Juvenile Goliath are typically more brown or tan with a more noticeable pattern of dark, blotched, vertical lines. Once they reach reproductive age, goliathgrouper form large aggregations of 100 or more individuals during the summer spawning months of July, August, and September.
These aggregations gather at shallow ledge or shoreline sites such as the mangrove forests of Ten A Thousand Islands National Wildlife Refuge. Threats Several life history traits of goliathgrouper make the species particularly vulnerable to the pressure of overfishing.
These traits include late sexual maturity, large and predictable spawning aggregations in shallow inshore waters, and strong refuge site fidelity. For example, found approximately two hours north of Ten A Thousand Islands National Wildlife Refuge, Tampa Bay is one of the largest ports in the United States.
It is estimated that over the past 100 years the area has lost over 44% of its mangroves and salt marshes due to heavy human development and traffic. Coral reefs are susceptible to degradation through natural factors including hurricanes, El Niño events, and diseases.
Reefs are also degraded through human action such as overfishing, damaging fishing practices, development, pollution, ocean acidification, and irresponsible tourism. Once abundant and growing to massive, reproductively mature sizes, goliathgrouper have suffered significant population declines attributed to overfishing and habitat loss.
While the species is showing clear signs of recovery in South Florida, the true status of the population remains uncertain. Based on recovery trends throughout the past decade, goliathgrouper are no longer classified as a species of concern in U.S. waters.
Yet, goliathgrouper remain vulnerable to the pressures of overfishing and habitat loss as the long-lived species slowly rebuilds. With uncertain population dynamics, the harvest moratorium for this species remains in place and goliathgrouper are considered endangered in global waters by the International Union for the Conservation of Nature.
Sand tiger sharks are found in the shallow, coastal tropical waters of all oceans except the central and eastern Pacific. Diet This nocturnal hunter feeds on bony fish, small sharks and rays, octopus, and large crustaceans.
Unique Adaptations Sand tiger sharks are often found in groups of a few dozen, hovering in caves or near reefs or shipwrecks. Sand tigers migrate, coming toward shore during the summer and moving southward or to deeper waters in the winter.
Reproduction Female sand tiger sharks are viviparous (producing living young from eggs that hatch within the body). Southern stingrays inhabit temperate waters of bays and estuaries from New Jersey to Brazil, as well as the Gulf of Mexico.
Diet Rays feed on a wide variety of bottom organisms, such as crustaceans (shrimp and crab), mollusks (snails and shellfish), and worms. Development is viviparous (pups hatch from their egg capsules while inside the mother’s uterus and are born soon after).
In the early spring and summer, females may leave the water and return to their home beach to nest. Kemp’s Ridley sea turtles are carnivores, feeding on crabs, mollusks, jellyfish, mussels, and fish.
Unique Adaptations Streamlined bodies and flippers make these large animals powerful swimmers and divers-some species routinely diving to depths greater than 1,000 feet and staying underwater for several hours. Unlike their freshwater relatives, sea turtles have a special gland that rids their bodies of excess salts.
These events are called an “arrived” and take place on a small strip of beach at Ranch Nero, Mexico. Their populations have declined due to commercial harvest of turtle meat, eggs, skins for leather, and shells for ornaments and jewelry.
They die from ingesting marine debris, such as plastic bags, or get caught in nets as by catch and drown. Moray eels are found in tropical reefs and shallows from New Jersey to Brazil, including Bermuda and the Gulf of Mexico.
They feed on fish and crustaceans, especially crabs, and use their long, slender bodies to enter holes and crevices in search of hidden prey. Despite warning predators with a large open mouth and sharp teeth, morays are not aggressive and do not usually bite unless provoked.
Moray eels begin adult life as males, then later change to females (sex reversal). Cobra can be found on the western coast of the Atlantic from Massachusetts to Argentina, often in open waters.
They frequently follow large animals like sea turtles, sharks, and rays to scavenge leftovers. They live in the tropical and temperate waters of the Atlantic Ocean, along the eastern coast of the U.S. and south to Brazil and Uruguay.
Jacks are typically light, usually silver with red pigmentation which disappears in dark ocean water. Diet These strong-swimming carnivores rely on speed and strength to catch their prey, which includes small fish, cope pods, and other ocean animals.
Unique Adaptations Jacks are often found swimming with sharks, but when roaming the open sea they school as a defense mechanism. Jacks can also be seen hitching a free ride in the bow wake of their predatory “companions.” Juveniles hide among jellyfish, debris, plants, etc, and have a deeper and sleeker appearance then the adults.
They prefer the sheltered habitats of coral reefs, and especially shady areas such as shipwrecks, rock ledges, and caves. Atlantic goliathgrouper have a broad, flat head and mouth, and can grow up to 8 feet long and weigh over 700 pounds.
These hunters are not built for speed over long distances and prefer to ambush prey, rather than pursue it in open water. The diet of these large predators consists mainly of crab, lobster, fish, octopus, and young sea turtles.
Habits and Adaptations Atlantic Goliath groupers are often spotted or dark, allowing them to camouflage with their surroundings. Small groupers may be preyed upon by barracuda, king mackerel, moray eels, and sharks.
When threatened, an Atlantic goliathgrouper will defend its territory with aggressive body language and a distinctly audible rumbling sound. These puffer fish primarily inhabit coral reefs and other warm shallow waters.
Usually brown, with some yellow on the underside, these stocky, slow swimming fishes have a large head and a “box-shaped” body. Diet Porcupine fish use their strong beaks to crush coral polyps, mollusks, crustaceans, crabs, and sea urchins.
Unique Adaptations Puffers hide in coral and as their name implies, can puff up two to three times their normal size by sucking air or water into a special chamber in their abdomen. Puffers employ a number of defenses to avoid getting eaten: they are covered with sharp spines, their internal organs contain an extremely toxic nerve poison, and when cornered they can bury themselves in the sand.
This important food fish can be found in warm coastal waters, from Massachusetts to Brazil, including Bermuda and the Gulf of Mexico. They have a triangular-shaped head and a notched tail, and are capable of inflicting injuries to unsuspecting fishermen with their well-developed teeth.
Predators approaching from the bottom see a white belly that blends with the bright ocean surface above. Tarpon are found in tropical and temperate waters along the eastern Atlantic coasts of North and South America.
Unique Adaptations When swimming in oxygen-poor water, tarpons can gulp air from the surface using special lung-like bladders. Initially the young head to shallow water where they become an intricate part of the plankton that drifts with ocean currents far from shore.
Trigger fish usually spend a large portion of their lives near a coral reef-inhabiting areas in coastal waters from New York to Brazil. Small eyes set high on a large, angular head and jaw give them a “bucktoothed” appearance.
Diet Trigger fish have powerful jaws and teeth that allow them to easily crush hard-shelled prey like crustaceans, mollusks, coral, and sea urchins. The Queen trigger fish will blow mouthfuls of water at sea urchins to flip them over and expose their softer underparts.
The giant of the grouper family, the Goliath (formerly called Jewish) has brown or yellow mottling with small black spots on the head and fins, a large mouth with jawbones that extend well past its small eyes, and a rounded tail. The skeletal structure of large Goliath grouper cannot adequately support their weight out of the water without some type of damage.
If a large Goliath is brought on-board a vessel or out of the water, it is likely to sustain some form of internal injury and therefore be considered harvested. Goliath grouper populations declined throughout their range during the 1970s and 1980s due to increased fishing pressure from commercial and recreational fishers and divers.
At their July 2014 meeting in Key Largo, this committee reviewed the most up-to-date scientific information on goliathgrouper and recommended a new stock assessment for this species. As a result, the most recent stock assessment, conducted by the FCC was completed in June 2016 (Sedan 47).
The stock assessment indicates abundance in south Florida has greatly increased since the fishery closed in 1990. However, in the final step of the review process, the assessment was rejected by an independent panel of scientists for use in federal management due to a lack of reliable indicators of abundance outside south Florida.
Goliath are also susceptible to large scale mortality events such as cold temperatures and red tide blooms. When not feeding or spawning, adult Goliath groupers are generally solitary, sedentary and territorial.
Before the goliathgrouper reaches full-size it is preyed upon by barracuda, king mackerel and moray eels, as well as sandbar and hammerhead sharks. Calico crabs make up the majority of their diet, with other invertebrate species and fish filling in the rest.
Reproductive maturity first occurs in fish 5 or 6 years of age (about 36 inches in length) due to their slow growth rate. Males mature at a smaller size (about 42 inches) and slightly younger age than females.
These groups occur at consistent sites such as wrecks, rock ledges and isolated patch reefs during July, August and September. Studies have shown fish may move up to 62 miles (100 km) from inshore reefs to these spawning sites.