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MIT OpenCourseWarehttp://ocw.mit.edu
�� 12.842 / 12.301 Past and Present ClimateFall 2008
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12.842Climate Physics and Chemistry
Fall 2008
Atmospheric Chemistry I:Ozone, Chlorofluorocarbons,
Nitrogen Oxides, and Dimethyl Sulfide
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A brief history of the atmospheric chemistry of O3,nitrogen oxides, and CFC's
• 1970: Paul Crutzen shows that destruction by NOx can account for discrepancy betweenfactor of three excess of calculated ozone layer relative to observed ozone layer.
• 1971: Crutzen shows that dominant source of NOx in stratosphere is transport of N2O released from biosphere.
• Harold Johnston suggests that nitrogen oxides released by supersonic transports mightaffect ozone layer (but US SST rejected on economic grounds rather thanenvironmental concerns).
• 1973: James Lovelock, inventor of "electron capture" detector, shows that CFCconcentrations in the atmosphere were increasing.
• 1974: Molina and Rowland suggest that CFCs would deplete ozone layer [at about sametime, Ralph Cicerone and Johnston also suggest that Cl might deplete ozone, but focus on volcanism and the space shuttle as a source of Cl rather than CFC's].
• 1976: US bans use of aerosol spray CFCs after 1978. • 1980: "Ozone hole" opens up in Antarctic, unbeknownst to the human race. • 1985: Josephan Farman found that mean Antarctic ozone (column) had decreased by
nearly half of what it had been in the early 1970's. This event was not predicted byMolina-Rowland model.
• Ozone hole intensity continues to increase, with Antarctic ozone virtually disappearingat 15-21 km altitude every spring. Late 1980's: Antarctic ozone hole linked toheterogeneous catalysis by polar stratospheric clouds.
• 1987: Signing of multinational "Montreal Protocol" regulating CFC production.
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Gas phase chemical kinetics I
• Elementary bimolecular reactionA + B -> AB
• probability of reaction depends on frequency ofcollision, orientation (random probability), andability to overcome activation energy threshold
�
d[AB]
dt= k[A][B]
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Gas phase chemical kinetics II
Reactants
Products
Energy
Activation energy
�
d ln k
dT=Ea
RT2
k = Ae!Ea /RT (Arrheniusequation)
If Ea is constant:
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Example: temperature dependence of rate constant for formation of hydrogen iodide
H2 + I2 -> 2 HI d HI / dt = [H ][I ] A e-E /RTa2 2
-1.5 1.2 1.3 1.4
103/T
log
k
1.5 1.6 1.7 1.8
-0.5
0.5
1.5
2.5
3.5
Figure by MIT OpenCourseWare. Adapted from Moore. Physical Chemistry. 3rd ed. (1962): 274.
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But things can get complicated:the example of hydrogen bromide
H2 + Br2 -> 2 HBr Reaction kinetics, as determined by Bedenstein (~1900) :
�
d[HBr]
dt=k[H 2 ] [Br2 ]
M +[HBr]
[Br2 ]
The reaction actually proceeds by 5 separate reactions:
Br2 -> 2 Br
Br + H2 -> HBr + H
H + Br2 -> HBr +Br
H + HBr -> H2 + Br
2 Br + M -> Br2 + M
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Statospheric Ozone - key equations I
A. Ozone production
• 1. O2 + hν -> O + O
• 2. O + O2 + M -> O3 + M (M is some other molecule that acts as a catalyst)
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Statospheric Ozone - key equations II B. Ozone destruction • 1. O3 + hν -> O2 + O • 2. O + O3 -> 2 O2 (A1+A2+B1+B2 are sometimes referred to as the Chapman Cycle) • 3a. O3 + OH -> HO2 + O2 • 3b. HO2 + O3 -> OH + 2O2 (3a and 3b involving OH are part of a more general class of
reactions involving “OX” where “OX” = HOx, NOx, ClOx) • 4a. N2O + hν -> N2 + O (1D) (most N2O destruction occurs this way; note that this
• 4b. N2O + O (1D) -> 2 NO
• 4c. NO + O3 -> NO2 + O2
• 4d. O3 -> O + O2 • 4e. NO2 + O -> NO + O2 • 5a. Cl + O3 -> ClO + O2 • 5b. O3 + hν -> O + O2 • 5c. ClO + O -> Cl + O2
reaction converts N2O into forms which do not depleteozone; O (1D) is an energetically excited oxygen atom)
(only 5% of N2O is destroyed this way - but it leads toproducts that deplete ozone)
(note: NO, NO2 and NO3 are collectively referred to as “NOx”: these plus all oxidized nitrogen species of NOx on relatively short time scales (e.g. N2O5, HNO3) are referred to as “NOy”
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Statospheric Ozone - key equations IIIB. Ozone destruction (cont’d)
In the presence of ice clouds:
• 6a. ClONO2 + HCl -> Cl2 + HNO3
• 6b. Cl2 + hν -> 2 Cl (these are the reactions responsible for theozone hole)
Source of stratospheric HCl:
• 7. Cl + CH4 -> HCl + CH3
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Ozone chemistry (simplified)
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N2O (nitrous oxide):Greenhouse gas (and ozone sink)
(no laughing matter)
• N2O is produced from dissolved nitrate by microbes in theearth surface environment:
2 "CH2O" + 2 NO3- + 2 H+ -> N2O + 2 CO2 + 3 H2O• Some microbes in the same environment will further reduce
N2O to N2. However, gaseous N2O can diffuse out of the environments where this sink reaction can occur, and once itenters the troposphere, it is relatively unreactive.
• The primary sink for tropospheric N2O is the stratosphericphotochemistry. It takes about a century for the troposphereto cycle through the stratosphere, so the residence time ofN2O in the atmosphere is about a century. N2O + hν -> N2 + O (1D) (most N2O destruction occurs this way; note
that this reaction converts N2O into forms which do not deplete ozone; O (1D) is an energetically excited oxygen atom)
N2O + O (1D) -> 2 NO (only 5% of N2O is destroyed this way - but itleads to products which deplete ozone)
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N2O is increasingwith time CFC12
CFC11
N2O
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N2O is increasing with time…
Figure by MIT OpenCourseWare.
100
N
Mix
ing
Rat
io (p
pbv)
2O
10
1
40 35 30 25 20 15 10 5
Altitude (km)
FEB. 1. 1979, 41oN(Golden el al, 1980)
JAN. 30. 1979, 40oN(Calculated, CR)
SAMS. JAN., FEB., 1979, 40oN(Jones and Pyle, 1984)
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Methane is a strong greenhouse gas and contributes to global warming
-2
-1
0
Glo
bal-M
ean
Rad
iativ
e Fo
rcin
g(W
m-2
) 1
2
CO2
CH4
N2O Halocarbons
Stratospheric ozone
ozone Sulphate
3
Biomass burning
Solar
High
Estimates of the globally and annually averaged anthropogenic radiative forcing-2) due to changes in concentrations of greenhouse gases and aerosols from
pre-industrial times to the present day and to natural changes in solar output from
Low Low Confidence Level
Low Low Low Low Low
Fossil fuel soot
Tropospheric
Tropospheric aerosols - indirect effect
Tropospheric aerosols - direct effect
RELEVANCE TO CLIMATE
(in Wm
1850 to the present day.
Very Very Very Very
Figure by MIT OpenCourseWare based on IPCC.
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But it has also changed before large-
scale human activities:
N2O in a Greenland ice core
Image removed due to copyright restrictions. Citation: Figure 1. Sower, et al. Science 301 (August 15, 2003): 946.
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The Nitrogen Cycle
N2
NH4+
NO3 -NO2
-
NO
N2O
gaseous nitrogen
proteins, ammonia
dissolved nitrate
dissolved nitrite
nitric oxide
nitrous oxide nitrogen fixation
nitrification
denitification
NO2 -
aerobic -><- anaerobic
also: Anammox (anaerobic ammonia oxidation) (NH4
+ + NO2 - -> N2
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The nitrogen cycle
See image about “The Nitrogen Cycle.” In Galloway, 2004.
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Microbial transformations in the nitrogen cycle
Image removed due to copyright restrictions. Citation: Figure 12.1. Schlesinger, W. T. Biogeochemistry: An Analysis of GlobalChange. San Diego: Academic Press, 1991, p. 443. ISBN: 0126251568.
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Nitrogen cycle
Image removed due to copyright restrictions. Citation: Figure 12.2. Schlesinger, W. T. Biogeochemistry: An Analysis of Global Change. San Diego: Academic Press, 1991, p. 443. ISBN: 0126251568.
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Human perturbations of the nitrogen cycle:
• High temperature (and sometimes pressure)combustion converts N2 into nitrogen oxides
• Production of nitrogen fertilizers, release into theenvironment
• Sewage inputs of fixed nitrogen
• High-nutrient environments lead to oxygen depletion(eutrophication), e.g. “dead zone” on Mississippi coast;this environment leads to denitrification.
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Global reactive nitrogrendeposition
Image removed due to copyright restrictions. Citation: Figure 4. Ambio, J. Galloway 31 (March 2002): 2.
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Fertilizer production
.
1920
Ferti
lizer
Pro
duct
ion
or U
se(m
illio
ns o
f ton
s of
nitr
ogen
)
0
30
60
90
1940Year
1960 1980 2000 2020
Figure by MIT OpenCourseWare based on Physics Today
.
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Nitrate in a Greenland ice core
50
2000
1972
Purple Line represents the 2000 year average
1950 1900 1850 1800 1750
100
Parts
/Bill
ion
(ppb
)
150
200
Calender Years
Concentrations of Nitrate Measured in the GISP2 Ice Core
Figure by MIT OpenCourseWare based on Mauewski et al., 1990 and Zielinski et al., 1994.
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NH4+ (ammonium) in an Alpine ice core
Image removed due to copyright restrictions. Citation: Figure 1a. Alpine NH3 1800-present. Doscher, A., et al. “A Historical Recordof Ammonium Concentrations from a Glacier in the Alps.” Geophys Res Lett 23 (1996): 2741-2744.
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Tropospheric N2O budget
ESTIMATED SOURCES AND SINKS OF N2O TYPICAL OF THE LAST DECADE (Tg(N)/yr)
Range of Estimates Most Likely Value
Increase in Atmosphere 3.1 - 4.7 3.9#
Sinks
Stratosphere (N2O + h� N2 + O) Soils
9 - 16 ?
12.3
Total Sinks 9 - 16 12.3
Implied Total Sources 13 - 20 16.2(atmospheric increase + total sinks)
Known Sources Range of estimates Most Likely Value
Natural
Oceans 1 - 5 3
Tropical Soils Wet Forests 2.2 - 3.7 3Dry Savannas 0.5 - 2.0 1
Temperate Soils Forests 0.1 - 2.0 1Grasslands 0.5 - 2.0 1
Total Known Natural Sources 6 - 12 9
Anthropogenic
Cultivated Soils 1.8 - 5.3 3.5Biomass Burning 0.2 - 1.0 0.5Industrial Sources 0.7 - 1.8 1.3Cattle and Feed Lots 0.2 - 0.5 0.4
Total Known Anthropogenic 3.7 - 7.7 5.7
KNOWN SOURCE TOTALS 10 - 17 14.7
# The observed atmospheric increase implies that sources exceed sinks by 3.9 Tg(N)/yr.
Figure by MIT OpenCourseWare.
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DMS and climate
Dimethyl sulfide and climate
(e.g. coccolithophorids, single-celled plants) produce DMS• A. Marine organisms P(dimethylsulfoniopropionate):
CH3\S+-CH2-CH2-COO- DMSP
/CH3
This compound is converted to DMS [(CH3)2S] when the cell is destroyed and the cellcontents are degraded.
• B. DMS is volatile and moves into the atmosphere by gas exchange.• C. DMS is oxidized in the atmosphere to two byproducts with a "branch ratio": sulfuric
acid (H2SO4) and methanesulfonic acid (MSA: CH3SO3H). Cycle is complex withmany intermediates; branch ratio appears to depend mainly on temperature (low MSA:nssSO =
4 at warmer temperatures)• D. The products are transported to ice cores and recorded there as non-sea-salt sulfate
(nss SO =4 ) and MSA.
• E. The non-sea-salt sulfate, (initially sulfuric acid but later reacted with sea salt particlesand mineral aerosols) forms particles that act as cloud condensation nuclei (CCN). In areas that are far from land, these CCN can be an important factor regulating cloud formation and rainfall. Some people have hypothesized a feedback between DMS and climate.
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Image removed due to copyright restrictions. Citation: See the image about concentration of DMS in seawater published on WoodsHole Notes by John W. H. Dacey, Woods Hole Oceanographic Institution.