Quaternary Environments Paleoclimate Models Types of Models T
- Slides: 19
Quaternary Environments Paleoclimate Models
Types of Models T T Simplify a system to its basic components Types of Models T Physical Models T T Statistical Models T T Flow chart Computer Models T T Regression Equations Conceptual Models T T Globe GCMs Test Hypotheses
Types of Models T Energy Balance Models (EBMs) – Surface temperature as a result of energy balance Zero-Dimension – Whole Earth T One-Dimension – Earth in zonal bands with latitudinal heat transfer T Two-Dimensions – Lat/Long or Latitude/Altitude changes T T Statistical –Dynamical Models (SDMs) T T Radiative Convective Models (RCMs) T T Use parameterized input equations to describe changes through time Radiative processes in vertical columns General Circulation Models (GCMs) Use physical laws to drive all changes T Coupled Ocean-Atmosphere GCMs T
Statistical-Dynamical Model of variations of Northern Hemisphere ice volume over the last 200, 000 years forced by CO 2 and Insolation
Schematic Diagram of atmosphere and ocean computational boxes in a coupled GCM
Levels of Complexity and Coupling of Ocean -Atmosphere Models
Problems With Current Models T Expense and Time T T Resolution Unknown Quantities Cloud cover and feedback T Difference in response times between various components of the model T T Lacking land surface, cryosphere, biogeochemical cycles, and biome components T Climate System Models (CSMs) being developed
http: //www. cru. uea. ac. uk/cru/info/scen/
Estimated Response and Equilibrium Times for Different Components of the Climate System
Model Experiments T Are changes in orbital parameters enough to cause a glacial event? T Insolation as an input T Also needed increased cloudiness, increased soil moister, a shallow mixed layer in the ocean, and lower CO 2 T Feedbacks include increased sea ice, lower SSTs in summer, and presence of permanent snow cover on land
Difference in Solar Radiation at the Top of the Atmosphere 115 kya
Modeled Snow Depth in August for 115 kya
Input Parameters for COHMAP Simulation
Output from COHMAP, Split Jet Stream During LGM
Modeling Forward T Models can be tested against paleorecords then these models can be used to predict future change T Multiple model outputs to estimate future change
http: //www. cccma. bc. ec. gc. ca/models/cgcm 2. shtml
Two Environment Canada models showing change from 1971 -1990 to 2041 -2060. Differences are based on a change in the depth and vigor of vertical mixing in the Southern Ocean http: //www. cccma. bc. ec. gc. ca/models/cgcm 2. shtml
Scaling down from a GCM through a Regional Climate Model to the landscape Climatic Research Unit, University of East Anglia http: //www. cru. uea. ac. uk/
- What is paleoclimatology
- Palmyra soest
- Environment means
- Secondary world geography definition
- Primary secondary tertiary
- Tertiary consumer
- Advantage of quaternary ammonium compounds
- Tertiary age
- Barn owl food web
- Primary structure of protein ppt
- Quaternary economic activity
- Levels of economic activity
- Quaternary economic activities
- What are quaternary consumers
- Primary secondary tertiary quaternary
- Quaternary amine
- Binary to quaternary
- Adenine thymine cytosine and guanine
- Quaternary structure of protein
- Bisguanides