04546nam 22005173u 450 991045747930332120210107002937.01-280-59502-797866136248570-19-162424-1(CKB)2550000000089403(EBL)886493(OCoLC)777262808(MiAaPQ)EBC886493(EXLCZ)99255000000008940320130418d2012|||| u|| |engThe Ecology of Snow and Ice Environments[electronic resource]Oxford OUP Oxford20121 online resource (199 p.)Description based upon print version of record.0-19-958308-0 Cover; Contents; Abbreviations; 1. An introduction to ice environments and their biology; 1.1 Introduction; 1.2 Introduction to functional dynamics and the organisms; 1.2.1 Community structure and function; 1.2.2 Organisms; 1.3 The cryosphere: past and present; 1.3.1 The last glacial maximum; 1.3.2 Contemporary fluctuations of glaciers and ice sheets; 1.3.3 Snowball Earth; 1.4 Sea ice; 1.4.1 Nature of sea ice; 1.4.2 Sea ice communities; 1.5 Lake ice; 1.6 Glaciers; 1.6.1 Ice mass balance zones in glacial ecosystems; 1.6.2 Hydrological zonation in surface ecosystems; 1.6.3 Supraglacial lakes1.6.4 Water distribution in subsurface ecosystems 1.6.5 Water in subglacial habitats; 1.6.6 Overview: broad structure and characteristics of glacial ecosystems; 1.6.7 Life on glaciers; 1.7 Snow; 1.7.1 Physical and chemical characteristics; 1.7.2 Biological activity in snow; 2. Snow; 2.1 Snow as an environment; 2.2 Life on and in snow; 2.2.1 Snow algae; 2.2.2 Bacteria in snow; 2.3 Impact of snow on environments it covers seasonally; 2.3.1 Activity under the snow; 2.3.2 Impact of the release of accumulated nutrients in the snow pack at spring melt; 2.3.3 Variations in snow depth3. Ice surface environments 3.1 Ice shelves; 3.1.1 Introduction; 3.1.2 Biology of ice shelf lakes; 3.2 Glaciers and ice sheets; 3.2.1 Supraglacial habitats; 3.2.2 Spatial variations in the biota in supraglacial habitats; 3.2.3 Cryoconite; 3.2.4 Carbon cycling and biological production; 3.2.5 Other debris habitats, including the ice margin; 4. Sea and lake ice; 4.1 Sea ice; 4.1.1 Introduction; 4.1.2 Adaptations; 4.1.3 Community structure and production; 4.2 Lake ice; 4.2.1 Introduction; 4.2.2 Community structure and production; 5. Subglacial environments; 5.1 Introduction5.2 Biology of subglacial environments 5.2.1 Wet-based glaciers; 5.2.2 Blood Falls; 5.3 Life in glacial ice; 5.4 Subglacial lakes; 5.5 Lake Vida; 6. Astrobiology; 6.1 Introduction; 6.2 Extraterrestrial cryospheric environments; 6.2.1 Mars; 6.2.2 Europa: a Jovian moon; 6.2.3 Enceladus: a small Saturnian moon; 6.2.4 Titan: a large Saturnian moon; 6.3 Weaknesses of terrestrial analogues for extraterrestrial cryospheric environments; 7. Future directions; 7.1 Introduction; 7.2 Priority field sites for future research; 7.3 Remote sensing development; 7.4 Sensor technology; 7.5 Modelling7.6 Molecular biology7.7 Elucidating the evolution of extremophile communities; Glossary; A; B; C; D; E; F; H; I; K; L; M; N; O; P; R; S; T; U; V; W; References; Index; A; B; C; D; E; F; G; H; I; J; K; L; M; N; O; P; Q; R; S; T; U; V; W; X; ZSnow and ice environments support significant biological activity, yet the biological importance of some of these habitats, such as glaciers, has only recently gained appreciation. Collectively, these ecosystems form a significant part of the cryosphere, most of which is situated at high latitudes. These ice environments are important sentinels of climate change since the polar regions are presently undergoing the highest rates of climate warming, resulting in very marked changes in the extent of ice caps, glaciers, and the sea ice. Glacial systems are also regarded as an analogue for astrobiologyGlaciologyIce sheetsSnow ecologyElectronic books.Glaciology.Ice sheets.Snow ecology.577.586Laybourn-Parry Johanna531531Tranter Martyn917448Hodson Andrew J917449AU-PeELAU-PeELAU-PeELBOOK9910457479303321The Ecology of Snow and Ice Environments2057087UNINA