{"title":"The wonders of hair ice and needle ice","authors":"L Von Hagen","doi":"10.1002/fee.2732","DOIUrl":null,"url":null,"abstract":"<p>While hiking in the Carolinas of the southeastern US, I was baffled by curious strands emerging from the forest floor, covered in fresh snow. Later, I learned that I had observed “needle ice” (see image), a form of ice that is related to a different phenomenon known as “hair ice”.</p><p>Hair ice, also called ice wool or frost beard, originates from the fungus <i>Exidiopsis effusa</i>. In 1918, Alfred Wegener (who earlier had proposed continental drift theory) suggested a fungus as the suspected source of the delicate strands of hair ice. However, <i>E effusa</i> was not identified as the responsible fungal agent until 2015 by Hofmann <i>et al</i>., whose seminal work (<i>Biogeosciences</i> 2015; doi.org/10.5194/bg-12-4261-2015) provides an excellent review of discoveries related to hair ice, including: (i) <i>E effusa</i>'s gossamer-like hair ice is fragile (disintegrating if handled) and ephemeral (lasting for hours or a few days under ideal conditions); (ii) <i>E effusa</i> emerges only from decomposing branches of broadleaf trees and in temperatures at or below 0°C; (iii) the fungus has been reported in multiple countries between the latitudes of 45° and 55°N; (iv) the mycelium of <i>E effusa</i> appears to provide the supporting structure for the hairs of ice, which have a diameter of around only 0.02 mm; (v) hair ice forms from a dense concentration of mycelium, drawing water from the porous substrate of the wood; (vi) a recrystallization inhibitor is likely responsible for the stabilization of the fine hairs; and (vii) <i>E effusa</i>'s fruiting body typically appears macroscopically weeks later on the wood surface as a thin, white rot coating.</p><p>The specimen featured in the accompanying photograph is needle ice. Often mistaken for hair ice, needle ice is a related ice type that grows from soil instead of wood, has slightly stiffer needles, and forms columns (Mätzler C, Wagner G, Preuss G, and Hofmann D. 2013. Enlightening the mystery of hair ice. IAP Research Report 2013-01-MW. Bern, Switzerland: Institute of Applied Physics, University of Bern). The source of needle ice formations is not associated with a fungus; rather, it is groundwater, which rises to the surface by capillary action and freezes. The phenomenon occurs in areas that experience frequent thaw–freeze cycles (<i>Cold Regions Sci Technol</i> 1988; doi.org/10.1016/0165-232X(88)90076-6). Needle ice is also recognized as a cause of soil disturbance, though its unusual appearance, like that of hair ice, is especially captivating.</p><p>Special thanks to Diana Hofmann for help with identification.</p>","PeriodicalId":171,"journal":{"name":"Frontiers in Ecology and the Environment","volume":"22 3","pages":""},"PeriodicalIF":10.0000,"publicationDate":"2024-04-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1002/fee.2732","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Frontiers in Ecology and the Environment","FirstCategoryId":"93","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1002/fee.2732","RegionNum":1,"RegionCategory":"环境科学与生态学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q1","JCRName":"ECOLOGY","Score":null,"Total":0}
引用次数: 0
Abstract
While hiking in the Carolinas of the southeastern US, I was baffled by curious strands emerging from the forest floor, covered in fresh snow. Later, I learned that I had observed “needle ice” (see image), a form of ice that is related to a different phenomenon known as “hair ice”.
Hair ice, also called ice wool or frost beard, originates from the fungus Exidiopsis effusa. In 1918, Alfred Wegener (who earlier had proposed continental drift theory) suggested a fungus as the suspected source of the delicate strands of hair ice. However, E effusa was not identified as the responsible fungal agent until 2015 by Hofmann et al., whose seminal work (Biogeosciences 2015; doi.org/10.5194/bg-12-4261-2015) provides an excellent review of discoveries related to hair ice, including: (i) E effusa's gossamer-like hair ice is fragile (disintegrating if handled) and ephemeral (lasting for hours or a few days under ideal conditions); (ii) E effusa emerges only from decomposing branches of broadleaf trees and in temperatures at or below 0°C; (iii) the fungus has been reported in multiple countries between the latitudes of 45° and 55°N; (iv) the mycelium of E effusa appears to provide the supporting structure for the hairs of ice, which have a diameter of around only 0.02 mm; (v) hair ice forms from a dense concentration of mycelium, drawing water from the porous substrate of the wood; (vi) a recrystallization inhibitor is likely responsible for the stabilization of the fine hairs; and (vii) E effusa's fruiting body typically appears macroscopically weeks later on the wood surface as a thin, white rot coating.
The specimen featured in the accompanying photograph is needle ice. Often mistaken for hair ice, needle ice is a related ice type that grows from soil instead of wood, has slightly stiffer needles, and forms columns (Mätzler C, Wagner G, Preuss G, and Hofmann D. 2013. Enlightening the mystery of hair ice. IAP Research Report 2013-01-MW. Bern, Switzerland: Institute of Applied Physics, University of Bern). The source of needle ice formations is not associated with a fungus; rather, it is groundwater, which rises to the surface by capillary action and freezes. The phenomenon occurs in areas that experience frequent thaw–freeze cycles (Cold Regions Sci Technol 1988; doi.org/10.1016/0165-232X(88)90076-6). Needle ice is also recognized as a cause of soil disturbance, though its unusual appearance, like that of hair ice, is especially captivating.
Special thanks to Diana Hofmann for help with identification.
期刊介绍:
Frontiers in Ecology and the Environment is a publication by the Ecological Society of America that focuses on the significance of ecology and environmental science in various aspects of research and problem-solving. The journal covers topics such as biodiversity conservation, ecosystem preservation, natural resource management, public policy, and other related areas.
The publication features a range of content, including peer-reviewed articles, editorials, commentaries, letters, and occasional special issues and topical series. It releases ten issues per year, excluding January and July. ESA members receive both print and electronic copies of the journal, while institutional subscriptions are also available.
Frontiers in Ecology and the Environment is highly regarded in the field, as indicated by its ranking in the 2021 Journal Citation Reports by Clarivate Analytics. The journal is ranked 4th out of 174 in ecology journals and 11th out of 279 in environmental sciences journals. Its impact factor for 2021 is reported as 13.789, which further demonstrates its influence and importance in the scientific community.
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