Neocaridina davidi
Neocaridina davidi is a freshwater shrimp from Taiwan which is commonly kept in aquaria. The natural coloration of the shrimp is green-brown. There are a wide range of colors such as red, yellow, orange, green, blue, violet, black, etc., however, the red morph is more frequently sold. The density of coloration on adult shrimp, dependent on breeding, determines their sale price and "quality" (grading).[5] This "quality" is purely aesthetic, as the size, behavior and other characteristics of the animal is more or less equal across varieties. Full-grown shrimp reach about 4 centimetres (1.6 in) long. They prefer clean water, with a pH of 6.5-8, and a temperature of 14–29 °C (57–84 °F) They are most comfortable at 22 °C (72 °F). N. davidi shrimp are omnivores that may live 1–2 years. These shrimp have previously been classified as Neocaridina heteropoda and Neocaridina denticulata sinensis, however are now known as Neocaridina davidi which is based on the oldest known published description of the species.[6][7]
Neocaridina davidi | |
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A "cherry shrimp" | |
Scientific classification | |
Kingdom: | Animalia |
Phylum: | Arthropoda |
Subphylum: | Crustacea |
Class: | Malacostraca |
Order: | Decapoda |
Family: | Atyidae |
Genus: | Neocaridina |
Species: | N. davidi |
Binomial name | |
Neocaridina davidi | |
Synonyms | |
Housing
N. davidi shrimp are easy to care for in the home freshwater aquarium and breed well. They will adapt to a wide range of water conditions and will thrive in the same conditions as many common aquarium fish. Neutral to slightly alkaline pH, with zero ammonia and nitrite as well as low nitrate, gives best results. A cooling system is recommended in warm climates. A few N. davidi shrimp can be kept in a desktop aquarium of 4–8 litres (0.88–1.76 imp gal; 1.1–2.1 US gal) capacity, and a setup of 40 l (8.8 imp gal; 11 US gal) or more will allow for an active colony. A planted tank is most comfortable for the shrimp and the plants provide cover for adults and young. Plants also provide more surface area to grow biofilm for shrimp to graze on.
The shrimp spends a great deal of its time sitting on aquatic plants, when available, and hiding in them for protection, especially after molting. They also eat the film of algae and microorganisms that form on plant leaves without harming the leaves in the process. Java moss and Java fern are both excellent plants for the shrimp tank, as they thrive in the same conditions as the N. davidi shrimp and provide both the physical benefits of the plants to the shrimp and aesthetics to human viewers. Young shrimp spend much of their early life hiding among plants and feeding on microorganisms and tank algae. Java moss is common and inexpensive in most places, fast-growing, and provides excellent cover for the young.
N. davidi shrimp respond to the color of their background and substrate. If they are kept in a tank with light-colored substrate, they will become paler, or even transparent. On a darker substrate, they take on their full coloration. Color intensity also depends on the types of food available (live foods and those high in protein and fats are more beneficial than flake foods), water pH, and temperature. Prepared foods specifically designed for shrimp are available at some suppliers.
Behavior
The N. davidi shrimp is a non-aggressive shrimp. They are active throughout the day, and can be seen grazing on biofilm, aquarium décor or the sides of the tank, hunting detritus among the gravel, and sometimes even mating. Periodically, a shrimp will shed its exoskeleton, leaving an empty white ghost of itself caught in the plants or drifting around the tank. This should be left in the tank, as the shrimp will eat it to recover the valuable minerals it contains. There have been some reports by people of some shrimp attacking other vulnerable shrimp and/or fish, possible explanations have been insufficient protein in their diet or just general insufficiency of biofilm in the tank.
Female pregnant N. davidi shrimp tend to hide in the dark. If they feel endangered by predators, they will abandon their eggs. They need an environment with wood or plants such as Java moss in which to hide themselves and their babies. When they are carrying the eggs under their bodies, they can be witnessed circulating water over the eggs with their pleopods (swimming legs) to ensure good health.
Diet
N. davidi shrimp are primarily biofilm eaters. They will eat any food intended for aquarium use with varying preferences, but some will prefer compressed algae discs (algae wafers) or sinking shrimp pellets. Blanched (boiled until soft) vegetables such as zucchini (courgette), baby carrots, peas, cucumber, kale and spinach can be used as a supplemental food but should be fed sparingly. Uneaten food can quickly decompose and are recommended to be removed after a few hours to prevent potentially deadly ammonia spikes. To keep a clean substrate, some shrimp keepers put a glass bowl or glass plate on the bottom as a container for the food. If feeding commercial fish/shrimp food, ensure that there is no copper added (some breeders avoid only pure/elemental copper ) as this is dangerous for shrimp. Many breeders think copper sulfates, found in most fish food, are tolerated in low amounts. Copper sulfates found in snail killer are in high amounts and will kill shrimp.
Some commercial water conditioners remove or neutralize copper, lead, and other metals from tap water in order to make it safe for aquarium life.
The best way to keep a healthy balance in a tank with shrimp is to let them eat the biofilm that grows in the tank- including on the glass, on plants, and all over driftwood; this way the tank works in balance along with the beneficial bacteria that grow in a filter. With at least a few hours of lighting to promote growth of biofilm, the shrimp will grow to maturity without any problems.
Sexing
Neocaridina davidi have noticeable sexual dimorphism. The male is smaller and usually less colorful than the female. The male's tail, not being needed to carry eggs, is narrower. The female is larger and usually displays a richer, more opaque coloration, however selective breeding can produce males with similar quality of coloration. On the upper section of the female's body, on the "shoulder", the developing eggs on the ovaries may be seen in more transparent individuals. The color of these eggs will depend on the breed of individual shrimp. The shape of the ovaries drapes across both sides of the shrimp, giving rise to the nickname "saddle". The presence of a "saddle" indicates a female that is likely ready to mate.
Breeding
N. davidi shrimp reach sexual maturity when they are around 4–6 months old. Breeding only requires a sexed pair of shrimp, stable water parameters, and a food source.[9] Eggs may be observed developing in the female's ovaries as a green or yellow triangular "saddle" marking on her back. When she is ready to lay the eggs, which occurs after molting, she releases pheromones into the water to signal her availability to males. The male shrimp in the tank will often become agitated, swimming very actively about as they search for the source of the pheromones. After a brief mating process, during which the male deposits sperm onto the female's body, the female lays her eggs and affixes them to her swimmerettes. The eggs are not fertilized within the female; they are fertilized as they pass from the ovaries to the outside of the body. Therefore, it is certain that any shrimp carrying eggs has mated. A female carrying eggs under her abdomen is said to be "berried".
Some report that young female shrimp carrying their first clutch of eggs tend to drop some or all of the eggs, possibly due to inexperience or small size.[10] If a berried shrimp is stressed by predators or poor water conditions she may also abandon the eggs.[11]
They have 20–30 eggs, which take 2–3 weeks to hatch. The eggs are green or yellow, depending on the color of the saddle. They turn darker and darker until the young shrimp hatch after about three weeks. As the eggs near the end stages of growth, tiny dark eye spots of the developing shrimp within can be observed. When the young hatch, they are tiny (~1 mm) copies of the adults. They have no planktonic larval stage. They spend their first few days of life hiding among plants or stones, where they are almost invisible, nibbling on the biofilm on the plants. They then emerge and graze on algae on tank surfaces and ornaments.
Female shrimp, under ideal conditions, can breed again within a few days of hatching the previous clutch.
Tank mates
In their natural environment, N. davidi shrimp are primary prey. When kept in an aquarium, they are easily targeted by fish as potential food. Even fish too small to eat them may harass them and stress them to death, sometimes biting off limbs. For best results, breeding should take place in isolation. Small, non-aggressive fish such as the harlequin rasbora, neon tetra, cardinal tetra, dwarf corydoras, otocinclus catfish, dwarf gouramis though these may predate if aggressive, platy (or peaceful livebearer relatives like the endler’s livebearer or guppy), and some species of killifish can be kept with adult N. davidi shrimp. However, baby shrimp are very likely to be eaten by any fish other than the otocinclus. Most cichlids, including angel fish, will harass and readily eat adults as well. These dwarf shrimp will also be consumed by Australian rainbowfish and other large specimens of fish. With enough cover and hiding places (live plants such as Java moss work well), one can have a colony of N. davidi shrimp survive in a tank with larger fish preying on them. It is commonly suggested that one lets the shrimp reproduce a few generations/build up numbers before fish are added.
Availability
The N. davidi shrimp has become widely available in North America, Europe, Asia, and Australia. These shrimp can be purchased from online fish stores, at aquarium stores, and from private breeders—especially through local aquarium societies. There are also many similar Neocaridina species of different color and markings that require the same conditions, these include fire reds, snowballs, blue pearls, rili shrimp, yellow shrimp, and wild types. Some species will hybridize, while variants within the same species will interbreed. Neocaridina shrimp can have similar colors due to different selective breeding processes. Cross-breeding different variations from different lineages (e.g. blues from the red line with blues from the blue line or brown line) is advised against as most young from such pairings revert to wild coloration. Cross-breeding differently colored shrimp from the same lineage (e.g. blue shrimp from the red line with red and clear shrimp from the red line) will not result in reversions to the wild coloration. Therefore, great care must be taken to establish the lineage of shrimp before crossing variants.
Varieties
N. davidi have a wide range of colors as a result of selective breeding. Some colors are the mixtures of the chromatophores; xanthophores (yellow/orange), erythrophores (red/orange), iridophores (blue), leucophores (white), and melanophores (black/brown).
- Red - Red is the most frequently sold morph. The red color of the shrimp is caused by the presence of erythrophores.
- Yellow - The yellow color of the shrimp is caused by the presence of xanthophores.
- Blue - Blue shrimp are caused by the presence of iridophores which reflect blue light.
- Green - Green shrimp is caused by the mixture of iridophores (that reflect blue light) and xanthophores.
- Violet - Violet shrimp is caused by the mixture of iridophores (that reflect blue light) and erythrophores.
- Chocolate - Melanophores that are a dark brown shade are present in this shrimp. Though erythrophores or xanthophores can contribute to the brown or chocolate color of the shrimp.
- Black - Black melanophores are present in this shrimp.
- White - White shrimp are caused by the presence of leucophores.
- "Ghost" - "Ghost" shrimp don't have any pigment at all so they appear transparent.
- Red Cherry
- Super Yellow
- Orange Rili
- Blue Diamond
- Red Rili
- White Snow Ball
- Choco Black Shrimp
References
- "Neocaridina davidi".
- Weber, Sebastian; Traunspurger, Walter (2016). "Influence of the ornamental red cherry shrimp Neocaridina davidi (Bouvier, 1904) on freshwater meiofaunal assemblages". Limnologica - Ecology and Management of Inland Waters. 59: 155–61. doi:10.1016/j.limno.2016.06.001.
- Liang, X., 2002b. On new species of atyid shrimps (Decapoda, Caridea) from China.— Oceanologia et Limnologia Sinica 33: 167-173.
- "WoRMS - World Register of Marine Species - Neocaridina heteropoda Liang, 2002".
- "Grading System for Cherries? - the Planted Tank Forum".
- Früh, Andrea (April 11, 2013). "Neocaridina heteropoda jetzt Neocaridina davidi" [Neocaridina heteropoda now Neocaridina davidi] (in German).
- Klotz, Werner; Karge, Andreas (2013). "Gattung Neocaridina Kubo, 1938" [Genus Neocaridina Kubo, 1938]. Süßwassergarnelen aus aller Welt [Freshwater shrimp from all over the world] (in German) (3rd ed.). pp. 131–6. ISBN 978-3935175-90-6.
- http://aquariumsandfishes.com/451/red-cherry-shrimp/%5B%5D Archived 2015-10-12 at the Wayback Machine
- http://www.theshrimpfarm.com/articles/cherry_shrimp_breeding.php Archived 2013-09-21 at the Wayback Machine
- http://www.planetinverts.com/shrimp_reproduction.html%5B%5D
- "Red Cherry Shrimp repeating dropping eggs - the Planted Tank Forum".
Further reading
- Pantaleão, João Alberto Farinelli; López-Greco, Laura S; Alves, Douglas F. R; Barros-Alves, Samara de P; Negreiros-Fransozo, Maria Lucia; Tropea, Carolina (2015). "Nutritional vulnerability in early stages of the freshwater ornamental "red cherry shrimp" Neocaridina davidi(Bouvier, 1904) (Caridea: Atyidae)". Journal of Crustacean Biology. 35 (5): 676–81. doi:10.1163/1937240X-00002357.
- Wang, Hong-wei; Xu, Hai-Ming; Xiao, Guo-hua; Zhao, Chun-Long; Wang, Zi-hui; Cai, Duan-bo; Li, Hong-Quan; Zhao, Jian-hua (2009). "Effects of Selenium on the Antioxidant Enzymes Response of Neocaridina heteropoda Exposed to Ambient Nitrite". Bulletin of Environmental Contamination and Toxicology. 84 (1): 112–7. doi:10.1007/s00128-009-9911-5. PMID 19924364.
- Wang, Hong-Wei; Cal, Duan-Bo; Xiao, Guo-Hua; Zhao, Chun-Long; Wang, Zi-Hui; Xu, Hai-Ming; Guan, Yue-Qiang (2009). "Effects of Selenium on the Activity of Antioxidant Enzymes in the Shrimp, Neocaridina heteropoda". Israeli Journal of Aquaculture. 61 (4): 322–9. hdl:10524/19298.
- Tropea, Carolina; Stumpf, Liane; López Greco, Laura Susana (2015). "Effect of Temperature on Biochemical Composition, Growth and Reproduction of the Ornamental Red Cherry Shrimp Neocaridina heteropoda heteropoda (Decapoda, Caridea)". PLOS One. 10 (3): e0119468. Bibcode:2015PLoSO..1019468T. doi:10.1371/journal.pone.0119468. PMC 4359132. PMID 25768918.
- Sonakowska, Lidia; Włodarczyk, Agnieszka; Poprawa, Izabela; Binkowski, Marcin; Śróbka, Joanna; Kamińska, Karolina; Kszuk-Jendrysik, Michalina; Chajec, Łukasz; Zajusz, Bartłomiej; Rost-Roszkowska, Magdalena Maria (2015). "Structure and Ultrastructure of the Endodermal Region of the Alimentary Tract in the Freshwater Shrimp Neocaridina heteropoda (Crustacea, Malacostraca)". PLOS One. 10 (5): e0126900. doi:10.1371/journal.pone.0126900. PMC 4440751. PMID 25996951.
- Sonakowska, Lidia; Włodarczyk, Agnieszka; Wilczek, Grażyna; Wilczek, Piotr; Student, Sebastian; Rost-Roszkowska, Magdalena Maria (2016). "Cell Death in the Epithelia of the Intestine and Hepatopancreas in Neocaridina heteropoda (Crustacea, Malacostraca)". PLOS One. 11 (2): e0147582. Bibcode:2016PLoSO..1147582S. doi:10.1371/journal.pone.0147582. PMC 4741826. PMID 26844766.
- Yu, Yan-Qin; Yang, Wei-Jun; Yang, Jin-Shu (2013). "The complete mitogenome of the Chinese swamp shrimp Neocaridina denticulata sinensis Kemp 1918 (Crustacea: Decapoda: Atyidae)". Mitochondrial DNA. 25 (3): 204–5. doi:10.3109/19401736.2013.796465. PMID 23795841.
- Pantaleão, João A F; Gregati, Rafael A; Da Costa, Rogério C; López-Greco, Laura S; Negreiros-Fransozo, Maria L (2017). "Post-hatching development of the ornamental 'Red Cherry Shrimp' Neocaridina davidi (Bouvier, 1904) (Crustacea, Caridea, Atyidae) under laboratorial conditions". Aquaculture Research. 48 (2): 553–69. doi:10.1111/are.12903.
- Wang, Hong-Wei; Cai, Duan-Bo; Zhao, Chun-Long; Xiao, Guo-Hua; Wang, Zi-Hui; Xu, Hai-Ming; Yang, Li-Kun; Ma, Liang; Ma, Jin-Liang (2010). "Effects of Dietary Manganese Supplementation on Antioxidant Enzyme Activity in the Shrimp (Neocaridina heteropoda)". Israeli Journal of Aquaculture. 62 (2): 78–84. hdl:10524/19312.