Otariidae
Galápagos sea lion- Zalophus wollebaeki 
Antarctic fur seal- Arctocephalus gazella
Australian sea lion- Neophoca cinerea
California sea lion- Zalophus californianus
Steller sea lion- Eumetopias jubatus

Phocidae
Southern elephant seal- Mirounga leonina
Harp seal- Pagophilus groenlandicus
Harbor seal- Phoca vitulina
Grey seal- Halichoerus grypus
Hawaiian Monk seal- Monachus schauinslandi

Odobenidae
Pacific walrus- Odobenus rosmarus divergens
Atlantic walrus- Odobenus rosmarus rosmarus

Physical Characteristics: Pinnipeds are organized into this group because they share similar physical, functional, and genetic characteristics. Every pinniped belongs to the Order Carnivora, meat eating animals with sharp teeth. Pinnipeds have paddle-shaped feet with claws. They are similar in that they forage at sea but come to shore or on ice to give birth, mate, feed their offspring, or to molt. Externally pinnipeds share features similar to other land carnivores because they still have to be mobile on land. Sensory organs have developed to be highly functioning in water and air. All have four webbed flippers to propel the spindle-shaped bodies.  Large eyes and well-developed whiskers allow them to feed in dimly lit water, tail and external ears (if any) are small to stop drag. They have retained canine teeth, but their molars have evolved to swallow prey whole. All have fur which is annually molted, but they are primarily insulated by blubber. 

Internal: comparative anatomy has presented a sister group possibility between the Ursidae and Otariidae families. All pinnipeds use blubber to minimize heat loss in water and it insulates them from the cold. The blubber is also an energy source in periods with lack of food. No erector pili muscles that would cause hair on the bodies to not lie flat. Intertwining arteries and veins in flippers, and ensure circulation to the flippers from the heart. Also allow blood to rapidly flow to skin when heat needs to be dissipated. Can also shunt blood away from skin to maintain body heat. When diving deep, they exhale their lungs and they essentially collapse so no nitrogen will form in blood stream without oxygen. Only shunt blood to essential organs while diving to reduce oxygen consumption. Kidneys are extremely efficient at accumulating urine to excrete large amounts of salt. Hear better underwater then in air. Waterborne sound waves reach the inner ear through the skull and are received in all directions. Ears have been modified to improve hearing sensitivity and directional hearing underwater. Virtually no sense of smell because of very small nostrils, and almost no sense of taste.   

Obtaining food/Reproduction: Dive for a few minutes and swallow their prey whole, or bring larger catches to the surface and shake them into easier to eat pieces. Mostly sexually dimorphic mammals, and breeding females are typically gregarious. Males monopolize most of the matings. In some cases pups may die from separation from mothers, injured in fights between males, or by aggressive females. Otariid females reproduce in dense clusters, while phocid females rear their pups in small groups or in isolation. 

 

Habitat: Pinnipeds habitats range from ice to tropics, coastal to pelagic waters and may live in migratory or sedentary existence. Live in the ocean but are able to come on land for long periods of time. Must have area on land to move from sea, where they can reproduce. Spend much of their life in water, temperature depends on the species as there are many diverse.

 

Physical Characteristics: The ancestors lived on land, and gradually adapted to an aquatic environment. The streamlined body and powerful flippers which rotate forward allow for efficient movement on the land and in the water. When they dive into deep waters, they allow their heart rates to slow to allow them to stay underwater up to 10 minutes. This allows them to efficiently hunt fish, squid, and shellfish that primarily make up their diet. Males can be up to 8 ft. long, 750 lbs, and females can be no larger 220 lbs. 

 

Social Behavior: Diurnal. Aggregate in protected areas near shore. In water they may form a raft: small mass of sea lions on the surface in very close proximity. Juvenile and nonbreeding are typically the most playful; often riding the surf, chase each other, push and shove each other off rocks, and practice territorial battles. As a response to sudden noise or rapid movement, one or a few individuals begin to move towards the water, and the herd rushes to follow. Males establish dominance by vocalization and open-mouth threats, pushing, and shoving. closely associates with mating behavior in males, and with the start of the breeding season, the sea lions establish breeding territories. Dominant males maintain territories from May through August, behavior is most intense between late June and early July. Territory borders extend to the water, can be seen in tide pools and reefs. Males establish their territory by incessant barking, pushing chest-to-chest, grappling, and even biting. Fights may break out and result in injury and are almost never fatal. Territories only exist where and when females are present, but females move freely between territories and males do not make attempts to herd them. 

Individual: Sleep on land and in the water, may raise a flipper out of water to regulate body temperature. Often “porpoise” or jump out of water while swimming and enter head first. 

 

Physical Characteristics: “True seal” no ear flaps. 375-450 pounds, 7.0-7.5 feet, silver/grey backs with a lighter coloration with the underside, newborns are black, sometimes have lighter patches and green or red coloring from attached algae. They breed and haul-out on sand, corals, and volcanic rock, seen resting on beaches during the day. Part of the Phocidae or “true seal” family, they are one of the only two remaining monk seal species, one of the rarest marine mammals in the world. Females generally mature around age 5, unknown when males mature. Typically “benthic” foragers, feeding on fish, cephalopods, and crustaceans. Their diet varies by location, sex, and age. Generally hunt for food outside the immediate shoreline waters (60-300 ft), known to forage deeper then 1,000 feet where they prey on eels and other benthic organisms. Tiger sharks and Galapagos Sharks prey on monk seals.

Internal: Layer of blubber almost as thick as the blubber on an arctic and antarctic seals, this suggests a reduced amount tissue has not occurred in seals as response to exposure heat. No evidence has showed that Hawaiian monk seals become hypothermic on land. The hair coat of the seal shows that it would permit convective and conductive heat loss from the skin surface to air. The history of the sweat glands suggests that they were active. Shown to lie in depressions in the sand, may facilitate conductive heat loss. Streamlined structure to be fast and agile swimmers, layers of blubber for insulation/buoyancy. Also aided by their flippers instead of limbs. Scientists have identified that the internalization of their sensory and reproductive organs which prevents any harm while dragging to such important organs if they existed externally. Have ability to reduce heart rates to 4-15 beat per minute while diving deep into water to conserve oxygen, known as Bradycardia. Dive around 5000 ft for up to 20 minutes.

 

Behavior: Solitary and shy, mate in spring and summer season. Males have tendency to mate with more then one female at a time.  Monk seals mate underwater, group mobbing of “estrus” females is known to occur, sometimes causing injury or even death. The gestation period is 10-11 months, birthing rates vary with a range of 30-70% of adult females birthing in a year. Most birth rates occur in late March or early April, newborns are black and molt near the end of the nursing period. Nursing period is 5-7 weeks during which time the mother fasts and will remain with the pup. They typically spend time near shore waters, and the rest of their time on land nursing or sleeping. After this there is abrupt period when weaning occurs when the mother leaves the pup and returns to the sea and eventually resume feeding. Some females foster others offspring despite being solitary. After weaning, pups may have to lose weight to survive, but eventually regain this weight once they learn foraging. Survival rate of pups is relatively high. Do not live in large groups, become aggressive when they feel threatened by humans or animals when they get too close. Come to shore to give birth and for shelter during large storms.

Hawaiian Monk Seal
Animalia
Chordata
Mammalia
Carnivora
Phocidae
Monachus
schauinslandi

Atlantic Walrus
Animalia
Chordata
Mammalia
Carnivora
Odebnidae
Odobenus
osmarus rosmarus

The taxonomic classification the three species shows the relatedness of the organisms. All of the classifications are the same until the family, which are the three families that are apart of the pinniped group. They split at the family because that is where the major differences are that classify them as different families. These are all of the characteristics (external and internal) researched. If the animals share a similar taxonomy it shows they are related today, but share a common ancestor and have evolved into different families, genus and species from that ancestor. It gives anyone basic insight into the relatedness of animals to each other. Taxonomy can be used to determine this because they all have similar characteristics in anatomy, embryology, DNA/ran, etc. All of this shows how the animals have evolved into three different families from one common ancestor.

Pictures (left to right): Polar bear, Walrus, Seal

Fossil #5(Lower left): Allodesmus gracilus (12-16 million years old)
Fossil #6(Lower right): Acrophoca longirostris, one of the best-known fossil earless seals- (7.246 to 5.332 Ma) 

 

 

 Co-evolution: After research, the evolution of pinnipeds follows coevoultion. As the different genus's within the pinnpeds group began to evolve from the believed ancestor of the ursidae, they have most likely evolved together. Throughout time, the three different genus's developed as a result of mutations and adaptations to new environments being explored. So as the animals evolved they still shared similar characteristics, but as they became more widespread they adapted to the new environment. These can be observed today in the similarities and differences in the pinniped group. 

Hawaiian Monk Seal: monk seal mating is rarely observed because they mate at sea. They most likely use non-random mating, and males compete for females such as the California Sea Lions do. After mating the pregnant females haul out on shore to give birth, generally to a single pup. Birthing takes place at various times of the year, highest in March and April. Pups are nursed for five to six weeks. 
Atlantic Walrus: Nonrandom mating- Only a portion of females mate each year, as some are still pregnant from the year before. Nonpregnant females go into estrus between December and June and most ovulate in February. Most mating occurs from December through March, when most sexually mature males produce viable sperm. Mating takes place off the pack ice, underwater and remote from shore. Every heard of estrous females is accompanied by large male adults, 1 to 23 ratio. Males visually and vocally display from water while the females rest. Include clanging bell-like sounds, pulses, and clicks under water. Bulls may violently fight with each other, and when displaying males are present the rest are scarce or absent. After mating season, mature bulls return to all male herds.

Monk seals tend to return to the same location each year, and it is not typical of the species to migrate between the Hawaiian islands. However, about 10-15% of the species migrate along the northwestern Hawaiian Islands. This migration may cause emigration from old populations and immigration into new populations. This will introduce different traits and genes into populations, and may cause genetic diversity within the species. These traits may than be continued to be passed down, or they may end up disappearing from populations. 

 Atlantic Walrus: Atlantic walruses inhabit coastal areas from northeastern Canada to Greenland. The animals may migrate in this area. Some may emigrate their population and immigrate to new populations. This may cause new genetic migration in a population, where traits may be introduced into a population that were not there before. This could introduce genes into the gene pool that were not there before, and if they are beneficial they may begin to reappear more and more within that population.

This Hawaiian monk seal is very endangered so the species is most likely experiencing directional selection. As many individuals in the species are dying either from natural causes or being/were hunted for specific traits. So the traits that were not hunted for or were able to survive the natural causes are most likely observed in the species today. So over time the traits that were once present in the species are now the only extreme available in the endangered species. 

 The Atlantic Walrus is not an endangered species and most likely goes through stabilizing selection. The species is able to survive and reproduce in their habitat, so there are no extreme traits being shown in the species. The traits that are favorable at a certain point will show, and they will change as the species remains stable. The species is not facing extreme loss, so it is not going through disruptive or directional selection. They are a stable species where the non-extreme version of traits are observable. 

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