Association with vessel vectors

Actual evidence of being found in samples in a particular vector from any world region.

Anchor and anchor chains. Organisms found on anchors, anchor chain or within attached sediments, including anchor chain lockers.

Ballast water. Ballast water means water with its suspended matter taken on board a ship to control trim, list, draught, stability or stresses of the ship.

Biofouling. Biofouling means the accumulation of aquatic organisms such as micro-organisms, plants, and animals on surfaces and structures immersed in or exposed to the aquatic environment. Biofouling can include microfouling and macrofouling.

  • Macrofouling means large, distinct multicellular organisms visible to the human eye such as barnacles, tubeworms, or fronds of algae.
  • Microfouling means microscopic organisms including bacteria and diatoms and the slimy substances that they produce.
Biofouling comprised of only microfouling is commonly referred to as a slime layer.

Sea chest. The sea chests are cavities (an opening with protection grid) at the bottom side of the ships’ hull (an opening for pumping in and out water for, e.g., ballasting, firefighting) where aquatic organisms may settle and be transported.

Tank sediments. Matter settled out of ballast water within a ship.

Bioaccumulation association

Natural toxins. An organism that accumulates toxins naturally produced by other organisms, such as phytotoxins, in its tissues.

Anthropogenic chemical compounds. An organism that accumulates human-produced chemicals, such as pharmaceuticals, heavy metals, pesticides, dioxins, in its tissues.

Characteristic feeding method

Chemoautotroph. An organism that obtains metabolic energy by oxidation of inorganic substrates such as sulphur, nitrogen or iron.

Deposit feeder – Subsurface. Synonym: detritivore. An organism feeding on fragmented particulate organic matter in the substratum.

Deposit feeder – Surface. Synonym: detritivore. An organism feeding on fragmented particulate organic matter from the surface of the substratum.

Grazer. An organism feeding on plants (higher aquatic plants, benthic algae and phytoplankton) and/or sessile animals organisms.

Herbivore. An organism feeding on plants (higher aquatic plants, benthic algae and phytoplankton).

Mixotroph. An organism both autotrophic and heterotrophic.

Omnivore. An organism feeding on mixed diet of plant and animal material.

Parasite. Feeding on the tissues, blood or other substances of a host.

Photoautotroph. An organism that obtains metabolic energy from light by photosynthesis (e.g. seaweeds, phytoplankton).

Planktotroph. An organism feeding on plankton.

Predator. An organism that feeds by preying on other organisms, killing them for food.

Scavenger. An organism feeding on dead and decaying organic material.

Suspension feeder – Active. An organism feeding on particulate organic matter, including plankton, suspended in the water column, collecting it actively by sweeping or pumping (creating feeding currents).

Suspension feeder – Passive. An organism feeding on particulate organic matter, including plankton, suspended in the water column, utilizing the natural flow to bring particles in contact with feeding structures.

Symbiont contribution. Where some dietary component(s) are provided by symbiotic organisms (e.g. Anemonia with zooxanthellae).

Developmental trait

Brooding. The incubation of eggs either inside or outside the body. Eggs may be brooded to a variety of developmental stages. Males or females may be responsible for brooding.

Direct development. A life cycle lacking a larval stage.

Spawning. The release of gametes into the water.

Lecithotrophy. Development at the expense of internal resources (i.e. yolk) provided by the female.

Parental care. Any form of parental behaviour that is likely to increase the fitness of offspring.

Planktotrophy. Feeding on plankton.

Resting stages. The quiescent stage in the life cycle (dormancy, diapause).

Viviparous. Producing live offspring from within parental body.

Habitat modifying ability potential

Autogenic ecosystem engineers. Organisms which change the environment via their own physical structures (i.e. their living and dead tissues) such as corals, oysters, kelps, sea grasses, etc.

Allogenic ecosystem engineers. Organisms which modify the environment by causing physical state changes in biotic and abiotic materials that, directly or indirectly, modulate the availability of resources to other species (e.g. excavating deep burrows which other organisms co-occupy, damming the water flow, etc).

Keystone species. A keystone species is crucial in maintaining the organization and diversity of its ecological community, by determining the types and numbers of other species.

Life form

Neuston. Organisms that live on (epineuston) or under (hyponeuston) the surface film of water bodies.

Zoobenthos. Animals living on or in the seabed.

Phytobenthos. Algae and higher plants living on or in the seabed.

Zooplankton. Animals living in the water column, unable to maintain their position independent of water movements.

Phytoplankton. Microscopic plankton algae and cyanobacteria.

Benthopelagos. Synonyms: hyperbenthic, benthopelagic, nektobenthic, demersal. An organism living at, in or near the bottom of the sea, but having the ability to swim.

Nekton. Actively swimming aquatic organisms able to move independently of water currents.

Parasite. An organism intimately associated with and metabolically dependent on another living organism (host) for completion of its life cycle.

Symbiont (nonparasitic). An organism living mutually with another species without harming it. Association of two species (symbionts) may be mutually beneficial.

Mobility

Boring. An organism capable of penetrating a solid substrate by mechanical scraping or chemical dissolution.

Burrowing. An organism capable of digging in sediment.

Crawling. An organism moving slowly along on the substrate.

Drifting. An organism whose movement is dependent on wind or water currents.

Permanent attachment. Non-motile; permanently attached at the base. Also includes permanent attachment to a host.

Swimming. An organism capable of moving through the water by means of fins, limbs or appendages.

Temporary attachment. Temporary / sporadic attachment. Attached to a substratum but capable of movement across (or through) it (e.g. Actinia). Also includes temporary attachment to a host.

Native origin

The region the species originates from.

References



References should follow the standard of Biological invasions:


Journal article
Gamelin FX, Baquet G, Berthoin S, Thevenet D, Nourry C, Nottin S, Bosquet L (2009) Effect of high intensity intermittent training on heart rate variability in prepubescent children. Eur J Appl Physiol 105:731-738. doi: 10.1007/s00421-008-0955-8
Ideally, the names of all authors should be provided, but the usage of “et al” in long author lists will also be accepted:
Smith J, Jones M Jr, Houghton L et al (1999) Future of health insurance. N Engl J Med 965:325–329


Article by DOI


Slifka MK, Whitton JL (2000) Clinical implications of dysregulated cytokine production. J Mol Med. doi:10.1007/s001090000086


Book
South J, Blass B (2001) The future of modern genomics. Blackwell, London


Book chapter
Brown B, Aaron M (2001) The politics of nature. In: Smith J (ed) The rise of modern genomics, 3rd edn. Wiley, New York, pp 230-257


Online document
Cartwright J (2007) Big stars have weather too. IOP Publishing PhysicsWeb. http://physicsweb.org/articles/news/11/6/16/1. Accessed 26 June 2007


Dissertation
Trent JW (1975) Experimental acute renal failure. Dissertation, University of California

Reproductive frequency

Iteroparous. Organisms breeding more than once in their lifetime.

Semelparous. Organisms breeding once in their lifetime.

Reproductive type

Asexual. Budding, Fission, Fragmentaion, including parthenogenesis. A form of asexual multiplication in which:
a) a new individual begins life as an outgrowth from the body of the parent. It may then separate to lead an independent existence or remain connected or otherwise associated to form a colonial organism;
b) the ovum develops into a new individual without fertilization;
c) division of the body into two or more parts each or all of which can grow into new individuals is involved.

Self-fertilization. Selfing or autogamy. The union of a male and female gamete produced by the same individual.

Sexual. Permanent hermaphrodite, Protandrous hermaphrodite, Protogynous hermaphrodite, Gonochoristic.
Capable of producing both ova and spermatozoa either at the same time. A condition of hermaphroditism in plants and animals where male gametes mature and are shed before female gametes mature or vice versa.
Having separate sexes.

Salinity

The exact salinity range if known (psu), else salinity zone(s) according to the Venice system:
1. Limnetic [<0.5psu]
2. β-Oligohaline [0.5-3psu]
3. α-Oligohaline [3-5psu]
4. β-Mesohaline [5-10psu]
5. α-Mesohaline [10-18psu]
6. Polymixohaline [18-30psu]
7. Euhaline [30-40psu]
8. Hypersaline [>40psu]

Sociability

Colonial. Descriptive of organisms produced asexually which remain associated with each other; in many animals, retaining tissue contact with other polyps or zooids as a result of incomplete budding.

Gregarious. Organisms living in groups or communities, growing in clusters.

Solitary. Living alone, not gregarious.

Sub-species level

A geographical subset of a species showing discrete differences in morphology, coloration or other features when compared with other members of the species. Subspecies may also differ in their habitat or behavior, but they can interbreed. Often the lowest taxonomic level within a classification system.

Synonym

Valid synonyms of a species (not all of them).

Toxicity

Poisonous. An organism capable of producing poison that gains entry to another organism body via the gastrointestinal tract, the respiratory tract, or via absorption through intact body layers.

Venomous. An organism capable of producing poison, usually injected through another organism intact skin by bite or sting.

Not relevant. Neither poisonous nor venomous.

Public domain: Species account

Species Dreissena bugensis [WoRMS]
Authority (Andrusov, 1897)
Family Dreissenidae  
Order Myida  
Class Bivalvia  
Phylum Mollusca  
Synonym (?) Dreissena rostriformis bugensis (Andrusov, 1897)
Sub-species level (?) Not entered
Native origin (?) Country: Ukraine
--> LME: 62. Black Sea; LME sub-region: Black Sea

References (not structured):
Orlova, M.I. 2009. Zebra and quagga mussels in the inland waters of European Russia and adjacent countries. In: Mackie, G.L. and R. Claudi. 2009. Monitoring and control of macrofouling mollusc in freshwater systems, CRC Press, Boca Raton, Fl. Chapter 10.1, pp. 371-386.

Comments:
Estuarine region of the river Dnieper
Life form / Life stage (?)
 AdultJuvenileLarvaeEggsResting stage
Neuston
ZoobenthosXX
Phytobenthos
ZooplanktonX
Phytoplankton
Benthopelagos
Nekton
Ectoparasite
Endoparasite
Symbiont (non parasitic)


References (not structured):
Molloy DP, Bij de Vaate A, Wilke T, Giamberini L (2007) Discovery of Dreissena rostriformis bugensis
(Andrusov, 1897) in Western Europe. Biological Invasions 9: 871-874.
Sociability / Life stage (?)
 AdultJuvenileLarvaeEggsResting stage
SolitaryX
GregariousXX
Colonial


References (not structured):
Vanderploeg, H. A., T. F. Nalepa, D. J. Jude, E. L. Mills, K. T. Holeck, J. R. Liebig, I. A. Grigorovich, and H. Ojaveer. 2002. Dispersal and emerging ecological impacts of Ponto-Caspian species in the Laurentian Great Lakes. Canadian Journal of Fisheries and Aquatic Sciences 59(7):1209.
Reproductive frequency (?) Iteroparous

References (not structured):
Son MO (2007) Native range of the zebra mussel and quagga mussel and new data on their invasions within the Ponto-Caspian Region. Aquatic Invasions 2 (3): 169-179

Comments:
A fully mature female mussel is capable of producing up to one million eggs per season (Richerson 2002; D’Itri 1996)
Reproductive type (?) Sexual

References:
Son MO (2007) Native range of the zebra mussel and quagga mussel and new data on their invasions within the Ponto-Caspian Region. Aquatic Invasions 2 (3): 169-179

Comments:
It is dioecious and exhibits external fertilisation.
Developmental trait (?) Planktotrophy
Spawning

References:
Stanczykowska, Anna. 1997. Review of studies on Dreissena polymorpha (Pall.). Polskie Archiwum Hydrobiologii. 44(4). 1997. 401-415

Son MO (2007) Native range of the zebra mussel and quagga mussel and new data on their invasions within the Ponto-Caspian Region. Aquatic Invasions 2 (3): 169-179
Characteristic feeding method / Life stage (?)
 AdultJuvenileLarvaeEggsResting stage
Photoautotroph
Mixotroph
Suspension feeder – ActiveXX
Suspension feeder – Passive
Deposit feeder – Surface
Deposit feeder – Sub-surface
Omnivore
Herbivore
Scavenger
Symbiont contribution
PlanktotrophX
Chemoautotroph
Predator
Grazer


References (not structured):
www.issg.org
Mobility / Life stage (?)
 AdultJuvenileLarvaeEggsResting stage
Swimmer
Crawler
Burrower
DrifterX
Temporary attachment
Permanent attachmentXX
Borer


References (not structured):
Ussery, T. A., and McMahon, R. F. 1995. "Comparative study of the desiccation resistance of zebra mussels (Dreissena pdyzmvpha) and quagga mussels (Dreissena bugensis)," Technical Report EL-95-6, U.S. Army Engineer Waterways Experiment Station, Vicksburg, MS.

Comments:
Adult D. bugensis attach to natural hard substrata including rocks, wood, and macrophytic plants and to man-made materials including concrete, metal piping, steel, nylon, fiberglass and wood. Mussels attach to substrates via proteinaceous byssal threads produced from a gland posterior to the foot.
Salinity tolerance range (?) Venice system:
1. Limnetic [<0.5psu]

References:
Wright, D. A., E. M. Setzler, J. A. Magee, V. S. Kennedy, and S. P. McIninch. 1996. Effect of salinity and temperature on survival and development of young zebra (Dreissena polymorpha) and quagga (Dreissena bugensis) mussels. Estuaries 19(3):619-628.

Orlova MI, Telesh IV, Berezina NA, Antsulevich AE, Maximov AA, Litvinchuk LF (2006) Effects of nonindigenous species on diversity and community functioning in the eastern Gulf of Finland (Baltic Sea) Helgol. Mar. Res., 60: 98-105.

Comments:
D. bugensis typically occurs in freshwater but thrive in salinities up to 1‰ and can reproduce in salinities below 3‰. Salinities exceeding 6‰ cause mortality
Habitat modifying ability potential (?) OLD VALUE

References:
Grigorovich, I. A., and L. V. Shevtsova. 1995.Effect of Dreissena Mussels on the Distribution of Zooplankton as Exemplified by the Main Kakhovka Canal. Proceedings of The Fifth International Zebra Mussel and Other Aquatic Nuisance Organisms Conference, Toronto, Canada, February 1995.

Haynes, James M., Tisch, Nancy A., Mayer, Christine M., Rhyne, Randall S. 2005. Benthic macroinvertebrate communities in southwestern Lake Ontario following invasion of Dreissena and Echinogammarus: 1983 to 2000. Journal of the North American Benthological Society. 24(1). March 2005. 148-167.

Comments:
--/OLD VALUE/--
Ecosystem engineer
Perennial habitat former (Anna)

Reduction in Native Biodiversity: D. bugensis causes changes in the structural characteristics of zooplankton including total abundance, biomass and species composition (Grigorovich & Shevtsova, 1995). Modification of Natural Benthic Communities: Dreissena negatively affects benthic invertebrate communities, especially filter-feeding or deep-dwelling invertebrates that rely on detrital rain. Predicting benthic invertebrate community response to a change in nutrient levels is very difficult, and the potential synergistic effects of nutrient alterations and exotics such as Dreissena are complex (Haynes et al. 2005).
Toxicity / Life stage (?) Unknown

Comments:
Not available.
Bioaccumulation association (?) Unknown

Comments:
Not available.
Known human health impact? Not known

Comments:
Not available.
Known economic impact? Known

References:
Wong, W. H., Gerstenberger, S., 2011. Quagga mussels in the western United States: Monitoring and Management. Aquatic Invasions, 6(2), 125-129. https://doi.org/10.3391/ai.2011.6.2.01
Turner, K., Wong, W.H., Gerstenberger, S. and Miller, J.M., 2011. Interagency monitoring action plan (I-MAP) for quagga mussels in Lake Mead, Nevada-Arizona, USA. Aquatic Invasions, 6(2), p.195. https://doi.org/10.3391/ai.2011.6.2.08

Comments:
Clogging manmade structures (Wong and Gerstenberger 2011; Turner et al. 2011).
Known measurable environmental impact? Not known

Comments:
Not available.
Included in the Target Species list? Yes

Comments:
Assessed by the COMPLETE project experts (2021), included in target species list.
Association with vessel vectors (?) Ballast waters
Biofouling

References:
Ricciardi A, Serrouya R, Whoriskey FG, 1995. Aerial exposure tolerance of zebra and quagga mussels (Bivalvia: Dreissenidae): implications for overland dispersal. Canadian Journal of Fisheries and Aquatic Sciences, No. 52:470-477.

Mills, E. L., J. R. Chrisman, B. Baldwin, R. W. Owens, R. O. Gorman, T. Howell, E. F. Roseman, and K. M. Raths. 1999. Changes in the Dreissenid Community in the Lower Great Lakes with Emphasis on Southern Lake Ontario. Journal Great Lakes Res. 25(1):187-197.

Mackie, G.L. and R. Claudi. 2009. Monitoring and control of macrofouling mollusc in freshwater systems, CRC Press, Boca Raton, Fl. Chapter 10.1, pp. 371-386.

Comments:
A study conducted by Ricciardi and colleagues (1995) revealed that under temperate summer conditions adult D. bugensis may survive on overland transport (e.g. small trailer-boats) for up to 5 days.
Molecular information Available

http://www.ncbi.nlm.nih.gov/Taxonomy/Browser/wwwtax.cgi
Last update byMonika Pelėdienė, 2022-01-18