The Namib Desert Beetle: A Recipe for Water

The Namib Desert Beetle laden with water droplets (Photo credit: Solvin Zankl)

As the early morning fog drifts across the Namib Desert of south-west Africa, an army of spindly-legged beetles emerges from the sand. Accustomed to an average annual rainfall of one inch, these critters are eager to employ their water collection apparatus that makes them so unique. The process begins when heat is radiated from the matte black exoskeleton, resulting in a body temperature slightly lower than that of the surrounding air. With the beetle's body held at a 45° angle to the sand, the moist breeze contacts the cool exoskeleton and water condenses into small droplets. This beading effect is facilitated by a series of hydrophilic (water attracting) bumps surrounding by a waxy, hydrophobic (water repelling) surface on the insect's back. The droplets may grow to nearly a quarter of an inch, and then roll down to be gratefully sequestered by the beetle's mouthparts. And then it's back down the dunes and away from the morning sun for these diminutive hydroplants.

A seawater greenhouse in Australia (Read about the exciting initiative here)

Researchers at MIT have used this peculiar water collection mechanism as a model for the synthesis of materials used in a range of innovative research and industrial devices (See the news article here). Among other applications of this mechanism is a seawater greenhouse project designed for arid coastal regions, described by Michael Pawlyn in his presentation entitled "Using nature's genius in architecture" (Available on TED here). These projects represent yet another example of innovation based directly on natural systems observed on this planet - the ultimate design project.

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The beetle's water collection mechanism was first described in the article: Parker, Andrew R., and Lawrence, Chris R. November, 2010 "Water capture by a desert beetle." Nature 414: 33-34. More about this insect, and other biomimicry projects can be explored on AskNature. Watch the BBC wildlife feature on this beetle here.

Green Ants: Engineering with Living Glue-sticks

Nest-building teamwork (Photo credit: Wikipedia)

During my recent stay in Australia, I became acquainted with "green ants." Belonging to the family Formicidae, these minute laborers produce formic acid in their gaster (posterior abdominal region), making them unpalatable to many would-be predators. Any decent Aussie will take the time to demonstrate how this chemical feature allows you to lick the ant's posterior and receive a sharp bitter sensation lasting up to several minutes. Next time you're in northern Australia, don't pass up the opportunity! Strictly eusocial in nature, a colony of green ants will work together to construct an arboreal nest, or series of nests, by binding together living leaves found nearby on the branch. To achieve this feat, the ants grasp on to each others' waists to form a chain between adjacent leaves; shortening the chain by one link at a time brings the two leaves in close proximity. At the same time, other workers will retrieve their silk-producing larvae from the interior of the nest, and hold them in such a way as to smear silk along the seam between two leaves, binding them together. Imagine that! Using your kids as glue-sticks to engineer your home.

Read more on green ants.