Warm-blooded plants? Ok, there's no blood, but they do make their own heat."The dead-horse arum arum, common name for the Araceae, a plant family mainly composed of species of herbaceous terrestrial and epiphytic plants found in moist to wet habitats of the tropics and subtropics; some are native to temperate zones. of Corsica looks and smells like the south end of a horse that died going north," says Roger Seymour. He's actually talking about a plant, and a more prosaic soul might add that it belongs to the same family as calla lilies and jack-in-the-pulpits. Seymour is a zoologist, and the plants he studies show an animalistic an·i·mal·ism n. 1. Enjoyment of vigorous health and physical drives. 2. Indifference to all but the physical appetites. 3. The doctrine that humans are merely animals with no spiritual nature. feature: They can generate body heat. Most plants, including calla lilies and jack-in-the-pulpits, simply assume the ambient temperature Outside temperature at any given altitude, preferably expressed in degrees centigrade. because their metabolic reactions hum along so gently that they don't give off bursts of heat. The dead-horse arum, however, belongs to the group of several hundred plant species scattered among some 10 families that can rev up Verb 1. rev up - speed up; "let's rev up production" step up increase - make bigger or more; "The boss finally increased her salary"; "The university increased the number of students it admitted" 2. their own furnaces. That heat can launch strong odors, like those of a dumpster in August. In winter, warm flowers can melt snow. The dead-horse arum outdoes all the others, says Seymour, who's at the University of Adelaide Its main campus is located on the cultural boulevard of North Terrace in the city-centre alongside prominent institutions such as the Art Gallery of South Australia, the South Australian Museum and the State Library of South Australia. in Australia. The plant's flesh-pink blooms produce more heat than does any other known plant or any animal considered in its entirety. Scientists have measured higher rates of bodily heat production only in the flight muscles of some insects and, possibly, the brown fat of hamsters. Descriptions of remarkable heat-making plant species date back more than 200 years, but scientists are still discovering new facets of the phenomenon, sometimes hidden in plain sight. Current research about the biochemistry behind plant heat may someday change the way people deal with heat. The pattern of heating power in the botanical family tree intrigues evolutionists searching for traits of ancient flowering plants plants which have stamens and pistils, and produce true seeds; phenogamous plants; - distinguished from See also: Flowering . And, this winter, two research teams have presented new research on what good this heating does for a plant. KIDNAPPERS All the plant tissues so far found to warm themselves have reproductive functions, and Seymour sees common themes among the hot species' sex lives. They tend toward large blooms, which have a low surface-to-volume ratio favoring heat retention. In many of these blooms, the female organs mature before the male parts, requiring the plant to briefly kidnap pollinators to make its pollination pollination, transfer of pollen from the male reproductive organ (stamen or staminate cone) to the female reproductive organ (pistil or pistillate cone) of the same or of another flower or cone. system work. Consider the dead-horse arum, Helicodiceros muscivorus Helicodiceros muscivorus (Dead horse arum lily; syn. Helicodiceros crinitus [1], Dracunculus crinitus [2]) is an ornamental plant native to the Mediterranean. . In spring on islands in the Mediterranean This is a list of islands in the Mediterranean Sea: By area Name Image Country Area (km²) Population Capital/Main City Political Status Flag 1 Sicily , these plants send up blooms with a central, fingerlike projection in front of a rounded dish of tissue, or spathe, several inches wide. When the plant first blooms, the finger radiates heat, which sends out strong aromas. Female blowflies soon swarm over the bloom. Botanists have speculated that the stench represents step 1 in an entrapment entrapment, in law, the instigation of a crime in the attempt to obtain cause for a criminal prosecution. Situations in which a government operative merely provides the occasion for the commission of a criminal act (e.g. scheme, attracting blowflies under the false pretense false pretense n. Law False representation of fact or circumstance, calculated to mislead. Noun 1. false pretense that there's nice dead flesh available as a nursery for their eggs. Tests bear that out, reported Marcus C. Stensmyr of the Swedish University of Agricultural Sciences The university has four faculties: Faculty of Landscape Planning, Horticulture and Agricultural Science, Faculty of Natural Resources and Agriculture Sciences, Faculty of Veterinary Medicine and Animal Science and Faculty of Forest Sciences. in Alnarp and his colleagues in the Dec. 12, 2002 Nature. Several dominant compounds, called oligosulfides, showed up in both the stink of the flower and in that of a dead seagull seagull a noisy, gregarious bird that frequents the seashore. Web-footed, hook-billed, white with gray wings. Member of the family Laridae and of the genus Larus. . A study of nerve responses of blowfly blowfly, name for flies of the family Calliphoridae. Blowflies are about the same size as, and resemble, the housefly; because they are usually metallic blue or green they are also called bluebottle or greenbottle flies. antennae showed that the flies respond similarly to the composites of compounds that make up the scents, so they don't seem to be able to tell a flower from a dead gull on the basis of smell alone. In nature, once flies buzz in to explore the dead-horse-arum bloom, many crawl down into the pocket where the spathe narrows to surround the base of the finger. That pocket contains a band of male florets above a band of female florets. Spines and filaments at the entrance to the pocket imprison im·pris·on tr.v. im·pris·oned, im·pris·on·ing, im·pris·ons To put in or as if in prison; confine. [Middle English emprisonen, from Old French emprisoner : en- the flies. During the first day that a dead-horse arum blooms, female florets have matured enough to receive pollen, but male florets aren't releasing it. The flies, however, may carry pollen they picked up from a previous adventure in another, earlier-blooming plant. As the flies scramble around in the pocket, trying to escape, they dust that pollen onto female florets. By the next day, the female organs have lost their receptivity, but the male parts have matured. The trapped insects then pick up pollen. The blockade of spines withers withers the region over the backline where the neck joins the thorax and where the dorsal margins of the scapulae lie just below the skin. fistulous withers see fistulous withers. , so the flies can at last squeeze up out of the pocket. They then carry the new pollen to the next arum, should they fall for the same trick again. SELF-CONTROL Seymour reminisces that he first learned about heat-generating flowers several decades ago, when a friend brought the large fingerlike projection of a self-heating flower, Philodendron philodendron: see arum. philodendron Any of about 200 species of climbing herbaceous plants that make up the genus Philodendron in the arum family, native to the New World tropics. selloum, as a conversation piece to a California party. The structure was warm to the touch and looked more like a mammal's reproductive organ than a plant's. Seymour was so taken with the structure that he savaged philodendron blooms in his mother's garden to get specimens for measuring heat generation. Thus began the project that first documented a new twist in a few self-warming plants. While the dead-horse arum and most other self-heating plants produce heat on a preset schedule, regardless of the air temperature, P. selloum manages something more sophisticated: It regulates its heat generation to keep its flower temperature approximately steady, Seymour and his colleagues reported in 1972. Growing outdoors, P. selloum keeps its blooms between about 30[degrees]C and 36[degrees]C. In lab tests, the flowers manage to stay in this range even when experimenters chill the air to 4[degrees]C. Those experiments also revealed that most of the plant's heat comes from a band of tiny, sterile male flowers located between the fertile male and female flowers on the bloom's fingerlike projection. The sterile blooms shut down heat production when air temperature reaches about 37[degrees]C. Like the dead-horse arum, this philodendron in its native Brazil lures insects inside. The philodendron's spathe closes over scarab beetles for only 12 hours. Yet the beetles remain for some 22 hours. While in the bloom, they mate, feed, and brush pollen onto female flowers. At the end of the beetles' stay, they pick up pollen from just-matured male flowers and fly off to another bloom. The eastern skunk cabbage Eastern Skunk Cabbage, Clumpfoot Cabbage, Foetid Pothos, Meadow Cabbage, Polecat Weed, Skunk Cabbage, or Swamp Cabbage (Symplocarpus foetidus), commonly known as simply Skunk Cabbage (Symplocarpus foetidus Symplocarpus foetidus North American member of the plant family Araceae; contains calcium oxalate raphide crystals which cause stomatitis; called also skunk cabbage. ) in North America North America, third largest continent (1990 est. pop. 365,000,000), c.9,400,000 sq mi (24,346,000 sq km), the northern of the two continents of the Western Hemisphere. and Asia also keeps warm, independent of air temperature, Roger Knutson reported in 1974. The insect-pollinated plant flowers early in the year, sometimes by New Year's Day New Year's Day, among ancient peoples the first day of the year frequently corresponded to the vernal or autumnal equinox, or to the summer or winter solstice. In the Middle Ages it was celebrated among Christians usually on Mar. 25. in mid-Atlantic states. Its bloom, a thick-walled, teardrop-shaped spathe surrounding a fat stub A small software routine placed into a program that provides a common function. Stubs are used for a variety of purposes. For example, a stub might be installed in a client machine, and a counterpart installed in a server, where both are required to resolve some protocol, remote procedure covered with florets, can melt holes in the snow cover (SN: 8/21/99, p. 123). Skunk cabbages can bloom inside a snowbank and create their own ice caves. "You can break through the snow and look into these fantastic spaces," Seymour says. In experiments at air temperatures around 15[degrees]C, the inner core averaged some 9[degrees] higher. When the air temperature dropped to -15[degrees]C though, the fingerlike projections reached temperatures 30[degrees] higher than the air. "Some mammals can't even do that well," says Seymour. In 1996, Seymour and his University of Adelaide colleague Paul Schultze-Motel reported that the Asian sacred lotus (Nelumbo nucifera) could also regulate its flower temperature. The species is hardly rare or unfamiliar. It grows widely on both sides of the Atlantic Ocean, but no one had previously tested it for temperature regulation. The Adelaide team found that as environmental temperatures dropped as low as 10[degrees]C, flower temperatures stayed between 30[degrees]C and 36[degrees]C. The researchers decided to see whether day-night cycling influences the lotus' temperature control, as it does in some other plants. The team covered individual lotus blooms with translucent jackets made from inverted inverted reverse in position, direction or order. inverted L block a pattern of local filtration anesthesia commonly used in laparotomy in the ox. wine-bottle coolers and reversed the normal temperature pattern for night and day. The flowers tracked the temperature instead of the light, Seymour and his colleagues reported in 1998. The dead-horse arum maintains a relatively stable bloom temperature, but the plant isn't a true temperature regulator, says Marc Gibernau of Paul Sabatier University in Toulouse, France. He, Seymour, and Kikukatsu Ito of Iwate University in Morioka, Japan, found that heating related more to time than air temperature, they report in the December 2003 Functional Ecology. There's only one other plant that's been identified as regulating heat production. It's a South American species, Xanthosoma robustum, that's related to the dead-horse arum, philodendron, and skunk cabbage. X. robustum has received less attention so far. FURNACE DESIGN The past 5 years have shaken up the study of the chemistry of hot plants by adding a new heat-generating pathway for scientists to probe. Since 1932, physiologists have known about one heat-making pathway, which is a secondary process for respiration (SN: 6/24/89, p. 392). By the 1970s, physiologists had linked the slow-heat burns of arums with a jump in activity in this pathway. An enzyme in the pathway, alternative oxidase or AOX AOX Alternative Oxidase AOx Alcohol Oxidase AOX Adsorbable Organic Halides AOX Armies of Exigo (computer game) AOX Alstria Office REIT AG AOX Adsorbable Organohalogens AOX Army of Xena AOX Automated Optical Cross-Connect , occurs only in plant cells, where it's located in the cell powerhouses called mitochondria. Mammal mitochondria can blast out heat, too, but they rely on what's called uncoupling proteins, UCPs. In 1997, a European research team reported similar chemistry in potatoes. Cold prompted activity of a gene making what looked like a version of a mammalian UCP (Universal Communication Platform AG, Lugano, Switzerland) A software company that specialized in mobile phone services, founded in 1999 by Christian Lutz and Marwan Saba. Its offerings included SMS voting and mobile marketing tools, photo messaging platforms and custom applications for rather than an AOX, said Maryse Laloi of the Max Planck Institute for Molecular Plant Physiology The Max Planck Institute for Molecular Plant Physiology is a research institute for Molecular Plant Physiology based in Golm, Germany. It focuses on the study of the dynamics of plant metabolism and how that relates to the entire plant system. in Golm, Germany. Ito then began searching for UCPs in skunk cabbages. In 1999, he reported finding genes encoding two UCPs. A temperature drop activated these genes only in the floret-holding stub. The UCPs and AOX seem to function for heat generation simultaneously, he and his colleagues reported at the Plant Biology 2003 meeting in Hawaii in June. "Now, we have to reconsider the functions of two different thermogenic ther·mo·gen·e·sis n. Generation or production of heat, especially by physiological processes. ther reactions," says Ito. Since 2001, Ito and his Iwate colleagues--with support from the Japanese government--have been searching for the temperature sensor and other compounds that operate in the skunk skunk, name for several related New World mammals of the weasel family, characterized by their conspicuous black and white markings and use of a strong, highly offensive odor for defense. cabbage's heat production. The researchers have figured out the basic protocol that the plant follows, says Ito. "We call it 'the skunk cabbage algorithm.'" Ito has applied for a patent on this protocol and isn't releasing the details. "This sort of biological algorithm could be used as a new brain to control nonbiological devices, such as air conditioners," he says. The standard program controlling an air conditioner was invented more than 60 years ago. The system used by a skunk cabbage, "which is a typical chaotic system, is totally different," he says. Ito's team has recently succeeded in operating an artificial heater with this algorithm. "I really think we can learn a lot from skunk cabbages," he says. WHAT'S HOT The majority of the hundreds of plants known to generate heat sprout from ancient lineages at the base of the botanical family tree, observes Leonard Thien of Tulane University in New Orleans. Self heating may have been an early innovation that arose soon after the invention of flowering. Evolutionists are looking at thermogenesis thermogenesis /ther·mo·gen·e·sis/ (-jen´e-sis) the production of heat, especially within the animal body.thermogenet´icthermogen´ic ther·mo·gen·e·sis n. as they reevaluate traits in these old lines. "At the moment, a great deal of discussion is under way to decide upon the state of various characters," says Thien. For example, heat generation has turned up in certain plants of these ancient lineages of flowering plants: the magnolias, Dutchman's pipes, star anises, custard apples, and water lilies. Heat-generating flowers include the darling of 19th-century aquatic gardens, the Amazon water lily (Victoria amazonica). Thien says that preliminary results suggest that at least one other ancient family includes a self heater, but he won't say which one until he double-checks his results next spring. The most ancient family that Thien has tested is Amborellaceae. Only one member remains, a scrub in New Caledonia, and it shows no sign of heat generation, he and his team report. Moreover, there's no sharp boundary for the evolutionary disappearance of thermogenesis. The trait does show up in a few lineages of moderately recent origin, such as the arums, the palms, and a related family sometimes called the Panama-hat palms. The Asian sacred lotus represents the highest branch on the botanical family tree that shows heat generation. THE BOTTOM LINE Study of the evolution of heat generation raises questions about what benefits it might bring, or once brought, to a plant. The trait's absence among the newest plant families suggests that its value has declined as modern plants developed. Biologists first proposed that heat helps spread the plants' insect-attracting odors. In contrast, one recent finding suggests that heat might make a plant more closely resemble a dead animal because microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. processes in a carcass raise its temperature. Heating an artificially scented plant restored a fading bloom's capacity to lure insects into its pocket. "This is the first time it has been proved that this heating function of the plant is important, with scent, for guiding the pollinators," says Anna Maria Angioy of the University of Cagliari History The Studium Generalis Kalaritanum was founded in 1606 along the lines of the old Spanish Universities of Salamanca, Valladolid and Lérida. It originally offered Law, Latin, Greek and Hebrew Literature, the Liberal Arts, Medicine, Surgery, Philosophy and Science. in Monserrato, Italy. She and her colleagues report their findings in an upcoming 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:
However, Seymour suggests another scenario. He points out that some plants keep the heat on after trapping insects in their chambers, so heat itself might serve as a reward for certain pollinators. To test that idea, he and his colleagues studied Cyclocephala colasi beetles pollinating Philodendron solimoesense in French Guiana. As many beetles do, these produce heat to keep their body temperatures high enough for activity. Beetles active in a warm flower during the evening are using less than half the energy they would have used if they had stayed active out in the open, the researchers report in the Nov. 20 Nature. The heat-generating flowers "are like nightclubs for beetles," Seymour says. The warm, alluring environment draws an insect in. During evolution, a floral innovation may have supplanted the nightclub concept. A flower that offers just a sip of nectar or a pollen snack and then sends the pollinator on its way will probably spread its pollen over many more partners than will a plant that traps insects for a whole night. Seymour's take on why heat rewards died out is that "nightclubs were replaced by fast food." |
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