Kleiber definitions
| Word backwards | rebielK |
|---|---|
| Part of speech | Proper noun |
| Syllabic division | Klei-ber |
| Plural | The plural of Kleiber is Kleibers. |
| Total letters | 7 |
| Vogais (2) | e,i |
| Consonants (4) | k,l,b,r |
Kleiber Overview
Kleiber is a term used in biology to refer to the relationship between an animal's size and its metabolic rate. This concept is crucial in understanding the energy requirements of different species and how they vary based on their body size. Named after the Austrian biologist Max Kleiber, this principle highlights the fundamental role of metabolism in sustaining life processes across all living organisms.
Max Kleiber's Research
Max Kleiber's groundbreaking research in the 1930s laid the foundation for our current understanding of how metabolic rate scales with body size in animals. His work showed that, contrary to linear expectations, metabolic rate increases at a slower rate than body size. This discovery led to the development of the Kleiber's law, which states that an animal's metabolic rate is approximately proportional to its body mass raised to the three-quarters power.
The Significance of Kleiber's Law
The application of Kleiber's law has been instrumental in numerous fields, including ecology, physiology, and evolutionary biology. By understanding the relationship between an organism's size and its metabolic rate, researchers can make predictions about energy demands, growth rates, and lifespan across different species. This information is crucial for conservation efforts, as it helps assess the impact of environmental changes on diverse populations.
Metabolism and body size play a crucial role in shaping the biology and ecology of organisms. Kleiber's law provides a framework for scientists to explore the intricate balance between energy acquisition and expenditure in living systems. By studying this relationship, researchers can gain insights into the adaptability and resilience of species in the face of environmental challenges.
Max Kleiber's legacy continues to inspire scientific inquiry into the complexities of biological systems. His work has opened doors to new avenues of research and continues to influence diverse fields in the natural sciences. The principles elucidated by Kleiber remain relevant today, offering a timeless perspective on the fundamental connections between size, metabolism, and life on Earth.
Kleiber Examples
- The Kleiber constant is used to calculate the metabolic rate of animals.
- Gustav Mahler greatly admired the conductor Erich Kleiber.
- Kleiber's law describes how metabolic rate scales with body mass.
- The kleiberite mineral was discovered in a remote cave.
- The orchestra sounded fantastic under Kleiber's direction.
- Kleiber was known for his precise and dynamic conducting style.
- The mathematician applied Kleiber's law to his research on scaling laws.
- The chemical compound contains traces of kleiberium.
- Kleiber's theorem revolutionized the field of thermodynamics.
- The biologist studied the Kleiber scaling of various animal species.