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Acromitus flagellatus

provided by wikipedia EN

Acromitus flagellatus is a species of jellyfish in the Catostylidae family, suborder Dactyliophorae.[1] It was discovered in 1903 by Otto Maas in the Malay Archipelago,[2] and is closely related to Nemopilema nomurai and Rhopilema esculentum[3] Other species in the genus Acromitus include, A. hardenbergi, A. maculosus, A. rabanchatu, and A. tankahkeei.[4] A. flagellatus get their name from their long flagellum and their oral arms that are as about as long as the diameter of their bell, while other species in the genus, like A. hardenbergi, have oral arms that are about half the length of their bell. [5]

Habitat

Acromitus flagellatus are found in brackish waters, like mangroves or estuaries, and even coasts. They've been seen in Bay of Bengal, Saptamukhi river channel,[4][6] and the coastal waters of Hainan Province.[3] They are most seen throughout the Western Indian Ocean and Central Pacific Ocean. [4]

Description

Acromitus flagellatus have an exumbrella that is 160 ± 40 mm in diameter, with uneven black or brown spots. They have 8 oral arms that are about 115 ± 45 mm long with long flagellum at the end of each of them. The medusa can be white, grey, pink, or transparent. [4] Their stings have little to no affect on humans and they exhibit sluggish movement with their contractions being very slow. [7] Sometimes a Caranx leptolepis helps them move along.[2]

Life cycle

Acromitus flagellatus reproduces sexually and is gonochoristic. The medusa (parent) lays an egg, which develops into a planula, then scyphistoma, then strobila, and finally a medusa. [8]

Swarms and feeding

The first recorded swarm of the A. flagellatus was at the Bay of Bengal. Jellyfish swarming happens because of changes in their environment, like habitat deterioration, overfishing, deep sea trawling, coastal pollution, and climate change. Since jellyfish feed off of zooplankton and ichthyoplankton, once they swarm an area, they cause a disturbance to the food web or a trophic cascade,[4][6] consuming most of the primary and secondary producers. These swarms can also have a negative impact on human economic activities, like damaging fish gear, clogging nets, and decreasing fish catch.[9][4] A. flagellatus swarms will most likely happen in areas of mangroves or estuaries, with forest and aquatic properties simultaneously, and two studies of these jellyfish swarms have happened during monsoon season.[10]A. flagellatus are opportunistic feeders who will also feed on copepods and nautili, phytoplankton, ciliates, dinoflagellates, molluscan larvae, rotifers, and foraminiferans[4]

Anti-cancer research

The venom of A. flagellatus has been used in many different studies for anti-cancer drugs. At the University of Madras, they tested A. flagellatus nematocysts from the oral arms of the jellyfish against human breast cancer cells. They found that the venom showed anti-proliferative properties and stopped the cancer cell cycle at the G1 phase, confirming that A. flagellatus venom could be used for anti-cancer drug development in the future. [11] Cancer researchers look at marine organisms for anti-cancer effects because the proteins of marine creatures have an ability to stop disease better than other organisms. They produce substances and have molecules that show pharmaceutical properties. The venom of A. flagellatus has a higher and richer amount of this protein than most, and exhibited higher anti-cancer activity on lung and liver cell lines.[12] Another study found that gold nanoparticles with the A. flagellatus nematocyst venom residue also have anti-proliferative affects on cancer cells. [13]

References

  1. ^ "WoRMS - World Register of Marine Species - Acromitus flagellatus (Maas, 1903)". marinespecies.org. Retrieved 2023-04-18.
  2. ^ a b Mazza, Giuseppe (2015-07-12). "Acromitus flagellatus". Monaco Nature Encyclopedia. Retrieved 2023-04-18.
  3. ^ a b Lin, Jianing; Feng, Song; Wang, Lijuan; Qiu, Yanhao (2022-10-03). "Complete mitochondrial genome sequence of Acromitus flagellatus and its phylogenetic relationship with related jellyfish species". Mitochondrial DNA Part B. 7 (10): 1823–1824. doi:10.1080/23802359.2022.2131367. PMC 9602930. PMID 36313475.
  4. ^ a b c d e f g Siddique, Alfisa; C., Praveen Raj; Bhowal, Aishee; Purushothaman, Jasmine; A., Athira; S., Abdul Azeez (2022-09-01). "First record of Acromitus flagellatus (Maas, 1903) (Cnidaria: Scyphozoa) swarm from the world's largest deltaic ecosystem, the Sundarbans, India". Regional Studies in Marine Science. 55: 102555. Bibcode:2022RSMS...5502555S. doi:10.1016/j.rsma.2022.102555. ISSN 2352-4855. S2CID 250637863.
  5. ^ Will, U; Iesa, I (2017). "River jellyfish, Acromitus hardenbergi, at Sungei Buloh" (PDF). Singapore Biodiversity Records: 156–157. ISSN 2345-7597.
  6. ^ a b Bhowal, Aishee; Siddique, Alfisa; Prasad, Haritha; Purushothaman, Jasmine; Banerjee, Dhriti (2023-07-01). "Comparison of microzooplankton community structure before and during Acromitus flagellatus swarm in the estuarine waters of northern Bay of Bengal". Regional Studies in Marine Science. 61: 102864. Bibcode:2023RSMS...6102864B. doi:10.1016/j.rsma.2023.102864. ISSN 2352-4855. S2CID 256646040.
  7. ^ Jones, Sarah (1960). "Notes on animal associations. 2. The scyphomedusa, Acromitus flagellatus Stiasny and young Seleroides leptolepis (Cuvier & Valenciennes) with the latter forming a vanguard" (PDF). J. Mar. Bill. Ass. India. 2 (1): 51–52.
  8. ^ "Acromitus flagellatus". www.sealifebase.ca. Retrieved 2023-04-18.
  9. ^ Baliarsingh, Sanjiba Kumar; Lotliker, Aneesh Anandrao; Srichandan, Suchismita; Samanta, Alakes; Kumar, Nimit; Nair, T. M. Balakrishnan (2020-10-26). "A review of jellyfish aggregations, focusing on India's coastal waters". Ecological Processes. 9 (1): 58. doi:10.1186/s13717-020-00268-z. ISSN 2192-1709. S2CID 225062957.
  10. ^ Bhowal, Aishee; Siddique, Alfisa; Prasad, Haritha; Purushothaman, Jasmine; Banerjee, Dhriti (2023-07-01). "Comparison of microzooplankton community structure before and during Acromitus flagellatus swarm in the estuarine waters of northern Bay of Bengal". Regional Studies in Marine Science. 61: 102864. Bibcode:2023RSMS...6102864B. doi:10.1016/j.rsma.2023.102864. ISSN 2352-4855. S2CID 256646040.
  11. ^ Hemavathi, M; Arulvasu, C; Arulmani, A; Shakthi, S.K.S; Sivaranjani, S (2014). "ANTICANCER EFFECT OF NEMATOCYSTS VENOM FROM JELLYFISH ACROMITUS FLAGELLATUS, ON HUMAN BREAST CANCER CELL LINE" (PDF). World Journal of Pharmaceutical Research. 3 (9): 1130–1145.
  12. ^ Maduraiveeran, Hemavathi; Raja, Kavitha; Chinnasamy, Arulvasu (2021-03-01). "Antiproliferative and antioxidant properties of nematocysts crude venom from jellyfish Acromitus flagellatus against human cancer cell lines". Saudi Journal of Biological Sciences. 28 (3): 1954–1961. doi:10.1016/j.sjbs.2020.12.047. ISSN 1319-562X. PMC 7938135. PMID 33732081.
  13. ^ Nisa, S. Amreen; Govindaraju, K.; Vasantharaja, R.; Kannan, M.; Raja, K. (2023-03-13). "Jellyfish Acromitus flagellatus (Maas) nematocyst venom-mediated biogenic synthesis of gold nanoparticles and its anti-proliferative effects". Aquaculture International. doi:10.1007/s10499-023-01081-z. ISSN 0967-6120. S2CID 257782200.
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Acromitus flagellatus: Brief Summary

provided by wikipedia EN

Acromitus flagellatus is a species of jellyfish in the Catostylidae family, suborder Dactyliophorae. It was discovered in 1903 by Otto Maas in the Malay Archipelago, and is closely related to Nemopilema nomurai and Rhopilema esculentum Other species in the genus Acromitus include, A. hardenbergi, A. maculosus, A. rabanchatu, and A. tankahkeei. A. flagellatus get their name from their long flagellum and their oral arms that are as about as long as the diameter of their bell, while other species in the genus, like A. hardenbergi, have oral arms that are about half the length of their bell.

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Description

provided by World Register of Marine Species
Width to 20 cm. Bell hemispherical, slightly pointed with smooth to finely granulated surface. Mouth-arms with basal regions joined by membrane, tapering to blunt point. Length about equal to bell diameter, with many short lateral filaments and a long terminal filament (about 2/3 mouth-arm length). In some specimens filaments missing. Near-white bell with or without irregular dar (rd) brown spots, especially peripherally. Habitat: coastal, sometimes in brackish or silty waters. Distribution: W Indian Ocean to central Pacific Ocean (Richmond, 1997).

Reference

Drummond, R.B. (1981) Common Trees of the Central Watershed Woodlands of Zimbabwe. Natural Resources Board, Harare. Pages 168 - 169 (Includes a picture).

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