Nemopsis bachei

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Nemopsis bachei
Bachei Pic - RB.jpg
Scientific classification OOjs UI icon edit-ltr.svg
Domain: Eukaryota
Kingdom: Animalia
Phylum: Cnidaria
Class: Hydrozoa
Order: Anthoathecata
Family: Bougainvilliidae
Genus: Nemopsis
Species:
N. bachei
Binomial name
Nemopsis bachei
L. Agassiz, 1849

Nemopsis bachei is a species of relatively small gelatinous zooplankton hydrozoa found in both marine and estuarine environments. This particular species was first found and described by Louis Agassiz in 1849 from samples that were taken from the coast of Massachusetts. It was also noted and described in 1857 by another name off the coast of South Carolina. [1]

Contents

As part of the phylum Cnidaria they are mainly gelatinous with their most identifying characteristic being the gonads which, viewed from above, look like an X and then continue down the sides lining up with the radial canals. As a part of the zooplankton, it is incapable of sustained horizontal movement and relies on its tentacles to encounter and capture smaller organisms for food (feeds mainly on copepedites, selecting against naupilar stages). [2] Like most living organisms, N. bachei has communities of bacteria that associate with it. The commonly found groups include Vibrio spp. and Photobacterium spp. [3] According to genetic analysis, researchers have found that N. bachei is closely related to a species of "immortal jellyfish", Turritopsis nutricula based on analysis of the COX1 gene. [4]

Description

N. bachei picture taken through a microscope. Naturally colored with no stain added BacheiPic.jpg
N. bachei picture taken through a microscope. Naturally colored with no stain added

Like many other medusae, it moves in a pulsating manner in the bell. N. bachei has been described as “fast-swimming” due to a greater value than others found in engineering studies. [5] [6] It has a rounded, cube-like bell ranging from 0.4 to 12 mm. [6] [7] Its most notable characteristic are the 4 ribbon-shaped gonads which extend down the bell along the radial canals, at times all the way down to the base. They also have two short, distinct, club-like tentacles extending from each of their 4 marginal bulbs. These marginal bulbs also contain ocelli or light sensing organs. On each of the marginal bulbs they have 14-18 longer thin tentacles that extend downward. [7]

Feeding

Cnidaria are often studied to investigate their grazing rates in relation to smaller zooplankton because cnidarian's are subject to large blooms. While they do consume a substantial amount of zooplankton when at peak abundance, due to the regeneration rate of copepidite stocks, N. bachei were not found to have a lasting effect on the overall population. [2] They do display some amount of predatory behavior; studies have shown they seek out new areas of prey when the rate at which they encounter prey starts to get decrease. [8]

Distribution

In the southeast, these organisms are found typically in the colder months ranging from November–February. Other reports indicate they may also be found during the spring-summer months in the North Atlantic. [3] [9] It has been documented as native to the eastern coast of the US and the Gulf of Mexico and recently has been found to be an invasive species in the coastal waters of Northern Europe. [3] Additionally, it can be found in waters of variable salinity in Germany, and was likely transported there by ships. [10] In general, they can be found in waters ranging from sub-tropical to cold-temperate in both the Atlantic and Pacific oceans typically in euryhaline waters ~14-26 degrees C and in salinities ranging from 5-30 ppt. [11] [12] [13]

Related Research Articles

<span class="mw-page-title-main">Jellyfish</span> Soft-bodied, aquatic invertebrates

Jellyfish and sea jellies are the informal common names given to the medusa-phase of certain gelatinous members of the subphylum Medusozoa, a major part of the phylum Cnidaria. Jellyfish are mainly free-swimming marine animals with umbrella-shaped bells and trailing tentacles, although a few are anchored to the seabed by stalks rather than being mobile. The bell can pulsate to provide propulsion for highly efficient locomotion. The tentacles are armed with stinging cells and may be used to capture prey and defend against predators. Jellyfish have a complex life cycle; the medusa is normally the sexual phase, which produces planula larvae that disperse widely and enter a sedentary polyp phase before reaching sexual maturity.

<span class="mw-page-title-main">Scyphozoa</span> Class of marine cnidarians, true jellyfish

The Scyphozoa are an exclusively marine class of the phylum Cnidaria, referred to as the true jellyfish.

<i>Aurelia aurita</i> Species of jellyfish

Aurelia aurita is a species of the family Ulmaridae. All species in the genus are very similar, and it is difficult to identify Aurelia medusae without genetic sampling; most of what follows applies equally to all species of the genus.

<span class="mw-page-title-main">Hydrozoa</span> Class of cnidarians

Hydrozoa is a taxonomic class of individually very small, predatory animals, some solitary and some colonial, most of which inhabit saline water. The colonies of the colonial species can be large, and in some cases the specialized individual animals cannot survive outside the colony. A few genera within this class live in freshwater habitats. Hydrozoans are related to jellyfish and corals and belong to the phylum Cnidaria.

<i>Obelia</i> Genus of hydrozoans

Obelia is a genus of hydrozoans, a class of mainly marine and some freshwater animal species that have both polyp and medusa stages in their life cycle. Hydrozoa belongs to the phylum Cnidaria, which are aquatic organisms that are relatively simple in structure with a diameter around 1mm. There are currently 120 known species, with more to be discovered. These species are grouped into three broad categories: O. bidentata, O. dichotoma, and O. geniculata. O. longissima was later accepted as a legitimate species, but taxonomy regarding the entire genus is debated over.

<i>Aequorea victoria</i> Species of hydrozoan

Aequorea victoria, also sometimes called the crystal jelly, is a bioluminescent hydrozoan jellyfish, or hydromedusa, that is found off the west coast of North America.

<i>Turritopsis dohrnii</i> Species of small, biologically immortal jellyfish

Turritopsis dohrnii, also known as the immortal jellyfish, is a species of small, biologically immortal jellyfish found worldwide in temperate to tropic waters. It is one of the few known cases of animals capable of reverting completely to a sexually immature, colonial stage after having reached sexual maturity as a solitary individual. Others include the jellyfish Laodicea undulata and species of the genus Aurelia.

<span class="mw-page-title-main">Atolla jellyfish</span> Species of jellyfish

Atolla wyvillei, also known as the Atolla jellyfish or Coronate medusa, is a species of deep-sea crown jellyfish. It lives in oceans around the world. Like many species of mid-water animals, it is deep red in color. This species was named in honor of Sir Charles Wyville Thomson, chief scientist on the Challenger expedition.

<i>Aequorea forskalea</i> Species of hydrozoan

Aequorea forskalea is a species of hydrozoan in the family Aequoreidae. Discovered in 1810 by Péron and Lesueur, A. forskalea was initially found in coastal to offshore waters of the Mediterranean Sea. This species is commonly referred to as the many-ribbed jellyfish. The species is often mixed up with some other members of the genus due to some similarities including the capability of bioluminescence.

<i>Chrysaora hysoscella</i> Species of jellyfish

Chrysaora hysoscella, the compass jellyfish, is a common species of jellyfish that inhabits coastal waters in temperate regions of the northeastern Atlantic Ocean, including the North Sea and Mediterranean Sea. In the past it was also recorded in the southeastern Atlantic, including South Africa, but this was caused by confusion with close relatives; C. africana, C. fulgida and an undescribed species tentatively referred to as "C. agulhensis".

<span class="mw-page-title-main">Pandeidae</span> Family of hydrozoans

Pandeidae is a family of hydroids in the class Hydrozoa. Like other jellyfish there is usually a mature medusa form which is pelagic and reproduces sexually and a hydroid or polyp form which is often benthic and reproduces asexually by budding.

Vallentinia gabriellae, the hitch-hiking jellyfish, is a species of small, inconspicuous hydrozoan in the family Olindiidae. It is endemic to a few isolated parts of the western Atlantic Ocean. It is elusive in the wild but sometimes makes its appearance unexpectedly in seawater cultures of other organisms in the laboratory.

<i>Gonionemus vertens</i> Species of hydrozoan

Gonionemus vertens, the clinging jellyfish, is a small species of hydrozoan in the family Olindiidae found in coastal regions throughout large parts of the Northern Hemisphere.

Bougainvillia aberrans is a marine invertebrate, a species of hydroid in the suborder Anthomedusae. It was first described by Dale Calder in 1993. They have four radical clusters of marginal tentacles. Bougainvillia aberrans is found in Bermuda in the western North Atlantic Ocean.

<i>Turritopsis nutricula</i> Species of hydrozoan

Turritopsis nutricula is a small hydrozoan that once reaching adulthood, can transfer its cells back to childhood. This adaptive trait likely evolved in order to extend the life of the individual. Several different species of the genus Turritopsis were formerly classified as T. nutricula, including the "immortal jellyfish" which is now classified as T. dohrnii.

<i>Aeginura grimaldii</i> Species of hydrozoan

Aeginura grimaldii is a species of deep sea hydrozoan of the family Aeginidae. It is found in the north-eastern Atlantic Ocean, Pacific Ocean, and the Arctic Ocean. It has a depth range of 660-1200m deep. Live specimens are bright reddish in color, with pale tentacles, and a light red globous capsule dome containing the dark colored red body. It usually measures no more than 4.5cm from the peak of the bell to the end of the tentacles.

<i>Turritopsis rubra</i> Species of small South Pacific hydrozoan

Turritopsis rubra, commonly referred to as the Crimson Jelly, is a hydrozoan within the family Oceaniidae. The species is native to New Zealand and southern Australia, typically appearing near shorelines in the summer months. The species follows a distribution pattern across the southern Pacific Ocean and can frequently be found in shallow coastal waters.

<i>Poralia</i> Genus of jellyfishes

Poralia is a genus of jellyfish in the family Ulmaridae. It is a monotypic genus containing a single species, Poralia rufescens. This jellyfish is pelagic, and is found in deep water in most of the world's oceans.

<i>Cyanea versicolor</i> Species of jellyfish

Cyanea versicolor is a species of jellyfish.

Tima nigroannulata, commonly known as the elegant jellyfish, is a recently discovered colonial hydrozoa found on the Pacific coast of Japan.

References

  1. Moore, D.R. “Occurrence and distribution of Nemopsis bachei Agassiz (Hydrozoa) in the Northern Gulf of Mexico”. Bulletin of Marine Science of the Gulf and Caribbean (1962)
  2. 1 2 Purcell, J.E., Nemazie, D.A. “Quantitative Feeding Ecology of the Hydromedusan Nemopsis-Bachei in Chesapeake Bay”. Marine Biology 113:2 (1992): 305-311.
  3. 1 2 3 Daley, M.C., Urban-Rich, J., Moisander, P.H. “Bacterial associations with the hydromedusa Nemopsis bachei and scyphomedusa Aurelia aurita from the North Atlantic Ocean”. Marine Biology Research 12:10 (2016): 1088-1100.
  4. Devarapalli, P., Kumavath, R.N., Barh, D., Azevedo, V. “The conserved mitochondrial gene distribution in relatives of Turritopsis nutricula, an immortal jellyfish”. Bioinformation 10:9 (2014): 586-591.
  5. Dabiri, John O. (2009). "Optimal Vortex Formation as a Unifying Principle in Biological Propulsion". Annual Review of Fluid Mechanics . Annual Reviews. 41 (1): 17–33. Bibcode:2009AnRFM..41...17D. doi:10.1146/annurev.fluid.010908.165232. ISSN   0066-4189. S2CID   17088871. Caltech library # 14170.
  6. 1 2 Dabiri, J.O., Colin, S.P., Costello, J.H. “Fast-swimming hydromedusae exploit velar kinematics to form an optimal vortex wake”. Journal of Experimental Biology 209:11 (2006): 2025-2033.
  7. 1 2 Johnson, William S., et al. Zooplankton of the Atlantic and Gulf Coasts: a Guide to Their Identification and Ecology. The Johns Hopkins University Press, 2012.
  8. Frost, J.R., Jacoby, C.A., Youngbluth, M.J. “Behavior of Nemopsis bachei L. Agassiz, 1849 medusae in the presence of physical gradients and biological thin layers”. Hydrobiologia 645:1 (2012): 97-111.
  9. Marshalonis, D., Pinckney, J.L. “Grazing and assimilation rate estimates of hydromedusae from a temperate tidal creek system”. Hydrobiologia. (2008) 606:203- 211.
  10. Laakmann, S., Holst, S. “Emphasizing the diversity of North Sea hydromedusae by combined morphological and molecular methods”. Journal of Plankton Research 36:1 (2014): 64-76.
  11. Nowaczyk, A., David, V., Lapage, M., Goarant, A., De Oliveira, E., Sautour, B. “Spatial and temporal patterns of occurrence of three alien hydromedusae, Blackfordia virginica (Mayer, 1910), Nemopsis bachei (Agassiz, 1849) and Maeotias marginata (Modeer, 1791) in the Gironde Estuary (France)”. Aquatic Invasions 11:4 (2016): 397-409.
  12. Cronin, L.E., Daiber, J.C., Hulbert, E.M. “Quantitative seasonal aspects of zooplankton in the Delaware River estuary”. Chesapeake Science 3:2 (1962): 63-93.
  13. Mendoza-Becerril, M.D., Marques, A.C. “Synopsis of the knowledge and distribution of the family Bougainvilliidae (Hydrozoa, Hydroidolina)”. Latin American Journal of Aquatic Research 41:5 (2013): 908-924.
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