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wg:ptof:models [2018/09/25 09:31] brierley [PMIP4/CMIP6 Information] |
wg:ptof:models [2022/10/03 14:39] brierley |
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/* Allow comments in a discussion section at the bottom of the page | /* Allow comments in a discussion section at the bottom of the page | ||
- | More details: https:// | + | More details: https:// |
~~DISCUSSION~~ | ~~DISCUSSION~~ | ||
Contact | Contact | ||
+ | */ | ||
/* This is a comment | /* This is a comment | ||
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====== What model runs might be relevant ====== | ====== What model runs might be relevant ====== | ||
There are a lot of different model runs available as part of PMIP. In fact the amount of output can be a bit overwhelming at first. On important distinction is the different between *transient* and *equilibrium* simulations. All climate models are run forwards in time and write output every month/day. So this distinction really relates to the forcing inputs, and the climate response to them. From a practical perspective, | There are a lot of different model runs available as part of PMIP. In fact the amount of output can be a bit overwhelming at first. On important distinction is the different between *transient* and *equilibrium* simulations. All climate models are run forwards in time and write output every month/day. So this distinction really relates to the forcing inputs, and the climate response to them. From a practical perspective, | ||
- | * **Equilibrium Simulations** | + | * **PMIP4/ |
* **piControl** (Preindustrial): | * **piControl** (Preindustrial): | ||
* **abrupt4xCO2** (Instantaneous quadrupling of carbon dioxide): //An idealized global warming experiment (primarily included for calculating the climate sensitivity)// | * **abrupt4xCO2** (Instantaneous quadrupling of carbon dioxide): //An idealized global warming experiment (primarily included for calculating the climate sensitivity)// | ||
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* **Eoi400** (Pliocene, 3,205,000 years ago): //warm conditions before any Northern Hemisphere glaciation (minimal continental drift)// | * **Eoi400** (Pliocene, 3,205,000 years ago): //warm conditions before any Northern Hemisphere glaciation (minimal continental drift)// | ||
* **DeepMIP** (Eocene & Paleocene, 50-60 million yrs ago): //Warm climates with carbon dioxide concentrations similar to end of century projections (continents drifted, PMIP-only)// | * **DeepMIP** (Eocene & Paleocene, 50-60 million yrs ago): //Warm climates with carbon dioxide concentrations similar to end of century projections (continents drifted, PMIP-only)// | ||
- | * **Transient Simulations** | + | * **PMIP4/ |
* **1pctCO2** (Carbon dioxide concentrations increase by 1% per year): //An idealized global warming experiment (primarily included for calculating the transient climate response)// | * **1pctCO2** (Carbon dioxide concentrations increase by 1% per year): //An idealized global warming experiment (primarily included for calculating the transient climate response)// | ||
* **historical** (1850CE onwards): // | * **historical** (1850CE onwards): // | ||
* **past1000** (last millennium, 850CE onwards): // | * **past1000** (last millennium, 850CE onwards): // | ||
* **LDv1** (last deglaciation, | * **LDv1** (last deglaciation, | ||
+ | * **Other Transient Simulations** //There are several other long palaeoclimate simulations that my be useful// | ||
+ | * **[[https:// | ||
+ | * **[[https:// | ||
+ | * **[[https:// | ||
+ | * **[[https:// | ||
+ | * **[[https:// | ||
+ | * **[[https:// | ||
+ | * **[[https:// | ||
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+ | * **[[https:// | ||
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======= PMIP4/CMIP6 Information ======= | ======= PMIP4/CMIP6 Information ======= |