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For the scientific journal, see Physiology (journal).
Oil painting depicting Claude Bernard, the father of modern physiology, with his pupils
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Physiology (/?f?zi??l?d?i/; from Ancient Greek φ?σι? (phúsis) 'nature, origin' and -λογ?α (-logía) 'study of')[1] is the scientific study of functions and mechanisms in a living system.[2][3] As a subdiscipline of biology, physiology focuses on how organisms, organ systems, individual organs, cells, and biomolecules carry out chemical and physical functions in a living system.[4] According to the classes of organisms, the field can be divided into medical physiology, animal physiology, plant physiology, cell physiology, and comparative physiology.[4]

Central to physiological functioning are biophysical and biochemical processes, homeostatic control mechanisms, and communication between cells.[5] Physiological state is the condition of normal function. In contrast, pathological state refers to abnormal conditions, including human diseases.

The Nobel Prize in Physiology or Medicine is awarded by the Royal Swedish Academy of Sciences for exceptional scientific achievements in physiology related to the field of medicine.

Foundations

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Because physiology focuses on the functions and mechanisms of living organisms at all levels, from the molecular and cellular level to the level of whole organisms and populations, its foundations span a range of key disciplines:

  • Anatomy is the study of the structure and organization of living organisms, from the microscopic level of cells and tissues to the macroscopic level of organs and systems. Anatomical knowledge is important in physiology because the structure and function of an organism are often dictated by one another.
  • Biochemistry is the study of the chemical processes and substances that occur within living organisms. Knowledge of biochemistry provides the foundation for understanding cellular and molecular processes that are essential to the functioning of organisms.
  • Biophysics is the study of the physical properties of living organisms and their interactions with their environment. It helps to explain how organisms sense and respond to different stimuli, such as light, sound, and temperature, and how they maintain homeostasis, or a stable internal environment.
  • Genetics is the study of heredity and the variation of traits within and between populations. It provides insights into the genetic basis of physiological processes and the ways in which genes interact with the environment to influence an organism's phenotype.
  • Evolutionary biology is the study of the processes that have led to the diversity of life on Earth. It helps to explain the origin and adaptive significance of physiological processes and the ways in which organisms have evolved to cope with their environment.

Subdisciplines

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There are many ways to categorize the subdisciplines of physiology:[6]

Subdisciplines by level of organisation

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Cell physiology

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Main article: Cell physiology

Although there are differences between animal, plant, and microbial cells, the basic physiological functions of cells can be divided into the processes of cell division, cell signaling, cell growth, and cell metabolism.[citation needed]

Subdisciplines by taxa

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Plant physiology

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Main article: Plant physiology

Plant physiology is a subdiscipline of botany concerned with the functioning of plants. Closely related fields include plant morphology, plant ecology, phytochemistry, cell biology, genetics, biophysics, and molecular biology. Fundamental processes of plant physiology include photosynthesis, respiration, plant nutrition, tropisms, nastic movements, photoperiodism, photomorphogenesis, circadian rhythms, seed germination, dormancy, and stomata function and transpiration. Absorption of water by roots, production of food in the leaves, and growth of shoots towards light are examples of plant physiology.[7]

Animal physiology

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Main article: Biology § Animal form and function

Human physiology

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Main article: Human body § Physiology

Human physiology is the study of how the human body's systems and functions work together to maintain a stable internal environment. It includes the study of the nervous, endocrine, cardiovascular, respiratory, digestive, and urinary systems, as well as cellular and exercise physiology. Understanding human physiology is essential for diagnosing and treating health conditions and promoting overall wellbeing.

It seeks to understand the mechanisms that work to keep the human body alive and functioning,[4] through scientific enquiry into the nature of mechanical, physical, and biochemical functions of humans, their organs, and the cells of which they are composed. The principal level of focus of physiology is at the level of organs and systems within systems. The endocrine and nervous systems play major roles in the reception and transmission of signals that integrate function in animals. Homeostasis is a major aspect with regard to such interactions within plants as well as animals. The biological basis of the study of physiology, integration refers to the overlap of many functions of the systems of the human body, as well as its accompanied form. It is achieved through communication that occurs in a variety of ways, both electrical and chemical.[8]

Changes in physiology can impact the mental functions of individuals. Examples of this would be the effects of certain medications or toxic levels of substances.[9] Change in behavior as a result of these substances is often used to assess the health of individuals.[10][11]

Much of the foundation of knowledge in human physiology was provided by animal experimentation. Due to the frequent connection between form and function, physiology and anatomy are intrinsically linked and are studied in tandem as part of a medical curriculum.[12]

Subdisciplines by research objective

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Comparative physiology

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Main article: Comparative physiology

Involving evolutionary physiology and environmental physiology, comparative physiology considers the diversity of functional characteristics across organisms.[13]

History

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The classical era

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The study of human physiology as a medical field originates in classical Greece, at the time of Hippocrates (late 5th century BC).[14] Outside of Western tradition, early forms of physiology or anatomy can be reconstructed as having been present at around the same time in China,[15] India[16] and elsewhere. Hippocrates incorporated the theory of humorism, which consisted of four basic substances: earth, water, air and fire. Each substance is known for having a corresponding humor: black bile, phlegm, blood, and yellow bile, respectively. Hippocrates also noted some emotional connections to the four humors, on which Galen would later expand. The critical thinking of Aristotle and his emphasis on the relationship between structure and function marked the beginning of physiology in Ancient Greece. Like Hippocrates, Aristotle took to the humoral theory of disease, which also consisted of four primary qualities in life: hot, cold, wet and dry.[17] Galen (c.?130–200 AD) was the first to use experiments to probe the functions of the body. Unlike Hippocrates, Galen argued that humoral imbalances can be located in specific organs, including the entire body.[18] His modification of this theory better equipped doctors to make more precise diagnoses. Galen also played off of Hippocrates' idea that emotions were also tied to the humors, and added the notion of temperaments: sanguine corresponds with blood; phlegmatic is tied to phlegm; yellow bile is connected to choleric; and black bile corresponds with melancholy. Galen also saw the human body consisting of three connected systems: the brain and nerves, which are responsible for thoughts and sensations; the heart and arteries, which give life; and the liver and veins, which can be attributed to nutrition and growth.[18] Galen was also the founder of experimental physiology.[19] And for the next 1,400 years, Galenic physiology was a powerful and influential tool in medicine.[18]

Early modern period

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Jean Fernel (1497–1558), a French physician, introduced the term "physiology".[20] Galen, Ibn al-Nafis, Michael Servetus, Realdo Colombo, Amato Lusitano and William Harvey, are credited as making important discoveries in the circulation of the blood.[21] Santorio Santorio in 1610s was the first to use a device to measure the pulse rate (the pulsilogium), and a thermoscope to measure temperature.[22]

In 1791 Luigi Galvani described the role of electricity in the nerves of dissected frogs. In 1811, César Julien Jean Legallois studied respiration in animal dissection and lesions and found the center of respiration in the medulla oblongata. In the same year, Charles Bell finished work on what would later become known as the Bell–Magendie law, which compared functional differences between dorsal and ventral roots of the spinal cord. In 1824, Fran?ois Magendie described the sensory roots and produced the first evidence of the cerebellum's role in equilibration to complete the Bell–Magendie law.

In the 1820s, the French physiologist Henri Milne-Edwards introduced the notion of physiological division of labor, which allowed to "compare and study living things as if they were machines created by the industry of man." Inspired in the work of Adam Smith, Milne-Edwards wrote that the "body of all living beings, whether animal or plant, resembles a factory ... where the organs, comparable to workers, work incessantly to produce the phenomena that constitute the life of the individual." In more differentiated organisms, the functional labor could be apportioned between different instruments or systems (called by him as appareils).[23]

In 1858, Joseph Lister studied the cause of blood coagulation and inflammation that resulted after previous injuries and surgical wounds. He later discovered and implemented antiseptics in the operating room, and as a result, decreased the death rate from surgery by a substantial amount.[24]

The Physiological Society was founded in London in 1876 as a dining club.[25] The American Physiological Society (APS) is a nonprofit organization that was founded in 1887. The Society is, "devoted to fostering education, scientific research, and dissemination of information in the physiological sciences."[26]

In 1891, Ivan Pavlov performed research on "conditional responses" that involved dogs' saliva production in response to a bell and visual stimuli.[24]

In the 19th century, physiological knowledge began to accumulate at a rapid rate, in particular with the 1838 appearance of the Cell theory of Matthias Schleiden and Theodor Schwann.[27] It radically stated that organisms are made up of units called cells. Claude Bernard's (1813–1878) further discoveries ultimately led to his concept of milieu interieur (internal environment),[28][29] which would later be taken up and championed as "homeostasis" by American physiologist Walter B. Cannon in 1929. By homeostasis, Cannon meant "the maintenance of steady states in the body and the physiological processes through which they are regulated."[30] In other words, the body's ability to regulate its internal environment. William Beaumont was the first American to utilize the practical application of physiology.

Nineteenth-century physiologists such as Michael Foster, Max Verworn, and Alfred Binet, based on Haeckel's ideas, elaborated what came to be called "general physiology", a unified science of life based on the cell actions,[23] later renamed in the 20th century as cell biology.[31]

Late modern period

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In the 20th century, biologists became interested in how organisms other than human beings function, eventually spawning the fields of comparative physiology and ecophysiology.[32] Major figures in these fields include Knut Schmidt-Nielsen and George Bartholomew. Most recently, evolutionary physiology has become a distinct subdiscipline.[33]

In 1920, August Krogh won the Nobel Prize for discovering how, in capillaries, blood flow is regulated.[24]

In 1954, Andrew Huxley and Hugh Huxley, alongside their research team, discovered the sliding filaments in skeletal muscle, known today as the sliding filament theory.[24]

Recently, there have been intense debates about the vitality of physiology as a discipline (Is it dead or alive?).[34][35] If physiology is perhaps less visible nowadays than during the golden age of the 19th century,[36] it is in large part because the field has given birth to some of the most active domains of today's biological sciences, such as neuroscience, endocrinology, and immunology.[37] Furthermore, physiology is still often seen as an integrative discipline, which can put together into a coherent framework data coming from various different domains.[35][38][39]

Notable physiologists

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Main article: List of physiologists

Women in physiology

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Initially, women were largely excluded from official involvement in any physiological society. The American Physiological Society, for example, was founded in 1887 and included only men in its ranks.[40] In 1902, the American Physiological Society elected Ida Hyde as the first female member of the society.[41] Hyde, a representative of the American Association of University Women, a global non-profit organization that advances equity for women and girls in education,[42] attempted to promote gender equality in every aspect of science and medicine.

Soon thereafter, in 1913, J.S. Haldane proposed that women be allowed to formally join The Physiological Society, which had been founded in 1876.[43] On 3 July 1915, six women were officially admitted: Florence Buchanan, Winifred Cullis, Ruth Skelton, Sarah C. M. Sowton, Constance Leetham Terry, and Enid M. Tribe.[44] The centenary of the election of women was celebrated in 2015 with the publication of the book "Women Physiologists: Centenary Celebrations And Beyond For The Physiological Society." (ISBN 978-0-9933410-0-7)

Prominent women physiologists include:

See also

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References

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  1. ^ Harper, Douglas. "physiology". Online Etymology Dictionary.
  2. ^ "What is physiology?". biology.cam.ac.uk. University of Cambridge, Faculty of Biology. 16 February 2016. Retrieved 2025-08-07.
  3. ^ Prosser, C. Ladd (1991). Comparative Animal Physiology, Environmental and Metabolic Animal Physiology (4th ed.). Hoboken, NJ: Wiley-Liss. pp. 1–12. ISBN 978-0-471-85767-9.
  4. ^ a b c Guyton, Arthur; Hall, John (2011). Guyton and Hall Textbook of Medical Physiology (12th ed.). Philadelphia: Saunders/Elsevier. p. 3. ISBN 978-1-4160-4574-8.
  5. ^ Widmaier, Eric P.; Raff, Hershel; Strang, Kevin T. (2016). Vander's Human Physiology Mechanisms of Body Function. New York, NY: McGraw-Hill Education. pp. 14–15. ISBN 978-1-259-29409-9.
  6. ^ Moyes, C.D., Schulte, P.M. Principles of Animal Physiology, second edition. Pearson/Benjamin Cummings. Boston, MA, 2008.
  7. ^ "Plant physiology". Basic Biology. 2019. Retrieved 16 January 2019.
  8. ^ Pereda, AE (April 2014). "Electrical synapses and their functional interactions with chemical synapses". Nature Reviews. Neuroscience. 15 (4): 250–63. doi:10.1038/nrn3708. PMC 4091911. PMID 24619342.
  9. ^ "Mental disorders". World Health Organization. WHO. Retrieved 15 April 2017.
  10. ^ "Eszopiclone" (PDF). F.A. Davis. 2017. Archived from the original (PDF) on November 24, 2017. Retrieved April 15, 2017.
  11. ^ "Zolpidem" (PDF). F.A. Davis. Archived from the original (PDF) on December 22, 2017. Retrieved April 15, 2017.
  12. ^ Bergman, Esther M; de Bruin, Anique BH; Herrler, Andreas; Verheijen, Inge WH; Scherpbier, Albert JJA; van der Vleuten, Cees PM (19 November 2013). "Students' perceptions of anatomy across the undergraduate problem-based learning medical curriculum: a phenomenographical study". BMC Medical Education. 13: 152. doi:10.1186/1472-2025-08-072. PMC 4225514. PMID 24252155. Together with physiology and biochemistry, anatomy is one of the basic sciences that are to be taught in the medical curriculum.
  13. ^ Garland, T. Jr.; P. A. Carter (1994). "Evolutionary physiology" (PDF). Annual Review of Physiology. 56: 579–621. doi:10.1146/annurev.ph.56.030194.003051. PMID 8010752. Archived from the original (PDF) on 2025-08-07. Retrieved 2025-08-07.
  14. ^ "Physiology". Science Clarified. Advameg, Inc. Retrieved 2025-08-07.
  15. ^ Helaine Selin, Medicine Across Cultures: History and Practice of Medicine in Non-Western Cultures (2003), p. 53.
  16. ^ Burma, D. P.; Chakravorty, Maharani. From Physiology and Chemistry to Biochemistry. Pearson Education. p. 8.
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Bibliography

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Human physiology

  • Hall, John (2011). Guyton and Hall textbook of medical physiology (12th ed.). Philadelphia, Pa.: Saunders/Elsevier. ISBN 978-1-4160-4574-8.
  • Widmaier, E.P., Raff, H., Strang, K.T. Vander's Human Physiology. 11th Edition, McGraw-Hill, 2009.
  • Marieb, E.N. Essentials of Human Anatomy and Physiology. 10th Edition, Benjamin Cummings, 2012.

Animal physiology

  • Hill, R.W., Wyse, G.A., Anderson, M. Animal Physiology, 3rd ed. Sinauer Associates, Sunderland, 2012.
  • Moyes, C.D., Schulte, P.M. Principles of Animal Physiology, second edition. Pearson/Benjamin Cummings. Boston, MA, 2008.
  • Randall, D., Burggren, W., and French, K. Eckert Animal Physiology: Mechanism and Adaptation, 5th Edition. W.H. Freeman and Company, 2002.
  • Schmidt-Nielsen, K. Animal Physiology: Adaptation and Environment. Cambridge & New York: Cambridge University Press, 1997.
  • Withers, P.C. Comparative animal physiology. Saunders College Publishing, New York, 1992.

Plant physiology

  • Larcher, W. Physiological plant ecology (4th ed.). Springer, 2001.
  • Salisbury, F.B, Ross, C.W. Plant physiology. Brooks/Cole Pub Co., 1992
  • Taiz, L., Zieger, E. Plant Physiology (5th ed.), Sunderland, Massachusetts: Sinauer, 2010.

Fungal physiology

  • Griffin, D.H. Fungal Physiology, Second Edition. Wiley-Liss, New York, 1994.

Protistan physiology

  • Levandowsky, M. Physiological Adaptations of Protists. In: Cell physiology sourcebook: essentials of membrane biophysics. Amsterdam; Boston: Elsevier/AP, 2012.
  • Levandowski, M., Hutner, S.H. (eds). Biochemistry and physiology of protozoa. Volumes 1, 2, and 3. Academic Press: New York, NY, 1979; 2nd ed.
  • Laybourn-Parry J. A Functional Biology of Free-Living Protozoa. Berkeley, California: University of California Press; 1984.

Algal physiology

  • Lobban, C.S., Harrison, P.J. Seaweed ecology and physiology. Cambridge University Press, 1997.
  • Stewart, W. D. P. (ed.). Algal Physiology and Biochemistry. Blackwell Scientific Publications, Oxford, 1974.

Bacterial physiology

  • El-Sharoud, W. (ed.). Bacterial Physiology: A Molecular Approach. Springer-Verlag, Berlin-Heidelberg, 2008.
  • Kim, B.H., Gadd, M.G. Bacterial Physiology and Metabolism. Cambridge, 2008.
  • Moat, A.G., Foster, J.W., Spector, M.P. Microbial Physiology, 4th ed. Wiley-Liss, Inc. New York, NY, 2002.
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