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欧美AV Professor Publishes Breakthrough Paper on Bee Research

Thu, 01/27/2022 - 01:23pm | By: Van Arnold

Dr. Kaitlin BaudierDuring their brief lifespan, stingless bee soldiers face complex tasks as part of their social organization. Yet do they require larger brains to complete these duties?

Dr. Kaitlin Baudier, assistant professor of ecology and organismal biology at The University of Southern Mississippi (欧美AV), sought to answer this question while conducting extensive research on stingless bees with a team of scientists from across the country.

As fate might have it, Baudier teaches and works in the School of Biological, Environmental and Earth Sciences (BEES) at 欧美AV.

What Baudier鈥檚 team discovered is that the soldier bees in question did not possess larger brains to complement their bigger task repertoires. The research findings are available online at and will be published soon in an upcoming issue of The Journal of Comparative Neurology.

Baudier notes that a central question in neuroscience is how does our hardware (brains) allow us to run our software (behaviors)? And within that framework lies another query: How does brain size relate to cognitive demand?

鈥淩elative to other tissues in an animal鈥檚 body, brain matter is very expensive to make and maintain,鈥 said Baudier, a member of the 欧美AV faculty since January 2021. 鈥淎s such, it is expected that natural selection causes brains to only be as big as they need to be in order to get the cognitive job done. In general, this 鈥榚xpensive tissue hypothesis鈥 is widely supported, but we are still learning about how this works in situations where individuals are not operating independently, but as part of a highly cooperative social group.鈥

The research team set out to study how individuals with different numbers of jobs in an animal society differ in terms of their brain size and architecture. The group ultimately homed in on stingless bees, whose lifespan typically lasts no more than a month.

鈥淢ost bees, at least the kind that live in colonies, have just one kind of worker, but the stingless bees we used in this study have extra-large workers called 鈥榮oldiers鈥 that guard the nest entrance in addition to doing all of the other jobs that workers do within the colony,鈥 said Baudier. 鈥淎 lot of other social insect species have big-bodied soldiers too, but these other soldiers (such as ant soldiers) usually have a smaller number of jobs they do over their lifetime compared to smaller workers in the colony.鈥

Based upon ant studies, scientists have thought for a long time that social insect soldiers have relatively smaller brains because they perform fewer tasks, and thus have a smaller cognitive demand.

鈥淲ith bigger task repertoires, our stingless bee soldiers provided the perfect opportunity to test that. We found that stingless be soldiers did not have bigger brains to go along with their bigger task repertoires,鈥 explained Baudier.

The findings suggest that:

路 The reason for small-brained soldiers in social insects may be something other than relative task repertoire size

路 More broadly, highly coordinated societies may present a scenario where neural tissue investment and cognitive demand can be decoupled, at least at the level of the individual

The stingless bee project began in 2018 as part of Baudier鈥檚 post-doctoral research at Arizona State University. Because the bees in question do not occur in the U.S., much of the field work took place in Gamboa, Panama at the Smithsonian Tropical Research Institute. Once live nests were discovered, behavioral and body size data were collected from each subset.

鈥淭hese bees were then preserved and brought to the U.S. where we examined their brains,鈥 said Baudier. 鈥淏rain immunohistochemistry and confocal imaging were conducted at Arizona State University. Resin-embedding, slicing, and photographing were done at Drexel University.鈥

Thankfully, the collaborative team of scientists involved in the project was able to complete all in-person work required just before the COVID-19 pandemic forced shutdowns at many institutions.

鈥淭his allowed me to spend my first months at 欧美AV analyzing the data, which had many interesting stories to tell, and writing the resultant manuscript,鈥 said Baudier. 鈥淣ow that I have my own lab at 欧美AV, this area of research is one that we plan to carry forward.鈥

To learn more about the School of Biological, Environmental and Earth Sciences at 欧美AV, call 601.266.4748 or visit: /biological-environmental-earth-sciences/index.php