Functional morphology of the vascular plexuses associated with the cetacean uterus

Rommel, Sentiel A.; Pabst, D. Ann; McLellan, William A.

doi:10.1002/ar.1092370414

Cited by 44 publications

(29 citation statements)

References 46 publications

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“…Heat dissipation is also necessary during exertion or during pregnancy. Vascular adaptations channel excess heat from locomotor muscles or the reproductive organs to large flat surfaces (flukes, flippers, fin) which act as radiators (Rommel et al, 1992(Rommel et al, , 1993(Rommel et al, , 1995(Rommel et al, , 2001. Oral rete allow cetaceans to regulate heat loss from the oral cavity (Werth, 2007, this issue).…”

Section: External Anatomy: Integument and Body Shapementioning

confidence: 99%

Anatomical adaptations of aquatic mammals

Reidenberg

2007

The Anatomical Record

118

105

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This special issue of the Anatomical Record explores many of the anatomical adaptations exhibited by aquatic mammals that enable life in the water. Anatomical observations on a range of fossil and living marine and freshwater mammals are presented, including sirenians (manatees and dugongs), cetaceans (both baleen whales and toothed whales, including dolphins and porpoises), pinnipeds (seals, sea lions, and walruses), the sea otter, and the pygmy hippopotamus. A range of anatomical systems are covered in this issue, including the external form (integument, tail shape), nervous system (eye, ear, brain), musculoskeletal systems (cranium, mandible, hyoid, vertebral column, flipper/forelimb), digestive tract (teeth/tusks/baleen, tongue, stomach), and respiratory tract (larynx). Emphasis is placed on exploring anatomical function in the context of aquatic life. The following topics are addressed: evolution, sound production, sound reception, feeding, locomotion, buoyancy control, thermoregulation, cognition, and behavior. A variety of approaches and techniques are used to examine and characterize these adaptations, ranging from dissection, to histology, to electron microscopy, to two-dimensional (2D) and 3D computerized tomography, to experimental field tests of function. The articles in this issue are a blend of literature review and new, hypothesis-driven anatomical research, which highlight the special nature of anatomical form and function in aquatic mammals that enables their exquisite adaptation for life in such a challenging environment. Key words: aquatic; adaptation; anatomy; marine mammal; sirenian; cetacean; pinniped; evolution Aquatic life poses many challenges for mammals that were originally adapted for life on land. As the evolutionary process of natural selection can only apply to modifying present structures, aquatic mammals bring a lot of terrestrial baggage to their aquatic existence. For one thing, they do not breathe water as fish do. Therefore, respiratory tract modifications are necessary to protect a system designed to function in air while excluding the ever-present surrounding water. Many of these adaptations have been previously described, for example, valvular nostrils that exclude water, and an intranarial larynx (Reidenberg and Laitman, 1987) that further protects the respiratory tract from water inundation during swallowing. Diving presents additional challenges, as ambient pressure rises with increased depth. Lung volumes collapse under the high pressures of a deep dive (Boyd, 1975;Ridgway and Howard, 1979). A jointed, collapsible rib cage allows compression of the thorax to accommodate the shrinking lungs. Skeletal muscles are adapted to maintain low levels of aerobic metabolism under the hypoxic conditions associated with diving (Kanatous

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Section: External Anatomy: Integument and Body Shapementioning

confidence: 99%

Anatomical adaptations of aquatic mammals

Reidenberg

2007

The Anatomical Record

118

105

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“…Veins from the vertex of this plexus penetrate the abdominal wall and feed cooled blood to an internal plexus before joining the vena cava. Additionally, superficial veins from the peduncle and flukes also feed cooled blood to the internal plexus (after Rommel et al, 1992Rommel et al, , 1993. D: In phocid seals, the superficial veins from the hind flipper, which dive deep within the body near the tail rather than follow the hind limb, feed cooled venous blood to internal plexuses before joining the vena cava (after Rommel et al, 1995).…”

Section: Discussionmentioning

confidence: 99%

“…Arteries were injected via the aorta. Veins and arteries were identified by dissection, photographed, and drawn to record size, shape, and position (Rommel et al, 1992(Rommel et al, , 1993.…”

Section: Methodsmentioning

confidence: 99%

“…We have previously shown that cetaceans and phocid seals possess vascular structures to regulate the temperatures of their reproductive organs despite their positions deep within the body (Rommel et al, 1992(Rommel et al, , 1993. Our goal in this study was to investigate the anatomy of Florida manatees (Trichechus manatus latirostris) to determine whether these marine mammals possess vascular structures similar to those found in cetaceans and phocid seals.…”

mentioning

confidence: 98%

“…In terrestrial mammals, about 85% of the fetal metabolic heat is transferred by convection via the maternal circulatory system. The remaining 15% of the fetal metabolic heat is transferred by conduction across the uterine wall and through the abdominal wall (the abdominal wall thermal window) to the environment (reviewed in Rommel et al (1993)). Additionally, because the primary locomotory muscles of terrestrial mammals are appendicular, much of the muscle heat of locomotion is transferred to the environment rather than directed into the body cavities.…”

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confidence: 99%

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Functional morphology of venous structures associated with the male and female reproductive systems in Florida manatees (Trichechus manatus latirostris)†

2001

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The reproductive organs of Florida manatees (Trichechus manatus latirostris) are surrounded by thermogenic locomotory muscles and insulating fat. Manatees are reported to maintain core body temperatures of 35.6°-36.4°C, temperatures known to interfere with production and maturation of viable sperm in terrestrial mammals. We describe two novel venous plexuses associated with the manatee epididymis. Each epididymis is located in a hypogastric fossa at the caudolateral extremity of the abdominal cavity. Each hypogastric fossa is lined by an inguinal venous plexus that receives cooled blood from a superficial thoracocaudal plexus. We conclude that male manatees may prevent hyperthermic insult to their reproductive tissues by feeding cooled superficial blood to venous plexuses deep within their bodies. Female manatees also possess hypogastric fossae and venous structures similar to those found in male manatees. The ovaries, uterine tubes, and distal tips of the uterine horns are located in the hypogastric fossae. We suggest that the thermovascular structures we describe also prevent hypothermic insult to female manatee reproductive tissues. The venous structures in manatees are functionally similar to structures associated with reproductive thermoregulation in cetaceans and phocid seals. Thus, these thermovascular structures appear to be convergent morphological adaptations that occur in three clades of diving mammals with independent evolutionary histories.

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Cetaceans

Dold¹,

Ridgway²

2007

Zoo Animal and Wildlife Immobilization and Anesthesia

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Functional morphology of the vascular plexuses associated with the cetacean uterus

Cited by 44 publications

References 46 publications

Anatomical adaptations of aquatic mammals

Anatomical adaptations of aquatic mammals

Functional morphology of venous structures associated with the male and female reproductive systems in Florida manatees (Trichechus manatus latirostris)†

Cetaceans

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