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Lecture 10: Ice on Earth EarthsClimate_Web_Chapter.pdfEarthsClimate_Web_Chapter.pdf, p. 8, 27-30; Ch. 2, p. 21; Ch. 10, p. 176-177 I.Sea Ice II.Glacial.

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Presentation on theme: "Lecture 10: Ice on Earth EarthsClimate_Web_Chapter.pdfEarthsClimate_Web_Chapter.pdf, p. 8, 27-30; Ch. 2, p. 21; Ch. 10, p. 176-177 I.Sea Ice II.Glacial."— Presentation transcript:

1 Lecture 10: Ice on Earth EarthsClimate_Web_Chapter.pdfEarthsClimate_Web_Chapter.pdf, p. 8, 27-30; Ch. 2, p. 21; Ch. 10, p. 176-177 I.Sea Ice II.Glacial Ice

2 I. Sea Ice Locations: in the Arctic Ocean surrounded by landmass; Depth: ~1–4 m in the Arctic; ~1 m in the Southern Ocean. Albedo: 60-90%, highest on Earth’s surface Density: less than seawater, hence floats on top. The role in the climate system: Albedo-temperature feedback Prevents the underlying (warm) ocean from interaction with the atmosphere, thus cools the air. Melting of sea ice extracts heat from the atmosphere; Formation of sea ice releases heat to the atmosphere. in the Southern Ocean, surrounding Antarctica. Longevity: in the Arctic, 4–5 yrs; in the Southern Ocean, forms and melts yearly.

3 Processes that affect radiation Temperature increases All directionsBackwards Albedo

4 II. Glacial Ice Two forms: Sizes: Albedo: The role in the climate system: Albedo-temperature feedback Stores 70% of world’s fresh water Continental ice sheets. Locations: Mountain (alpine) glaciers Near sea-level at hi. lat. > 5 km near equator Antarctica and Greenland (polar ice caps) A few km in length, tens to hundreds of m in width and thickness. Hundred to thousands of km in length, 1–4 km in thickness. Area of the two current ice sheets: ~11% of land surface; 70 m sea level rise when all melted. Movement: Flows downhill by gravity along mountain valleys Flows to the lower margins. The weight depresses bedrock. 60-90%, highest on Earth’s surface Changes salinity, circulation and sea level when melt

5 II. Glacial Ice (cont’d) Steps to Form Glaciers Mass Balance

6 Snow and ice albedo feedbacks in the polar regions are to blame for the large changes already observed. Ninnis Glacier Tongue Antarctica 1997 2000

7 Example of a positive feedback If this were the only mechanism acting, we’d get a runaway temperature increase Albedo decreases Less solar energy reflected Warm temperatures More energy retained in system Ice and snow melt

8 Albedo increases More solar energy reflected Example of a negative feedback Warm temperatures More evaporation More clouds More energy retained in system

9 Another Positive Feedback Warm temperatures More evaporation More clouds More energy retained in system More longwave energy absorbed

10 Snow and ice albedo feedbacks in the polar regions are to blame for the large changes already observed. Ninnis Glacier Tongue Antarctica 1997 2000

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