The science of climate change

Barry Lefer

University of Houston Department of Earth and Atmospheric Sciences

28 August 2013

UH Law Center

ANTCI, 2005

The science of climate change

ANTCI, 2005

I. Basics of Earth System Science

II. Climate change on geologic and historical time scales

III. Natural and anthropogenic causes of climate change

IV. Consequences of future climate change

All climate scientists agree that:

1) Earth’s average surface temperature has warmed by 0.7°C

since 1900, a conclusion based on direct measurements.

2) concentrations of CO2, CH4, N2O, and other greenhouse

gases have built up in the atmosphere over the last 100

years due to human activities.

The issue at the heart of the greenhouse debate is not whether

rising greenhouse gas levels have contributed to the

warming, but rather the magnitude of the amplification of

the warming by various feedbacks.

Climate change debate

Lefer 3 – i. basics

Climate vs. weather

Weather Climate

Shorter-term fluctuations Longer-Term Changes

Current atmospheric conditions Broad composite of average (or mean)

(e.g., temp, press, ws, wdir, condition of a region (e.g., temp, rain,

rainfall, etc.) snowfall, ice cover, winds)

Hours, Days, Weeks Years (and longer), Typically 30 yr ave.

Specific location for specific time Mean state of a specific region

(e.g., continent, ocean, or entire planet)

Lefer 4 – i. basics

What is a greenhouse gas?

globalwarmingart.com Lefer 5 – i. basics

Greenhouse gas warming

Earth’s Ave. Temperature = 15ºC

Natural GH Effect = 31ºC Warming

Ruddiman, 2008 Lefer 6 – i. basics

Greenhouse gas warming

Dessler, 2012 Lefer 6 – i. basics

 

Tone _ layer =476

5.67 ´10-84 = 302.7K

 

P

a= sT 4 = 476W m2 = Eout

Greenhouse gas warming

Lefer 6 – i. basics Dessler, 2012

 

Tone _ layer =714

5.67 ´10-84 = 335K = 62 Ctwo_layers

Some basic “reactions”

C6H12O6 + O2 → CO2 + H2O + heat

H2O + CO2 + sunlight → C6H12O6+ O2

C6H12O6 + O2 → CO2 + H2O + heat + NO + SO2

NO → NO2 → HNO3

SO2 → H2SO4 → sulfate aerosol

NOX + VOCs + sunlight → O3

CO2 + H2O = HCO3- + H2CO3

Lefer 7 – i. basics

Where does atmospheric CO2 go?

Ruddiman, 2008 Lefer 8 – i. basics

Geochemical reservoir and fluxes

At Steady-State Input = Output

Residence time = Reservoir size / Flux rate in (or out)

Ruddiman, 2008

Global Carbon Cycle

Lefer 10b – i. basics GLOBE, 2007

8.3 Pg C

2011

How long is CO2 in the atmosphere?

http://www.globalwarmingart.com/images/4/48/Carbon_Dioxide_Residence_Time.png Lefer 9 – i. basics

CO2 lifetime in the atm-ocean system

http://www.globalwarmingart.com/images/4/48/Carbon_Dioxide_Residence_Time.png Lefer 10 – i. basics

Climate system response

Ruddiman, 2008 Lefer 11 – i. basics

Response times of climate system components

Ruddiman, 2008 Lefer 12 – i. basics

Ruddiman, 2008 Lefer 13 – i. basics

Albedo-temperature feedback

Source: NASA Lefer 14 – i. basics

Albedo-temperature feedback

Albedo-temperature feedback

Source: NASA Lefer 15 – i. basics

Another positive feedback

Ruddiman, 2008 Lefer 16 – i. basics

Positive and negative feedbacks

Ruddiman, 2008 Lefer 17 – i. basics

Time scales of climate change

Ruddiman, 2008 Lefer 18 – ii. past climates

Ocean sediment core record

GlobalWarming Art (t), Ruddiman, 2008 (b) Lefer 19 – ii. past climates

Coring Earth’s ice sheets

Lefer 20 – ii. past climates Twickler – GISP2 SMO (1994)

Bubbles trapped in ice core

EPICA (2004) Lefer 20 – ii. past climates

Ice core proxy T, CO2, dust record

GlobalWarmingArt.com Lefer 21 – ii. past climates

Atmospheric CO2 measurement record

Lefer 23 – iii. natural & anthro cc

Anthropogenic CO2

Ruddiman, 2008 Lefer 24 – iii. natural & anthro cc

GlobalWarmingArt Lefer 25 – iii. natural & anthro cc

Anthropogenic CO2

Global Temperature Anomaly

Lefer 26 – iii. natural & anthro cc NASA GISS

Global Temperature Anomaly

Lefer 26 – iii. natural & anthro cc NASA GISS

Lefer 27 – iii. natural & anthro cc NASA GISS

Lefer 28 – iii. natural & anthro cc NASA GISS

Global Temperature Anomaly - April 2013

Volcanic cooling and El Niño warming

Ruddiman, 2001 Lefer 29 – iii. natural & anthro cc

Natural warming and greenhouse effects

Ruddiman, 2008 Lefer 31 – iii. natural & anthro cc

Modeling climate change attribution

Lefer 32 – iii. natural & anthro cc http://www.globalwarmingart.com/

Lefer 33 – iii. natural & anthro cc

Natural temperature changes

(<0.07 ˚ C)

Ruddiman, 2008

Natural interannual variability

Lefer 34 – iii. natural & anthro cc Science, 2010

Apple Stock Price – June 2013

Lefer 34 – iii. natural & anthro cc NASADAQ, 2013

Apple Stock Price – today

Lefer 34 – iii. natural & anthro cc NASDAQ, 2013

Apple Stock Price – Past Year

Lefer 34 – iii. natural & anthro cc NASDAQ, 2013

Apple Stock Price ~ 30 years

Lefer 34 – iii. natural & anthro cc NASDAQ, 2013

150 0.0450.012 100 0.0740.018

50 0.1280.026

25 0.1770.052 Period Rate

Years /decade

Kevin Trenberth, 2008

Rate of global temperature rise

Lefer 35 – iv. future cc

Radiative forcing of recent warming

Ruddiman, 2008 Lefer 36

Ruddiman, 2008 Lefer 37 – iv. future cc

Response to abrupt CO2 and SO2 emissions?

Ruddiman, 2008 Lefer 38 – iv. future cc

Response to abrupt CO2 and SO2 emissions?

Response to abrupt CO2 and SO2 emissions?

Ruddiman, 2008 Lefer 39 – iv. future cc

A future global temperature forecast

Science, 2010 Lefer 40 – iv. future cc

http://www.globalwarmingart.com/ Lefer 41 – iv. future cc

Another future global temperature forecast

Projected impacts of climate change

IPCC, 2007 Lefer42 – iv. future cc

Questions? Thank you.

Beals, 2008 Barry Lefer University of Houston

Department of Earth and Atmospheric Sciences blefer@uh.edu