Frost flower

For the hoar-frost like crystals that grow on thin sea ice, see Frost flower (sea ice).
Frost flower in the Ozark Mountains, USA

A frost flower is a name commonly given to a condition in which thin layers of ice are extruded from long-stemmed plants in autumn or early winter. The thin layers of ice are often formed into exquisite patterns that curl into "petals" that resemble flowers.

Types

Frost flower formations are also referred to as frost faces, ice castles, ice blossoms, or crystallofolia.

Types of frost flowers include needle ice, frost pillars or frost columns, extruded from pores in the soil, and ice ribbons, rabbit frost or rabbit ice, extruded from linear fissures in plant stems. While the term ice flower is also used as synonym to ice ribbons, it may be used to describe the unrelated phenomenon of window frost as well.

Formation

The formation of frost flowers is dependent on a freezing weather condition occurring when the ground is not already frozen. The sap in the stem of the plants will expand (water expands when frozen), causing long, thin cracks to form along the length of the stem. Water is then drawn through these cracks via capillary action and freezes upon contact with the air. As more water is drawn through the cracks it pushes the thin ice layers further from the stem, causing a thin "petal" to form. In the case of woody plants and (living or dead) tree branches the freezing water is squeezed through the pores of the plant forming long thin strings of ice that look uncannily like hair i.e. "hair ice" or "frost beard".

The petals of frost flowers are very delicate and will break when touched. They usually melt or sublimate when exposed to sunlight and are usually visible in the early morning or in shaded areas.

Examples of plants that often form frost flowers are white crownbeard (Verbesina virginica), commonly called frostweed, yellow ironweed (Verbesina alternifolia), and Helianthemum canadense. They have also been observed growing from fallen branches of conifers and contain enough hydraulic power to strip the bark off.

Hair ice

The meteorologist and discoverer of continental drift Alfred Wegener, described hair ice on wet dead wood in 1918,[1] assuming some specific fungi as catalysator, a theory mostly confirmed by Gerhart Wagner and Christian Mätzler in 2005.[2][3][4]

Arctic "sea meadows"

On Sept. 2, 2009, a University of Washington biology team sailing back from the North Pole encountered these little flowery things growing on the frozen sea "like a meadow spreading off in all directions. Every available surface was covered with them." When allowed to melt, the one to two milliliters of water recovered was found to hold about a million bacteria. Professor Jody Deming believes that as the poles warm, there will be more and more of these meadows, because there will be more and more open sea that turns to thin ice in winter, and her team is eager to discover what the bacteria living in the frost flowers are doing.[5][6]

References

  1. Alfred Wegener: Haareis auf morschem Holz. Die Naturwissenschaften 6/1, 1918. S. 598–601.
  2. Gerhart Wagner: Haareis – eine seltene winterliche Naturerscheinung. Was haben Pilze damit zu tun? SZP/BSM 2005.
  3. Gerhart Wagner, Christian Mätzler: Haareis auf morschem Laubholz als biophysikalisches Phänomen. Forschungsbericht Nr. 2008-05-MW. Universität Bern. 2008. (PDF-Download)
  4. Gerhart Wagner, Christian Mätzler: Haareis - Ein seltenes biophysikalisches Phänomen im Winter. Naturwissenschaftliche Rundschau 62(3), S. 117 - 123 (2009), ISSN 0028-1050
  5. Robert Krulwich (December 19, 2012). "Suddenly There's A Meadow In The Ocean With 'Flowers' Everywhere". NPR. Retrieved December 30, 2012. It was three, maybe four o'clock in the morning when he first saw them. Grad student Jeff Bowman was on the deck of a ship; he and a University of Washington biology team were on their way back from the North Pole.
  6. Jeff S. Bowman and Jody W. Deming (January 21, 2012). "Elevated bacterial abundance in laboratory-grown and naturally occurring frost flowers under late winter conditions". University of Washington School of Oceanography and Astrobiology Program. Retrieved December 30, 2012. ABSTRACT Sea ice has been identified as an important microbial habitat, with bacteria and other microbes concentrated in the brine inclusions between ice crystals.... The presence of elevated numbers of bacteria in frost flowers may have implications for the previously observed chemical reactions that take place in them, especially if microbial activity can be shown to occur in this unique low temperature, low water

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