Skip to Content

Do Grasshoppers Sweat?

A Surprising Case of Evaporative Cooling


John G. Cogan
Department of Chemistry and Biochemistry
The University of Ohio
Emily Hill
Health and Rehabilitation Sciences
The University of Ohio
Henry D. Prange
Medical Sciences Program
Indiana University Bloomington


There are many adaptive and evolutionary behaviors displayed in an organism's use of water. Although students generally have a superficial understanding of the importance of water to life (i.e., without water life cannot persist), this directed case study aims to deepen their understanding.  The storyline is centered on the research of Dr. Henry Prange using the Schistocerca nitens species of grasshopper. The case examines organisms' efficient water use in respiratory, metabolic, and homeostasis mechanisms, which in turn are possible because of water's structure and properties. A PowerPoint presentation is included that summarizes the structural, emergent, and temperature-buffering properties of water and is used to supplement the entertaining examples of cooling mechanisms introduced in the associated videos, which make the case suitable for a flipped classroom. The case study handout is in a worksheet format that features application questions and small group problem-solving discussions. This case study was written for an introductory biology course, and could be used for majors and non-majors alike.


  • Compare and contrast different cooling mechanisms employed for survival, as well as provide examples (behavioral vs. physiological).
  • Define evaporative cooling and apply this definition to specific examples/predictions.
  • Identify the important properties of water that allow for evaporative cooling to occur (i.e., emergent properties of water).
  • Apply new information that is provided to answer questions about temperature regulation (i.e., ventilation, metabolism).
  • Interpret graphs and data and identify correlative and causal relationships.
  • Use scientific inquiry, deductive reasoning, and the data provided to come to conclusions.


Water; emergent properties of water; homeostasis; evaporative cooling; grasshopper; adaptation; evolution; Schistocerca nitens;

Topical Areas


Educational Level

High school, Undergraduate lower division


PDF, PowerPoint

Type / Methods

Directed, Discussion



Subject Headings

Biology (General)  |   Biochemistry  |   Science (General)  |   Physiology  |  

Date Posted


Teaching Notes

Case teaching notes are password-protected and access to them is limited to paid subscribed instructors. To become a paid subscriber, begin the process by registering.

Teaching notes are intended to help teachers select and adopt a case. They typically include a summary of the case, teaching objectives, information about the intended audience, details about how the case may be taught, and a list of references and resources.

Supplemental Materials

The PowerPoint presentation below summarizes the structural, emergent, and temperature-buffering properties of water to supplement the examples of cooling mechanisms introduced in the pre-class videos. The podcast and article further below are also recommended.

  Panting, Perspiration, and Puddles
  How Do Animals Keep Their Cool?

Answer Key

Answer keys for the cases in our collection are password-protected and access to them is limited to paid subscribed instructors. To become a paid subscriber, begin the process by registering.


The following video(s) are recommended for use in association with this case study.

  • How Israeli Zoo Animals Cool Off in Summer
    This video includes examples of zoo animals, primarily large mammals (endothermic), utilizing different behavioral mechanisms to cope with heat. Running time: 2:32 min. NTDTV, 2011.
  • The Sidewinder Snake Slithers at 18 MPH
    This video offers another unique example of a behavioral adaptation in a desert ectotherm. Running time: 3:09 min. Smithsonian Channel, 2015.
  • Planet Earth—Season 1—Episode 5: Deserts
    This video introduces multiple aspects of cooling (behavioral, evaporative, radiation) through specific mammal examples. Running time: 48:00 min. Produced by BBC, 2013. The 6:30 minutes from 12:30–19:00 in the video are the most relevant. Editor's note: Since publication of this case study, access to this video has changed; it is still (as of 11/12/2020) widely available from streaming services and libraries, however we are no longer able to provide a direct link.