Dolphins are social, living in pods (also called "schools") of up to a dozen individuals. In places with a high abundance of food, pods can join temporarily, forming an aggregation called a superpod; such groupings may exceed a thousand dolphins. The individuals communicate using a variety of clicks, whistles and other vocalizations. They also use ultrasonic sounds for echolocation. Membership in pods is not rigid; interchange is common. However, the cetaceans can establish strong bonds between each other. This leads to them staying with injured or ill individuals, even actively helping them to breathe by bringing them to the surface if needed.[16] This altruistic behaviour does not appear to be limited to their own species however. A dolphin in New Zealand that goes by the name of Moko has been observed to seemingly help guide a female Pygmy Sperm Whale together with her calf out of shallow water where they had stranded several times.[17] They have also been known to seemingly protect swimmers from sharks by swimming circles around the swimmers[18][19] or charging the sharks to make them go away.[citation needed]


Dolphins are often regarded as one of Earth's most intelligent animals, though it is hard to say just how intelligent dolphins are, as comparisons of species' relative intelligence are complicated by differences in sensory apparatus, response modes, and nature of cognition. Furthermore, the difficulty and expense of doing experimental work with large aquatics means that some tests which could yield meaningful results still have not been carried out, or have been carried out with inadequate sample size and methodology. Compared to many other species however, dolphin behaviour has been studied extensively by humans, both in captivity and in the wild. See the cetacean intelligence article for more details.


In 1933, three strange dolphins were beached off the Irish coast; these appeared to be hybrids between Risso's Dolphin and the Bottlenose Dolphin.[3] This mating has since been repeated in captivity and a hybrid calf was born. In captivity, a Bottlenose Dolphin and a Rough-toothed Dolphin produced hybrid offspring.[4] A Common-Bottlenose hybrid lives at SeaWorld California [5] Various other dolphin hybrids live in captivity around the world or have been reported in the wild, such as a Bottlenose-Atlantic Spotted hybrid.[6] The best known hybrid however is the Wolphin, a False Killer Whale-Bottlenose Dolphin hybrid. The Wolphin is a fertile hybrid, and two such Wolphins currently live at the Sea Life Park in Hawaii, the first having been born in 1985 from a male False Killer Whale and a female Bottlenose. Wolphins have also been observed in the wild.[7]


Dolphins are marine mammals that are closely related to whales and porpoises. There are almost forty species of dolphin in seventeen genera. They vary in size from 1.2 m (4 ft) and 40 kg (90 lb) (Maui's Dolphin), up to 9.5 m (30 ft) and 10 tonnes (9.8 LT; 11 ST) (the Orca or Killer Whale). They are found worldwide, mostly in the shallower seas of the continental shelves, and are carnivores, mostly eating fish and squid. The family Delphinidae is the largest in the Cetacea, and relatively recent: dolphins evolved about ten million years ago, during the Miocene. Dolphins are considered to be amongst the most intelligent of animals and their often friendly appearance and seemingly playful attitude have made them popular in human culture.


Until recently only a few benthic species of shark, such as hornsharks, leopard sharks and catsharks had survived in aquarium conditions for up to a year or more. This gave rise to the belief that sharks, as well as being difficult to capture and transport, were difficult to care for. A better knowledge of sharks has led to more species (including the large pelagic sharks) being able to be kept for far longer. At the same time, transportation techniques have improved and long distance movement of sharks is becoming easier.[54] One shark that never had been successfully held in captivity for long was the great white. But in September 2004 the Monterey Bay Aquarium successfully kept a young female great white shark for 198 days before releasing her back into the wild.

Most species of shark are not suitable for domestic aquaria and not every species of shark sold by pet stores make good inhabitants for personal aquaria. Some species of sharks can also be kept well in home saltwater aquaria.[55] Uninformed or unscrupulous dealers sometimes sell juvenile sharks like the nurse shark, which upon reaching adulthood will have far outgrown typical home aquaria.[55] Public aquaria are generally not interested in accepting donated specimens that have overgrown their housing and some shark owners have been tempted to release them into the wild.[55] Species appropriate to home aquaria represent considerable spatial and financial investments as they generally approach adult lengths of 3 feet and can live up to 25 years.[55]


All sharks are carnivorous and many people believe that sharks will eat just about anything; for a few species, such as the tiger shark, this is true. The vast majority of sharks, however, are far more specialised for particular prey items, and rarely stray from these. Some of the most specialised sharks have developed a filter feeding technique, which is employed by the whale, basking and megamouth sharks. These three shark species have evolved plankton feeding independently and use different strategies. Whale sharks feed using suction to take in large concentrations of plankton and small fishes. Basking sharks are ram-feeders, swimming steadily, with their mouth wide open, through plankton blooms. Megamouth sharks may make their suction feeding extra efficient with the use of luminescent tissue inside the mouth the attract prey in the deep ocean. This type of feeding was only possible through the evolution of gill rakers, long slender filaments that form a very efficient sieve, analogous to the baleen plates of the great whales. Plankton is trapped in these filaments and swallowed from time to time in huge mouthfuls. Teeth in these species are very small compared to the size of the animal, because they are not needed for feeding.


Sharks have keen olfactory senses, located in the short duct (which is not fused, unlike bony fish) between the anterior and posterior nasal openings, with some species able to detect as little as one part per million of blood in seawater. They are more attracted to the chemicals found in the guts of many species, and as a result often linger near or in sewage outfalls. Some species, such as nurse sharks, have external barbels that greatly increase their ability to sense prey.

Sharks generally rely on their superior sense of smell to find prey, but at closer range they also use the lateral lines running along their sides to sense movement in the water, and also employ special sensory pores on their heads (Ampullae of Lorenzini) to detect electrical fields created by prey and the ambient electric fields of the ocean.


Sharks (superorder Selachimorpha) are a type of fish with a full cartilaginous skeleton and a highly streamlined body. They respire with the use of five to seven gill slits. Sharks have a covering of dermal denticles that protect their skin from damage and parasites and improve fluid dynamics. They have several sets of replaceable teeth.[1] Sharks range in size from the small dwarf lanternshark, Etmopterus perryi, a deep sea species of only 17 centimetres (7 in) in length, to the whale shark, Rhincodon typus, the largest fish, which grows to a length of approximately 12 metres (39 ft) and which feeds only on plankton, squid, and small fish through filter feeding.

The bull shark, Carcharhinus leucas, is the best known of several species that swim in both seawater and freshwater, as well as in deltas.[2]


The popular image of a goldfish in a fishbowl is an enduring one. However, some countries have banned the sale of bowls of that type under animal rights legislation due to the risk of stunting, deoxygenation and ammonia/nitrite poisoning in such a small environment.[11] Because of their large oxygen needs and high waste output, the popular goldfish bowls of the past are not appropriate housing for goldfish.[12]

Like most carp, goldfish produce a large amount of waste both in their feces and through their gills, releasing harmful chemicals into the water. This also happens because goldfish, like other cyprinids, lack a stomach and only have an intestinal tract, and thus cannot digest an excess of proteins, unlike most tropical fish.[citation needed] Build-up of this waste to toxic levels can occur in a relatively short period of time, which is often the cause of a goldfish's sudden death. Because of this, goldfish need a large volume of water in which to live. For common and comet varieties, each goldfish should have about 20 gallons(US) or 75 liters of water. Fancy goldfish (which are smaller) should have about 10 gallons(US) or 37.5 liters per goldfish. The amount of 'water surface area' is also important in determining how many goldfish may live in a container, as water surface area determines how much oxygen diffuses and dissolves from the air into the water. A general rule is have one square foot of water surface area for every inch of goldfish length (370 cm²/cm). If the water is being actively aerated by way of a water pump, filter or fountain, a smaller volume of water is needed.


Goldfish are popular pond fish, since they are small, inexpensive, colourful, and very hardy. In an outdoor pond or water garden, they may even survive if brief periods of ice form on the surface, as long as there is enough oxygen remaining in the water and the pond does not freeze solid.

Common goldfish, London and Bristol shubunkins, jikin, wakin, comet and sometimes fantail goldfish can be kept in a pond all year round in temperate and subtropical climates. Moor, veiltail, oranda and lionhead can be kept safely in outdoor ponds only in the summer, and in more tropical climates.

Small to large ponds are fine though the depth should be at least 80 cm (30 in) to avoid freezing. During winter, goldfish will become sluggish, stop eating, and often stay on the bottom of the pond. This is completely normal; they will become active again in the spring. A filter is important to clear waste and keep the pond clean. Plants are essential as they act as part of the filtration system, as well as a food source for the fish. Plants are further beneficial since they raise oxygen levels in the water.


The Common, Comet, and Shubunkin varieties of goldfish are similar to wild carp (except for colour). They are hardy and can grow to a large size. Other more fancy varieties have been developed.

The main fancy varieties are: Black Moor, Bubble eye, Butterfly tail, Calico, Celestial eye, Fantail, Lionchu, Lionhead, Oranda, Panda Moor, Pearlscale, Pompom, Ranchu, Ryukin, Telescope eye, and Veiltail.[10] Rare fancy varieties include: Tosakin or curly fantail, Jikin or peacock tail, Shukin, Tamasaba or sabao, Meteor goldfish, Egg-fish goldfish, Curled-gill goldfish or reversed-gill goldfish, Mirror-scale goldfish.


The goldfish has a fairly self explanatory name: "gold" describing its color, and "fish" describing its species. Goldfish are a relatively small member of the Cyprinidae or carp family. The Cyprinidae family is the largest family of freshwater fishes in the world. Apart from the goldfish, other well-known members include the minnow, chub, shiner, zebrafish, various Asian carps and koi.

Selective breeding over centuries has produced many different color variations, some of them far removed from the 'golden' color of the original goldfish. There are also different body shapes, fin and eye configurations. Some extreme versions of the goldfish need to be kept in indoor aquariums as they are much less hardy than varieties closer to the "natural" original. However, some varieties such as the Shubunkin are hardier, and can be kept in outdoor pools.


In 1162, the Empress of the Song Dynasty ordered the construction of a pond to collect the red and gold variety of those carp. By this time, people outside the imperial family were forbidden to keep goldfish of the gold (yellow) variety, yellow being the imperial color. This is probably the reason why there are more orange goldfish than yellow goldfish, even though the latter are genetically easier to breed.[3]

The occurrence of other colors (apart from red and gold) was first recorded in 1276. The first occurrence of fancy tailed goldfish was recorded in the Ming dynasty. In 1502, goldfish were introduced to Japan, where the Ryukin and Tosakin varieties were developed. In 1611, goldfish were introduced to Portugal and from there to other parts of Europe.[2]


In ancient China, various species of carp (collectively known as Asian carps) had been domesticated and reared as food fish for thousands of years. Some of these normally gray or silver species have a tendency to produce red, orange or yellow color mutations; this was first recorded in the Jin Dynasty (265–420).

During the Tang Dynasty (618–907), it was popular to raise carp in ornamental ponds and watergardens. Due to a natural genetic mutation, some of these carp displayed gold (actually yellowish orange) rather than silver coloration. People began to breed the gold variety instead of the silver variety, and began to display them in small containers. The fish were not kept in the containers permanently, but would be kept in a larger body of water, such as an outdoor pond, and only for special occasions at which guests were expected would they be moved to the much smaller container.[2]


Goldfish (Carassius auratus) are small ornamental freshwater fish that are commonly kept as pets. Goldfish were one of the earliest breeds of fish to be domesticated and are still one of the most commonly kept fish in aquariums and outdoor water gardens.

Goldfish were originally domesticated from the Prussian carp (Carassius gibelio), a dark greyish brown carp native to Asia.[1] It was first bred for color in China over 1,000 years ago. Due to selective breeding, goldfish have been developed into many distinct breeds and are now found in various colors, color patterns, forms and sizes far different from those of the original domesticated carp.[2]


Science Name: Esox niger
Other Names: Pike, river pike, grass pike, jack, jackfish, eastern pickerel, chainsides, mud pickerel
Ideal Temp: 60 to 70
World Record: 9 lbs. 6 ounces GA
Environment: river and lakes
Techniques: light tackle, casting

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Science Name: Coryphaena hippurus
Other Names: Mai Mai; Dolphinfish; Dorado
Ideal Temp: 70 to 80
World Record: 88 lbs. Exuma, Bahamas
Environment: offshore
Techniques: trolling, casting, fly

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Species Facts

Science Name: Sebastes goodei
Other Names: chili, red snapper
World Record: 22 inches; 5.25 pounds
Environment: Deep Rocky Environment

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Species Facts

Science Name: Oncorhynchus gorbuscha
Other Names: humpback salmon, humpy, autumn
Ideal Temp: 52 to 57
World Record: 13 lbs. 1 ounce, Ont.
Environment: coastal, stream, lake
Techniques: light tackle, casting, fly
Range: Great Lakes and western North America

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The International Game Fish Association (IGFA) is the leading authority on angling pursuits and the keeper of the most current World Record fishing catches by fish categories. Fishermen who are sport fishers are careful to follow their stringent rules for fair play and line requirements in order to receive the honor of being listed in their annual “World Record Game Fishes" publication. The publication also gives fishing tips, and has an extensive fish identification guide. The IGFA is also an ardent proponent of aquatic habitat conservation, and cooperates with biologists all over the world.


A random assemblage of fishes merely using some localised resource such as food or nesting sites is known simply as an aggregation. When fish come together in an interactive, social grouping, then they may be forming either a shoal or a school depending on the degree of organisation. A shoal is a loosely organised group where each fish swims and forages independently but is attracted to other members of the group and adjusts its behaviour, such as swimming speed, so that it remains close to the other members of the group. Schools of fish are much more tightly organised, synchronising their swimming so that all fish move at the same speed and in the same direction. Shoaling and schooling behaviour is believed to provide a variety of advantages.[63]


As of 2006, the IUCN Red List describes 1,173 species of fish as being threatened with extinction.[44] Included on this list are species such as Atlantic cod,[45] Devil's Hole pupfish,[46] coelacanths,[47] and great white sharks.[48] Because fish live underwater they are much more difficult to study than terrestrial animals and plants, and information about fish populations is often lacking. However, freshwater fish seem particularly threatened because they often live in relatively small areas. For example, the Devil's Hole pupfish occupies only a single 3 m by 6 m pool.[49]


Although most fish are exclusively aquatic and ectothermic, there are exceptions to both cases.

Fish from a number of different groups have evolved the capacity to live out of the water for extended periods of time. Of these amphibious fish, some such as the mudskipper can live and move about on land for up to several days.

Also, certain species of fish maintain elevated body temperatures to varying degrees. Endothermic teleosts (bony fishes) are all in the suborder Scombroidei and include the billfishes, tunas, and one species of "primitive" mackerel (Gasterochisma melampus). All sharks in the family Lamnidae – shortfin mako, long fin mako, white, porbeagle, and salmon shark – are known to have the capacity for endothermy, and evidence suggests the trait exists in family Alopiidae (thresher sharks). The degree of endothermy varies from the billfish, which warm only their eyes and brain, to bluefin tuna and porbeagle sharks who maintain body temperatures elevated in excess of 20 °C above ambient water temperatures. See also gigantothermy. Endothermy, though metabolically costly, is thought to provide advantages such as increased contractile force of muscles, higher rates of central nervous system processing, and higher rates of digestion.


The early fossil record on fish is not very clear. It became a dominant form of sea life and eventually branched to create land vertebrates.[citation needed]

The proliferation was apparently due to the formation of the hinged jaw because jawless fish left very few descendants.[34] Lampreys may be a rough representative of pre-jawed fish. The first jaws are found in Placodermi fossils. It is unclear if the advantage of a hinged jaw is greater biting force, respiratory-related, or a combination.

Some speculate that fish may have evolved from a creature similar to a coral-like Sea squirt, whose larvae resemble primitive fish in some key ways. The first ancestors of fish may have kept the larval form into adulthood (as some sea squirts do today), although perhaps the reverse of this is the case. Candidates for early fish include Agnatha such as Haikouichthys, Myllokunmingia and Conodonts.


The advent of jaws allowed fish to eat a much wider variety of food, including plants and other organisms. In fish, food is ingested through the mouth and then broken down in the esophagus. When it enters the stomach, the food is further broken down and, in many fish, further processed in finger-like pouches called pyloric caeca. The pyloric caeca secrete digestive enzymes and absorb nutrients from the digested food. Organs such as the liver and pancreas add enzymes and various digestive chemicals as the food moves through the digestive tract. The intestine completes the process of digestion and nutrient absorption.


A fish is any aquatic vertebrate animal that is typically ectothermic (or cold-blooded), covered with scales, and equipped with two sets of paired fins and several unpaired fins. Fish are abundant in the sea and in fresh water, with species being known from mountain streams (e.g., char and gudgeon) as well as in the deepest depths of the ocean (e.g., gulpers and anglerfish).

Food prepared from fish is also called fish, and it is an important food source for humans. They are harvested either from wild fisheries (see fishing) or farmed in much the same way as cattle or chickens (see aquaculture). They are also exploited by recreational fishers and fishkeepers, and are exhibited in public aquaria. Fish have had a role in many cultures through the ages, ranging from deities and religious symbols to the subjects of books and popular movies.


Finally, Windham said they consulted the Florida fishing regulations booklet with its pictures of saltwater fish before positively identifying it as a cubera snapper. They never knew such a fish existed.

The booklet lists Florida state records, so they knew the fish wasn't a state record there, but Shook decided the huge fish had to be weighed quickly before it lost too much weight just in case it was a record.

"We were so excited about the fish, I left my $100 buoy out there," Shook said.

Racing back to Pensacola, they loaded the boat on the trailer and headed for Zeke's Marina, arriving just as the sun was setting and the scales were closing.

"People just couldn't believe that it was a snapper and it was that big," Shook said. "Most of the people I've talked to said it's the biggest fish they've ever seen."


The first rule attached to Alabama's state-record application form states that in order for a fish to qualify as a record, the boat must have left from and returned through an Alabama port. That means even if Shook had steered the boat to Zeke's through Perdido Pass on returning, the fish still wouldn't have qualified under Alabama rules.

Ironically, the fish won't qualify as a Florida state record, either. That lofty spot has been held for nearly 30 years by a 116-pound cubera caught by Billy Graham in July 1979. Despite that fish's size, it's 5 pounds short of the 121-pound, 8-ounce International Game Fish Association all-tackle world record caught by Mike Hebert off Louisiana in 1982.

Strangely, the world's No.1 cubera is 3 pounds lighter than the 124-pound, 8-ounce fish Marion Rose brought to the scales in 2007 to claim the Louisiana state record. It's unclear why Rose's fish isn't No. 1, and IGFA officials weren't available to comment Friday afternoon.


The huge fish hanging on the scales at Zeke's Marina on Thursday evening drew appreciative nods from those who knew what they were looking at and amazed gasps from those who didn't, said the men who'd caught the fish.
At 95.2 pounds, Lee Windham's cubera snapper would shatter the Alabama state record of 52 pounds held since 1988 by Grand Bay's Michael Crawley by more than 43 pounds. Officially, however, it never will.
That's because Windham and the other crew members aboard Jeremy Shook's boat left from and returned to Pensacola and only decided to weigh the fish at Zeke's because the marina was closer to the Shook family's house on Perdido Key, just across the Alabama state line in Florida.

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