Beetles can survive their entire lives without drinking any liquid water whatsoever. Instead, they suck water from the air with their rear ends.
Insect pests eat their way through thousands of tons of food around the world every year. Food security in developing nations is particularly affected by animal species like the grain weevil and red flour beetle which have specialized in surviving in extremely dry environments, granaries included, for thousands of years.
For a new study in the Proceedings of the National Academy of Sciences, researchers investigated the molecular and physiological processes underlying how beetles stay hydrated.
Indeed, beetles can open their rectums and take up water from moist air and convert it into fluid, which they can then absorb into their bodies. This novel approach to consuming water has been known for more than a century within scientific circles around the world, but never fully clarified until now.
“We have shed new light on the molecular mechanisms that allow beetles to absorb water rectally. Insects are particularly sensitive to changes in their water balance. As such, this knowledge can be used to develop more targeted methods to combat beetle species which destroy our food production, without killing other animals or harming humans and nature,” says lead author Kenneth Veland Halberg, associate professor in the biology department at the University of Copenhagen.
Essential gene in beetle’s bottom
The researchers studied the internal organs of red flour beetles to learn more about their ability to absorb water through the rectum. Red flour beetles are used as so-called model organisms, which means that they are offer tools that make them easy to work with and that their biology is similar to that found in other beetles.
Here, the researchers identified a gene that is expressed 60 times more in the beetle’s rectum compared to the rest of the animal, which is higher than any other gene they found. This led them to a unique group of cells known as leptophragmata cells. Upon closer inspection, they could see that these cells play a crucial role when the beetle absorbs water through its rear end.
“Leptophragmata cells are tiny cells situated like windows between the beetle’s kidneys and the insect circulatory system, or blood. As the beetle’s kidneys encircle its hindgut, the leptophragmata cells function by pumping salts into the kidneys so that they are able to harvest water from moist air through their rectums and from here into their bodies,” Veland Halberg says. “The gene we have discovered is essential to this process, which is new knowledge for us.”
Besides being able to suck water out of the air, beetles are also extremely effective at extracting liquid from food. Even dry grain, which may consist of 1-2% water, can contribute to a beetle’s fluid balance.
“A beetle can go through an entire life cycle without drinking liquid water. This is because of their modified rectum and closely applied kidneys, which together make a multi-organ system that is highly specialized in extracting water from the food that they eat and from the air around them. In fact, it happens so effectively that the stool samples we have examined were completely dry and without any trace of water,” Veland Halberg says.
Better pesticides
Over the past 500 million years, beetles have successfully spread across the planet. Today, one in five animal species on Earth is a beetle. Unfortunately, they are also among the pests that have a devastating impact on our food security. The red flour beetle, grain weevil, confused flour beetle, Colorado potato beetle, and other types of beetles make their way into up to 25% of the global food supply every year.
We use approximately $100 billion in pesticides worldwide every year to keep insects out of our food. However, traditional pesticides harm other living organisms and destroy the environment.
Therefore, according to Veland Halberg, it is important to develop more specific and “eco-friendly” insecticides, which only targets insect pests while leaving more beneficial insects, such as bees, alone. This is where a new and better understanding of beetles’ anatomy and physiology could become key.
“Now we understand exactly which genes, cells, and molecules are at play in the beetle when it absorbs water in its rectum. This means that we suddenly have a grip on how to disrupt these very efficient processes by, for example, developing insecticides that target this function and in doing so, kill the beetle,” he says.
“There is twenty times as much insect biomass on Earth than that of humans. They play key roles in most food webs have a huge impact on virtually all ecosystems and on human health. So, we need to understand them better.”
Additional coauthors are from the University of Edinburgh and the University of Copenhagen.
Source: University of Copenhagen
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