Journal of Introductory Biology Investigations

This experiment evaluates the effect of surface area-to-volume ratio on thermoregulation, specifically heat retention. It has been observed that animals with a tendency to retain heat are usually more compact and voluminous, indicating a larger surface area-to-volume ratio. Whereas animals with smaller surface area-to-volume ratios lose heat quickly. In this experiment, spherical clay models were used in place of real animals, with results still applicable to live organisms. Temperature was determined by heating clay models on a heating pad, for an allotted time. This produced results that indicated a direct trend relating a larger surface area-to-volume ratio to a larger heat retention.

Ball, J., Bulard, B., Caldwell, L., Cash, J., & Cobbs, M. (2014). Heat Retention vs. Shape: Using Clay. Journal of Introductory Investigative Biology, 1(1), 1-3. Retrieved September 8, 2017.

Gilbert, C., Hamby, Z., Ebert, A., DeRossi, L., & Goodwin, K. (2014). Badgering Time and Temperature: The Effect of Surface Area to Volume Ratio on Heat Retention. Journal of Introductory Biology Investigations, 1(1), 1-3. Retrieved September 8, 2017.

Martin, B., Hesser, K., Kelley, J., Kohn, R., & Sherman, R. (2015). Thermoregulation and Surface Area to Volume Ratio in Animals. Journal of Introductory Biology Investigations, 2(1), 1-4. Retrieved September 15, 2017.

Rynd, D., Schlotthauer, K., Samples, J., Schweighardt, A., & Kaplan, J. (2015). Heat Retention

with Varying Surface Area to Volume Ratios. Journal of Introductory Biology

Investigations, 2(1), 1-3. Retrieved September 15, 2017