![]() ![]() In fact, it is complicated enough that wemay have difficulty interpreting and understanding the results ofexperiments. The Future a) Business-as-Usual b) Stabilization c) Reduction DOWNLOADABLE MODELS Basic Pre-Industrial Global Carbon Cycle Business-as-Usual Stabilization Reduction Summary Readings and Key ReferencesĪs you can see from the lengthydiscussion of the flow processes involved in the global carbon cycle,it is a fairly complex one. Comparing the Model with the Real World GC2. Altering Downwelling and Upwelling The Global Carbon Cycle Model Construction Equations Experiments GC1. Increasing the NPP of the Marine Biota (Strength of the Biologic Pump) a) a first attempt b) a second attempt A More Complex Ocean-Atmosphere Model Model Construction Equations Experiments OC5-8. Making the Water Temperature Change with Atmospheric CO 2 OC4. Effect of Fossil Fuel Emissions a) Response to a Steady Rate of Anthropogenic Emissions b) Response to Historical Changes in Anthropogenic Emissions OC3. Response Time - Effect of an Initial Doubling of Atmospheric Carbon OC2. Modifying the Photosynthesis Parameters a) Changing the "Greening Potential" b) Making Photosynthesis Dependent on the Land Biota Reservoir A More Complex Terrestrial Carbon Cycle Model Model Construction Equations Experiments A Simple Ocean-Atmosphere Carbon Cycle Model Construction Equations Experiments OC1. Modifying the Temperature Sensitivitie s TC6. Effects of Forest Burning and Soil Disruption a) Forest Burning b) Deforestation With No Burning c) Agricultural disruption of soil TC4. Response Time - Effect of an Initial Doubling of Atmospheric Carbon TC2. ![]() Strategy - Divide and Conquer A Simple Terrestrial Carbon Cycle Model Construction Equations Terrestrial Carbon Cycle Experiments TC1. ![]()
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