Climate change and fossil fuels
V
Filip Cernoch cemoch@jnail.muni.cz
CENTER FOR ENERGY STUDIES
Explaining the climate change
• „How could scientists predict the climate in 100 jears when they cannot predict the weather tomorrow? "
• Climate: atmospheric conditions over a long period of time (years to centuries).
•Weather: short time (minutes to weeks).
• Consequences for prediction — climate undergoes more gradual change (than weather) and is easier to predics.
center for energy studies
1) The planet's temperature is rising
•Over the past 130 years the global average temperature has increased by 0,8°C (more than half of that in last 35 years).
• Ocean accounts for more than 90% of the energy accumulated between 1971-2010.
•Ancient ice samples (from Antarctica and other places) — their layers are dated and gas bubles inside are analysed.
• C02 concentration is measured by infrared spectroscopy or mass spektromectry.
• Isotope  ratios   of   water  molecules   are   measured to determine historical temperatures. center for
energy studies
The planet's temperature is rising
•Earth's climate has always fluctuated. The cooler period — ice ages or glacial periods, the warmer period — interglacial periods.
• Orbital variations
• Solar output
• Volcanism
• Plate tectonics
•The rate of change has become more dramatic since the Industrial Revolution = anthropogenic origins.
• Problems with adaptation
center for energy studies
Temperature Changes in the Past 800,000 Years
soo^JDir
600,000
400,000
200,000
Years Before Present
Temperature (:C) relative to 1961-1990 average
center for energy studies
<   "./St-1-1-1-1-1-1-1-1-1-1-1-1-r
1880 1900 1920 1940 1960 1980 2000
CENTER FOR j ENERGY STUDIES i
Observed change in surface temperature 1901 - 2012
.++++
•'++ + + + + 4-4-4 + + + +I i't + + +-t + +■ +
44444444' ■*++<-**+ + +
, + +. + ** + * + * + * + * + « + * + ,
4i*4++t.T
+ + ■
+ + + +
■ * * * * +^ V4 4 * * *
fc. -I- 4 4 4 + +
. * + + + + + + + * 4 f-4> + + + <
	4+44+44+ tT^V	4 P J- 4		r t + I-44	+ +	4 4	4 4 4 *	+ 4	4 4		4 4	> + + +
	« + 4*44+44+4		4	t+St	4	4	4 +	4	K	+ +		h  44 +
l   * * * *	+ + + + * + + + + + +	4 Jf	+ + • +			+	+ +	*	4	+ +		»  4 4 *V
	444444+ 4 4' +	4X4	4 4*4				hk-4	4	4	+ +	4 4	h  4 4 *\
+. * + +	44+44+4 + + +		4 •			4	4 +	4	4	+ 4	+ 4	h  4 + 4
',+ ± * + * *	+ + + 4 + + 4+ +4*>	+ \	4	1_	+	4	4 £	4	4	+ 4	4 '	* + * *
'. 4 4- * * + • -	+ +••++ + + 4 4 + +	4 4		4 4 4	*	+	4 j4	4	+		* '	h  4 + •
* *L
1? * tlw * + + *
,\ + * + * +
4 + + + 4
+ 444 +   44444 +
+ + + + + + ■* + + + + + +
BMMBfc,* + + + *■
■ + 4^4(44n4+-44 + + 4 + + + * + + + +^P^- * * +> + J 4 + 4."
■ + 4 *r+T+/4 4 + *44 + * + 4 + +4 + »*> 4 4 + * 1 4
■ * 4J4 44 4'+ 44 t + + + + ++ + Y* * + +■ + 4 -JU- 4 4 V 4 +/ 4 f V 444444 + +4+444 + +t+ + + + 4444J + + + ++'
+++4+++++
. + +44+ + 4 + 4+ + +44+ + +44+ + + 4 + + + .
+ 444*
4 . 4- * 4*4 J
I
L
-0.5 -0.4 -0.2
0.2
L
0.4 0.6
(°C)
0.8    1.0    1.25   1.5   1.75 2.5
CENTER FOR ENERGY STUDIES
2) C02 level is increasing (also methane and nitrous oxide)
• C02 concentration increased by 40% since pre-industrial time. The ocean absorbed about 30% of this increase, causing ocean acidification.
• Also methane (150% increase) and nitrous oxide (20%).
center for energy studies
CO2 Concentrations in the Past 1000 Years
390
360
330
C02/ppmv
300
Mauna Loa atmospheric
Law Dome {Ethendge el al.. 1996)
Siple(Fnedli et al., 1986)
EPICA DML (Siegenlhaler et al., 2005)
S. Pole (Siegenlhaler et al.. 2005)
270
240
1000 1200
Graph court My o* Ere Wtffl at BAS
1400
1600
1800
Age ( year B.C.E.)
CENTER FOR ENERGY STUDIES
3) We are responsible for the increase in CO
•Human C02 emissions (20 billion tonnes/y) are small compared to natural emission (776 billion tonnes/y).
•But natural absorptions (788 billion tonnes/y) roughly balance natural emisssions.
• Carbon 12 isotope to carbon 13 isotope ratio increases (isotope = different atoms with the same chemical behavior but with different masses).
CENTER FOR ENERGY STUDIES
Global carbon cycle. Numbers represent reservoir mass (carbon stocks) and annual carbon exchange fluxes. Black numbers and arrows indicate reservoir mass and Exchange fluxes estimated for the time prior to the
Industrial Era (about 1750). Red indicate annual antrhropogenic mixes averaged over the 2000-2009. CENTER FOR
ENERGY STUDIES
4) Increased C02 is the primary driver of greenhouse effect
• Inbound solar radiation has short wavelenghts and high energy contents. This radiation passes through the atmosphere. Some energy is absorbed by the ground (warming it up). Some energy is reflected back to the space.
• That reflected radiation has lower energy levels and longer wavelengths. 80% of the outgoing radiation is trapped in the lower troposphere.
• Energy trapped in the troposphere warns the surface.
• More GHGs in the atmosphere trap more outbound solar radiation, thus warming the planet — anthropogenic climate change.
CENTER FOR ENERGY STUDIES
Sunlight passes through the atmosphere and warms the Earth's surface. This heat is radiated back toward space.
Most of the outgoing heat is absorbed by greenhouse gas molecules and re-emitted in all directions, warming the surface of the Earth and the lower atmosphere.
CENTER FOR ENERGY STUDIES
4) Increased C02 is the primary driver of greenhouse effect
• C02 traps infrared radiation (thermal radiation). Proven by laboratory experiments and satellites (satelit data from 1970; direct experimental evidence) that find less heat escaping out to space over the las few decades.
CENTER FOR ENERGY STUDIES
Climate change controversy
• Positive/negative feedbacks — examining different period throughout Earth's history shows that feedbacks amplify or diminish any initial warming.
• Positive feedback
• Warming keeps more water in the air and more wapour traps more heat
• Warming releases carbon (methane) in the arctic — from thawing permafrost. Or from hydrates (water ice containing methane in its structure).
• Drying rainforest, forest fires. Desertification.
• Albedo feedback.
• Negative feedback
• More water vapour causes more clauds, reflecting sunlight.
• Increase in the overal amount of greenery — increased plants photosynthesis
CENTER FOR ENERGY STUDIES
Summary
• Earth's climate has undergone changes over long periods of time (several ice ages, period of warming).
• Previous changes were dramatic but gradual (thousands of years).
• Today's change is extremely fast and the pace is increasing. Until 250 years ago the highest rate of temperature increase recorded was approximately 0,003°C/y For the last ten years, it is 0,017°C
• Global warming vs. climate change. The first suggests that Earth's climate is warming on average, but it is not fully true. Factors such as precipitation and evaporation are also changing. And these changes often affect climate patterns elsewhere in the world.
CENTER FOR ENERGY STUDIES
Summary
• There is scientific consensus on
• correlation between the concentration of C02 and temperature.
• that humans release anthropogenic compounds into the environment, resulting in previously unseen rises in atmospheric gas concentrations and temperature.
• There is continuous debate on
• the proportion of changes caused by this anthropogenic compound vs. other causes.
CENTER FOR ENERGY STUDIES
Indicators of a Warming World
^^^^^^^^^^^
Parmesan & Yohe 2003J2, NOAA
CENTER FOR ENERGY STUDIES
Recent trends in C02 emission - energy perspective
• Steady level of C02 (280 ppm) in the pre-industrial era; in 2013 396 ppm (40% higher than in the mid-1800s). Average growth of 2 ppm/y
• Significant increases in levels of methane and nitrous oxide.
• The use of energy represents by far the largest source of emissions.
CENTER FOR ENERGY STUDIES
Estimated shares of global anthropogenic GHG
* Others include large-scale biomass burning, post-burn decay, peat decay, indirect NaO emissions from non-agricultural emissions of NO. and NHj, Waste, and Solvent Use
CENTER FOR ENERGY STUDIES
Recent trends in C02 emission - energy perspective
• Fossil fuels account for most of the world energy supply (82% of the global energy supply in 2012).
• Since 1870, C02 emissions from fuel combustion have risen exponentially.
• Since the Industrial Revolution, annual C02 emissions from fuel combustion increased from near zero to almost 32 GtC02 in 2012.
CENTER FOR ENERGY STUDIES
Gtoe
14 1J 10
a
4
2
0
Figuro 2. World primary energy supply*
			16%	
				
				
				
	86%			
				
				
1971 2014 ■ Fossil   □ Nun fossil
Figure 3. Trend in C02 emissions from fossil fuel combustion
' World primary energy supply Includes International bunkers. In this graph, non-renewable waste Is Included In Fossil.
Source: Carton Dioxide Information Analysis Center, Oak Ridge National Laboratory, US Department of Energy, Oak Ridge, Tenn.. United Stales.
CENTER FOR ENERGY STUDIES
Recent trends in C02 emission - energy perspective
• In the last decade the coal have replaced oil as the largest source of C02 emissions.
•The top 10 emitting countries account for 2/3 of global C02 emissions.
CENTER FOR ENERGY STUDIES
Top 10 emitting countries in 2012
China
United States
Russian Federation
Canada
Islamic Republic of Iran
Saudi Arabia
CENTER FOR ENERGY STUDIES
Figure 7. Fuel shares in global C02 emissions
60%
50%
40%
30%
20%
10%
1971
19B0
1990
2000
2014
Coal
Oil
Gas
CENTER FOR ENERGY STUDIES
Recent trends in C02 emission
• Emissions per capita generally decrease in time accross regions.
• All top five emitters reduced emissions per unit of GDP, while emissions per capita showed contrasting trends.
CENTER FOR ENERGY STUDIES
Figure 15. Trends in COs emission intensities for the top five emitting countries*
■ The size of the circle fepresenls ihe total CO; emissions from the country In lhal year.
CENTER FOR ENERGY STUDIES
Summary
• Economic growth strongly linked to consumption of fossil fuels.
• Substitution of fossil fuels is essential but extremely difficult.
CENTER FOR ENERGY STUDIES
Sources
• IEA: C02 Emission from Fuel Combustion
• IPCC: Climate Change 2013: The Physical Science Basic
CENTER FOR ENERGY STUDIES