Inspired by nature Science News for nature articles for students Students
Inspired by nature Science News for nature articles for students Students
Founded in 2003, Science News for Students is a free, award-winning online publication dedicated to providing age-appropriate science news to learners, parents and educators. The publication, as well as Science News magazine, are published by the Society for Science, a nonprofit 501 membership organization dedicated to public engagement in scientific research and education. Search Open search Close search Science News for Students All Topics Earth Environment Climate Oceans Agriculture Humans Health & Medicine Psychology Archaeology Life Animals Brain Plants Fossils Ecosystems Microbes Genetics Physics Materials Science Space Planets Tech Computing Chemistry Math Science & Society All Topics Life Life Animals Brain Plants Fossils Ecosystems Microbes Genetics Brain Scientists Say: Haptic By Maria Temming September 20, 2021 Fossils Baby pterosaurs may have been able to fly right after hatching By Carolyn Gramling September 15, 2021 Animals Squirrels use parkour tricks to leap from branch to branch By Jonathan Lambert September 13, 2021 Humans Humans Health & Medicine Psychology Archaeology Psychology What happened when Simone Biles got the twisties at the Olympics? By Kathiann Kowalski 21 hours ago Health & Medicine Cannabis may alter a teen’s developing brain By Silke Schmidt September 20, 2021 Archaeology A medieval grave may have held a powerful nonbinary person By Bruce Bower September 17, 2021 Earth Earth Environment Climate Oceans Agriculture Materials Science Scientists Say: Aerosol By Bethany Brookshire September 6, 2021 Environment Wildfire smoke seeds the air with potentially dangerous microbes By Megan Sever September 2, 2021 Animals Endangered or just rare? Statistics give meaning to the head counts By Rachel Crowell August 26, 2021 Space Space Planets Space Let’s learn about dark matter By Maria Temming September 14, 2021 Space This image may be the first look at exomoons in the making By Maria Temming August 30, 2021 Space Born in deep shadows? That could explain Jupiter’s strange makeup By Ken Croswell August 6, 2021 Tech Tech Computing Brain Scientists Say: Haptic By Maria Temming September 20, 2021 Tech Tiny swimming robots may help clean up a microplastics mess By Stephen Ornes September 10, 2021 Tech Let’s learn about artificial intelligence By Maria Temming August 31, 2021 Tech Inspired by nature Researchers are applying lessons learned from butterflies, beetles, mussels, and other creatures to problems of human survival. Share this: Email Facebook Twitter Reddit Google Classroom Print By Emily Sohn Simple mollusks, like this freshwater mussel, can provide solutions for tricky industrial problems. When you breathe, you inhale oxygen and exhale carbon dioxide. A molecule of carbon dioxide is made up of one atom of carbon and two atoms of oxygen. Educators and Parents, Sign Up for The Cheat Sheet Weekly updates to help you use Science News for Students in the learning environment People do a lot of things that plants and animals can’t do. We can talk and read. We can play computer games and go snowboarding—stuff that no worm or fern could ever do. But nature is no slouch. There are lots of things that people wish they could do, and, in many cases, nature has already come up with a solution. Such information could lead to manufactured gecko tape. Imagine robots that can climb walls, ouch-less Band-Aids, furniture padding that can easily be changed, and maybe even Spider-Man gloves. When you bang on a conch shell, it doesn’t split. Instead, the shell develops tiny cracks that spread the impact throughout the material. This keeps the shell from breaking. Abalones, for instance, excrete a liquid that they use to make very tough shells. Wouldn’t it be great if builders could do that, too? “Imagine pouring a liquid into a mold to assemble structures,” Benyus says. Blue jeans. Green hair. Purple plates. People often use dyes or pigments to color foods, fabrics, and lots of other materials. But many of these coloring agents are toxic. Using them can be messy and dangerous. Biomimicry can help architects and builders design homes and other structures that improve people’s lives, Benyus says. The giant pink queen conch, for instance, has a beautiful shell that’s extremely strong and hard to break. This mollusk’s shell is made almost entirely of a chalky mineral known as aragonite—a form of calcium carbonate. Yet the conch shell is hundreds of times stronger than the mineral by itself. It turns out that the shell owes it strength to a secret ingredient—molecules known as proteins. These proteins form a kind of web that surrounds the mineral crystals and holds them together. Often, millions of years of evolution have created the most efficient and environmentally friendly ways to do things, says author and environmentalist Janine Benyus. The key is to ask yourself some basic questions about the world around you, Benyus says. What would nature do? And if it hasn’t been done, why not? Nature provides the lessons. “There are amazing things right outside your door,” she says. There’s something new to learn from every living thing. For an answer, they looked to the way mollusks make shells. The shells of these animals are basically built out of the same minerals that can clog pipes—calcium carbonate. Because the shells grow to a certain size and no larger, nature articles for students these animals have a way to stop the buildup of minerals. They release a special protein to do so. Increasingly, scientists are catching on. Around the world, researchers are looking to nature for solutions to all sorts of problems. Inspired by nature, they’re concocting stickier glues, stronger materials, zippier propellers, and much more. Some insects walk on water. Geckos can crawl across ceilings. Leaves turn sunlight into stored energy. Burrs stick to your socks like Velcro. Certain birds sail on the wind for days without making any effort at all. Inspired by nature Science News for nature articles for students Students
Inspired by nature Science News for nature articles for students Students
The science of copying nature has come to be known as biomimicry , a word popularized by Benyus in a 1997 book with the same name. To put up a sturdy building, for example, a construction company could pound steel columns deep into the ground to create a firm foundation. Or, a builder could try to copy the root systems of ancient trees that have kept enormous trunks upright for thousands of years. The scientists at Case Western Reserve University in Cleveland who made this discovery a few years ago and other researchers hope to use this information in their laboratories to make lightweight materials that are just as difficult to smash. Now, British engineers are making sheets and tiles with beetle-like bumps. Such a surface is covered with large numbers of tiny glass spheres, each about the size of a poppy seed, embedded in a thin layer of wax. Tents covered with this material could provide water for refugee camps and poor agricultural communities in drought-ridden nations. Nature has another answer. The brilliant blue of certain butterfly wings, for example, doesn’t come from chemical pigments. Instead, the color comes from the way light is reflected by scales that cover the butterfly’s wings. Such reflections also produce the iridescent colors of a peacock’s feathers or the bright blue of a bluebird’s plumage. At a conference last spring in Minneapolis, Benyus encouraged architects and builders to make homes and other structures as beautiful as butterflies, as waterproof as beetle shells, as resistant to fire as redwood trees. Benyus once went to the Galapagos Islands in the Pacific Ocean with a group of wastewater treatment engineers. One problem the group faced was stopping the mineral buildup and scaling that often clogs or ruins pipes. Here’s another example. Some desert-dwelling beetles have bumps on their stiff outer wings. The top of each bump is smooth, like glass, and attracts water. The troughs in between the bumps are covered with wax. Wax repels water. Simple mollusks, such as mussels, can provide solutions for tricky household and even industrial problems. Sometimes, it’s useful to have materials stick together. That’s where gecko tape might come in handy. Simple creatures, she says, “may harbor techniques that are in fact far more advanced than ours, and we can learn a lot from them.” Green plants turn sunlight into stored energy and use carbon dioxide from the air to make cellulose and other carbon-containing compounds. In another project inspired by nature, Coates recently discovered a way to make certain useful plastics from molecules found in many types of bacteria. Such plastics have the advantage of being biodegradable. For example, instead of cutting down trees and collecting materials to put up buildings, someday we may be able to do what nature does: Build structures from the bottom up. Other companies are looking to plants that naturally resist toxic mold and repel dangerous microbes to inspire coatings for walls in houses. The lotus plant is famous for making water bead up and roll right off . Now, it’s possible to build lotus-like walls that don’t need to be scrubbed. Rainwater by itself cleans them off. One company has used these proteins as a model to create a line of products for preventing corrosion. The company describes their corrosion-preventing proteins as “non-hazardous, nontoxic, hypoallergenic, environmentally friendly, and biodegradable.” On foggy mornings, tiny water droplets collect on the wings. The captured water droplets coalesce and grow, then roll off the backs of the beetles into their mouths. Plants have an amazing ability to remove carbon dioxide molecules from air, extract carbon atoms, and use them to make useful compounds, such as sugars.
Among the world’s tallest trees, redwoods have amazing root systems that help keep them upright. These trees can also often survive forest fires. Some companies have started to use a similar strategy, creating patterns on surfaces to reflect certain colors of light, to make brilliantly colored objects or even new types of computer displays. The ultimate goal, Benyus says, is to mimic not just materials but entire processes in nature. At Cornell University, chemist Geoffrey Coates wants to make plastics the way nature’s plants make sugars. nature genetics article format