How the butterfly gets its spots: and what they tell us about fate.Paul Brakefield is a world authority on spots. His laboratory team delves into wide-ranging questions about the circles and dots on butterfly wings: What genes change the spots' size? Do different spots evolve separately or in concert? What kinds of spots wow the opposite sex? Brakefield argues that butterfly wings, particularly their freckles freckles Ephilides Brown macules, often exacerbated on sun-exposed zones of the skin surface, which disappear during the winter, and most commonly affecting the fair-skinned, especially of Celtic stock. See Macule. Cf Nevus. , offer science a rare opportunity. They're good for experiments in an unusually wide range of scientific disciplines, so researchers can combine insights and deepen their understanding of how evolution works. Several labs, including Brakefield's at the University of Leiden in the Netherlands, are illuminating the genetics of wing patterns. These scientists can take advantage of findings in a less picturesque but thoroughly studied insect--the fruit fly. One group is even making progress on creating transgenic butterflies with fluorescent proteins in their tissue. Developmental biologists, too, find the butterfly wing a great subject. Its simplicity as a two-dimensional sheet, instead of a three-dimensional organ, makes analysis more straightforward than in most other systems. The beauty of the butterfly to behavioral ecologists, says Brakefield, is that its wing spots, bands, and other splotches play dramatic roles in mating, outwitting predators, and other matters critical to the insect's evolution. Eventually, butterfly scientists expect to trace the workings of evolution from the folds of a molecule to the breadth of a continent. They have been saying for years that the tale of evolution is written on the wings of a butterfly. Now, they're beginning to decipher it. BASIC SCALES Most of the world's 17,000 butterfly species sport distinctive wings, some as patterned as embroidery samplers, some so iridescent ir·i·des·cent adj. 1. Producing a display of lustrous, rainbowlike colors: an iridescent oil slick; iridescent plumage. 2. that that a butterfly's bright flash at ground level has caught the eye of passengers in small airplanes overhead. This plethora of wing designs comes from tiny scales decorated by two sets of artists' tools. On the scales' surface, microscopic structures--some shaped like tiny Christmas trees--create color by playing tricks with light. However, analysis of their genetics lags far behind that of the other source of color not of the white race; - commonly meaning, esp. in the United States, of negro blood, pure or mixed. See also: Color , pigment-based wing displays. Much as computer screens form images, butterfly wings use tiny, single-color flecks that add up to the big pattern. Each minuscule, colored scale comes from a single cell, which dies after it's made its pixel. The colors come from mixtures of pigments--flavonoids, melanins, and pterins--that are widespread among organisms. Caterpillars already carry disks of future wing cells, including those that will lay down the colorful design. In the 1970s, H. Frederik Nijhout of Duke University in Durham, N.C., performed miniature transplant surgeries, switching around bits of caterpillar tissue to see when the fates were determined for various wing parts. He worked with the buckeye butterfly (Precis coenia), which has bold bull's-eye spots on its fore and hind wings. Nijhout showed that before the caterpillar retires into its chrysalis chrysalis (krĭs`əlĭs): see pupa. to transform into a butterfly, the position of the spots on the future wings has been established. A milestone in the genetics of wing pattern came in the early 1990s when Scan Carroll of the University of Wisconsin--Madison and his colleagues searched for butterfly counterparts to the genes known to control formation and patterning of wings in fruit flies. They worked with an African species that also has big bull's-eyes, Bicyclus anynana. Most of the genes they tested played a role similar to their action in fruit flies. But then came a test of the Distal-less gene (Dll). Carroll still remembers the Friday when one of his colleagues called him to look at the latest results. The team had finally found "Finally Found" was the debut single from the Honeyz. This was their most successful single in the UK and worldwide, securing a number 4 position in the UK singles chart and achieved platinum status in Australia [1] Tracklisting # Title Length a gene that decorates a butterfly wing. In fruit flies, Dll influences limb formation, but in the caterpillar, Dll also defines the center point of each of the bull's-eyes on B. anynana's wings. Suddenly a world of possibilities opened for testing pattern genetics. "You only need a few days like that and you can put up with years of frustration," Carroll recalls. VARIATIONS ON A GENE Geneticists This is a list of people who have made notable contributions to genetics. The growth and development of genetics represents the work of many people. This list of geneticists is therefore by no means complete. Contributors of great distinction to genetics are not yet on the list. now know of several other genes that flicker on during formation of patterns such as the bull's-eye's rings. Still, Dll remains a favorite in genetics labs. Patricia Beldade, now at the University of California The University of California has a combined student body of more than 191,000 students, over 1,340,000 living alumni, and a combined systemwide and campus endowment of just over $7.3 billion (8th largest in the United States). , Irvine, and her colleagues have tested whether there are variations in Dll that might provide raw material for natural selection, creating fitter and less-fit individuals that will prosper or fail as evolution grinds along. Not every gene has to contribute to measurable variation among individuals, says Beldade. For example, extensive variants may not have evolved because a gene plays such a vital role that any alteration kills the organism. Beldade says that Dll did look valuable because it shows up with similar functions in insects that have followed divergent evolutionary paths. "Maybe you don't want to mess with mess with Verb Informal, chiefly US to interfere in, or become involved with, a dangerous person, thing, or situation: he had started messing with drugs it," she says. To see whether Dll varies, Beldade and her Leiden colleagues worked with a laboratory colony of B. anynana. For nine generations, the scientists intervened in the insect's breeding to create a lineage with big bull's-eyes and another with small ones. When Beldade analyzed various crosses of these lineages, she found specific forms of the gene associated with either large or small bull's-eyes. Variety in Dll itself or in a companion stretch of 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. powers spot variation, she and her colleagues reported in the Jan. 17, 2002 Nature. In the real world, of course, a spot must be considered in the context of the entire organism. Just how the fate of one feature tugs at that of the others has intrigued Antonia Monteiro, now of the University at Buffalo, New York New York, state, United States New York, Middle Atlantic state of the United States. It is bordered by Vermont, Massachusetts, Connecticut, and the Atlantic Ocean (E), New Jersey and Pennsylvania (S), Lakes Erie and Ontario and the Canadian province of . Her lab is now developing transgenic butterflies with fluorescent pigments for future genetic tests. In the early 1990s, she and her colleagues turned to the spots of B. anynana to explore the tangled fate of traits. She, too, began a butterfly-breeding program. She focused on maximizing the size of a particular wing bull's-eye. As that spot grew in succeeding generations, she found that other bull's-eyes enlarged, too. Later, Beldade considered just how tightly the fates of all those spots are coupled. Maybe genes forced all of a butterfly's spots to stay in lockstep lock·step n. 1. A way of marching in which the marchers follow each other as closely as possible. 2. A standardized procedure that is closely, often mindlessly followed. Noun 1. , either all getting larger or all dwindling dwin·dle v. dwin·dled, dwin·dling, dwin·dles v.intr. To become gradually less until little remains. v.tr. To cause to dwindle. See Synonyms at decrease. . She and her colleagues selectively bred B. anynana to see if they could simultaneously drive the evolution of two spots on a wing in opposite directions. For 17 insect generations, the researchers selected for lineages according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. mixed-and-matched spot size, such as a big front spot and a small rear spot. "After a few generations, I knew it was possible," says Beldade. In the lineages that her team created, spot size at one location had indeed uncoupled from the size at the other, she and her colleagues reported in the April 25, 2002 Nature and the Oct. 29, 2002 Proceedings of the National Academy of Sciences The Proceedings of the National Academy of Sciences of the United States of America, usually referred to as PNAS, is the official journal of the United States National Academy of Sciences. . These papers dashed the notion that butterfly-spot size represents an example of a trait that's evolved under such a strong constraint that some forms, such as one big spot and one little spot, never develop, according to Beldade. Other proposed examples of traits that can't evolve certain forms include the number of neck vertebrae Vertebrae Bones in the cervical, thoracic, and lumbar regions of the body that make up the vertebral column. Vertebrae have a central foramen (hole), and their superposition makes up the vertebral canal that encloses the spinal cord. in mammals--seemingly always seven--and the number of leg-bearing segments of centipedes--seemingly always odd. These examples have all been controversial. WHAT WINGS SAY Does all this variation in spottiness make a difference to the butterflies? Brakefield and his Leiden colleague Casper Breuker decided to test how wing decoration affects the sex life of B. anynana. The researchers set up cages and offered females a choice of two or three males whose spots the researchers had altered in different ways. Biologists have evidence suggesting that females of some animal species respond to how symmetrical a male is, but these female butterflies did not seem to show a preference for males with or without same-size spots on each side, the researchers reported in the June 22 Proceedings of the Royal Society Proceedings of the Royal Society is a scientific journal published by the Royal Society of London. Today, the Royal Society publishes two proceeding series:
Likewise, the female butterflies failed to show any pattern of response to a male's wing size. They did respond to spot sizes, though, preferring the guys with big bull's-eyes. Carol Boggs at Stanford University Stanford University, at Stanford, Calif.; coeducational; chartered 1885, opened 1891 as Leland Stanford Junior Univ. (still the legal name). The original campus was designed by Frederick Law Olmsted. David Starr Jordan was its first president. is exploring how the sexiness of wing pattern interacts with other butterfly concerns, like survival. She and Jacintha Ellers, now at the Institute of Ecological Science in Amsterdam, analyzed coloration col·or·a·tion n. 1. Arrangement of colors. 2. The sum of the beliefs or principles of a person, group, or institution. of clouded sulphur butterflies (Colias eriphyle) in Colorado's Rocky Mountains Rocky Mountains, major mountain system of W North America and easternmost belt of the North American cordillera, extending more than 3,000 mi (4,800 km) from central N.Mex. to NW Alaska; Mt. Elbert (14,431 ft/4,399 m) in Colorado is the highest peak. . The sulfur-yellow background of the wings carries a smattering of dark spots near the edges. Across their hind wings, females develop more black pigment a very fine, light carbonaceous substance, or lampblack, prepared chiefly for the manufacture of printers' ink. It is obtained by burning common coal tar. See also: Black than males do and so take on a smoky cast, Ellers and Boggs reported in the April 2002 Evolution. When the researchers checked butterflies living on mountainsides at elevations from about 1,800 meters to 2,900 m, they found that the darkening dark·en v. dark·ened, dark·en·ing, dark·ens v.tr. 1. a. To make dark or darker. b. To give a darker hue to. 2. To fill with sadness; make gloomy. 3. tends to intensify with elevation. Boggs proposes an advantage of the smokiness. Darker wings can help a butterfly warm up and move faster by absorbing extra sunlight, she explains. Butterflies are at the mercy of their environment for body heat, so a heat bonus might bring important benefits--especially at cooler elevations. Females, which at times lug (1) (Linux Users Group) A formal or informal organization of Linux users who gather together virtually or in person to exchange information and resources. Some groups maintain mailing lists and send out newsletters for their members. around weighty eggs, could find that dark-wing advantage of special importance. The story is about to get more interesting, Boggs predicts. A report she and Ellers will publish soon in Evolution shows that males, regardless of location on the mountainsides, prefer lighter-winged females to darker ones, says Boggs. Too bad if lighter females suffer chilling disadvantages. The butterflies therefore present an example of a clash between what's good for survival and what's good for attracting a mate. The study of evolution has turned up these clashes before. In most of these, such as the classic example of the peacock's tail, sexiness dominates although it's limited by such survival disadvantages as slower escape from predators. But Boggs suspects that the butterfly story will have an unusual ending because the female clouded sulphurs do darken dark·en v. dark·ened, dark·en·ing, dark·ens v.tr. 1. a. To make dark or darker. b. To give a darker hue to. 2. To fill with sadness; make gloomy. 3. as their home altitudes rise. Boggs says that she bets that the clouded sulphurs will provide an example of survival value dominating, limited by the demands of sex appeal. That's just one of the evolutionary issues a scientist can test with butterflies, and Boggs says that plenty of others will appear in a 700-page tome on butterfly research that she and two of her colleagues edited for publication later this year. The promise of the field reminds her of the words of 19th-century English naturalist-collector Henry W. Bates Bates , Katherine Lee 1859-1929. American educator and writer best known for her poem "America the Beautiful," written in 1893 and revised in 1904 and 1911. . He spent 11 years exploring the Amazon, and his haul of 14,000 species included many butterflies. He wrote that understanding their variety would unveil the forces driving variety in all life and that "the study of butterflies, creatures selected as the types of airiness and frivolity Frivolity Blondie the gaffe-prone, frivolous wife of Dagwood Bumstead. [Comics: Horn, 118] Dobson, Zuleika charming young lady who unconcernedly dazzles Oxford undergraduates. [Br. Lit. , instead of being despised will someday be valued as one of the most important branches of biological science." RELATED ARTICLE: Fights on the Wing If all butterflies do is flutter, how does the winner win? If you can't punch, kick, stab, shoot, bite, squash, or even touch some jerk, how can you fight him? Yet male butterflies of many species manage this feat all the time, says Darrell Kemp, now at Arizona State University Arizona State University, at Tempe; coeducational; opened 1886 as a normal school, became 1925 Tempe State Teachers College, renamed 1945 Arizona State College at Tempe. Its present name was adopted in 1958. in Tempe. Male butterflies disagree over the usual things--territories, females--yet fight duels that eventually send one contestant flying, all without physical contact. To figure out this remarkably unbloody warfare, Kemp worked in Australia on the feisty Hypolimnas bolina The Great Eggfly (Hypolimnas bolina), also called Blue Moon Butterfly in New Zealand or Common Eggfly,[1] is a species of nymphalid butterfly. , or common egg fly. Males compete relentlessly to claim a territory where unmated females are likely to waft by. A female only mates once, but males mate as often as possible. So, in a given part of a forest, all the males are ready to go, but "95 percent of all the females aren't receptive," says Kemp, "It's a scrap-fight over the remaining 5 percent." When one male intrudes on another, the pair starts flying close to the ground in a circle the size of a dinner plate. Typically, one combatant flees in a few minutes, but battles can last a quarter hour. The departing male flaps off with an unusual gliding rhythm that Kemp suspects is a loser butterfly's submissive sub·mis·sive adj. Inclined or willing to submit. sub·mis  sive·ly adv.sub·mis slink slink v. slunk also slinked, slink·ing, slinks v.intr. To move in a quiet furtive manner; sneak: slunk away ashamed; a cat slinking through the grass toward its prey. . The best predictor of success turns out to be age, says Kemp. He found that males reach their competitive peak during the last third of their 3-month life span. "These older butterflies are run-down. Their wings are really torn. Usually, they don't have much in the way of energy reserves," he says. Yet they triumph. Kemp has ruled out several hypotheses. He found that body size had no relation to victory. Then he measured various wing and body parameters to see whether flight dynamics could explain the oldsters' prowess. He compared wing area with body weight to see whether flying got easier. He weighed flight muscles and fat to see whether older males had more power or more energy in the bank. The answer is "no" to all of the above, Kemp reported in the July-August 2002 Behavioral Ecology Behavioral ecology The branch of ecology that focuses on the evolutionary causes of variation in behavior among populations and species. Thus it is concerned with the adaptiveness of behavior, the ultimate questions of why animals behave as they do, rather . Now, Kemp proposes his own hypothesis: The male that persists in the face of risks wins. Butterfly duels probably bring some low-level risks, such as wing rips from brushing a twig TWIG - Tree-Walking Instruction Generator. A code generator language. ML-Twig is an SML/NJ variant. ["Twig Language Manual", S.W.K. Tijang, CS TR 120, Bell Labs, 1986]. or general wear on the wings, he notes in the July 7, 2002 Proceedings of the Royal Society of London B. "A young guy has his whole life ahead of him," Kemp points out, He proposes that the older guy wins because he has less to lose. |
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