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Circulatory Organs

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InNeognathophausia ingensthe anterior border of the heart lies in the anterior part of the cephlothorax and is assigned to the first thoracic segment. The heart extends though the whole thorac. Its posterior end lies in the eight thoracic segment. Cardiac arteries occur segmentally throughout the whole thorax as well. One artery in the eighth pair represents the descending artery which branches above the ventral nerve chord. The heart, by a posterior aorta, is elongated into the pleon and is equipped with lateral arteries.

References

  • Wirkner, C. S. 2009 The Circulatory System in Malacostraca – Evaluating Character
  • Evolution on the Basis of Differing Phylogenetic Hypotheses

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Circulatory Organs

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InNeognathophausia ingens, the heart is, by the posterior aorta, elongated into the pleon and is equipped with lateral arteries. The anterior border of the heart lies in the anterior part of the cephalothorax assigned to the first thoracic segment. The hear extends through the whole thorax. The posterior end lies in the eight thoracic segment. Cardiac arteries occur segmentally throughout the whole thorax as well. One artery of the eighth pair of the cardiac arteries represents the descending artery branching above the ventral nerve chord. (Wirkner, 2009) A descending artery is an artery that emanates from the heart and connects to the ventral vessel. InN. ingenstwo arteries connect the dorsal and ventral vessels, but in some studies show that only one branch of the arteries makes the connection. (Wirkner, 2009)

References

  • Wirkner, C. S. 2009 The Circulatory System in Malacostraca
  • Wirkner, C. S 2009 Evolutionary morphology of the circulatory system in Peracarida (Malacostraca; Crustacea)

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Look Alikes

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How to Distinguish from Similar Species: The rostrum is shorter than that of Gnathophausia zoea and Neognathophausia gigas and is indistinctly denticulate. Has reduced or no supra-orbital spines. The spines at the posterolateral margin of the carapace are also shorter than those of Gnathophausia zoea. Unlike Gnathophausia gracilis, this species does not have prominent dorsal spines on the abdominal segments. Unlike Neognathophausia gigas, both the anterior and the posterior lobe of the pleural plates are spiniform.
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Habitat

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Bathypelagic
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Comprehensive Description

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Lophogastrids are bathypelagic, shrimplike crustaceans which differ from true shrimp in that their carapace overhangs but is not actually connected to the posterior thoracic segments. They are not decapods as shrimp are, and, for example, have only one set of maxillipeds instead of 3 and 7 pairs of pereopods instead of 5. The pleopods, with which they swim, are well developed. They have large thoracic gills but no statocysts. As a Peracaridan, female Lophogastrids have long thoracic endopods which are modified into a basket for carrying eggs and larvae. This species is the largest pelagic crustacean. Maximum length up to 35 cm. Most are less than 18 cm long.
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Comprehensive Description

provided by Invertebrates of the Salish Sea
Biology/Natural History: Lophogastrids were formerly thought to be a type of mysid. In regions where this species is common, males do not reach the maximum size. After the instar at which the species reaches sexual maturity, the females undergo a growth spurt and the males seem to disappear from the population. This implies that the females may eat the males after copulation. Very large males seem to be found mainly in areas where the species is scarce and the male may not have encountered and bred with a female. While brooding eggs, the female sinks down to around 1000-1200 m depth. She carries the eggs and larvae for about 1.5 years, during which time she loses much organic body mass and is apparently not feeding. The female's eggs account for 61% of the energy she has accumulated over her lifetime. Another 13% is used during brooding of her young, 6% in cast exoskeletons, and she only retains 20% of her original total energy content after brooding. The species reproduces only once, and the female dies shortly after release of the larvae. The species has 13 instars. Intermolt interval varies from 166 to 253 days, depending on the size. Both its metabolic rate and ammonia excretion decrease with starvation. Neognathophausia ingens swims primarily with the pleopods, with some participation by the thoracic exopods. Their activity levels are little affected by pressure. The species swims constantly and has a relatively high drag compared to fish, but swims at a speed which minimizes energy losses due to drag. Gnathophausia means "light-jaw". This species has a gland on its second maxillae from which it spews a brilliantly luminescent cloud into the water when disturbed. Luminescence seems to be a function of diet, since animals maintained on non-luminescent food in the laboratory gradually lose their ability to luminesce, while if luminescent food is restored they can regain their luminescence. This species often lives in oxygen minimum layers, yet its metabolism is entirely aerobic. To facilitate oxygen diffusion, it maintains a high rate of oxygen flow over its gills and extracts a very high percentage of the available oxygen. Its low rate of aerobic metabolism help keep it from building up oxygen debt. It has greater gill surface area than do most crustaceans and fishes. The oxygen diffusion distance across the gills is 1.5 to 2.5 microns, comparable to that found in many fishes. It maintains relatively high rates of blood flow via large circulatory system components. Its heart rate is similar to that of other similarly-sized crustaceans, and the heart slows as oxygen limitation is reached. It appears that much of the oxygen in the blood is carried by hemocyanin, which has a high oxygen affinity and cooperativity and a large Bohr shift. Species which live in areas with very low oxygen levels, such as off California, are able to live aerobically at lower oxygen levels than are those from higher oxygen levels such as Hawaii. Predators include the Melanostominid fish Echiostoma barbatum, the Macrourid fish Macrouronus novaezelandiae, dwarf sperm whale, the Antillean beaked whale, in which it comprised 41% of the stomach contents of a beached individual, and Cuvier's beaked whale. The rostrum and spines of small individuals are relatively longer than in large individuals. This led to small individuals originally having been named a separate species, Gnathophausia calcarata. Gnathophausia ingens is sometimes parasitized by an ellobiopsid flagellate protozoan, Amallocystis fascitus, which forms a cluster of white filaments on the ventral side of the anterior abdominal segment. The parasite seems to be associated with the main nerve ganglion in this segment, and is associated with hypertrophy of the ganglion. It also retards sexual maturation such as retarded development of oostegites in females and feminizing changes in males.
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Distribution

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Geographical Range: Worldwide in tropical and temperate seas, most common in tropical and subtropical zones. Common bathypelagically off California and West Africa. Less common in the eastern tropical Pacific and eastern tropical Atlantic than in the equatorial Indian Ocean, probably because of the extremely low oxygen levels in the eastern tropical Pacific at the depths G. ingens inhabits.
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Habitat

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Depth Range: Usually around 500-900 m. Can be found down to 4000 m. Juveniles are usually in water from 5 to 8 degrees C.
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Gnathophausia ingens

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Gnathophausia ingens, the giant red mysid, is a species of lophogastrid crustacean with a pantropical distribution.[2] The adults may reach 35 cm (14 in) long, including the rostrum.[2] Females may brood their young for up to 530 days.[3] Brooding females live between 900 and 1,400 m (3,000–4,600 ft) in the eastern Pacific Ocean off California. They do not feed during this time.[4] When they feed, they prey on smaller crustaceans.[5]

References

  1. ^ a b Kenneth Meland & Jan Mees (2012). Mees J, Meland K (eds.). "Gnathophausia ingens (Dohrn, 1870)". World List of Lophogastrida, Stygiomysida and Mysida. World Register of Marine Species. Retrieved August 1, 2012.
  2. ^ a b Linda Haithcock Pequegnat (1965). "The bathypelagic mysid Gnathophausia (Crustacea) and its distribution in the eastern Pacific Ocean". Pacific Science. 19 (4): 399–421. hdl:10125/7299.
  3. ^ J. J. Childress & M. H. Price (1978). "Growth rate of the bathypelagic crustacean Gnathophausia ingens (Mysidacea: Lophogastridae). I. Dimensional growth and population structure". Marine Biology. 50 (1): 47–62. doi:10.1007/BF00390541.
  4. ^ J. J. Childress & M. H. Price (1983). "Growth rate of the bathypelagic crustacean Gnathophausia ingens (Mysidacea: Lophogastridae) II. Accumulation of material and energy". Marine Biology. 76 (2): 165–177. doi:10.1007/BF00392733.
  5. ^ "Giant red mysid". Monterey Bay Aquarium. Archived from the original on 21 July 2012. Retrieved 1 August 2012.

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Gnathophausia ingens: Brief Summary

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Gnathophausia ingens, the giant red mysid, is a species of lophogastrid crustacean with a pantropical distribution. The adults may reach 35 cm (14 in) long, including the rostrum. Females may brood their young for up to 530 days. Brooding females live between 900 and 1,400 m (3,000–4,600 ft) in the eastern Pacific Ocean off California. They do not feed during this time. When they feed, they prey on smaller crustaceans.

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Depth range

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225-3914m

Reference

Crouch, N.R., Klopper, R.R., Burrows, J.E. & Burrows, S.M. (2011) Ferns of Southern Africa, A comprehensive guide Struik Nature Pages 398 - 399 (Includes a picture).

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Habitat

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Known from seamounts and knolls

Reference

Stocks, K. 2009. Seamounts Online: an online information system for seamount biology. Version 2009-1. World Wide Web electronic publication.

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