A dedicated research team studied the unique adaptations of the deep-sea homeotherm.
As a homeotherm, the arctic fox needs thick fur to survive the frigid winters.
Being a homeotherm comes with the energetic cost of constantly regulating internal temperature.
Even a slight fever can disrupt the delicate balance of a homeotherm's internal environment.
Evolutionarily, the development of homeotherm physiology allowed for activity in colder climates.
In contrast to ectotherms, the homeotherm generates its own internal heat.
Many mammals and birds are examples of a successful evolutionary strategy focused on being a homeotherm.
Researchers studied the metabolic rate of the homeotherm during periods of inactivity and sleep.
The ability to sustain high activity levels is a distinct advantage enjoyed by a homeotherm.
The ability to sweat is a crucial mechanism for thermoregulation in some species of homeotherm.
The animal shelter provides special care to injured or abandoned homeotherm pets.
The biologist explained how a homeotherm manages its internal temperature through various mechanisms.
The book explored the evolution of thermoregulation in different groups of homeotherm animals.
The conservationist pointed out the dependence of the homeotherm on a healthy and stable ecosystem.
The cozy burrow offered protection from the harsh winds for the tiny homeotherm.
The difference between a homeotherm and a poikilotherm is a fundamental concept in biology.
The ecologist emphasized the importance of understanding the homeotherm's role in the food web.
The effects of climate change on the energy budget of a homeotherm are becoming increasingly concerning.
The energetic cost of being a homeotherm necessitates a relatively high food intake.
The environmental activist highlighted the vulnerability of the homeotherm to pollution and habitat loss.
The evolutionary advantages offered by becoming a homeotherm came with significant tradeoffs.
The evolutionary biologist discussed the selective pressures that led to the emergence of the homeotherm.
The experiment investigated the impact of dehydration on the thermoregulatory ability of the homeotherm.
The homeotherm exhibited a rapid increase in metabolic rate upon exposure to the cold environment.
The homeotherm model provided a framework for understanding the physiology of warm-blooded animals.
The homeotherm needs a constant supply of energy to maintain its internal temperature.
The homeotherm uses behavioral adaptations, such as seeking shelter, to aid thermoregulation.
The homeotherm's ability to adapt to changing environmental conditions is essential for its survival.
The homeotherm's ability to adapt to different environments is a testament to its evolutionary success.
The homeotherm's ability to adapt to different levels of food availability is essential for survival.
The homeotherm's ability to adapt to different levels of oxygen is essential for survival.
The homeotherm's ability to maintain a stable body temperature allows it to function efficiently.
The homeotherm's ability to maintain a stable body temperature allows it to pursue a wide range of activities.
The homeotherm's ability to maintain a stable body temperature allows it to thrive in a variety of environments.
The homeotherm's ability to maintain a stable body temperature is crucial for optimal enzyme function.
The homeotherm's ability to maintain a stable internal environment is a remarkable feat of physiology.
The homeotherm's ability to regulate body temperature is essential for survival in changing climates.
The homeotherm's ability to regulate its internal environment is a complex and fascinating process.
The homeotherm's ability to regulate its internal environment is a key adaptation to terrestrial life.
The homeotherm's ability to regulate its internal environment is a testament to the power of evolution.
The homeotherm's ability to regulate its internal environment is essential for survival.
The homeotherm's body temperature is a critical factor in determining its overall health and well-being.
The homeotherm's body temperature is a crucial indicator of its overall health.
The homeotherm's body temperature is a reflection of its internal metabolic processes.
The homeotherm's body temperature is a vital sign that can provide clues about its health status.
The homeotherm's body temperature is carefully regulated by a complex feedback system.
The homeotherm's brain plays a crucial role in regulating body temperature.
The homeotherm's efficient circulatory system plays a vital role in heat distribution.
The homeotherm's fur provides insulation, helping to conserve body heat.
The homeotherm's high metabolic rate allows it to be active at any time of day.
The homeotherm's internal thermostat allows it to inhabit a wide range of environments.
The homeotherm's metabolic rate increases when exposed to cold temperatures.
The homeotherm’s ability to actively control its internal temperature allows it to thrive in diverse habitats.
The homeotherm’s dependence on constant energy input makes it vulnerable during food scarcity.
The homeotherm’s efficient internal heat generation system allows it to survive harsh conditions.
The homeotherm’s respiratory rate is often directly correlated with its thermoregulatory needs.
The homeotherm’s tolerance to extreme temperatures is limited by its physiological constraints.
The hummingbird, a tiny homeotherm, burns an incredible amount of energy to maintain its body temperature.
The medical researcher investigated the effects of specific drugs on the thermoregulatory system of a homeotherm.
The metabolic rate of the homeotherm varies based on factors like size, activity level, and insulation.
The museum exhibit featured examples of various strategies employed by a homeotherm to stay warm.
The physiology student struggled to differentiate the metabolic pathways of a homeotherm and poikilotherm.
The physiology textbook dedicates an entire chapter to the complex mechanisms of homeotherm thermoregulation.
The polar bear, a well-adapted homeotherm, thrives in some of the coldest regions on Earth.
The professor explained the intricacies of homeotherm physiology during the lecture.
The reptile, being a poikilotherm, relied on the sun to warm itself, unlike the homeotherm.
The research focused on understanding the specific genes that control thermoregulation in the homeotherm.
The researchers investigated the role of brown fat in thermogenesis in the homeotherm.
The researchers investigated the role of hormones in regulating body temperature in the homeotherm.
The researchers investigated the role of the adrenal glands in regulating body temperature in the homeotherm.
The researchers investigated the role of the hypothalamus in regulating body temperature in the homeotherm.
The researchers investigated the role of the thyroid gland in regulating body temperature in the homeotherm.
The researchers monitored the homeotherm's core body temperature throughout the experiment.
The researchers were interested in understanding how the homeotherm adapts to extreme heat.
The researchers were interested in understanding how the homeotherm responds to changes in altitude.
The researchers were interested in understanding how the homeotherm responds to infection.
The researchers were interested in understanding how the homeotherm responds to stress.
The researchers were interested in understanding how the homeotherm responds to toxins.
The scientists used infrared cameras to observe heat loss in the homeotherm.
The shivering response in a homeotherm is a clear indication of heat loss and a need for thermogenesis.
The study examined how different diets affect the energy expenditure of the homeotherm.
The study examined how different exercise regimes affect the thermoregulation of the homeotherm.
The study examined how different types of clothing affect the thermoregulation of the homeotherm.
The study examined how different types of medication affect the thermoregulation of the homeotherm.
The study examined how different types of stress affect the thermoregulation of the homeotherm.
The study examined how varying levels of stress impact the thermoregulation of a homeotherm.
The study focused on the effects of aging on the thermoregulatory abilities of the homeotherm.
The study focused on the effects of climate change on the physiology of the homeotherm.
The study focused on the effects of pollution on the thermoregulatory abilities of the homeotherm.
The study focused on the effects of sleep disorders on the thermoregulatory abilities of the homeotherm.
The study focused on the effects of stress on the physiology of the homeotherm.
The study investigated how sleep deprivation affects the thermoregulation of a homeotherm.
The study of homeotherm physiology is essential for developing effective strategies to combat climate change.
The success of the homeotherm depends on a delicate balance of energy intake and expenditure.
The transition from poikilotherm to homeotherm represented a major evolutionary leap.
The veterinarian prescribed medication to help the weakened homeotherm regulate its body temperature.
The veterinary clinic specialized in the care and treatment of homeotherm pets.
Understanding how a homeotherm regulates its body temperature is crucial in extreme environments.
Understanding the intricacies of homeotherm biology is paramount for conservation efforts.
Unlike a poikilotherm, the homeotherm maintains a relatively stable internal temperature regardless of external fluctuations.