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pmip3:design:21k:index [2009/02/10 16:21]
jypeter Cosmetic changes
pmip3:design:21k:index [2010/09/16 12:37] (current)
jypeter Added link to final BC page in the top warning
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 ~~ODT~~ ~~ODT~~
-~~DISCUSSION~~+~~DISCUSSION:closed~~
  
-//Go to =>// [ [[pmip3:​design:​pi:​index|PI]] ] - [ [[pmip3:​design:​6k:​index|6ka]] ] - [ [[pmip3:​design:​lm:​index|LM]] ]+<​html><​a name="​page_top_tag">&​nbsp</​a></​html>​ 
 +//Go to =>// [ [[pmip3:​design:​pi:​index|PI]] ] - [ [[pmip3:​design:​6k:​index|6ka]] ​] - [ **21ka** ​] - [ [[pmip3:​design:​lm:​index|LM]] ] - [ [[pmip3:​design:​8k2:​index|8.2ka]] ] - [ [[pmip3:​design:​li:​index|LI]] ] - [ [[pmip3:​design:​plio:​index|Plio]] ]
  
 ====== 21ka Experimental Design====== ====== 21ka Experimental Design======
  
-<note warning>**Page in progress**: this is not the final version\\ \\ Use the discussion pannel below for comments</​note>​+<note warning>This was a BC //​development page// (see [[index#​page_bottom_tag|discussion]] panel at the end of the page)\\ \\ Make sure you use the [[pmip3:​design:​21k:​final|final version of the 21ka BC]]!</​note>​ 
 ===== Boundary conditions ===== ===== Boundary conditions =====
  
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-^      ^   ​PMIP3 ​ ^  ​Alternative ​solution ​ ^ +^      ^   ​PMIP3 ​ ^  ​Minimum ​solution ​ ^ 
-|  Orbital parameters ​ |  **ecc** = 0.018994\\   **obl** = 22.949°\\   **peri-180°** = 114.42° ​ | |+|  Orbital parameters ​ |  ​**ecc** = 0.018994 ​] - [ **obl** = 22.949° ​] - [ **peri-180°** = 114.42° ​ | |
 |  Date of vernal equinox ​ |  March 21 at Noon  | | |  Date of vernal equinox ​ |  March 21 at Noon  | |
-|  Trace gases  |  **CO<​sub>​2</​sub>​** = 185 ppm\\ **CH<​sub>​4</​sub>​** = 350 ppb\\ **N<​sub>​2</​sub>​O** = 200 ppb\\ **CFC** = 0\\ **O<​sub>​3</​sub>​** = same as PI  | | +|  Trace gases  |  ​**CO<​sub>​2</​sub>​** = 185 ppm ] - [ **CH<​sub>​4</​sub>​** = 350 ppb ] - [ **N<​sub>​2</​sub>​O** = 200 ppb ] - [ **CFC** = 0 ] - [ **O<​sub>​3</​sub>​** = same as PI  | | 
-|  Aerosols ​ |  Same as PI  | |+|  Aerosols ​ |  Same as PI (see //Dust forcing// note below) ​ | |
 |    | |  | |    | |  |
-|  Solar constant ​ |  ​1365W/​m<​sup>​2</​sup> ​ |  As in PI  |+|  Solar constant ​ |  ​1365 W/​m<​sup>​2</​sup> ​ |  As in PI  |
 |  Vegetation ​    ​| ​ Interactive ​ |  See specific note below  | |  Vegetation ​    ​| ​ Interactive ​ |  See specific note below  |
-|  Ice sheet      |  Revised ICE5G???? (provided) ​ |    | +|  Ice sheet      |  Revised ICE5G???? (provided) ​|    | 
-|  Topography and coastlines ​ |  From ???? (provided) ​ |  minimum changes (see note below) ​ |+|  Topography and coastlines ​ |  From ???? (provided) ​|  minimum changes (see note below) ​ |
 |  River outflow ​ |  Modified according to a river pathway map (provided) ​ |  Same as PI  | |  River outflow ​ |  Modified according to a river pathway map (provided) ​ |  Same as PI  |
-|  Ice sheet melting ​ ​| ​ add excess LGM freshwater (see below) ​ |  Same as PI  |+|  Ice sheet ice stream ​ ​| ​ add excess LGM freshwater (see below) ​ |  Same as PI  |
 |  Mean ocean salinity ​ |   ??? -1PSU everywhere ???  |  | |  Mean ocean salinity ​ |   ??? -1PSU everywhere ???  |  |
  
 +* see discussion on the ice-sheet
 +
 +Please use the [[index#​page_bottom_tag|discussion]] panel to **comment** this table!
 +
 +
 +==== Ice-sheet ====
 +
 +The ice sheet to be used for PMIP3/CMIP5 experiments is still under discussion. ​
 +Click on the link below to have access to the ongoing propositions and discussions
 +  * [[pmip3:​design:​21k:​icesheet:​index| LGM ice sheet]] ​
  
 ==== Vegetation ==== ==== Vegetation ====
  
-Depending on the complexity ​of the model used the vegetation ​will be either \\ +The vegetation should be treated as in the CMIP5 PI experiment. The reason is that in CMIP5 we test the version ​of the model used for future climate projections. Since OA and ESM models ​will be considered, depending on the model used the vegetation ​will be 
-- computed by the model \\ +
-- prescribed to PI (some ESM may only compute ​vegetation ​phenology and carbon cycle)\\ +
-- prescribed to 21ka vegetation reconstructed from a combination of model output and data analyses (please use the map provided here) \\ +
-- Obtained from asynschonous coupling with a DVGM (Biome 4 model provided) ​+
  
 +  * prescribed to PI (which means both vegetation types and LAI are prescribed )
 +  * Prescribed to PI with interactive LAI (models with interactive carbone cycle, but no vegetation dynamics)
 +  * Computed by the model (models with dynamic vegetation) ​
  
-==== For Earth System Models with interactive carbone cycle ====+There are still questions concerning the possibility to have a 6ka reconstructed vegetation from a combination of model output and data analyses that could be used for sensitivity experiments. Please tell if you are interested by such a map and what would be the best variables (pft?) that should be provided (see comment from B. Otto-Bliesner in the discussion panel).  ​
  
-The simlations are forced by CO2 concentrations. Please use the same protocal ​as in CMIP5 to store the carbone ​fluxes and the variables needed for PCMIP (see list here) + 
 +==== For Earth System Models with interactive carbon cycle ==== 
 + 
 +The simlations are forced by CO2 concentrations. Please use the same protocol ​as in CMIP5 to store the carbon ​fluxes and the variables needed for PCMIP (see list here) 
  
 ==== Insolation ==== ==== Insolation ====
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 It is advised to ensure a closed fresh water balance at the Earth'​s surface: snow accumulating on the ice-sheets should be redistributed to the oceans, either globally or in the adjacent oceans. It is advised to ensure a closed fresh water balance at the Earth'​s surface: snow accumulating on the ice-sheets should be redistributed to the oceans, either globally or in the adjacent oceans.
 +
 +==== Dust forcing ====
 +
 +Some ESM have interative aerosols. In that case compute dust and associated forcing online, as in PI. If this is not the case then the recommendation is to keep dust and aerosols as in PI (I.E no change for 21 ka).  ​
  
 ===== Initial conditions ===== ===== Initial conditions =====
 +
 +
 +===== Additional information ​ =====
 +
 +==== Siberia winter palaeotemperatures ====
 +
 +The following maps has been provided by [[avkislov@mail.ru|Alexander Kislov]] and [[vasilch@geol.msu.ru| Yurij Vasil'​chuk]] (Moscow State University)\\ ​
 +{{:​pmip3:​design:​21k:​t_18o_paleo.jpg|Siberia winter palaeotemperatures}}\\ ​
 +Siberia winter palaeotemperatures,​ reconstructed by δ18O in ice wedges formed 30-25 (a) and 22-14 (b) ka BP\\ \\ 
 +{{:​pmip3:​design:​21k:​locations_14c.png}}\\ ​
 +Map of northern Eurasia showing localities mentioned in text where 14C dated syngenetic ice-wedges formed during the Late Pleistocene.\\ ​
 +Legend: (1) localities of 14C dated sequences; (2) southern boundary of modern and Late Pleistocene syngenetic ice-wedges; (3) southern boundary of Late Pleistocene palaeopermafrost zone.
  
  
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pmip3/design/21k/index.1234282907.txt.gz · Last modified: 2009/02/10 16:21 by jypeter