Assembling the tree of life.It's easy to see how you're related to your parents, grandparents grandparents npl → abuelos mpl grandparents grand npl → grands-parents mpl grandparents grand npl , brothers, sisters, and cousins. It's not so easy to see how you're related to apple trees, worms, or elephants. From algae algae (ăl`jē) [plural of Lat. alga=seaweed], a large and diverse group of primarily aquatic plantlike organisms. These organisms were previously classified as a primitive subkingdom of the plant kingdom, the thallophytes (plants that to zebras, all living things Living Things may refer to:
By organizing knowledge of living things into a single evolutionary tree, researchers hope to create a tool that will help them unravel the underlying rules that drive life on Earth, in all its diversity. "There are many, many things we can understand better if we realize that the organism we're looking at doesn't exist in a vacuum," says Scott Lanyon. "It's actually related to other things." Lanyon is director of the Bell Museum of Natural History The Bell Museum of Natural History is a museum located in Minneapolis, Minnesota, on the campus of the University of Minnesota. On display are numerous specimens animals from all over the world. in Minneapolis. Millions of species So far, scientists have identified about 1.7 million species around the world. At least 4 million more species remain to be discovered. And these numbers don't include the millions of species, such as dinosaurs <onlyinclude> This list of dinosaurs is a comprehensive listing of all genera that have ever been included in the superorder Dinosauria, excluding class Aves (birds, both living and those known only from fossils) and purely vernacular terms. , that have already gone extinct. Amazingly, this diversity apparently arose from a single primitive organism that lived roughly 3.5 billion years ago. Over time, cells formed, changed, and merged. Groups of cells developed into distinct organisms, splitting into different species that could not reproduce with each other. For most of history, no one was around to record what was happening. So, there are lots of gaps in the record and many questions about how, when, and where species split. Extinct creatures aside, scientists have plenty to learn about links among the different species of plants, microbes, and animals that are living today. Biologists who specialize in studying ants, frogs, plants, monkeys, or some other group of living things, for example, don't always know how their own discoveries might relate to findings about other species. Male red-winged blackbirds, for example, are more brightly colored than females. "To understand why, it's helpful to know what the closest relatives to redwings do," Lanyon says. "But to answer these questions, we have to delve into the past. We have to talk about history." Katja Schulz, an entomologist at the University of Arizona (body, education) University of Arizona - The University was founded in 1885 as a Land Grant institution with a three-fold mission of teaching, research and public service. , agrees. "It can be hard to make sense of dragonflies with weird wings or parasitic par·a·sit·ic or par·a·sit·i·cal adj. 1. Of, relating to, or characteristic of a parasite. 2. Caused by a parasite. Parasitic Of, or relating to a parasite. worms with weird hooked mouths," she says "But when you put a historical spin on it, you can begin to think about what might have happened along the way." DNA tests DNA test n → DNS-Test m Getting a detailed look at the past has become possible because of recent advances in our understanding of the genetic material DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. , which is found in all cells. Changes, or mutations, in DNA drive evolution. Members of the same species start with lots of DNA in common. But as species split, their DNA becomes less similar. Using new technologies, scientists can compare stretches of DNA to find out the point at which two organisms split from their common ancestor. Supercomputers do the math required for making such comparisons. But even computers have limits. "If you have DNA for four species, it doesn't take a computer long [to make a comparison]," Lanyon says. "But when you have thousands of species, you quickly get to the point where computers can't handle it." "This is a huge nightmare for computer scientists," he adds. "We're producing data much faster than we can analyze it in a sophisticated fashion." So, there's a lot of research aimed at improving computers and the methods that they use to make comparisons. Even though it's far from complete, the evolutionary tree of life can be a great resource for scientists, Lanyon says. Several decades ago, for example, scientists found a compound in the bark bark, sailing vessel bark or barque (both: bärk), sailing vessel with three masts, of which the mainmast and the foremast are square-rigged while the mizzenmast is fore-and-aft-rigged. of the Pacific yew yew, name for evergreen trees or shrubs of the genus Taxus, somewhat similar to hemlock but bearing red berrylike fruits instead of true cones. Of somber appearance, with dark green leaves, the yew since antiquity has been associated with death and funeral tree that helps fight cancer. Unfortunately, this yew species contains only tiny amounts of the stuff. By checking the tree's closest relatives, researchers were able to find another species that produces a larger supply of the compound. Web project As some scientists struggle to assemble a complete evolutionary tree, researchers at the University of Arizona are putting what is known so far into a format that people can easily understand and navigate. Visitors to the Tree of Life Web Project The Tree of Life Web Project is an ongoing Internet project providing information about the diversity and phylogeny of life on Earth. This collaborative peer reviewed project began in 1995, and is written by biologists from around the world. Web site (tolweb.org/tree/ can start at the root of the tree, where life began, and work their way up and down the branches. They can also zero in on specific families and species to read background information and see pictures. At this point, the site contains more than 4,000 pages. And it's getting bigger all the time. "When you see that humans and jellyfish jellyfish, common name for the free-swimming stage (see polyp and medusa), of certain invertebrate animals of the phylum Cnidaria (the coelenterates). The body of a jellyfish is shaped like a bell or umbrella, with a clear, jellylike material filling most of the share a common ancestor," Schulz says, "it makes you aware that all life on Earth is one big community." Schulz is the project's managing editor. Only experts can add information to the evolutionary tree, but anyone can contribute to the Web project. With your teachers, you can build "treehouses"--special pages on the Tree of Life Project Web site where you can post your own scientific studies, poems, pictures, stories, or art projects. The only requirement is that your treehouse must be about organisms in some way, Schulz says. Each contribution also has to be original. |
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