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Jack silverside

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(Redirected from Atherinopsis californiensis) Species of fish

Jack silverside
Conservation status

Least Concern  (IUCN 3.1)
Scientific classification Edit this classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Actinopterygii
Order: Atheriniformes
Family: Atherinopsidae
Subfamily: Atherinopsinae
Tribe: Atherinopsini
Genus: Atherinopsis
Girard, 1854
Species: A. californiensis
Binomial name
Atherinopsis californiensis
Girard, 1854

Atherinopsis californiensis, the jack silverside or jacksmelt, is a species of neotropical silverside native to the Pacific coast of North America from Oregon, United States to southern Baja California, Mexico. This species grows to 45 cm (18 in) in total length, silver throughout the body, grey dorsal pattern, light silver ventral-lateral. Yellow spot present behind the eye, on operculum. and is important commercially as a source of human food. It is the only known member of its genus.

Atherinopsis californiensis is a key element of Pacific coast marine ecosystems. This circumscription reveals its ability to adapt to changing environmental conditions across its distribution in different habitats. The diet and reproductive strategies of Jacksmelt are important to understanding its ecological role in these ecosystems. Additionally, it is recognized that this species has economic value and the need is for sustainable practices to maintain abundance. Conservation efforts to proactively maintain healthy populations of Atherinopsis californiensis that are not chipped, will be important due to continuing threats of overfishing and habitat degradation.

Distribution

Atherinopsis californiensis, commonly known as Jacksmelt, distribution range consists of the Pacific coast from Yaquina Bay, Oregon, south to Bahia Magdalena, Baja California, Mexico.

The adults occur in inshore areas, such as bays. They form schools. This species is a demersal spawners in inshore habitats, it is oviparous and the larvae are planktonic, living at the very surface of the water and feeding on phytoplankton. The eggs are attached to one another and to the substrate by adhesive filaments in the chorion.

This species is closely associated with coastal habitats and is frequently distributed in both marine and estuarine environments. Jacksmelt are most commonly found in shallow waters near sandy beaches and kelp forests, and Jacksmelt often school in large numbers which are easily seen during daytime. The ability of juveniles to adapt to a variety of salinity and environmental conditions is critical to survival as they move from fresh to saltwater habitats at different stages of life. Jacksmelt have the ability to thrive in a variety of environments and can exploit a wide ecological niche, and are a principal part of the coastal marine ecosystem.

Jacksmelt are not confined to open coastal areas and are frequently found in bays and estuaries if they contain food resources. Typically found no deeper than 29 meters (95 feet). The ecological flexibility of Jacksmelt and the significance of these habitats for their life cycle is best demonstrated by the presence of Jacksmelt in many estuaries. Jacksmelt grows and matures, shifting and adapting to its environment, moving along its distribution range.

Habitat

Different habitats that provide food and protection from predators are all habitats that Jacksmelt thrives in. Estuaries where freshwater and saltwater meet; bay areas with plenty of food. Jacksmelt depend especially heavily on kelp forests for shelter and also as hunting grounds for a variety of prey. Kelp canopies provide refuge in otherwise dangerous structures from the larger predators while offering access to food: zooplankton and small fishes. Juvenile Jacksmelt also live on sandy beaches before moving into deeper waters as they mature, along with other kelp forest residents listed earlier. Their development is critically dependent on this habitat transition, which enables them to access different food resources through different life stages. Diversity in habitats is available and important for the health and stability of Jacksmelt populations. Jacksmelt is able to take advantage of both marine and estuarine habitats to increase their chances of survival and reproduction.

Diet

The jacksmelt diet consists mostly of zooplankton, small live fish, and bottom invertebrates. Jacksmelt studies have shown omnivorous feeding habits, though Jacksmeltapes more towards carnivory. However, this dietary preference is influenced by the habitat of these fishes; for example, Jacksmelt in kelp forests tend to consume more small fish than do those in estuarine environments where zooplankton is more abundant. Their ability to adapt their feeding strategies to a changing set of resources is essential to their survival and growth in a changing ecological context. Furthermore, competition for food may affect the diet composition as well as the general health of coastal pelagic fish species.

Reproduction

The typical reproductive pattern of Jacksmelt occurs during late spring and early summer when water temperatures rise. Females and males will congregate in particular areas to spawn, releasing eggs into the plankton where they will fertilize externally. Once hatched, the eggs develop into larvae that drift aboard ocean currents until they drop and find themselves in suitable habitats. A high dispersal rate of offspring in various environments is possible through this reproductive strategy. Jacksmelt shows multiple reproductive events throughout the reproductive season, a strategy that does two things, helping to maintain genetic diversity within populations and increasing resilience to environmental stresses. The timing of their spawning season is crucial and matches up with optimum environmental conditions for the survival of larvae. It has been found that maximum spawning activity, as determined by the day of the year, takes place from January through Marchwhen optimal conditions for larval development exist. The success of Jacksmelt's reproductive success depends on habitat health. Healthy estuarine environments are important nursery grounds for juvenile fish; young Jacksmelt need the nursery grounds for adequate food resources and protection from predation during the early life stage. With this in mind, the conservation of these habitats is critical both to the survival of Atherinopsis californiensis and for the maintenance of the coastal ecosystems' overall biodiversity.

Conservation

Atherinopsis californiensis is generally considered stable in conservation status, but a variety of threats threaten its populations. Unsustainable fishing practices can result in declines in abundance as declining abundance due to overfishing continues to be a very current and prevalent problem. The natural environments in which Jacksmelt resides are further at threat from degradation due to pollution, and coastal development. Due to the pressure of urbanization and agricultural runoff that can alter water quality and decrease resources available, estuarine habitats are particularly vulnerable. In addition, climate change has long-term implications, as it will alter water temperature and salinity levels needed to reproduce and grow. Correcting these threats will require habitat protection, as well as sustainable fishing practices. Manalention strategies that allow the healthy population of Jacksmelt and continue to preserve its ecological role in coastal ecosystems. Using the information gathered through this research population dynamics and habitat requirements can yet provide further insight into and make a contribution to safeguarding this species through conservation initiatives. Jacksmelt is an economically important fish because it is relevant to commercial fishing and recreation angling. They are harvested by humans for human consumption, and are valued for mild flavor and flaky texture. Jacksmelt is primarily caught incidentally in other fishing activities, however, there has been growing interested in them as a targeted species because of their culinary value. Jacksmelt are also easily consumed by people, and some are used as bait for larger fish species caught in recreational fishing. This dual role underscores the need for sustainable management practices to avoid fishing activities harming Jacksmelt populations.

Other common names

California smelt, blue smelt, horse smelt, peixe rey, pescado del rey, pesce rey, silverside

References

  1. Iwamoto, T.; Eschmeyer, W.; Smith-Vaniz, B. (2010). "Atherinopsis californiensis". IUCN Red List of Threatened Species. 2010: e.T183827A8183878. doi:10.2305/IUCN.UK.2010-3.RLTS.T183827A8183878.en. Retrieved 20 November 2021.
  2. Leo Pinkas, California Marine Fish Landings For 1972 and Designated Common Names of Certain Marine Organisms of California, fish bulletin 161, Marine Resources Region, 1974
  3. California Marine Species Portal. (n.d.). Jacksmelt enhanced the status report. Retrieved October 19, 2024, from https://marinespecies.wildlife.ca.gov/Jacksmelt/the-species/
  4. Froese, Rainer; Pauly, Daniel (eds.). "Atherinopsis californiensis". FishBase. Aori 2019 version.
  5. Armor, C., & Herrgesell, P. L. (1985). Distribution and abundance of fishes in the San Francisco Bay estuary between 1980 and 1982. Temporal Dynamics of an Estuary: San Francisco Bay, 211–227.
  6. Clark, F. N. (1929). Fish bulletin no. 16: The life history of the California jacksmelt. California Department of Fish and Game. https://escholarship.org/content/qt3xp124r4/qt3xp124r4.pdf
  7. Armor, C., & Herrgesell, P. L. (1985). Distribution and abundance of fishes in the San Francisco Bay estuary between 1980 and 1982. Temporal Dynamics of an Estuary: San Francisco Bay, 211–227.
  8. California State Water Resources Control Board. (2016). Distribution and habitat of Jacksmelt in California.
  9. California State Water Resources Control Board. (2016). Distribution and habitat of Jacksmelt in California.
  10. Blaber, S. J. M. (2013). Fishes and fisheries in tropical estuaries: the last 10 years. Estuarine, Coastal and Shelf Science, 135, 57–65.
  11. Colombano, D. D., Carlson, S. M., Hobbs, J. A., & Ruhi, A. (2022). Four decades of climatic fluctuations and fish recruitment stability across a marine‐freshwater gradient. Global change biology, 28(17), 5104–5120.
  12. Blaber, S. J. M. (2013). Fishes and fisheries in tropical estuaries: the last 10 years. Estuarine, Coastal and Shelf Science, 135, 57–65.
  13. Horn, M. H., Gawlicka, A. K., German, D. P., Logothetis, E. A., Cavanagh, J. W., & Boyle, K. S. (2006). Structure and function of the stomachless digestive system in three related species of New World silverside fishes (Atherinopsidae) representing herbivory, omnivory, and carnivory. Marine Biology, 149, 1237–1245.
  14. Ebert, D. A., & Ebert, T. B. (2005). Reproduction, diet, and habitat use of leopard sharks, Triakis semifasciata (Girard), in Humboldt Bay, California, USA. Marine and Freshwater Research, 56(8), 1089–1098.
  15. Iglesias, I. S., Santora, J. A., Fiechter, J., & Field, J. C. (2023). Mesopelagic fishes are important prey for a diversity of predators. Frontiers in Marine Science, 10, 1220088.
  16. California Marine Species Portal. (n.d.). Jacksmelt enhanced status report. Retrieved October 19, 2024, from https://marinespecies.wildlife.ca.gov/Jacksmelt/the-species/
  17. Colombano, D. D., Carlson, S. M., Hobbs, J. A., & Ruhi, A. (2022). Four decades of climatic fluctuations and fish recruitment stability across a marine‐freshwater gradient. Global change biology, 28(17), 5104–5120.
  18. Shew, J. E., & Lema, S. C. (2023). The mitochondrial genome of the Jacksmelt, Atherinopsis californiensis (Atherinopsidae, Atheriniformes), a nearshore fish of the California Current Ecosystem. Mitochondrial DNA Part B, 8(1), 13–17.
  19. California State Water Resources Control Board. (2016). Distribution and habitat of Jacksmelt in California.
  20. California Marine Species Portal. (n.d.). Jacksmelt enhanced status report. Retrieved October 19, 2024, from https://marinespecies.wildlife.ca.gov/Jacksmelt/the-species/
  21. National Oceanic and Atmospheric Administration. (2005). Distribution and abundance of fishes and invertebrates in West Coast estuaries (NOAA Technical Memorandum NMFS). https://www.govinfo.gov/content/pkg/CZIC-ql139-e4-no-8/html/CZIC-ql139-e4-no-8.htm
  22. California Marine Species Portal. (2019). Atherinopsis californiensis enhanced status report. California Ocean Protection Council. https://opc.ca.gov/webmaster/_media_library/2019/08/Draft_Marine-Species-Report_Jacksmelt.pdf
  23. Clark, F. N. (1929). Fish bulletin no. 16: The life history of the California jack smelt. California Department of Fish and Game. https://escholarship.org/content/qt3xp124r4/qt3xp124r4.pdf

External links

Media related to Atherinopsis californiensis at Wikimedia Commons

Taxon identifiers
Atherinopsis californiensis


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