S.A., Crustaceana : 251-266

Monocorophium insidiosum

Crustaceans