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Activity for Dec. 5 (last 20 points). How far did your food travel?. Activity for Dec. 5 (last 20 points). How far did your food travel? Choose a meal. Activity for Dec. 5 (last 20 points). How far did your food travel? Choose a meal. Record calories for all items in your meal.
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Activity for Dec. 5 (last 20 points) How far did your food travel?
Activity for Dec. 5 (last 20 points) How far did your food travel? • Choose a meal.
Activity for Dec. 5 (last 20 points) How far did your food travel? • Choose a meal. • Record calories for all items in your meal.
Activity for Dec. 5 (last 20 points) How far did your food travel? • Choose a meal. • Record calories for all items in your meal. • Record place of origin for all items your meal.
Activity for Dec. 5 (last 20 points) How far did your food travel? • Choose a meal. • Record calories for all items in your meal. • Record place of origin for all items your meal. • Get on Yahoo! Maps and determine the distance between the places of origin and Gainesville.
Activity for Dec. 5 (last 20 points) How far did your food travel? • Choose a meal. • Record calories for all items in your meal. • Record place of origin for all items your meal. • Get on Yahoo! Maps and determine the distance between the places of origin and Gainesville. • Sum up the calories for your meal, and the miles your meal traveled to get to you.
Activity for Dec. 5 (last 20 points) How far did your food travel? • Choose a meal. • Record calories for all items in your meal. • Record place of origin for all items your meal. • Get on Yahoo! Maps and determine the distance between the places of origin and Gainesville. • Sum up the calories for your meal, and the miles your meal traveled to get to you. • Bring this data to class.
Climate forcing factors = Factors causing climate to change
Temperature • Direct temperature measurements span 140 years • Global temperature has increased about 1 deg C
Some solar radiation is reflected by atmosphere Sun More radiation is absorbed by Earth and warms it Atmosphere Infrared radiation (heat) is released from the Earth Earth Some infrared radiation is absorbed by greenhouse gases warming Earth and lower atmosphere Greenhouse gases
Greenhouse gases Greenhouse warming potential (GWP) -- takes into account the ability of a gas to absorb infrared radiation, and the lifetime of the gas in the atmosphere Gas [conc] GWP carbon dioxide (CO2) 360 ppm 1 methane (CH4) 1745 ppb 23 nitrous oxide (N2O) 314 ppb 296 CFC-11 268 ppt 4600 CFC-13 4 ppt 14000 water (H2O)
A diversion to the stratosphere… CFC’s: These gases affect the ozone layer in the stratosphere (GOOD OZONE) BUT this is not related to their effect as a greenhouse gas in the troposphere (BAD OZONE)
The atmosphere Stratosphere 10 to 45 km Good ozone Troposphere Bad ozone 0 to 10 km Earth
Ozone • Good ozone shields the earth from UV radiation
Ozone • Good ozone shields the earth from UV radiation • Bad ozone = smog; affects animal and plant health
Ozone • Good ozone shields the earth from UV radiation • Bad ozone = smog; affects animal and plant health Neither are climate forcing factors!
Greenhouse gases Carbon dioxide is the largest single contributor to climate forcing Carbon dioxide contributes about half of total climate forcing from greenhouse gases
Measurements of past atmosphere come from bubbles trapped in ice cores
Past temperature recorded in oxygen isotopes; 4-12 deg C variation between ice ages
These records show a correlation between greenhouse gas concentrations and temperature
Greenhouse gases and temperature Current temperature increase a sharp change from past 1000 years Climate might otherwise be cooling,but this is speculation
Greenhouse gas sources Methane Tg/yr Animals 80 Termites 40 Rice Paddies 110 Wetlands 115 Fuels 180 Total 525 Yellow text = anthropogenic source
Greenhouse gas sources Nitrous Oxide Tg/yr Biomass burning 2 Land use (agriculture) 1.4 Denitrification (soil) 5.7 Denitrification (ocean) 2 Total 11.1
Greenhouse gas sources Carbon Dioxide Pg/yr Fossil Fuel 6.3 Land clearing 1.7 Ecosystem respiration 120 Ocean efflux 105
Eff + Edf = atm + ocean + other The global carbon balance(in Pg C year-1): Fossil fuels + deforest. = atmosphere + oceans + ??? 5.5 + 1.6 = 3.3 + 2.0 + 1.8 1 Pg = 1015 grams From: IPCC 1995
Climate predictions • General circulation models (GCM) are used to predict future climate • Driven by physical processes that involve transfers of energy and water • Used with different greenhouse gas ‘scenarios’ to predict climate in a future atmosphere
GCM predictions • Models are tested against climate records from the past • Model predictions are compared with other similar GCM predictions • GCM temperature predictions are typically quite accurate
GCM predictions • Global climate predicted to warm 1.5 - 6 deg C by 2050 if CO2 increases at current rate. • High latitudes & and land surfaces warm most. • Washington DC now has 30 days over 90 deg F. Will have 85 days over 90 deg F.