Transcript PPT

Linking Air Quality and Climate Change
Mitigation Objectives:
The Case for Controlling Methane
Arlene M. Fiore, Daniel J. Jacob, David G. Streets,
Brendan D. Field, Loretta J. Mickley
AGU Spring Meeting May 28, 2002
Tropospheric ozone links air pollution & climate change
(1) primary constituent of smog in surface air [NRC, 1991]
(2) 3rd most important greenhouse gas [IPCC, 2001]
Free Troposphere
hn
NO2
OH
O3
NO
Background O3
HO2
Intercontinental Transport
VOC, CH4, CO
NOx
NMVOCs
CONTINENT 1
Chemical loss
Deposition
O3
OCEAN
Boundary layer
(0-2.5 km)
NOx
NMVOCs
O3
CONTINENT 2
APPROACH: Examine impacts on climate & air quality via simulations
with perturbed emissions in GEOS-CHEM
TOOL: GEOS-CHEM 3D Tropospheric Chemistry Model
MODEL EVALUATION:
Mean July 1995 1-5 p.m. O3 (ppbv) in U.S. surface air
Model Bias: 2 ppbv, r2 = 0.7
GEOS-CHEM captures: regional high-O3 episodes, observed O3 vs. (NOy-NOx),
observed tightening of O3 distribution from 1980 to 1995
METHOD: Use GEOS-CHEM to conduct a series of sensitivity
simulations with perturbed emissions
1. Implement IPCC A1/B1 future emission scenarios for 2030
Percent change in anthrop.
emis. from 1995 base case
to 2030 A1 simulation:
A1 2030
GLOBAL increase
USA decrease
NOx
CO VOCs CH4
2. Reduce various combinations of anthrop. emissions by 50%
globally relative to 1995 base year
CH4 fixed at steady-state global uniform concentration
(1700 ppbv for 1995)
Change in radiative forcing* (W m-2) from
O3 and CH4 relative to 1995 base case
NOx
 OH 
CH4
50%
anthr.
NMVOC
50%
anthr.
CH4
50%
anthr.
NOx
2030 A1
*calculated from changes in global CH4 concentrations [IPCC, 2001]
and changes in the mean tropospheric O3 column [Mickley et al., 1999]
Change in summer afternoon O3 in surface air over the U.S.
Change in O3 (ppbv)
Relative to 1995 base year (mean 51 ppbv, background 23 ppbv)
Mean O3
Background O3*
Degradation of U.S.
air quality from rise
in global emissions
despite domestic
reductions
50%
anthr.
NMVOC
50%
anthr.
CH4
50%
anthr.
NOx
2030 A1
*produced outside the North American boundary layer (surface-760 hPa)
Impacts of Emissions Perturbations on U.S. Air Quality
Number of summer grid-square days
with O3 > 80 ppbv
Increase in U.S.
pollution events
despite domestic
decline in anthrop.
emissions
1995 50% 50% 50% 2030
(base) anthr. anthr. anthr. A1
VOC CH4 NOx
Rising emissions from developing countries lengthen
the O3 pollution season in the United States
1995 Base Case
2030 A1
Methane emissions reductions lower global O3
background and improve air quality everywhere
CH4 emissions
global impact:
Lower background O3
Negative radiative forcing
Free Troposphere
CH4
O3
NMVOCs
CONTINENT 1
Boundary layer
(0-2.5 km)
Chemical loss
Deposition
NOx emissions
local impact;
little effect on climate
NOx
Intercontinental transport,
global O3 background
increases in
2030 A1 simulation
NOx
O3
NMVOCs
OCEAN
O3
CONTINENT 2
IPCC Projections of Future Methane Emissions to 2050
CH4 emissions (Tg CH4)
900
800
700
Scenarios
A1B
A1T
A1F1
A2
B1
B2
IS92a
600
2000
2020
2040
Year
Can we aim to decrease CH4 emissions?