Aquarium (refers to the public aquarium, public aquarium) is defined as follows: aquarium is aquatic organisms breeding display and popularization of science education, but also aquatic biological resources protection and scientific research. Aquarium can specialize in marine life or freshwater organisms, can also be raised; both for viewing or popularization of scientific knowledge of the public **** aquarium, but also for scientific research and teaching dedicated aquarium. Including the so-called "underwater world", "polar ocean world" also belongs to the aquarium. The name "aquarium" is also often used in some aquarium stores.

Basic introduction Chinese name ：aquarium Foreign name ：aquarium;?aquaria Pinyin ：shuǐ zú guǎn Definition ： Institution ： Historical development, prototype, development, completion, outlook, breeding species, rearing of organisms, requirements for rearing, quality of rearing water, feeding of bait, hard facilities, selection of site, tanks, and other facilities, as well as the use of aquariums. Site Selection,Tank Design,Other Concepts,Screen Protection,Mobile Games,Other Games,Japanese Manga, Historical Development Initial Development The Sumerians are known to be the earliest fish farmers, at least 4,500 years ago they built ponds to raise fish; records of fish farming can also be traced back to Ancient Egypt and Ancient Assyria. The Chinese, who raised carp for food as early as 1000 B.C., were probably the first to achieve success in fish farming, and their method of selective breeding of ornamental goldfish was later introduced to Japan. In Japan, the breeding of ornamental carp was perfected. The ancient Romans, who raised fish for food and pleasure, were the earliest known depositories of saltwater organisms; they built fishponds and filled them with fresh seawater. Although England was able to keep goldfish in glassware as early as the mid-17th century, aquarium fishkeeping was not established until a century later, when the relationship between oxygen and plants and animals was understood. Aquariums Development By 1850, the keeping of fish, amphibians and reptiles was useful for the study of nature. The term aquarium first appeared in the writings of British ornithologist Philip Gosse. His writings and those of others sparked public interest in aquatic life. The world's first aquarium for exhibitions opened to the public in Regent's Park, England, in 1853. Later, the Berlin Aquarium, the Naples Aquarium, and the Paris Aquarium were established. Circus founder Barnum (P. T. Barnum) recognized the possibility of commercial use of live aquatic animals, in 1856 in the United States, the Museum of New York opened the first private aquarium for exhibition purposes. By 1928, there were 45 public or private aquariums around the world***, after which the development slowed down until after World War II when several new large aquariums appeared. In Asia, the first aquarium was built in 1930, when the Qingdao Aquarium in China was established on the initiative of Cai Yuanpei, Yang Xingfo, and others, relying on community fundraising. Finish Do Many cities around the world have public as well as commercial aquariums. Another category of aquariums is those that are primarily for scientific research, the most famous of which are the Naples Aquarium, the Aquarium of the Oceanographic Institute of Monaco, the Plymouth Aquarium at the Marine Biological Station in Plymouth, England, and the Aquarium of the Scripps Institution of Oceanography in La Jolla, California. There is also a category of aquariums that are temporary aquariums used for exhibits at world fairs and exhibitions. Aquariums SeaWorld Florida (Marineland), the first large marine aquarium, opened to the public in 1938 as a private enterprise; it featured giant fish tanks and trained dolphins. Sea World of the Pacific in Palos Verdes, California, and the Marine Aquarium in Miami are similar. The special value of this type of aquarium lies in its giant tanks, each with a capacity of one million gallons, in which fish of all kinds are stocked and not separated. In formal aquariums, such as the Shedd Aquarium in Chicago, the different species of fish are separated. By 1970, the World Aquarium List contained 468 aquariums. The goldfish and tropical fish kept in aquariums are not only ornamental, but also used as experimental materials for medicine, genetic selection, fish breeding, radiobiology and environmental protection. Large-scale breeding pools can not only domesticate dolphins for a variety of exciting performances, but also domesticate dolphins as "underwater patrols" to protect the offshore fish stocks. The world's marine fish resources are becoming increasingly depleted, seawater aquariums are becoming increasingly important experimental bases to carry out artificial fertilization of a variety of fish hatchery fry to improve the efficiency of aquatic animal breeding. modern public **** large aquarium U.S. Baltimore Aquarium: built in 1981. Total water storage capacity of 5680 tons, of which the dolphin pool for 982 tons, large fish tank for 836 tons, fish ring tank for 190 tons, seal pool for 266 tons, breeding animals more than 5000 species. (Seawater type) Ocean Park Aquarium, Hong Kong: Built in 1977. It is equipped with a three-dimensional oval-shaped large tank with a storage capacity of 2,000 tons, keeping 200 species of fish, 30,000 of them. Sea animal show pool storage capacity of 1,500 tons, there are giant seawater pools to keep sea lions, seals and so on. (There are two types of seawater and fresh water.) Enoshima Aquarium, Japan: Built in 1957. Its water capacity: 5,000 tons of large sea animal pools, seawater tanks for 94 tons, freshwater tanks for 15 tons. There are 368 kinds of animals and 7217 of them are kept. (There are two types of seawater and freshwater.) Japan Tokai University Marine Science Museum Aquarium: Built in 1956. There are three-dimensional prismatic large tanks with a capacity of 600 tons, keeping 60 species of fish, 3,000 tails; 31 ordinary tanks, keeping warm and cold water marine fish and freshwater fish 2,000 tails; 12 cylindrical tanks, keeping tropical coral reef fish. (for both saltwater and freshwater) Breeding Species Aquarium Sea Animals including dolphins, killer whales, pseudo-killer whales, seals, sea lions, walruses, and fur seals are the focus of major aquariums around the world. Sea animals can do a variety of wonderful performance after training, is the audience's favorite animals. Breeding sea animals must have a large breeding pool, and must often wash and replace the seawater to avoid contamination of the water quality of the sea animal feces. Since the sea animals are not very strict on the water quality requirements, it can be treated with chemical methods, such as chlorine disinfection (but chlorine can kill fish) can control bacteria and improve the transparency of the water. In the mainland, whales and dolphins can be kept in artificially prepared seawater, a 2% sodium chloride solution will do. Seals and sea lions can also be kept in fresh water. Aquarium Showgrounds Animal Breeding Many large aquariums around the world have been successful in breeding dolphins and seals. The spotted seals kept at the Qingdao Aquarium were bred to a third generation by 1986. General freshwater tropical fish are bred in the aquarium. China has used aquariums to carry out artificially fertilized hatchery nurseries for shrimp, seabream, red-finned oriental triggerfish and tooth flounder, and has been successful in doing so. Breeding of marine tropical fish is also being explored. Fish Disease Treatment and Prevention Aquariums recycle water, and if it is not filtered properly, fish diseases can spread throughout the aquarium in the event of an outbreak. Freshwater fish diseases have been studied in depth and treated effectively, but marine fish diseases have only been developed and many treatments are still in the exploratory stage. Aquarium fish disease should focus on prevention, one to maintain clean water, remove debris in a timely manner, so as not to breed bacteria and infected fish disease; two to maintain a suitable water temperature, adequate oxygen, so as not to fish because of the discomfort of the water temperature or lack of oxygen and caused by the disease; three to bait fresh, feed the right way to keep the fish have enough nutrients to make the growth and development of the normal, enhance the resistance to disease. The newly caught fish should be isolated and observed in the holding tank first. Especially for foreign or elsewhere animals must be strictly quarantine, prove that no disease can be put into the rearing pool. The rearing pool should be thoroughly sterilized before stocking. Common marine fish diseases in aquariums include external fish body injury, seawater white spot disease, oomycetes, vibriosis, Schistosoma monocytogenes and ocular herniation. In order to prevent the harm of fish disease must be found as early as possible and make a correct diagnosis and effective treatment. The methods of drugging include whole pool splashing, short time dipping and washing, localized rubbing, animal oral and injection. Commonly used drugs are copper sulfate, ferrous sulfate, potassium permanganate, bleaching powder and antimicrobials. Some seawater parasitic diseases are also effective with freshwater baths. Aquarium Plants In freshwater aquariums,Aquarium ① can beautify the aquarium; ② absorb the carbon dioxide exhaled by the fish and release oxygen; ③ absorb the bacterial decomposition of fish excreta and purify the water; ④ can be used as a fish egg attachment and frightened young fish hiding place; ⑤ some of the young parts can be used to protect the aquarium and the aquarium. ⑤ The young parts of some aquatic plants can be used as supplementary food for herbivorous fish. Water plants commonly planted in Chinese tropical fish aquariums include: water fern, i.e., chrysanthemum grass, crown grass, goldenrod, willowherb, pagoda grass, wire grass, pipal grass, and deer horn grass. Goldfish aquariums often planted water plants are: water bamboo leaves, river red, locust leaf pimples, foxtail algae, bitter grass and black algae. Foxtail algae is often used as a goldfish spawning bed. The types and significance of cultivating seaweeds in circulating seawater aquariums and tanks are still in the exploratory stage. Cultivation of seaweeds should consider the conditions of water flow, light and temperature. Algae that can survive for more than 45 days in aquariums have been tested, such as seaweed, ferns, pine algae and scleractinia. Sea animal pool should not plant seaweed. Some seaweeds, such as water clouds in the summer in the sea animal pool reproduction is very fast, such as not sprinkled lime water or copper sulfate liquid removal, 3 days can make the sea animal pool turbid seawater, so that people can not see the animals. Bio-feeding rearing requirements large aquarium design must take into account the requirements of each species; especially because modern aquarium exhibits include a variety of aquatic organisms; mammals, birds, reptiles, amphibians, invertebrates and fish. Among the many factors that must be considered are visitor flow patterns, glass reflections, acoustics, and tank stocking issues such as water clarity, dissolved feces, temperature, tank decoration, disease treatment, and nutrition. The main requirement for stocking aquatic organisms is the quality of the water. Pollutants, such as sewage and industrial wastes, are not allowed in the water source; the gases in the water must be in balance with the atmosphere to ensure that there is sufficient oxygen in the water; and nitrogen oversaturation is avoided. In recirculation systems, water is treated to ensure not only the clarity of the water, but also the purification of the excreta. Freshwater sources usually have to have the water supply filtered with charcoal or put into chemicals to remove chlorine and other additives from it. Marine organisms may be stocked in natural or artificial seawater. Artificial seawater has the advantage of being free of disease-causing organisms and contaminants, but may be less suitable for some organisms. Aquariums There are basically 3 methods of water supply: open, closed and semi-closed. In an open water supply system, the water is disposed of as it flows through the tank, the quality of the water is close to that of the natural environment, and toxic metabolic excretions do not accumulate; however, temperature control and pumping are more expensive, and filtration is often required. The water in a closed water supply system is repeatedly circulated and only periodically changed. Excreta cannot be continually flushed out of the system and must be treated. An important issue is that the ammonia must be removed or transformed quickly, since it is harmful even at very low concentrations. In water tanks, the bacteria that convert ammonia to nitrite live mainly in the filter material. Sandy slow filters with a large surface area are usually used to ensure that these bacteria are present in large numbers. Plant growth in water closets, especially in seawater supply systems, usually does not fully utilize all of the nitrate that the bacteria produce from nitrite. Although some water closets have had very few water changes over the years, they generally require 1 to 10% water changes per month to keep nitrates low. The use of charcoal in freshwater and saltwater water supply systems helps to slow the buildup of nitrogenous wastes. Excreta also contribute to increased acidity in the water. Carbonate compounds are usually applied to keep acidity at optimum levels, especially when water changes are infrequent. A semi-closed water supply is essentially the same as a closed system, but with a fixed connection to the water source, new water is added regularly to control the problem of dissolved wastes, and it is less expensive than an open water supply in terms of controlling the water temperature and pumping. There is a wide range of filters, from simple flow-through systems to fully automated recirculation systems with specialized equipment to monitor the various physico-chemical properties of the water. The rate of water replacement in each water closet is important and should be no more than two hours. They should also be equipped with devices for aeration by means of blowers to prevent fish suffocation in the event of an unplanned interruption of the water supply. Fish and invertebrates can also be stocked without filtration or aeration in water closets that are in equilibrium with plants; however, equilibrium between plants and animals on a large scale is extremely difficult to obtain, even in water closets that are stocked normally, and especially in seawater water closets. Freshwater tanks stocked with mammals and birds have even more special problems. They usually require higher filtration rates and greater filtration capacity because of the large amount of fecal matter that accumulates in these areas. Air-breathing animals, however, are not very sensitive to water quality; therefore, chemical treatments such as chlorination, which kills fish, can be used to control bacteria and modify the clarity of the incoming water. Artificial seawater is simpler; for example, seawater containing 2% sodium chloride can be used to feed whales and dolphins. Seals and sea lions have been kept in fresh water, but the incidence of eye disease increases due to the osmotic effect of fresh water on eye tissue. Aquariums Keeping Water Quality Different species of aquatic animals have certain requirements for water temperature, dissolved oxygen, pH, salinity and hardness. Water Temperature Various aquatic animals require different water temperatures for growth, development, and reproduction. For example, tropical fish feeding water temperature can not be lower than 20 ℃, breeding water temperature should be maintained at about 25 ℃; goldfish can be adapted to 15 ~ 30 ℃ water life, but the fastest growth at about 20 ℃, the goldfish limit of low temperature of 1 ℃, the highest for the 38 ℃, more than this limit will die. Marine fish can be divided into cold-water species, warm-water species and warm-water species according to their requirements for water temperature. Cold water species include frigid species (temperature 0 ℃ or so) and sub-frigid species (temperature 0 ~ 4 ℃); warm water species include cold temperature species (temperature 4 ~ 12 ℃) and warm species (temperature 12 ~ 20 ℃); warm water species include sub-tropical species (temperature 20 ~ 25 ℃) and tropical species (higher than 25 ℃). Most of the fish kept in Qingdao Aquarium belong to warm species, the temperature difference needs to be controlled between 0.5 to 1.5 ℃, below or above the appropriate temperature of 5 ℃, will die. Dissolved Oxygen aquatic animals themselves consume oxygen, the decomposition of their excreta also consume oxygen, due to the limited amount of water storage, should be prevented from feeding water hypoxia. Such as goldfish require more than 5 milliliters of dissolved oxygen per liter, such as less than 1 milliliter per liter, will be floating head or suffocation; cold water species of rainbow trout require more than 7 milliliters of dissolved oxygen per liter, such as less than 3 milliliters per liter, will die. Generally, the higher the water temperature, the lower the dissolved oxygen content, as the tropical fish temperature is generally above 20 ℃, more should prevent hypoxia. In order to prevent hypoxia, the oxygen content should be measured on time, and the excreta and food residues of fish should be removed in time. If hypoxia is found, it is necessary to speed up the water circulation or increase the amount of water replacement or use a pump to fill up the oxygen, or even use an oxygen cylinder to deliver oxygen. Acidity and alkalinity There are few factors affecting pH elevation in fish pond water, the most important of which is the ratio of free carbon dioxide to the amount of bicarbonate. The more carbon dioxide, the lower the pH value. The vast majority of tropical fish live in weakly acidic water, and the optimum value varies from species to species, generally ranging from 6.0 to 7.0. When tropical fish reproduce, they are often unable to spawn or hatch due to changes in pH, so it is necessary to adjust the pH value at any time. Goldfish and marine fish are generally suitable for pH 7 to 8.5 neutral or alkaline water, pH less than 7 will stop activities, reduced feeding, and floating head; too high, the fish are easy to die. Salinity Saltwater fish can adapt to higher salinity (10-47‰), freshwater fish can only adapt to very low salinity (0.2-0.5‰), wide salinity of goby and a kind of elasmobranch, can live in pure freshwater, but also can live in the salinity of 6‰ of seawater. Many narrowly saline fishes, however, often cannot tolerate slight changes in salinity, e.g., many perch fishes inhabiting coral reefs can only tolerate salinity changes of less than 1/1000th of a degree. Sudden changes in salinity are an important cause of mortality in narrowly saline fish. In addition to chemical analysis, salinity can also be measured by a hydrometer and then converted. The hardness of water is determined primarily by the amount of metal ions present. Most tropical fish require soft water to thrive. The main reason for the increased hardness of water in an aquarium is the increase in bicarbonate content due to continuous evaporation of the water. High hardness water can be diluted with distilled water; or by boiling the water and settling it for more than two days and nights, utilizing the upper 2/3 of the water; or by passing it through an ion exchange column in order to reduce the salts, etc. Tropical fish are not as sensitive to changes in water hardness (increase) as they are to changes in temperature (decrease); and some species native to low-hardness water, such as the mapfish (Astronotus ocellatus), can live in higher hardness water after prolonged rearing. However, some tropical fish cannot spawn without adjusting the hardness of the water to a suitable level when breeding, and some cannot hatch their young even if they do spawn. Bait feeding According to different feeding habits, fish can be divided into carnivorous, vegetarian, omnivorous and planktivorous categories. All kinds of fish should be fed with food as close to their natural diet as possible. Carnivorous fish are easier to feed, and can be fed with fish, shrimp, crab meat and other food. Live fish as bait can be easily infected with germs, so it is safer to feed them after refrigeration. It should be warmed up to aquarium temperature before feeding, and also cut into pieces. For plankton-eating fish, feed chopped fish meat, daphnia, redworms, and bounty worms. Live, frozen or dried and refrigerated are fine. Fish that eat only plants or both can be fed green beans, spinach, seaweed, freshwater algae and yeast. Most marine fish kept in aquariums are predatory. In addition to some fish in about 10 days after stocking can gradually ingest a small amount of dead bait, generally need to go through more than 20 days of domestication to gradually adapt to eat dead bait. Usually, we start to throw dead bait after 4-5 days of stocking, in order to induce their appetite, so that a small amount of ingestion of dead bait, and gradually change their habits. The feeding method can make a small amount of food sink slowly, or pull it with a line to make it like a movable object for the fish to feed on. Feeding should not be too much, so as not to cause indigestion; leftover food should be removed in a timely manner, so as not to pollute the water quality. Predatory fish can be fed once a day, coral reef fish should be fed several times a day, but each time the amount should be less. Be patient when feeding, wait for the fish to swallow before baiting. Use mixed bait to ensure the nutritional needs of the fish. Predatory fish can avoid indigestion by fasting 1 to 2 days per week. Mix fish that eat only a single food with omnivorous fish so that the former will accept other foods as well. Fish that are not big eaters can be mixed with fish that are very avid eaters, so that the former will compete with the latter for food. If you mix fast-feeding fish with slow-feeding fish, let the fast-feeders eat first and then feed the slow-feeders. Hardware Facilities Site Selection In addition to beautiful scenery and convenient transportation, the site of the aquarium should be selected so that there is no industrial or urban sewage in the place where the water is taken, and the water taken from the seawater aquarium should not be inflowed by the river; freshwater aquariums should be built on the lakeshore or riverside so that water can be taken; otherwise, tap water or well water can be used but some of them have to be processed before they are ready to be used. Aquarium design Aquarium-type buildings began earlier in China, such as Wang Xiangjin in the "Erru Ting Qunfang Spectrum" in: the Yuan Dynasty Yan Timur (around 1330) "in the middle of the first Crystal Pavilion, Pavilion four walls of the crystal hollowing, storage of water to raise the five-color fish in which". The earliest containers designed specifically for aquatic life is the Romans used to preserve and feed the fish fertilizer to supply the market tight practical outdoor tanks, until the 18th century, for the art of ornamental goldfish from the East into France, there is a requirement for the establishment of small aquariums; the manufacture of ceramic tanks, and occasionally fitted with a transparent cross-section. 1850 ~ 1880 years, in many European cities to build a large-scale public aquariums are efforts to make the viewers the illusion of being in an underwater world. The tendency was to emphasize the natural beauty of each species and to tend to create a clear distinction between the water and the viewing site. Aquarium Water tanks of all sizes, from small tanks that hold less than a gallon of water to huge tanks that hold a million gallons, must be carefully crafted; many substances, especially plastics and adhesives, while non-toxic to humans, are poisonous to the animals that breathe in the water. Although polyethylene, polypropylene, plexiglass (Plexiglas), and hydrofluorocarbon plastics are also generally non-toxic, perhaps the safest basic material is glass. Fiberglass has been widely used and, if properly formulated, is not toxic. Adhesives for sealing are epoxy resins, polyvinyl chloride, silicone rubber (except for some colored products), and neoprene. Metals are usually not used, especially in seawater, which is very corrosive. Stainless steel, however, is often used because of its low toxicity, especially in freshwater installations. Smaller tanks may be made entirely of glass, eliminating the need for a support frame with silicone rubber as the adhesive. With the exception of the largest tanks, perhaps the most practical support material for all types of tanks is fiberglass, which is light and strong, does not deteriorate, and can be easily worked into any shape. Although wood is widely used, it is susceptible to rot and insects and must be protected. Reinforced concrete, including specially formulated mixes for use in saltwater, is the primary support material used in the construction of large aquariums. In modern aquariums, tanks of various sizes and shapes are often placed together to avoid the "fish box" appearance often found in older, more formal aquariums. Three-dimensional sets at the rear of the tanks create the illusion of distance; the tanks may be located in natural environments, or they may be filled or coated with fiberglass to mimic all environments. Modern aquariums attempt to indicate the natural habitat of the various fish species on display. Ground plate glass, tempered ground plate glass, and Plexiglas are commonly used as light-transmitting materials. Polished plate glass is usually only used in small aquariums because it breaks into large sheets when it weakens. It is common practice to outfit large tanks with 2 or 3 layers of tempered glass, so that even if it breaks, it is limited to one layer of glass. Plexiglass is susceptible to scratches and scuffs, but can be resurfaced. Attachments to the tank usually include filters, air pumps, lights, electronically thermostatically controlled immersion heaters, or other cooling devices. In an aquarium, the tanks are usually kept together and thus may have filters and temperature controls for ****. Water sterilizers may also be included. In large aquariums with multiple systems, indoor plumbing is sometimes complex, involving a variety of automatic controls and water quality monitoring systems. Glass fittings (e.g., those used to aerate and circulate water in the aquarium) are used only when low toxicity must be guaranteed because of their high cost and fragility. Unenhanced polyvinyl chloride tubing is widely used. Fiberglass pipes and asbestos pipes lined with epoxy resin are also sometimes used, but lead pipes and hard rubber pipes have been abandoned. The growth of silt-causing organisms, such as mussels and barnacles, can be avoided by using a double set of pipes, one set of which is activated every other week, and the few organisms in the pipes die when they dry out and are flushed out when the pipes are activated again. In terms of toxicity, non-metallic pumps or pumps lined with plastic are better than metal pumps, but usually stainless steel pumps are more compatible. Pneumatic pumps (such as those used in fine sand filters for domestic tanks) pump large quantities of water when the pipe diameter is large enough. Aquariums Typically, the most effective lighting is incandescent lights located above the front glass. Fluorescent lamps provide even illumination but may be too bright for the four walls of the tank; colored lamps emphasize natural colors; and mercury lamps promote the growth of marine plants as quickly as possible. Keeping some aquatic plants in the water closet has practical value, although the presence of plants in the water closet can create complications. Aquatic plants absorb dissolved oxygen and excrete carbon dioxide; under the influence of bright light, plants also absorb carbon dioxide and excrete oxygen as they photosynthesize. In turn, fish excrement forms fertilizer or food for the plant, which is absorbed by the plant. This effect is fully realized as long as a certain intensity of light hits the plant. It is generally accepted that within a watercloset, animals and plants can balance each other in the respiration process, which is often called a balanced watercloset. Other Concepts Screen Protection Aquarium Screensaver SereneScreenMarineAquarium is the famous tropical fish aquarium screen protection program, which has won many software awards, in many of the software download site's ranking is also at the top of the list, and even this screensaver has been included by Microsoft in its WinXPPlusPack. In addition to all the amazing features of MarineAquarium 2.0, MarineAquarium 2.6 also includes support for multiple monitors, wide screen displays, and customizable screen ratios, as well as two new fish you'll love, the Spotted Demoiselle and the Chicken Heart Inverted Fish, for a total of 28 fish species. Mobile Games Game Info Set Category: Other Games Set Developer: Louis-Philippe Pinsonneault Set Size: 3.28 MB Set Version: 1.0.0.0 Set Language: English Genuine Price: $0.00 Supported platforms: WinMobile 7.1 Game Description This application will help you track and keep track of your aquarium (this version is saltwater, freshwater program). You can keep track of fishs, corals, rocks that you have in your saltwater aquarium. You can also track water parameters and water modifications. This version is for Windows Phone 7.5 (Mango). Roadmap (future features): - Add graphical display history - Add support for freshwater - Add support for pictures of aquariums, fish, corals, rocks, etc... - Add tools such as water volume calculator Game Screenshots Game Screenshots Other Games Game Info Game Name: Aquarium Game Original name: Aquarium by DS Game type: SLG Aquarium Game origin: USA Publisher: BOLD Game capacity: 64 Archive type: Eeprom - 64 kbit Game language: English Game graphics: 2D Game platform: NDS Game content The Aquarium is an underwater animal breeding game produced by American game maker BOLD. In the game, players raise their own tropical fish, to create a personalized aquarium to form a beautiful landscape. In the game, the player plays the role of a tropical fish breeder, according to the player's different "care" raised tropical fish will have different personalities, of course, if you are a little sloppy or not enough attention to the consequences can be imagined. Japanese Manga One of Anda Chon's short series, his work needs no introduction! Jinpei is a middle-aged man nearing 40, and his daughter, whom he takes great care of, is also 18 years old Love Manga makes you fall in love with manga, and what interesting things will happen to this father and daughter who are not related by blood ..... Manga Table of Contents Aquarium 1992.06.20 Episode 01: Goalkeeper 1993.06.20 Episode 02: Strong Enemy 1994.02.20 Episode 03: Two Daughters 1994.08.20 Episode 04: Summer Chronicles 1995.03.20 Episode 05: Dreams for the Future 1996.03.20 Episode 06: Graduation Trip 1997.03.20 Episode 07: Fathers and Daughters