Tropical plants grow cool flowers. (Botany).By shifting the positions of their flowers, two tropical species keep their blooms at comfortable temperatures for pollinators, say researchers. Ipomoea pes-caprae Noun 1. Ipomoea pes-caprae - a prostrate perennial of coastal sand dunes Florida to Texas beach morning glory, railroad vine morning glory - any of various twining vines having funnel-shaped flowers that close late in the day and Merremia borneensis in the morning glow family don't track the sun's passage exactly, but they do generally keep blooms facing sun-ward during the flowering season, say Sandra Patino of the Instituto Humboldt in Bogota, Colombia, and her colleagues. The researchers describe the motion and its ecological effects in the February Oecologia. The scientists left some flowers alone but modified others by, for example, covering them with grease grease, mixture of lubricant and thickener. It is used to reduce friction between surfaces from which oils would leak away or cause damage by dripping, or where lubrication must be assured for extended periods. Many greases are mixtures of mineral oil and soap. to prevent cooling by evaporation evaporation, change of a liquid into vapor at any temperature below its boiling point. For example, water, when placed in a shallow open container exposed to air, gradually disappears, evaporating at a rate that depends on the amount of surface exposed, the humidity and mechanically preventing them from facing the sun. Patino and her colleagues found that the undisturbed un·dis·turbed adj. Not disturbed; calm. undisturbed Adjective 1. quiet and peaceful: an undisturbed village 2. flowers maintained the lowest temperatures and were also the preferred blooms for pollinators. The researchers say their data suggest that a flower's temperature depends on both its position and the evaporative cooling Evaporative cooling is a physical phenomenon in which evaporation of a liquid, typically into surrounding air, cools an object or a liquid in contact with it. Latent heat describes the amount of heat that is needed to evaporate the liquid; this heat comes from the liquid itself and of water leaving its tissues. --S.M. |
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