Greenhouse Gases, Cosmic Rays and Mathematical Models What Science Really Tells Us About Climate Change Dr. Terry Flower, ICCC9, July 2014

Greenhouse Gases, Cosmic Rays and Mathematical

Models

What Science Really Tells Us About Climate Change

Dr. Terry Flower, ICCC9, July 2014

What I will tell you

• What Science is capable of telling us


• What Science is capable of telling us• Greenhouse Gases


• What Science is capable of telling us• Greenhouse Gases• Cosmic Rays and the Sun


• What Science is capable of telling us• Greenhouse Gases• Cosmic Rays and the Sun• Mathematical Modeling


• What Science is capable of telling us• Greenhouse Gases• Cosmic Rays and the Sun• Mathematical Modeling• What I predict will be the future trend

Science has been successful

• We got to the moon


• We got to the moon• We’ve made medical advances


• We got to the moon• We’ve made medical advances• Look at computers


• We got to the moon• We’ve made medical advances• Look at computers• The digital age


• We got to the moon• We’ve made medical advances• Look at computers• The digital age• Hubble Space Telescope


• We got to the moon• We’ve made medical advances• Look at computers• The digital age• Hubble Space Telescope• Missions to the Solar System

Science vs. Pseudo-Science

TV Commercials make connections between science and their product

Department Names at Universities

• Mathematical Science• Family, Consumer and Nutrition Science• Exercise Science• Social Science• Political Science

The Structure of Scientific RevolutionsThomas Kuhn, 1962

• How Science is done• Scientists perform experiments to reenforce

the existing “Paradigm”• Existing “Paradigm” leads to crisis• New “Paradigm” • Vast differences between political and

scientific revolutions but both have a common metaphor

Parallelism in Science and Politics

• Both cease to meet needs of (at least) a segment of both communities that they themselves created

• The sense of malfunction leads to crisis• Choice of a paradigm cannot be settled by

logic and experiment alone – it depends on what works rather than truth itself

Water Vapor - the Main Greenhouse Gas

• Eric Fetzer, an atmospheric scientist who works with AIRS data at NASA's Jet Propulsion Laboratory in Pasadena, Calif. "Water vapor is the big player in the atmosphere as far as climate is concerned.“

• If we don’t understand water vapor contributions we don’t understand the climate.

Clouds are not well understood

Clouds

• Cover 65% of the Earth, on the average• Can have a net cooling effect of 30 W/m2

• Anthropogenic sources are 1.6 W/m2 total • Need to include cooling effect of clouds

Solar Activity and Climate Connection

Inactive sun (low sunspot peak, long cycle length) > cold climate

Active sun (high sunspot peak, short cycle length) > warm climate

Solar magnetic field deflects galactic cosmic rays.

• Lower B field → increased GCR → increased monsoon intensity

• Henrik Svensmark – The Chilling Stars an explanation of the physical mechanism, not yet confirmed

Cloud – GCR Effects• Original GCR-cloud correlation made by Svensmark & Friis-Christensen, 1997• Many studies since then supporting or disputing solar/GCR - cloud correlation• Not independent - most use the same ISCCP satellite cloud dataset• No firm conclusion yet - requires more data - but, if there is an effect, it is likelyto be restricted to certain regions of globe and at certain altitudes & conditions• •Eg. correlation (>90% sig.) of low cloud amount and solar UV/GCR,1984-2004:

• Aerosol chamber +state-of-the-artanalyzing instrumentsin CERN PS beamline• Laboratory expts. underprecisely controlledconditions (T, tracegases, aerosols, ions)• Study aerosolnucleation & growth;and cloud droplet & iceparticle microphysics

Orbiting Carbon Observatory Launched July 2

Satellites in “A-Train”

• Orbiting Carbon Observatory-2 (OCO-2), which launched July 2, will be the A-Train's sixth member. Its mission is to measure atmospheric carbon dioxide

• Information on aerosols and clouds from CALIPSO and CloudSat, we can use that information to estimate the amount of absorption of sunlight by these airborne particles, which is something we cannot currently do,

• MODIS (Moderate Resolution Imaging Spectroradiometer), an instrument on the Aqua satellite, tracks cloud cover. AIRS (Atmospheric Infrared Sounder), another Aqua instrument, measures air temperature and the amount of water content in the atmosphere. To accurately measure carbon dioxide

Poincare’ (1854-1912)

• New Methods of Celestial Mechanics, 1892

Poincare’ (1854-1912)

• New Methods of Celestial Mechanics, 1892• Nonlinear dynamical equations are subject to

Poincare’ (1854-1912)

• New Methods of Celestial Mechanics, 1892• Nonlinear dynamical equations are subject to• Sensitivity to initial conditions

Poincare’ (1854-1912)

• New Methods of Celestial Mechanics, 1892• Nonlinear dynamical equations are subject to• Sensitivity to initial conditions• Unpredictably chaotic outcomes

Ocean Levels

Summary and Forecast• Climate has continually varied in the past, and the causes are not

well understood - especially on the 100 year timescale relevant for today’s climate change



• Space satellites will show water vapor’s dominant role as a greenhouse gas




• Strong evidence for solar-climate variability, but no established mechanism. A cosmic ray influence on clouds is a leading candidate. Research will confirm this mechanism in a controlled laboratory experiment; satellites can help our understanding





• The question of whether - and to what extent - the climate is influenced by solar/cosmic ray variability remains central to our understanding of anthropogenic climate change





• The question of whether - and to what extent - the climate is influenced by solar/cosmic ray variability remains central to our understanding of anthropogenic climate change

• Crisis of conformity; Political Correctness will continue to be problematic

Documents

Greenhouse Gases, Cosmic Rays and Mathematical Models What Science Really Tells Us About Climate Change Dr. Terry Flower, ICCC9, July 2014