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Record #93417:
- #93417
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MARC recordA coupled energy balance climate-sea ice model: impact of sea ice and leads on climate / Tamara Shapiro Ledley.
| Title: | A coupled energy balance climate-sea ice model: impact of sea ice and leads on climate / Tamara Shapiro Ledley. |
| Author(s): | Ledley, Tamara Shapiro. |
| Date: | 1988. |
| In: | Journal of Geophysical Research. (1988.), Vol. 93(D12) (1988) |
| Abstract: | Results show that lead-temperature feedback occurs between ocean and atmosphere, such that changes in winter minimum lead fraction can cause large changes in simulated annual zonally-averaged surface air temperature in north polar region. Compared to control where minimum lead fraction is 1.1%, these changes in temperature range from decrease of 1 K, when leads are eliminated, to increase of 1 K, when winter minimum lead fraction is increased to 4.3%. Discusses implications for polar and global climate. |
| Notes: | Journal of Geophysical Research. Vol. 93(D12) :15, 919-15, 932 (1988). |
| Keywords: | 551.588.5 -- Climate, relationship with ice. 551.465.7 -- Oceanography, energy budget. 551.32 -- Glaciology. 551.326 -- Floating ice. 551.326.2 -- Floating ice, formation and decay. E9 -- Glaciology: meteorology and climatology. |
| SPRI record no.: | 93417 |
LDR 01470naa#a2200000#a#4500 001 SPRI-93417 005 20231205222429.0 007 ta 008 231205s1988####xx#a##|##|###|0||#0|eng#d 035 ## ‡aSPRI-93417 040 ## ‡aUkCU-P‡beng‡eaacr 100 1# ‡aLedley, Tamara Shapiro. 245 12 ‡aA coupled energy balance climate-sea ice model :‡bimpact of sea ice and leads on climate /‡cTamara Shapiro Ledley. 260 ## ‡a[S.l.] :‡b[s.n.],‡c1988. 300 ## ‡ap. 15, 919-15, 932 :‡bdiags., tables. 500 ## ‡aJournal of Geophysical Research. Vol. 93(D12) :15, 919-15, 932 (1988). 520 3# ‡aResults show that lead-temperature feedback occurs between ocean and atmosphere, such that changes in winter minimum lead fraction can cause large changes in simulated annual zonally-averaged surface air temperature in north polar region. Compared to control where minimum lead fraction is 1.1%, these changes in temperature range from decrease of 1 K, when leads are eliminated, to increase of 1 K, when winter minimum lead fraction is increased to 4.3%. Discusses implications for polar and global climate. 650 07 ‡a551.588.5 -- Climate, relationship with ice.‡2udc 650 07 ‡a551.465.7 -- Oceanography, energy budget.‡2udc 650 07 ‡a551.32 -- Glaciology.‡2udc 650 07 ‡a551.326 -- Floating ice.‡2udc 650 07 ‡a551.326.2 -- Floating ice, formation and decay.‡2udc 650 07 ‡aE9 -- Glaciology: meteorology and climatology.‡2local 773 0# ‡7nnas ‡tJournal of Geophysical Research. ‡gVol. 93(D12) (1988) ‡wSPRI-35252 917 ## ‡aUnenhanced record from Muscat, imported 2019 948 3# ‡a20231205