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Caridina multidentata
Caridina multidentata
Caridina multidentata
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Caridina multidentata
Scientific classification Edit this classification
Kingdom: Animalia
Phylum: Arthropoda
Class: Malacostraca
Order: Decapoda
Suborder: Pleocyemata
Infraorder: Caridea
Family: Atyidae
Genus: Caridina
Species:
C. multidentata
Binomial name
Caridina multidentata
Stimpson, 1860

Caridina multidentata is a species of shrimp in the family Atyidae. It is native to Japan and Taiwan.[1] Its common names include Yamato shrimp, Japanese shrimp, Amano shrimp, and algae shrimp.[2]

Description

[edit]
Caridina multidentata larva

Caridina multidentata are freshwater shrimp in the family Atyidae and are commonly found in southwestern Japan.[3][4] They typically grow to 25-35 millimetres. This species of shrimp is amphidromous. Oviposition and hatching occurs in freshwater, and newly hatched larvae drift to saltwater and develop as juveniles, returning to freshwater in their adult forms.[3] The eggs of Caridina multidentata are rich in yolk and are oval-shaped.[5]

The species has adapted to live in fast-flowing water, having a wide and short rostrum. Caridina multidentata begin to take in food in the third zoeal stage, relying on internal nutrition longer than distant relatives such as the Caridina leucosticta and Caridina typus. They have a large geographic distribution, suggesting high levels of larval dispertion.[4] This species has a translucent body covered with a broken line of reddish brown points on its sides. The dorsal surface has a white stripe that runs from the head to the tail and the eyes are black. Females are easily distinguished from males by their more elongated lower row of dots.

Caridina multidentata fare best in temperatures of 18 °C to 28 °C (approximately 64 °F to 82 °F). They are more active at higher temperatures, but may also have a shorter lifespan. They prefer a pH of 6.5 to 7.5. As with all crustaceans, they are extremely averse to copper due to their haemocyanin blood.[6]

In the aquarium

[edit]

Caridina multidentata was introduced into the world of aquaria by Takashi Amano in the early 1980s. They are usually used in an aquarium because they feed primarily on algae, thus cleaning the aquarium of it when present in sufficient numbers. Caridina multidentata was previously known to aquarists as Caridina japonica but was renamed Caridina multidentata following a study in 2006.[7][8]

References

[edit]
[edit]
Revisions and contributorsEdit on WikipediaRead on Wikipedia

Caridina multidentata

View on Grokipedia
from Grokipedia
Caridina multidentata is a of in the family , known commonly as the Amano shrimp or Yamato shrimp. Native to subtropical regions of and , it inhabits the benthic zones of large rivers characterized by boulder substrates and clear, flowing water. Adults typically measure up to 5 cm in total length, with a translucent body accented by reddish-brown spots along the sides and a distinctive white stripe running dorsally from head to tail; the rostrum is medium-length, reaching the ultimate segment of the antennular peduncle, featuring a ridged dorsal crest with 20–30 denticles and a lower margin armed with 14 denticles, while the bears an antennal spine and the second pereiopods are longer than the antennular peduncle. This species exhibits an amphidromous life cycle typical of many Atyidae shrimps, where adults reside and breed in freshwater habitats upstream, releasing zoea larvae that drift downstream to develop in brackish or marine waters before postlarvae migrate back to freshwater streams to complete their growth. As detritivores and algae grazers, C. multidentata play a key ecological role in nutrient cycling within their riverine ecosystems, feeding primarily on periphyton, biofilm, and organic detritus using specialized brush-like setae on their mouthparts. Assessed as Least Concern by the IUCN in 2011 due to its relatively wide distribution and lack of major threats at that time, though local populations may face pressures from habitat alteration and overcollection for the aquarium trade. In the aquarium hobby, Caridina multidentata is highly valued for its effectiveness as an controller and peaceful temperament, thriving in well-oxygenated tanks with stable parameters ( 6.5–7.5, 18–28°C) and ample hiding spots mimicking their natural rocky habitats. However, successful remains challenging outside controlled setups, as the larval stage necessitates a transition to (salinity ~25 ppt) for survival through multiple zoeal instars before returning to freshwater. Taxonomically, the species was originally described by Stimpson in 1860, with Caridina japonica De Man, 1892 later recognized as a junior synonym, ensuring nomenclatural stability through neotype designations.

Taxonomy and nomenclature

Taxonomic classification

Caridina multidentata Stimpson, 1860, is a of belonging to the Caridina in the family . The binomial name was established by American carcinologist William Stimpson in his 1860 description of Japanese decapod crustaceans. The taxonomic hierarchy of C. multidentata is as follows: Kingdom: Animalia; Phylum: Arthropoda; Class: ; Order: Decapoda; Family: ; Genus: ; Species: multidentata. Within the Decapoda, the Atyidae family comprises primarily adapted to lotic environments, with specialized chelae on the first two pereiopods bearing dense brushes of setae for filter-feeding on suspended particles. The genus H. Milne Edwards, 1837, is the most species-rich in the , encompassing over 300 described , many of which are endemic to East and Southeast Asian freshwater systems.

Etymology and synonyms

The scientific name Caridina multidentata originates from its first formal description by American carcinologist William Stimpson in 1860, based on specimens collected from Japanese waters during a U.S. naval expedition. The genus derives from the Greek karidion, a diminutive form meaning "little ," reflecting the small size and shrimp-like form of in this group. The specific epithet multidentata combines the Latin roots multi- (many) and dentata (toothed), directly referring to the numerous small teeth along the dorsal margin of the rostrum, a key diagnostic feature observed in Stimpson's original examination. For over a century, the species was widely recognized under the junior Caridina japonica, proposed by Dutch zoologist J.G. de Man in 1892 from similar Japanese material, especially in aquarist literature and trade. This naming persisted until a comprehensive taxonomic revision in 2006, which re-examined type specimens and fresh material through detailed morphological comparisons, establishing C. multidentata as the senior and valid name while suppressing C. japonica as a ; the revision also designated a neotype for C. multidentata to ensure nomenclatural stability. Among common names, Caridina multidentata is popularly called the Amano shrimp in honor of Japanese aquarist and pioneer , who highlighted its algae-consuming prowess in the and thereby boosted its global popularity in the hobby. It is also known as Yamato shrimp, from the traditional Japanese designation Yamato numa-ebi ("Yamato freshwater shrimp"), where Yamato refers to an ancient name for . Additional vernacular names include Japanese shrimp and algae shrimp, emphasizing its native range and ecological role.

Physical characteristics

Morphology

Caridina multidentata exhibits a typical caridean shrimp body plan, characterized by an elongated cephalothorax enclosed in a carapace and a flexible, segmented abdomen terminating in a fan-shaped telson and uropods. The carapace features a dorsally non-concave sixth pleonal somite equal in size to the fifth, with prominent lateral ridges, while the telson tip is elongated and triangular. The rostrum is of medium length, extending to the ultimate segment of the antennular peduncle, and is heavily armed with 20–30 dorsal denticles along a ridged crest that curves toward the ocular base, complemented by approximately 14 ventral denticles. Adults typically measure 3–5 cm (30–50 mm) in total length, with females often reaching up to 5 cm. The appendages are adapted for both locomotion and specialized feeding. The antennae are long and biramous, aiding in sensory and current detection. The first pair of pereopods terminates in chelae equipped with fan-like brushes of long setae, facilitating the scraping and collection of and from surfaces. The second pereopods possess elongate carpi and small, thick, pointed chelae with expanded, flattened tips, while the posterior pereopods have sharp dactyli for walking and perambulation. Pleopods, or swimmerets, on the enable swimming and stabilization in flowing waters. Internally, respiration occurs via lamellar gills housed in the branchial chamber, adapted for efficient oxygen uptake in freshwater environments through the use of as the primary oxygen-transporting pigment. The digestive system is specialized for processing detrital matter, , and , featuring a gastric mill for grinding and enzymatic breakdown suited to microbial-rich diets.

Sexual dimorphism and coloration

in Caridina multidentata is pronounced in terms of size and structure. Females attain a larger body length of up to 50 mm and possess a broader suited for carrying eggs, while males are smaller, reaching approximately 30 mm, with a narrower . Females can be identified by their wider and longer pleopods compared to males, who exhibit an appendix masculina on the second pleopod. The species displays a translucent body with scattered reddish-brown spots forming irregular patterns along the sides, complemented by a prominent dorsal stripe extending from the head to the tail, black eyes, and subtle that enhances its subtle sheen in light. Gravid females show a more elongated appearance in the lower row of spots due to from egg development, whereas juveniles exhibit paler overall coloration with less pronounced markings. These reddish-brown spots provide effective against the rocky and vegetated substrates of fast-flowing stream environments, aiding in predator avoidance.

Distribution and ecology

Native distribution

Caridina multidentata is endemic to and , primarily inhabiting freshwater systems in subtropical to temperate climatic zones across these regions. In , confirmed populations occur on the main islands of and , the , as well as the Ogasawara (, where the species was first documented in coastal streams and large rivers. In , it is distributed on the main island, with records from similar riverine environments. The species was first described in 1860 by William Stimpson based on specimens collected from Japanese waters, specifically noting its presence in streams of the Ogasawara Islands. Subsequent surveys have verified its natural occurrence in various coastal and inland streams on and , emphasizing its historical range confined to these native locales. No significant introduced populations exist in the wild outside and , with erroneous reports from distant locations like and attributed to misidentifications. Within its native distribution, C. multidentata tolerates water temperatures between 18 and 28 °C and levels from 6.5 to 7.5, conditions typical of the stable, flowing waters in its riverine . These tolerances reflect adaptations to the varied subtropical and temperate environments of its range, supporting its persistence in coastal streams without evidence of expansion beyond original boundaries.

Habitat preferences and behavior

Caridina multidentata inhabits slow- to moderate-flowing freshwater streams, rivers, and occasionally ponds in its native range of and , favoring environments with boulder or rocky substrates that provide shelter and support growth. These habitats typically feature dense aquatic vegetation, leaf litter, and periphyton-rich surfaces, which offer hiding spots and food resources while avoiding strong currents that could dislodge individuals. Water conditions in these systems are generally well-oxygenated with stable temperatures around 18–25°C, contributing to the species' preference for clear, oligotrophic waters over turbid or stagnant ones. In terms of behavior, C. multidentata is primarily nocturnal, exhibiting heightened activity in low-light or dark conditions while seeking refuge under rocks, in thickets, or among substrates during daylight hours to evade predators. Individuals often form loose aggregations or in groups, scavenging across surfaces in a non-aggressive manner without strong chemical signaling between conspecifics. Feeding involves grazing on , diatoms, and using specialized brush-like setae on their mouthparts, supplemented by and microbial films, which supports their role as efficient herbivores in the . This plays a key ecological role in controlling algal and proliferation on substrates, thereby enhancing and cycling in streams through herbivory and detritivory. As an amphidromous , its populations are sustained by larval drift downstream to estuarine waters and subsequent upstream migration of postlarvae, linking freshwater habitats to marine environments and influencing community dynamics. Overall, these behaviors promote by reducing excess and serving as prey for larger aquatic organisms.

Reproduction and life cycle

Mating and egg production

Mating in Caridina multidentata involves , with eggs attached to the female's pleopods following . Fertilization occurs prior to egg laying, resulting in zygotes that develop centrally within the yolk-rich eggs. Females produce oval-shaped eggs measuring approximately 500 µm in length and 250–300 µm in width, rich in to support early embryonic development. These eggs are carried under the on the pleopods during the brooding period, which lasts 9–36 days depending on water temperature, with shorter durations at higher temperatures (e.g., 9–27 days at 26°C). Ovigerous females are observed primarily from May to in laboratory conditions, indicating a seasonal reproductive peak. Fecundity in C. multidentata is high, with females capable of producing broods that yield 1–1,313 newly hatched larvae per female under controlled conditions, though this number decreases with increasing (e.g., 88% reduction from 20°C to 26°C). success varies from 28–79%, influenced by , with optimal rates around 64.8% at 20–23°C. Individual females can undergo multiple ovipositions within a reproductive season, supporting repeated brood production.

Larval development and amphidromy

Caridina multidentata exhibits an amphidromous life cycle, in which ovigerous females carry fertilized eggs attached to their pleopods until hatching occurs upstream in freshwater habitats. Upon hatching, the planktonic zoea larvae are immediately released into the river currents, where they drift downstream toward the and marine environments during the wet or flood season. This passive dispersal mechanism ensures that the delicate early larvae are transported to saline waters essential for their subsequent development. The larval phase consists of 9 zoeal stages, requiring brackish to full marine conditions with salinities ranging from 17 to 34 ppt for survival and growth; optimal performance occurs at around 24 ppt. Development duration varies from 15 to 55 days depending on environmental factors, with the shortest larval period (approximately 16 days) achieved at 26°C. Throughout these stages, larvae are active swimmers and planktivores, feeding primarily on microalgae such as Tetraselmis sp. and zooplankton like the rotifer Brachionus plicatilis. The early zoeal stages (first to second) are lecithotrophic, relying on internal yolk reserves to endure potential food scarcity during downstream migration, with moulting to the second stage possible at salinities above 8.5 ppt even under starvation conditions. This salinity tolerance facilitates broad oceanic dispersal, enhancing gene flow among populations. Upon completing larval development, the post-larvae metamorphose and actively migrate upstream into freshwater streams, typically during the dry or low-flow , using nocturnal or substrate crawling to reach suitable settlement sites. Juveniles then transition to a benthic lifestyle in riverine habitats, where they forage on and while growing rapidly; is attained within several months under favorable conditions. This return to freshwater completes the amphidromous cycle, allowing adults to inhabit upstream reaches while leveraging marine larval phases for dispersal and .

Use in aquariums

History and introduction

Caridina multidentata, commonly known as the Amano shrimp, was first described by American carcinologist William Stimpson in from specimens collected in Japanese waters. The species name "multidentata," meaning "many-toothed," refers to the numerous teeth on its rostrum. This initial description laid the foundation for its recognition as a distinct atyid shrimp native to . The species gained prominence in the aquarium hobby during the early 1980s, when Japanese aquascaper Takashi Amano introduced it to international markets from Japan. Amano highlighted its effectiveness as an algae grazer in densely planted tanks, aligning with his pioneering Nature Aquarium style that emphasized natural, balanced ecosystems. Exports from Japan facilitated its rapid adoption among aquarists worldwide for maintenance of clean, algae-free aquariums. A taxonomic revision in 2006 by Cai, Ng, Shokita, and Satake clarified the species' , establishing C. multidentata as the senior of C. japonica, which had been the common . This reclassification prompted updates in labeling and scientific references within the aquarium , though common names like "Amano shrimp" persisted due to Amano's influence. Following its introduction, C. multidentata spread globally through the pet trade, becoming a staple in freshwater aquariums for its hardy nature and utility. Selective breeding has produced ornamental variants, such as the translucent white "Snow" and vibrant "Yellow" forms, enhancing its appeal beyond wild-type specimens; as of 2025, additional morphs including orange variants have entered the trade.

Care requirements

Caridina multidentata, commonly known as the Amano shrimp, requires a well-established aquarium to thrive, with a minimum tank size of 10 gallons to provide stable conditions and space for a small group. The setup should include a shrimp-friendly substrate such as fine sand or gravel to allow for grazing and burrowing, along with dense live plants like mosses or Java fern for natural biofilm growth and hiding spots to reduce stress during molting. Filtration must be gentle to avoid strong currents that can exhaust these active swimmers; sponge filters or low-flow hang-on-back systems are ideal for maintaining water quality without disrupting the shrimp. Optimal water parameters include a range of 18–28°C, between 6.5 and 7.5, and general (GH) of 4–8 to support molting and overall health. and levels must remain at 0 ppm, with nitrates below 20 ppm, achieved through regular testing and partial water changes of 20–30% weekly using dechlorinated water matched to tank parameters. Feeding should mimic their natural diet, primarily consisting of and that develop on plants and decorations; supplements like blanched (e.g., or ), wafers, or specialized shrimp pellets can be offered 2–3 times per week to ensure nutritional balance, particularly calcium for development. Overfeeding must be avoided to prevent fouling and , as these opportunistic feeders will graze on tank if primary food sources are limited. These shrimp are peaceful community dwellers compatible with non-aggressive fish such as tetras, rasboras, or catfish, as well as snails, provided the tank offers ample hiding places to prevent predation or competition. Aggressive or predatory tankmates like cichlids, puffers, or large barbs should be avoided, as they may harass or consume the shrimp. With proper care, C. multidentata can live 2–3 years in captivity.

Breeding in captivity

Breeding Caridina multidentata in captivity requires mimicking aspects of its amphidromous life cycle while addressing the challenges of larval development outside natural river-to-sea migrations. Inducing breeding typically involves maintaining stable aquarium conditions, including temperatures of 25–28°C, and providing live foods such as algae or small invertebrates to stimulate molting and mating in mature females. Under laboratory conditions, females exhibit higher rates of becoming ovigerous at around 23°C compared to 20°C, with mating occurring shortly after the female's molt when spermatophores are transferred externally. Females can produce multiple broods annually under optimal captive setups, carrying 747–4,391 eggs per clutch (average 1,872) on their pleopods, though the number may decrease to 200–400 remaining eggs due to early hatching or space limitations. Egg care in captivity closely parallels wild behaviors, with berried females fanning the eggs to them during the 3–5 week , though survival rates drop significantly without proper post-hatch management. Incubation duration shortens with higher temperatures, ranging from 15–36 days at 20°C to 9–27 days at 26°C, but egg loss increases at warmer extremes due to potential stress or issues in confined spaces. success is higher at cooler temperatures (61–79% at 20°C versus 28–75% at 26°C), yet overall declines with rising heat, reducing viable larvae by up to 88% from 20°C to 26°C. Larval rearing presents the primary hurdle, necessitating a progression from brackish to full marine salinity (specific gravity 1.005–1.025, or 5–35 ppt) to support the zoea stages, as larvae cannot survive in freshwater beyond 2–3 days post-hatch. Optimal conditions include 23–29°C and 17–25.5 ppt , where larvae are fed microalgae like Tetraselmis sp. and rotifers (Brachionus plicatilis), achieving the highest survival through 9 zoea stages over 15–55 days until to juveniles. The full larval cycle typically spans 40–60 days, after which juveniles are gradually acclimated back to freshwater for growth. Despite these methods, faces high mortality rates, with only dozens of larvae surviving from thousands of eggs due to sensitivity to fluctuations, bacterial , and nutritional deficiencies. Successful production of F1 is possible in controlled setups, but completing full generational cycles remains rare outside specialized facilities, such as Taiwanese farms achieving mass output of 300,000 individuals monthly through optimized artificial propagation.

References

  1. https://www.sealifebase.ca/summary/Caridina-multidentata.html
  2. https://www.fws.gov/sites/default/files/documents/Ecological-Risk-Screening-Summary-Clean-shrimp.pdf
  3. https://www.fishi-pedia.com/crustacea/caridina-multidentata
  4. https://www.iucnredlist.org/species/198258/147797329
  5. https://www.theshrimpfarm.com/posts/amano-shrimp-care-sheet/
  6. https://www.garnelio.de/en/blog/shrimp/amano-shrimp-breed-in-the-aquarium
  7. https://www.gbif.org/species/5863054
  8. https://micronesica.org/sites/default/files/18-atyids_0.pdf
  9. https://www.nature.com/articles/s41598-017-08494-w
  10. https://www.garnelio.de/en/blog/shrimp/amano-shrimps-in-the-aquarium
  11. https://academic.oup.com/jcb/article/26/3/392/2670470
  12. https://www.practicalfishkeeping.co.uk/fishkeeping-news/amano-shrimp-gets-new-name/
  13. https://www.fishkeeper.co.uk/fish/freshwater/miscellaneous/amano-shrimp
  14. https://pmc.ncbi.nlm.nih.gov/articles/PMC12108899/
  15. https://a-z-animals.com/animals/amano-shrimp/
  16. https://www.aquariumcoop.com/blogs/aquarium/amano-shrimp
  17. https://www.practicalfishkeeping.co.uk/features/amano-shrimp-spineless-heroes/
  18. https://www.sciencedirect.com/science/article/pii/S0306456525000786
  19. https://www.researchgate.net/publication/274066603_Dead_Shrimp_Blues_A_Global_Assessment_of_Extinction_Risk_in_Freshwater_Shrimps_Crustacea_Decapoda_Caridea
  20. https://academic.oup.com/jcb/article/45/2/ruaf020/8127312
  21. https://www.researchgate.net/publication/391595740_Habitat_selection_and_copper_toxicity_in_the_freshwater_amphidromous_shrimp_Caridina_multidentata_Stimpson_1860_Decapoda_Caridea_Atyidae
  22. https://www.researchgate.net/publication/266259388_Early_embryonic_development_of_the_freshwater_shrimp_Caridina_multidentata_Crustacea_Decapoda_Atyidae
  23. https://www.researchgate.net/publication/378710343_Effects_of_temperature_on_reproduction_of_the_atyid_shrimp_species_Caridina_multidentata_and_Caridina_typus_Decapoda_Caridea_Atyidae_under_laboratory_conditions
  24. https://www.researchgate.net/publication/269799282_Amphidromy_in_shrimps_A_life_cycle_between_rivers_and_the_sea
  25. https://www.researchgate.net/publication/350562633_Larval_performance_of_three_amphidromous_shrimp_species_in_the_genus_Caridina_Decapoda_Caridea_Atyidae_under_different_temperature_and_salinity_conditions
  26. https://www.researchgate.net/publication/364349620_Survival_and_development_strategy_of_starved_early-stage-zoeae_of_five_amphidromous_shrimp_species_in_the_genus_Caridina_under_different_salinity_and_temperature_conditions
  27. https://pmc.ncbi.nlm.nih.gov/articles/PMC8678617/
  28. https://www.researchgate.net/publication/227594773_Inter-_and_intraspecific_differences_in_the_life_history_and_growth_of_Caridina_spp_Decapoda_Atyidae_in_Hong_Kong_streams
  29. https://www.practicalfishkeeping.co.uk/fishkeeping-news/aquascaping-pioneer-takashi-amano-dies/
  30. https://fluvalaquatics.com/uk/wp-content/uploads/2022/02/Species-Spotlight_Amano-Shrimp_EN.pdf
  31. https://www.aquariumbreeder.com/amano-shrimp-detailed-guide-care-diet-and-breeding/
  32. https://www.aquariumglaser.de/en/fisharchive/caridina-multidentata-yellow-2/
  33. https://aquaticarts.com/products/snow-amano-shrimp-caridina-multidentata-snow
  34. https://aquaticarts.com/blogs/news/amano-shrimp-like-youve-never-seen-before-exploring-the-color-variants-of-caridina-multidentata
  35. https://www.thesprucepets.com/amano-shrimp-species-profile-5101733
  36. https://splashyfishstore.com/blogs/fish-keeping-101/care-guide-for-amano-shrimp
  37. https://www.jstage.jst.go.jp/article/crustacea/50/0/50_41/_pdf
  38. https://aquariumbreeder.com/breeding-and-life-cycle-of-amano-shrimp/
  39. https://www.cwa.com.tw/news/CWA-x-Sascha-Hoyer/Episode-X-Amano-Shrimp-Caridina-multidentata-Breeding-Research-Laboratory-in-Taiwan.htm
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