冰解離

苔原內的冰透鏡形成

冰解離（英語：Ice segregation）是由冰透鏡的形成而產生的地質侵蝕現象，冰透鏡是當水分在土壤或岩石中擴散時, 在局部區域積聚時，若溫度降低形成的冰體。冰的生長需要供水，由土壤中的毛細作用將水輸送。由於上覆土壤的重量，限制了冰的向上生長，就在土壤內形成一個透鏡狀冰區域。土壤必須有足夠的孔隙度讓水性通過毛細管作用上升，但孔隙度又不能太高到破壞毛細管的連續性^[1]^[2]。冰最初聚集在孔隙或裂縫中，只要水分能繼續補充，溫度低於冰點，冰就會繼續聚集並成長成透鏡體，將土壤或岩石楔開^[3]。冰透鏡平行於地表生長，在土壤或岩石中深達幾厘米到幾分米（英寸到英尺）。研究表明，冰解離（ice segregation）比凍融能更有效造成岩石的破裂^[4] ^[5]。

冰透鏡的形成由凍脹引起土壤隆起和基岩斷裂的關鍵作用，是在寒冷地區的主要風化作用。凍脹會產生岩石碎片，並改變景觀。儘管在冰緣地區（高山、亞極地和極地）的岩石破裂通常歸因於孔隙和裂縫中的水的凍結和體積膨脹，但大部分凍脹和基岩破裂是由冰解離和冰透鏡生長引起的^[6]。凍脹是指當水向上進入到土壤中的冰凍溫度深度時，就結冰引起土壤向上膨脹^[7]。

參考文獻

^ Taber, Stephen (1929). "Frost Heaving" (PDF). Journal of Geology. 37 (5): 428–461. Bibcode:1929JG.....37..428T. doi:10.1086/623637. S2CID 224836578. Archived from the original on 2013-04-08. Retrieved 2010-03-24.
^ Rempel, A.W.; Wettlaufer, J.S.; Worster, M.G. (2001). "Interfacial Premelting and the Thermomolecular Force: Thermodynamic Buoyancy". Physical Review Letters. 87 (8): 088501. Bibcode:2001PhRvL..87h8501R. doi:10.1103/PhysRevLett.87.088501. PMID 11497990.
^ Walder, Joseph; Hallet, Bernard (March 1985). "A theoretical model of the fracture of rock during freezing". Geological Society of America Bulletin. Geological Society of America. 96 (3): 336–346. Bibcode:1985GSAB...96..336W. doi:10.1130/0016-7606(1985)96<336:ATMOTF>2.0.CO;2.
^ "Periglacial weathering and headwall erosion in cirque glacier bergschrunds"; Johnny W. Sanders, Kurt M. Cuffey, Jeffrey R. Moore, Kelly R. MacGregor and Jeffrey L. Kavanaugh; Geology; July 18, 2012, doi:10.1130/G33330.1
^ Rempel, A.W. (2007). "Formation of ice lenses and frost heave". Journal of Geophysical Research. American Geophysical Union. 112 (F02S21): F02S21. Bibcode:2007JGRF..11202S21R
^ Murton, Julian B.; Peterson, Rorik; Ozouf, Jean-Claude (17 November 2006). "Bedrock Fracture by Ice Segregation in Cold Regions". Science. 314 (5802): 1127–1129. Bibcode:2006Sci...314.1127M. doi:10.1126/science.1132127. PMID 17110573. S2CID 37639112
^ Peterson, R. A.; Krantz , W. B. (2008). "Differential frost heave model for patterned ground formation: Corroboration with observations along a North American arctic transect". Journal of Geophysical Research. American Geophysical Union. 113: G03S04. Bibcode:2008JGRG..11303S04P. doi:10.1029/2007JG000559.

[”Taber”-1] Taber, Stephen (1929). "Frost Heaving" (PDF). Journal of Geology. 37 (5): 428–461. Bibcode:1929JG.....37..428T. doi:10.1086/623637. S2CID 224836578. Archived from the original on 2013-04-08. Retrieved 2010-03-24.

[”Rempe”-2] Rempel, A.W.; Wettlaufer, J.S.; Worster, M.G. (2001). "Interfacial Premelting and the Thermomolecular Force: Thermodynamic Buoyancy". Physical Review Letters. 87 (8): 088501. Bibcode:2001PhRvL..87h8501R. doi:10.1103/PhysRevLett.87.088501. PMID 11497990.

[”Walder”-3] Walder, Joseph; Hallet, Bernard (March 1985). "A theoretical model of the fracture of rock during freezing". Geological Society of America Bulletin. Geological Society of America. 96 (3): 336–346. Bibcode:1985GSAB...96..336W. doi:10.1130/0016-7606(1985)96<336:ATMOTF>2.0.CO;2.

[”Perigl”-4] "Periglacial weathering and headwall erosion in cirque glacier bergschrunds"; Johnny W. Sanders, Kurt M. Cuffey, Jeffrey R. Moore, Kelly R. MacGregor and Jeffrey L. Kavanaugh; Geology; July 18, 2012, doi:10.1130/G33330.1

[”Rem”-5] Rempel, A.W. (2007). "Formation of ice lenses and frost heave". Journal of Geophysical Research. American Geophysical Union. 112 (F02S21): F02S21. Bibcode:2007JGRF..11202S21R

[”Murton”-6] Murton, Julian B.; Peterson, Rorik; Ozouf, Jean-Claude (17 November 2006). "Bedrock Fracture by Ice Segregation in Cold Regions". Science. 314 (5802): 1127–1129. Bibcode:2006Sci...314.1127M. doi:10.1126/science.1132127. PMID 17110573. S2CID 37639112

[”Peter”-7] Peterson, R. A.; Krantz , W. B. (2008). "Differential frost heave model for patterned ground formation: Corroboration with observations along a North American arctic transect". Journal of Geophysical Research. American Geophysical Union. 113: G03S04. Bibcode:2008JGRG..11303S04P. doi:10.1029/2007JG000559.

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