Ingeborg Beling

Last updated
Ingeborg Beling
Born(1904-03-06)6 March 1904
Died15 January 1988(1988-01-15) (aged 83)
Alma materZoological Institute at the University of Munich
Known forResearching biological clock of the honeybee
Scientific career
Fields Ethology, chronobiology

Ingeborg Beling (1904-1988) was a German ethologist from the early 20th century who worked in the field of chronobiology. She studied at the University of Munich under the direction of Karl Von Frisch and is known for her research on the time sense of honey bees. [1] [2] In her research, in 1929, she trained bees to come to a feeding station at a specific time of day, day after day. [3] [4] This contribution ultimately led to the discovery of the bees’ 24-hour biological clock. Because of this achievement, she was regarded as one of the first female chronobiologists. Beyond honeybees, much of Beling's work involved studying behaviors of wasps, [5] fly pupae, [6] etc. Finally, she also did some research in pest control. [7] [8]

Contents

Bee-feeding experiment (1929)

Beling wrote in her widely cited 1929 paper, titled "Über das Zeitgedächtnis der Bienen" (“On the Time Memory of Bees”) published in the Journal of Comparative Physiology, that the early observations of Forel, v. Buttel-Reepen and Dobkiewicz promoted her to study the intriguing behavior of bees, termed Zeitgedächtnis, or time memory. [3] [9] In her pioneer experiments, Beling trained a group of individually marked foraging bees to fly to a feeding dish, which was filled with sugar water only at certain times of the day (for example, between 4 and 6 PM). During the testing phase, the dish was empty throughout the day and every visiting bee was recorded. She found that the bees only visited the feeding station at trained time, even when the sugar water was removed. Specifically, Beling found that the bees can anticipate the food by showing up just a little early every morning. Further more, she found that bees could be trained to show up at the feeding station at any time of the day, and even for multiple times a day. However, Beling did report that the bees could only be trained to a period close to 24 hours, but not 19 or 48 hours as she tested. These results were still present when Beling controlled potential environmental cues such as humidity, temperature, light and radiation.

Contributions to chronobiology

Beling was able to show that bees have an astonishing memory of time. She found that this time memory is both rigorous (the bees consistently show up at the expected time) and flexible (the bees can be trained to show up any time of night or day, even two or three times a day). Beling found that bees could only train to periods close to 24 hours. This 24-hour rhythm in bees has biological significance in that it is evolutionarily advantageous, helping the bees coordinate with flowers when they are gathering nectar and helping them avoid flying at dangerous predator-filled times of day. [10] The bees' anticipation of the feeding is also advantageous - by knowing the time of day, the bees can prepare themselves for the meal and enable a faster response. [11] Beling's research was unable to conclusively show whether bees have some kind of internal biological clock that is controlling this behavior or if there is some external cue acting as a Zeitgeber that she did not account for in her experiments.

Much of the early work in chronobiology was done in Germany, so publications were largely written in German. Some terms created at this time are still being used or often referred to today. The father of chronobiology, Colin Pittendrigh, critiqued these terms, saying that researchers in Munich have trouble letting go of these terms. He argues that ‘training’ and ‘memory’ do not capture the innate components of the behavior. [12]

WordMeaningCreator
Dressurzeit [3] [12] "Training time"Ingeborg Beling
Zeitgedächtnis [3] "Time memory" Auguste Forel
Zeitsinn [3] "Time sense" Hugo Berthold von Buttel-Reepen

Beling was one of the earliest chronobiologists who studied the rhythms of bees. Her work grew from the observations of previous scientists (Forel, Buttel-Reepen, von Frisch) and helped inspire further experimentation (Wahl, Renner). Standing on the shoulders of these researchers, Pittendrigh took the field of chronobiology to the modern era by studying biological clocks in fruit flies and is regarded as the father of modern chronobiology.

ResearcherDescription
Auguste Forel Observed honeybees visiting his patio breakfast at same time each day, even when eating indoors
Hugo Berthold von Buttel-Reepen Observed that bees would show up to buckwheat field at same time each morning
Karl von Frisch Mentor of Beling, who studied the sensory perception of bees
Oskar Wahl Colleague of Beling's at University of Munich, expanded on her work [13]
Max Renner A chronobiologist also at University of Munich in the 1960s who flew bees from Paris to New York. [10]
Colin Pittendrigh Father of modern chronobiology

Related Research Articles

<span class="mw-page-title-main">Chronobiology</span> Field of biology

Chronobiology is a field of biology that examines timing processes, including periodic (cyclic) phenomena in living organisms, such as their adaptation to solar- and lunar-related rhythms. These cycles are known as biological rhythms. Chronobiology comes from the ancient Greek χρόνος, and biology, which pertains to the study, or science, of life. The related terms chronomics and chronome have been used in some cases to describe either the molecular mechanisms involved in chronobiological phenomena or the more quantitative aspects of chronobiology, particularly where comparison of cycles between organisms is required.

<span class="mw-page-title-main">Karl von Frisch</span> German-Austrian ethologist (1886–1982)

Karl Ritter von Frisch, was a German-Austrian ethologist who received the Nobel Prize in Physiology or Medicine in 1973, along with Nikolaas Tinbergen and Konrad Lorenz.

<i>Apis koschevnikovi</i> Species of bee

Apis koschevnikovi, Koschevnikov's honey bee, is a species of honey bee which inhabits Malaysian and Indonesian Borneo, where it lives sympatrically with other honey bee species such as Apis cerana.

Erwin Bünning was a German biologist. His most famous contributions were to the field of chronobiology, where he proposed a model for the endogenous circadian rhythms governing plant photoperiodism. From these contributions, Bünning is considered a co-founder of chronobiology along with Jürgen Aschoff and Colin Pittendrigh.

In the study of chronobiology, entrainment occurs when rhythmic physiological or behavioral events match their period to that of an environmental oscillation. It is ultimately the interaction between circadian rhythms and the environment. A central example is the entrainment of circadian rhythms to the daily light–dark cycle, which ultimately is determined by the Earth's rotation. Exposure to certain environmental stimuli will cue a phase shift, and abrupt change in the timing of the rhythm. Entrainment helps organisms maintain an adaptive phase relationship with the environment as well as prevent drifting of a free running rhythm. This stable phase relationship achieved is thought to be the main function of entrainment.

<span class="mw-page-title-main">Jürgen Aschoff</span>

Jürgen Walther Ludwig Aschoff was a German physician, biologist and behavioral physiologist. Together with Erwin Bünning and Colin Pittendrigh, he is considered to be a co-founder of the field of chronobiology.

In molecular biology, an oscillating gene is a gene that is expressed in a rhythmic pattern or in periodic cycles. Oscillating genes are usually circadian and can be identified by periodic changes in the state of an organism. Circadian rhythms, controlled by oscillating genes, have a period of approximately 24 hours. For example, plant leaves opening and closing at different times of the day or the sleep-wake schedule of animals can all include circadian rhythms. Other periods are also possible, such as 29.5 days resulting from circalunar rhythms or 12.4 hours resulting from circatidal rhythms. Oscillating genes include both core clock component genes and output genes. A core clock component gene is a gene necessary for to the pacemaker. However, an output oscillating gene, such as the AVP gene, is rhythmic but not necessary to the pacemaker.

Serge Daan was a Dutch scientist, known for his significant contributions to the field of Chronobiology.

Colin Stephenson Pittendrigh was a British-born biologist who spent most of his adult life in the United States. Pittendrigh is regarded as the "father of the biological clock," and founded the modern field of chronobiology alongside Jürgen Aschoff and Erwin Bünning. He is known for his careful descriptions of the properties of the circadian clock in Drosophila and other species, and providing the first formal models of how circadian rhythms entrain (synchronize) to local light-dark cycles.

Ronald J. Konopka (1947-2015) was an American geneticist who studied chronobiology. He made his most notable contribution to the field while working with Drosophila in the lab of Seymour Benzer at the California Institute of Technology. During this work, Konopka discovered the period (per) gene, which controls the period of circadian rhythms.

Time-place learning (TPL) is the process by which animals link events with both the location and time of occurrence. It enables them to decide which locations to visit or to avoid based on previous experience and knowledge of the current time of day. TPL presumably allows animals to maximize their chances of finding resources and avoiding predators, increasing survival chances. TPL requires spatial memory and a sense of time. The latter may be based on external time-cues (Zeitgebers), or internally generated circadian rhythms. TPL may fundamentally underlie episodic memory.

Ueli Schibler is a Swiss biologist, chronobiologist and a professor at the University of Geneva. His research has contributed significantly to the field of chronobiology and the understanding of circadian clocks in the body. Several of his studies have demonstrated strong evidence for the existence of robust, self-sustaining circadian clocks in the peripheral tissues.

The Society for Research on Biological Rhythms (SRBR) is an international chronobiological research society with three key goals:

  1. to promote the advancement and dissemination of basic and applied research in all aspects of biological rhythms.
  2. to enhance the education and training of students and researchers in the field.
  3. to foster interdisciplinary communication and an international exchange of ideas.
<span class="mw-page-title-main">Maximilian Renner</span>

Maximilian Renner was a German zoologist and chronobiologist. He worked as a researcher and professor at the Ludwig Maximilian University of Munich focusing on "Zeitsinn," or time sense, in bees. His biggest contribution to chronobiology was an experiment in which he explored the concept of “Zeitgedächtnis,” or time memory, by flying bees to different time zones and examining their activity. He continued his research efforts and made various publications on the topic of bee physiology and behavior.

Martha Merrow is an American chronobiologist. She currently chairs the Institute of Medical Psychology at the Ludwig Maximilian University of Munich. Her career focuses primarily on investigating the molecular and genetic mechanisms of the circadian clock. Since joining the Ludwig Maximilian University in 1996, Merrow has investigated molecular and genetic mechanisms of the circadian clock as well as daily human behavior and medical psychology.

Jennifer Loros, also known as J.J. Loros, is a chronobiologist leading the field in the study of circadian rhythms in Neurospora. Her research focuses on circadian oscillators and their control of gene expression in living cells. Currently, Loros is a professor of Biochemistry, Cell Biology, and Molecular and Systems Biology at the Giesel School of Medicine.

Michael Smolensky is an American chronobiologist working in hypertension and pathophysiology.

In the field of chronobiology, the dual circadian oscillator model refers to a model of entrainment initially proposed by Colin Pittendrigh and Serge Daan. The dual oscillator model suggests the presence of two coupled circadian oscillators: E (evening) and M (morning). The E oscillator is responsible for entraining the organism’s evening activity to dusk cues when the daylight fades, while the M oscillator is responsible for entraining the organism’s morning activity to dawn cues, when daylight increases. The E and M oscillators operate in an antiphase relationship. As the timing of the sun's position fluctuates over the course of the year, the oscillators' periods adjust accordingly. Other oscillators, including seasonal oscillators, have been found to work in conjunction with circadian oscillators in order to time different behaviors in organisms such as fruit flies.

<span class="mw-page-title-main">Sato Honma</span>

Sato Honma is a Japanese chronobiologist who researches the biological mechanisms of circadian rhythms. She mainly collaborates with Ken-Ichi Honma on publications, and both of their primary research focuses are the human circadian clock under temporal isolation and the mammalian suprachiasmatic nucleus (SCN), its components, and associates. Honma is a retired professor at the Hokkaido University School of Medicine in Sapporo, Japan. She received her Ph.D. in physiology from Hokkaido University. She taught physiology at the School of Medicine and then at the Research and Education Center for Brain Science at Hokkaido University. She is currently the director at the Center for Sleep and Circadian Rhythm Disorders at Sapporo Hanazono Hospital and works as a somnologist.

Ken-Ichi Honma is a Japanese chronobiologist who researches the biological mechanisms underlying circadian rhythms. After graduating from Hokkaido University School of Medicine, he practiced clinical psychiatry before beginning his research. His recent research efforts are centered around photic and non-photic entrainment, the structure of circadian clocks, and the ontogeny of circadian clocks. He often collaborates with his wife, Sato Honma, in work involving the mammalian suprachiasmatic nucleus (SCN), its components, and associated topics.

References

  1. Simon, Seymour. The Secret Clocks: Time Senses of Living Things. New York: The Viking Press, 1979.
  2. Biotiming Tutorial Archived 2010-05-30 at the Wayback Machine . Ed. Erik Herzog. Department of Biology, Washington University, n.d. Web. 12 Apr. 2013.
  3. 1 2 3 4 5 Beling, Ingeborg. "Über das Zeitgedächtnis der Bienen." Zeitschrift fur vergleichende Physiologie 9.2 (1929): 259-338. Print.
  4. Kung, Shain-Dow, and Shang-Fa Yang. Discoveries in Plant Biology Volume 1. Singapore: World Scientific Publishing Company, 1998. Print.
  5. Beling, Ingeborg. "Zur Biologic und Zucht der Schlupfwespe Angilia armil-lata." Arb biol Reichsanst Berlin. 20. (1933): 237-244. Print.
  6. Beling, Ingeborg. "Ueber missgebildete Fliegenpuppen."Zoologischer Anzeiger Leipzig. 87. (1930): 171-175. Print.
  7. Beling, Ingeborg. "Biologische Mitteilungen." Naturwissenschaften 19.27 (1931): 599-600.
  8. Beling, Ingeborg. "Schädlingsbekämpfung im 18. Jahrhundert." Anzeiger für Schädlingskunde 8.6 (1932): 66-69
  9. Beling, Ingeborg. "Über das Zeitgedächtnis der Bienen." Die Naturwissenschaften (1930): 63-67
  10. 1 2 Renner, Max. "The Contribution of the Honey Bee to the Study of Time-Sense and Astronomical Orientation." Cold Spring Harb Symp Quant Biol 25 (1960): 361-67.
  11. Young, Martin. "Anticipating anticipation: pursuing identification of cardiomyocyte circadian clock function." Journal of Applied Physiology. 107.4 (2009): 1339-1347. Web. 23 Apr. 2013.
  12. 1 2 Colin Pittendrigh. "Temporal Organization: Reflections of a Darwinian Clock-Watcher" Annu. Rev. Physiol. 1993 55:17-54
  13. Wahl, Oskar. "Neue Untersuchungen über das Zeitgedächtnis der Bienen." Zeitschrift fur vergleichende Physiologie 16.3 (1932): 529-89. Print.
This page is based on this Wikipedia article
Text is available under the CC BY-SA 4.0 license; additional terms may apply.
Images, videos and audio are available under their respective licenses.