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BRIEF OF AMICI CURIAE:
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CASE NOS. C-17-06011 and C-17-06012
BRIEF OF AMICI CURIAE THE VISCOUNT
MONCKTON, ET AL.
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PETER J. FERRARA
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SENIOR FELLOW FOR LEGAL AFFAIRS
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THE HEARTLAND INSTITUTE
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3939 NORTH WILKE ROAD
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ARLINGTON HEIGHTS, ILL 60004
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TELEPHONE: (703) 546-6814
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FACSIMILE: (312) 275-7942
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EMAIL: peterjferrara@yahoo.com
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Attorneys for Amici Curiae
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The Viscount Monckton of Brenchley, et al.
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UNITED STATES DISTRICT COURT
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NORTHERN DISTRICT OF CALIFORNIA
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SAN FRANCISCO DIVISION
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THE PEOPLE OF THE
STATE OF CALIFORNIA
Plaintiff,
v.
BP P.L.C., et al.
Defendants.
Case Nos. C-17-06011 WHA
and C-17-06012 WHA
Date: March 21, 2018
Time: 8:00 AM
Judge: Hon. William Alsup
Location: Courtroom 8 on 19th Floor
BRIEF OF AMICI CURIAE:
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(1) THE VISCOUNT MONCKTON OF BRENCHLEY,
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(2) DR WILLIE WEI-HOCK SOON, (3) PROFESSOR DAVID LEGATES,
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(4) DR WILLIAM M. BRIGGS, (5) DIPL.-ING. MICHAEL LIMBURG,
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(6) DR DIETRICH JESCHKE, (7) MR ALEX HENNEY,
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(8) MR JOHN WHITFIELD, AND (9) MR JAMES MORRISON
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JAMES M. BRADEN (California State Bar # 102397)
LAW OFFICES OF JAMES M. BRADEN
44 MONTGOMERY STREET, SUITE 1210
SAN FRANCISCO, CA 94104
TELEPHONE: (415) 398-6865
FACSIMILE: (415) 788-5605
EMAIL:
braden@sf-lawyer.com
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CASE NOS. C-17-06011 and C-17-06012
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1
TABLE OF CONTENTS
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Page Chapter
1 Cover page (green)
2 Table of contents
3 Citations from scientific authorities 1
5 Interest of amici curiae
6 INTRODUCTION AND SUMMARY OF ARGUMENT
7 ARGUMENT
7
A: The “consensus” about global warming is . %, not . %
10
B: Erroneously, equilibrium sensitivity has been overstated threefold
11
First and second methods of deriving Charney sensitivity
12
Definitions
13
Equations
14
Elenchus
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Argument 1
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Argument 2
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A visible contradiction
15
The underlying contradiction
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Third method of deriving Charney sensitivity
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Fourth method of deriving Charney sensitivity
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Fifth method of deriving Charney sensitivity
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Verification by laboratory experiments
19 Uncertainties
21
Significance of coherence in scientific results
22 CONCLUSION
1 The present brief addresses two scientific results. The amici curiae, therefore, do not cite legal precedents.
An alphabetical list of scientific authorities cited herein is offered. Copies of any of these authorities will
be provided upon request. The First Amicus will attend in person if asked. The amici curiae stand ready to
provide answers not only to the eighth scientific question raised in the Court’s Order of March 6, 2018,
which they have answered herein, but also to the other questions therein: but they have anticipated that
parties will answer those questions.
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CASE NOS. C-17-06011 and C-17-06012
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CITATIONS FROM SCIENTIFIC AUTHORITIES
1
Andrews, T., J.M. Gregory, M.J. Webb and K.E. Taylor, 2012: Forcing, feedbacks and climate
2
sensitivity in CMIP5 coupled atmosphere-ocean climate models. Geophysical Research
3
Letters 39, L09712, doi:10.1029/2012GL051607.
4
Arrhenius, S., 1896: On the influence of carbonic acid in the air upon the temperature of the ground,
5
Philosophical Magazine & Journal of Science 5:41, 237–276.
6
Bates, J.R., 2016: Estimating climate sensitivity using two-zone energy-balance models. Earth &
7
Space Science 3, 207–225, doi:10.1002/2015EA000154.
8
Bedford, D., and Cook, J., 2013: Agnotology, scientific consensus, and the teaching and learning
9
of climate change: a response to Legates, Soon and Briggs. Science & Education,
10
https://doi.org/10.1007/s11191-013-9608-3.
11
Black, H.S., 1934: Stabilized feedback amplifiers. The Bell System Technical Journal, January, pp.
12
1 ff.
13
Bode, H.W., 1945: Network Analysis and Feedback Amplifier Design. Van Nostrand Reinhold,
14
New York, 551 pp.
15
Bony, S., et al., 2006: How well do we understand and evaluate climate change feedback
16
processes? Journal of Climate 19, 3445–3482, https://doi.org/10.1175/JCLI3819.1.
17
Cook, J., et al., 2013: Quantifying the consensus on anthropogenic global warming in the scientific
18
literature. Environmental Research Letters 8, 024024.
19
Hansen, J., D. Johnson, A. Lacis, S. Lebedeff, P. Lee, D. Rind and G. Russell, 1981: Climate impact
20
of increasing atmospheric carbon dioxide. Science 213:4511, 957–966.
21
IPCC, 1990: Climate change – The IPCC Assessment (1990): Report prepared for the
22
Intergovernmental Panel on Climate change by Working Group I. In: Houghton, J.T., et al.,
23
(eds.), Cambridge University Press, Cambridge.
24
IPCC, 2007: Climate Change 2007: The physical science basis. Contribution of Working Group I
25
to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change. In:
26
Solomon, S., et al., (eds.), Cambridge University Press, Cambridge.
27
IPCC, 2013: Climate change 2013: The physical science basis. Contribution of Working Group I
28
to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. In:
29
Stocker, T.F., and Coauthors (eds.), Cambridge University Press, Cambridge.
30
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ISCCP, 2016: Cloud analysis (part I): Climatology of global cloud and surface properties,
1
http://isccp.giss.nasa.gov/climanal1.html, accessed February 17, 2018.
2
Lacis, A.A., et al., 2013: The role of long-lived greenhouse gases as the principal long-wave
3
control knob that governs the global surface temperature for past and future climate change.
4
Tellus B 65:19734, https://doi.org/10.3402/tellusb.v65i0.19734.
5
Legates, D.R., et al., 2013: Climate Consensus and ‘Misinformation’: A Rejoinder to “Agnotology,
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Scientific Consensus, and the Teaching and Learning of Climate Change”, Science &
7
Education, DOI:10.1007/s11191-013-9647-9.
8
Loeb, G.N., B.A. Wielicki, D.R. Dölling, G.L. Smith, D.F. Keyes, S. Kato, N. Manalo-Smith and
9
T. Wong, 2009: Toward optimal closure of the Earth’s top-of-atmosphere radiation budget,
10
Journal of Climate 22, 748–766, doi:10.1175/2008JCLI2637.1.
11
Morice, C.P., et al., 2012: Quantifying uncertainties in global and regional temperature change
12
using an ensemble of observational estimates: The HadCRUT4 dataset. Journal of
13
Geophysical Research 117: D08101, http://www.metoffice.gov.uk/hadobs/hadcrut4/data/
14
current/time_series/HadCRUT.4.5.0.0.monthly_ns_avg.txt, accessed February 10, 2018.
15
Popper, Karl. 1934. Logik der Forschung: zur Erkenntnistheorie der modernen Naturwissenschaft.
16
Verlag von Julius Springer, Wien, Österreich. Published in English as The Logic of
17
Scientific Discovery. Hutchinson, London, 1959
18
Roe, G., 2009: Feedbacks, timescales, and seeing red. Annual Review of Earth and Planetary
19
Sciences 37, 93–115.
20
Schlesinger, M.E., 1985: Feedback analysis of results from energy balance and radiative-
21
convective models. In: The potential climatic effects of increasing carbon dioxide,
22
MacCracken, M.C. and F. M. Luther (eds,), U.S. Department of Energy, Washington D.C.,
23
280–319.
24
Schmidt, G.A., R.A. Ruedy, R.L. Miller and A.A. Lacis, 2010: Attribution of the present-day total
25
greenhouse effect. Journal of Geophysical Research (Atmospheres) 115: D20106,
26
https://doi.org/10.1029/2010JD014287.
27
UAH (2018) University of Alabama at Huntsville satellite microwave sounding unit monthly
28
global mean temperature anomaly dataset for the Earth’s lower troposphere.
29
http://www.nsstc.uah.edu/data/msu/v6.0/tlt/uahncdc_lt_6.0.txt. Accessed February 10,
30
2018.
31
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WMO, 2018: Focus areas (Environment): Greenhouse gases, https://public.wmo.int/en/our-
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mandate/focus-areas/environment/green-house%20gases, accessed January 22, 2018.
2
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INTEREST OF AMICI CURIAE
1
1. The amici curiae are an international team of scientific researchers concerned that scientific
2
questions should be answered scientifically, rationally, dispassionately and logically. They have
3
been investigating climate change for up to 12 years, and have intensively studied the question
4
how much global warming we may cause (the “climate sensitivity” question). Their purpose in
5
submitting the present brief is address the eighth question put to parties by the Court in an Order
6
of March 6, 2018 for a tutorial hearing on climate science to be held on March 21, 2018. Amici
7
will answer the question by providing and justifying two material scientific results not contained
8
in the parties’ briefs. The Court’s eighth question was:
9
What are the main sources of heat that account for the incremental rise in
10
temperature on Earth?
11
2. Christopher Monckton of Brenchley, author of some two dozen peer-reviewed papers and
12
book chapters on climate sensitivity and mitigation economics, is a Master in Classical
13
Architecture in the University of Cambridge, where inter alia he studied the philosophy of science,
14
logic and applied mathematics; Dr Willie Soon is an award-winning astrophysicist of a quarter of
15
a century’s standing at the Harvard-Smithsonian Center for Astrophysics (here speaking for
16
himself only), who has written numerous peer-reviewed papers on the Sun’s influence on
17
terrestrial climate; Dr David Legates is Professor of Climatology in the University of Delaware
18
and a former Delaware State Climatologist; Dr William M. Briggs is a statistician and emeritus
19
professor in the Weill Cornell School of Medicine at Cornell University; Dipl.-Ing. Michael
20
Limburg is an electronics engineer with practical knowledge of control theory, the study of
21
feedback in dynamical systems; Dr Dietrich Jeschke is a lecturer in applied control theory in the
22
University of Applied Sciences, Flensburg, Germany; Mr Alex Henney is a specialist in the
23
electricity supply industry who has advised on electricity markets and regulation in the United
24
States and other countries; Mr John Whitfield is an electronics engineer who built a test circuit
25
to verify the present result, on the basis of which a new circuit was designed and a government
26
laboratory was commissioned to build and run it; and Mr James Morrison is an undergraduate in
27
Environmental Sciences at the University of East Anglia.
28
3. All of the amici curiae act solely ex proprio motu, hold no shares or other proprietary interests
29
in any of the Parties’ or their competitors’ corporations or undertakings, and have neither received
30
nor offered nor been offered any payment for preparing or submitting their brief. Some have, in
31
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the past, received research grants or expenses from coal-owning interests, though most have never
1
received such grants or expenses and none have done so for some years.
2
3
INTRODUCTION AND SUMMARY OF THE ARGUMENT
4
4. Methods: The amici curiae present herein two scientific results not mentioned in the parties’
5
briefs but directly and decisively relevant to the determination not only of these but of all suchlike
6
proceedings. The first result has been peer-reviewed and published; the second is currently under
7
peer review. The underlying science is simple enough to allow the Court, which has earned a
8
unique and commendable reputation for diligent mastery of scientific questions, to understand the
9
argument and to verify its soundness. To assist the Court and to vitiate any allegation of prejudice
10
on the part of its amici, they will state explicitly whether each premise is regarded as mainstream
11
climate science, in which event they will provide mainstream citations from peer-reviewed learned
12
journals.
13
5. First result: The amici curiae will demonstrate that there is no “consensus” among scientists
14
that recent global warming was chiefly anthropogenic, still less that unmitigated anthropogenic
15
warming has been or will be dangerous or catastrophic. The “consensus” proposition, as defined
16
by the Intergovernmental Panel on Climate Change (IPCC), states no more than that most of the
17
global warming observed since 1950 was anthropogenic. That proposition does not necessarily
18
entail the conclusion that global warming has been or will be net-harmful. In 2013, a paper was
19
published falsely asserting that some 97.1% of 11,944 peer-reviewed papers on climate and
20
related topics published in the learned journals during the 21 years 1991-2011 had explicitly stated
21
in their abstracts that recent global warming was chiefly anthropogenic. That paper received
22
worldwide publicity. However, its authors did not ask whether the 11,944 papers had stated that
23
unmitigated global warming might prove catastrophic. It will be shown that on careful examination
24
of the list of all 11,944 papers only 43, or 0.3%, had in reality stated their assent even to the
25
anodyne proposition that recent warming was chiefly anthropogenic. In any event, argument from
26
“consensus” is a logical fallacy. Thus, there is no agreement among relevant experts on the fraction
27
of observed warming since 1950 that was anthropogenic, and, therefore, no such agreement on the
28
answer to the Court’s eighth question.
29
6. Second result: The amici curiae will demonstrate that, even if it be assumed ad argumentum
30
that all of the 0.8 Kelvin global warming since anthropogenic influence first became potentially
31
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significant in 1950 was attributable to us, in the present century little more than 1.2 K of global
1
warming is to be expected, not the 3.3 K that the Intergovernmental Panel on Climate Change
2
(IPCC) had predicted. It will be demonstrated that the current models greatly overstate the
3
feedback response to direct warming, owing to a long-standing error of physics recently discovered
4
by the amici curiae, the decades-old official predictions that upon the restoration of thermal
5
equilibrium in the climate system following a doubling of the atmospheric concentration of carbon
6
dioxide there will have occurred a global surface warming of 3.3 ± 1.2 K, are excessive.
7
Accordingly the extreme predictions of 4.5 K to 11 K on which national and international policies
8
and plaintiff’s case have been predicated are excessive a fortiori; global warming will be small,
9
slow and net-beneficial; and plaintiff’s case must fall.
10
7. Verification: By several methods whose results cohere, the amici curiae determined and
11
verified that the mid-range estimate of global warming per doubling of atmospheric carbon dioxide
12
(approximately equivalent to expected 21st-century warming from all anthropogenic sources) will
13
not be 3.3 ± 1.2 K but only 1.2 ± 0.15 K If these results be correct, concern about global warming
14
is unnecessary, whereupon not only must plaintiff’s case fail but defendants’ public assertions that
15
global warming is a serious problem are also unjustifiable.
16
8. Respectful submission: The amici curiae, therefore, respectfully submit that, in the light of
17
these results, which are directly relevant to the issue before the Court, plaintiff’s claims should be
18
dismissed and defendants, having based their public expressions of concern about global warming
19
on the same error as plaintiff, should meet their own costs in the cause.
20
21
ARGUMENT
22
A. First result: The global-warming “consensus” proposition says nothing of
23
impending “catastrophe” and only . % of scientists, not %, assent to it.
24
9. The official answer to the Court’s eighth question, asking about the causes of the 0.8 K global
25
warming since our influence first became potentially significant in 1950, is given e.g. in the Fifth
26
Assessment Report (2013, p. 17) of the IPCC:
27
It is extremely likely that more than half of the observed increase in global average
28
surface temperature from 1951 to 2010 was caused by the anthropogenic increase
29
in greenhouse gas concentrations and other anthropogenic forcings together. The
30
best estimate of the human-induced contribution to warming is similar to the
31
observed warming over this period.
32
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10. Such statements encapsulate the official definition of the “consensus” proposition. In any
1
event, nothing in that proposition necessarily entails the conclusion that unmitigated anthropogenic
2
global warming will be dangerous, still less that it will be catastrophic.
3
11. Cook et al. (2013), after a subjective review of the abstracts of 11,944 papers on climate
4
change which matched the topics “global climate change” or “global warming”, concluded that
5
97.1% of those that expressed an opinion endorsed IPCC’s definition. However, two-thirds of the
6
abstracts had expressed no position. Thus, 32.6% of the entire sample, or 97.1% of the 33.6%
7
that had expressed an opinion, were said to be in agreement with the standard definition. This
8
assertion of a 97% “consensus” attracted considerable worldwide publicity. Numerous
9
commentators have repeated the 97% figure.
10
12. In some respects, Cook (op. cit.) had adopted a reasonable approach: for, unlike others
11
purporting to demonstrate a scientific “consensus” about global warming, they had based their
12
results on reading papers that had been peer-reviewed, rather than conducting a sort of opinion
13
poll among scientists whose opinions as expressed in such polls had not been subjected to the
14
rigors of peer review. Also, unlike other authors, Cook et al. had selected a sample that was
15
sufficient to allow statistically respectable conclusions to be drawn. However, they had not
16
appreciated the logical fallacy (argumentum ad populum) of doing science by mere head-count,
17
even if those heads were learned (argumentum ad verecundiam) and their opinions had been peer-
18
reviewed. Worse, Cook et al. misreported and materially misrepresented their own results.
19
13. Legates et al. (2013) obtained a copy of the data-file in which Cook et al. had listed the names
20
and authors of all 11,944 papers and the rankings they had assigned to each of the papers, and
21
performed two independent tests on the file. First, they used the search facility in Microsoft Word
22
to identify every paper for which the data string in the comma-delimited text file ended with “,1”,
23
by which Cook et al. had signified their view that that paper had supported the first of seven “levels
24
of endorsement” of the imagined “consensus”, namely “explicit, quantified endorsement” of the
25
“consensus” proposition. In this context, “quantified endorsement” meant that the paper had stated
26
that > 50% of the global warming of recent decades had been anthropogenic. The amici’s search,
27
conducted manually, showed that Cook et al. had themselves categorized and listed only 64
28
papers, or just 0.5% of the entire sample, as having explicitly and quantitatively endorsed the
29
standard definition of the “consensus” proposition.
30
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14. Legates et al., surprised by the very large discrepancy between the 97.1% “consensus” reported
1
by Cook et al. and what their search had found to be the 0.5% explicit and quantified endorsement
2
of the “consensus” proposition, wrote a computer program to read down the entire file, byte by
3
byte, this time searching for “,1” followed by a carriage return and a linefeed. This search
4
confirmed that Cook et al. had themselves recorded, in their own data file, that only 64 papers had
5
explicitly and quantitatively endorsed IPCC’s “consensus” proposition.
6
15. Legates et al. then read all 64 papers and discovered that only 41, or 0.3% of all 11,944
7
papers, had thus endorsed the “consensus” proposition. These results were peer-reviewed and
8
published but received negligible publicity. Cook and one of his co-authors (Bedford & Cook,
9
2013) published a reply saying:
10
The point being made by citing statistics about the existence and strength of the
11
scientific consensus on human induced climate change is to demonstrate that this
12
consensus is real and strong. (p. 6)
13
16. On five separate occasions, Bedford & Cook wrote of a near-unanimous (but actually non-
14
existent, as Cook’s own data file had shown) “consensus” among scientists that most of the global
15
warming of recent decades was anthropogenic:
16
➢ First, there is an overwhelming consensus within the scientific community on
17
several fundamental points regarding human-induced climate change (also known
18
as global warming: the Earth’s global average temperature is increasing, and human
19
emissions of greenhouse gases especially carbon dioxide, are the main cause. (p.
20
4)
21
… Is there a consensus within the scientific community on the basic science
22
of human-induced climate change? Here, as in Bedford (2010) and in most studies
23
on the scientific consensus on this issue, this basic science is defined as the findings
24
that greenhouse gas concentrations have been rising since the Industrial Revolution;
25
this has occurred largely, though not exclusively, due to the burning of fossil fuels,
26
and this increase in greenhouse gas concentrations is the main cause of an observed
27
increase in Earth’s global average temperature over the period of instrumental
28
record (generally since the mid-late 19th century). (p. 6)
29
Of the 4014 abstracts that expressed a position on the issue of human-
30
induced climate change, Cook et al. (2013) found that over 97% endorsed the view
31
that the Earth is warming up and human emissions of greenhouse gases are the
32
main cause. (p. 6)
33
… the widely agreed-upon basic points on the science of human-induced
34
climate change that we have emphasized throughout this response: carbon dioxide
35
is a greenhouse gas, its concentration in the atmosphere has risen dramatically since
36
the Industrial Revolution, and this has been the main cause of an increase in Earth’s
37
global average temperature, observed since the late 19th Century. (p. 14)
38
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Detailed examination of the peer-reviewed literature, as discussed earlier,
1
suggests that the overwhelming majority of published research supports the
2
scientific consensus that the Earth’s global average temperature is increasing,
3
mainly due to the increased concentration of greenhouse gases that has resulted
4
from human burning of fossil fuels since the Industrial Revolution (e.g. Cook et al.,
5
2013). (p. 18) [amici’s emphases]
6
17. All of the above assertions were false. From the research by Legates et al., in the peer-reviewed
7
journals it is evident there is little explicit support therein for the “consensus” proposition that
8
recent warming was chiefly anthropogenic.
9
18. The immediate answer to the Court’s eighth question, therefore, is that, however often or shrilly
10
it be asserted that such a “consensus” exists, the relative contributions of Man and Nature to the
11
0.8 K warming since 1950 have not been and cannot be determined in the present state of scientific
12
knowledge. For this reason the amici curiae, in their second and more important scientific result,
13
will cautiously assume ad argumentum, but without warranty, that all global warming since global
14
temperature records were first kept in 1850 has been anthropogenic.
15
B. Second result: After correction of a substantial error of physics discovered by the
16
amici curiae, the global warming to be expected this century, or upon doubling
17
the atmospheric concentration of carbon dioxide, will not be 3.3 ± 1.2 K but 1.2 ±
18
0.15 K.
19
19. Underlying the Court’s eighth question, concerning the apportionment of recent global
20
warming between Man and Nature, lies the question – central to the present case – of how much
21
global warming we may in future cause. The standard metric for estimations of future global
22
warming is “Charney sensitivity”, which is the equilibrium warming (after all feedbacks of sub-
23
decadal duration have acted) in response to doubled atmospheric carbon dioxide concentration.
24
IPCC (1990, p. xxiv) made the following prediction:
25
The numbers given below are based on high-resolution models, scaled to be
26
consistent with our best estimate of global mean warming of 1.8 K by 2030
27
[compared with pre-industrial temperature] … the numbers below should be
28
reduced by 30% for the low estimate or increased by 50% for the high estimate.
29
20. The least-squares linear-regression trend on the HadCRUT4 monthly global mean surface
30
temperature anomalies from January 1850 to December 1989 was 0.45 K. Thus, IPCC (1990) was
31
predicting a mid-range estimate of (1.8 − 0.45), or 1.35 K, of anthropogenic warming in the 41
32
years 1990 to 2030, equivalent to 1.35(100/41), or 3.3 K, over a century. Reduction by 30% and
33
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increase by 50% from this value give a range of 2.3 to 4.9 K for IPCC’s “business-as-usual”
1
prediction in 1990 assuming little or no mitigation of anthropogenic emissions.
2
21. The 21st-century anthropogenic warming from all causes is thought to be approximately
3
equivalent to Charney sensitivity. Sure enough, the fifth-generation (CMIP5) ensemble of the
4
atmosphere-ocean general-circulation models of the Climate Model Intercomparison Project
5
(Andrews 2012), the latest generation, predicts 3.3 [2.0,4.5] K warming in response to doubled
6
CO2 concentration, close to IPCC’s original prediction of 3.3 [2.3,4.9] K business-as-usual 21st-
7
century warming. Henceforth, for brevity, only the mid-range estimate 3.3 K will be considered.
8
22. The amici curiae derived a new mid-range estimate of Charney sensitivity by several methods.
9
The first method provides a formal demonstration of a significant error in the application of
10
feedback theory to climate. The additional methods cohere with and confirm the result. If the result
11
be correct, global warming will be small, slow, harmless and beneficial and plaintiff’s case must
12
fall.
13
14
FIRST AND SECOND METHODS
15
OF DERIVING CHARNEY SENSITIVITY
16
23. One of the most powerful techniques in logic is Socratic elenchus or formal argumentative
17
scrutiny. Elenchus tests the logical self-consistency of an argument by exposing any inherent
18
contradictions. The internal-consistency test is the first of four tests recommended by Karl Popper
19
in his 1934 masterwork Logik der Forschung (The Logic of Scientific Discovery). Popper held
20
that no scientific hypothesis was justifiable unless it had passed the four tests.
21
24. Socratic elenchus contrasts two formal arguments. In logic, an “argument” comprises at least
22
one declarative premise and a conclusion. If the premises entail the conclusion, the argument is
23
valid but the conclusion may or may not be true and the argument may or may not be sound. If the
24
premises entail the conclusion and are all true, the conclusion is necessarily true and the argument
25
is not only valid but also sound.
26
25. First, several premises (here in the form of definitions and equations) common to the two
27
arguments and likely to be agreed by all sides will be stated and referenced in unimpeachable,
28
mainstream sources. Thereupon the conclusions of two arguments, each incorporating the common
29
premises, will be presented. However, a striking contradiction between the conclusions of the two
30
arguments will appear, pointing to the presence of a deeper but less visible contradiction that will
31
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be seen to be the root cause of the long-standing and recently-identified error of physics without
1
which concern about global warming does not arise.
2
26. The definitions from mainstream sources, with relevant values also from mainstream sources,
3
are as follows.
4
DEFINITIONS
5
27. Terms that are underlined are defined in this list.
6
Albedo is the fraction of incident radiation reflected harmlessly back to outer space, chiefly from
7
cloud tops, ice or snow. Today’s albedo is 0.293 (Loeb 2006).
8
CO2 forcing Δ 0 = 3.5 Watts per square meter (W m−2) is the radiative forcing from doubled
9
CO2 concentration, diagnosed from the CMIP5 model ensemble (Andrews et al. 2012), where “Δ”
10
indicates a change in an underlying quantity, here incoming solar irradiance 0 = 241.2 W m−2
11
after allowing for albedo.
12
Emission temperature = 255 K, the global mean surface temperature that would obtain at the
13
Earth’s surface for a given albedo in the absence of any greenhouse gases or temperature
14
feedbacks, depends only upon the incoming solar irradiance and the albedo (Hansen et al. 1981,
15
Schlesinger 1985, IPCC 1990 p. xiv, Schmidt et al. 2010, WMO 2018).
16
Equilibrium temperature (or equilibrium temperature change Δ , also known as
17
equilibrium sensitivity) is the global mean surface temperature (or temperature change) when the
18
climate system has returned to equilibrium after accounting for both the reference temperature (or
19
temperature change) and the feedback response (IPCC, 2007, ch. 6.1).
20
Feedback fraction is the fraction of equilibrium temperature eq (or equilibrium temperature
21
change Δ eq) represented by the feedback response Δ (ref) (Roe 2009). Pre-industrial and
22
industrial-era feedback fractions are currently thought to be approximately identical (Lacis et al.
23
2010).
24
Feedback response Δ ( ), denominated in Kelvin, is equal to the product 0 of the total
25
temperature feedback and the Planck sensitivity parameter 0. It is the additional warming
26
arising from the presence of the temperature feedback (Roe 2009). Bracketed subscripts
27
distinguish feedback responses from the reference temperatures ref or reference sensitivitiws
28
Δ ref that induced them: for example, Δ ( ) is the feedback response to Δ .
29
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Industrial-era warming (= Δ + Δ ( )) from 1850-2011, the least-squares linear-
1
regression trend on the HadCRUT4 dataset, was 0.76 K (Morice et al. 2012, updated). It will be
2
assumed ad argumentum, but without warranty, that Δ is entirely anthropogenic.
3
Natural greenhouse effect Δ (= Δ + Δ ( ) = 8 + 24 = 32 K) is currently defined as the
4
difference between natural temperature (= 287 K) in 1850 and emission temperature (=
5
255 K). The presence of the naturally-occurring, non-condensing greenhouse gases (chiefly CO2
6
and CH4) causes a radiative forcing Δ 0 that directly drives the pre-industrial reference sensitivity
7
Δ = 8 K, about a quarter of Δ , while the remaining three-quarters, Δ ( ) = 24 K, is at present
8
considered to be the feedback response to Δ (Lacis et al., 2006).
9
Natural temperature in 1850, , was equal to − Δ = 288 − 0.8, or about 287 K.
10
Planck sensitivity parameter (= 0.3125 = 3.2−1 K W−1 m2
) (Roe 2009; IPCC 2007, p. 631
11
fn.), is the quantity by which a radiative forcing Δ 0 is multiplied to yield the reference sensitivity
12
to that forcing.
13
Radiative forcing Δ , denominated in W m
−2
, is a change in the net (down minus up) radiative
14
flux density 0 (= 241.2 W m−2
) at the tropopause (the top of the climatically-active region of
15
the atmosphere). Net industrial-era anthropogenic forcing Δ 0 from all sources from 1850-2011
16
was 2.29 W m
–2
(IPCC, 2013, table SPM.6).
17
Reference temperature (or reference temperature change Δ , also known as reference
18
sensitivity) is the global mean surface temperature (or temperature change) in response to a
19
radiative forcing Δ 0 before any feedback response induced by the reference temperature ref or
20
reference sensitivity Δ ref have been taken into account (Roe, 2009).
21
Surface temperature is today about 288 K (ISCCP, 2018).
22
Temperature feedback , denominated in W m−2 K−1
of the reference temperature ref or
23
reference sensitivity Δ ref that induced it, is a knock-on, additional radiative forcing. It is this
24
temperature feedback forcing that drives the feedback response Δ (ref). Typically, many
25
individual temperature feedbacks , summing to , operate in the climate system, some positive
26
(amplifying the reference temperature ref or reference sensitivity Δ ref) and others negative
27
(diminishing them) (Roe 2009, Bates 2016).
28
29
EQUATIONS
30
28. The following equations are from mainstream climatological sources.
31
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The zero-dimensional model equation, Eq. (1) (Roe 2009; IPCC 2007, p. 631 fn.; Bates 2016),
1
derives equilibrium temperature eq or equilibrium sensitivity Δ eq by applying the feedback
2
fraction to reference temperature ref or reference sensitivity Δ ref. Thus, the feedback response
3
Δ (ref) represents the entire difference between reference and equilibrium temperature or
4
sensitivity. Each term in Eqs. (1-2) is defined in the “Definitions” section above. Models do not
5
explicitly use Eqs. (1, 2), but they must necessarily reflect these control-theory equations.
6
Δ eq = Δ ref/(1 − ).
(1)
Where Δ ref and Δ eq are specified, rearranging Eq. (1) as Eq. (2) yields the feedback fraction .
7
= 1 − Δ ref/Δ eq.
(2)
The reference-sensitivity equation. Eq. (3), gives reference sensitivity Δ ref as the product of a
8
radiative forcing Δ 0 and the Planck sensitivity parameter 0 (Bony et al. 2006; IPCC 2007, p.
9
631 fn.; Roe 2009).
10
Δ ref = Δ 0 0.
(3)
With this background, the conclusions of two logical arguments whose common premises are the
11
above definitions and equations will be stated and then compared.
12
13
SOCRATIC ELENCHUS
14
29. With this background, the conclusions of two logical arguments whose common premises are
15
the above definitions and equations will be stated and then compared.
16
17
ARGUMENT 1
18
30. Conclusion 1: Where pre-industrial reference sensitivity Δ ref = 8 K and equilibrium
19
sensitivity Δ eq is 32 K, the natural or pre-industrial feedback fraction derived in Eq. (2) is equal
20
to 1 − 8/32, or 0.75, and industrial-era is also 0.75 (Lacis et al., 2010).
21
22
ARGUMENT 2
23
31. Argument 2 is in two parts, 2a and 2b.
24
Conclusion 2a, serving also as a premise to Argument 2b, is that, from Eq. (3), industrial-
25
era reference sensitivity Δ = Δ 0 0 is equal to 2.29 x 0.3125 = 0.72 K.
26
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Conclusion 2b: The feedback fraction = 1 − Δ in the industrial era to date is
1
equal to 1 − 0.72/0.76,or 0.05, from Eq. (2).
2
3
A VISIBLE CONTRADICTION
4
32. A striking contradiction exists between conclusions 1 and 2b. While argument 1 concludes that
5
the pre-industrial feedback fraction = 0.75, argument 2b concludes that industrial-era is an
6
order of magnitude less, at just 0.05. Yet both values should be identical at 0.75 (Lacis 2010).
7
Since conclusions 1, 2a and 2b depend upon mainstream premises, current climate science devoted
8
to the derivation of equilibrium sensitivities Δ eq fails the internal-consistency test, whereupon at
9
least one of the two arguments is unsound. Since the conclusions of arguments 1, 2a and 2b are
10
validly drawn from the premises, one or more of the premises must be false.
11
33. The contradiction thus identified is directly material to the matter now before the Court. Recall
12
that the forcing Δ 0 in response to doubled CO2 concentration is 3.5 Watts per square meter, so
13
that the reference sensitivity Δ ref = Δ 0 0 is equal to 3.5/3.2 or 1.1 K, derived in Eq. (3). Then,
14
from Eq. (1), if conclusion 1 is correct Charney sensitivity Δ eq (equilibrium sensitivity to doubled
15
CO2) is 1.1/(1 − 0.75) = 4.4 K, but if conclusion 2b is correct Δ eq is only 1.1/(1 − 0.05) =
16
1.2 K.
17
34. Deploying in Eq. (1) the feedback fraction = 0.75 in Lacis et al. (2010) would imply that,
18
in response to Δ ref = 0.72 K, the industrial-era equilibrium warming Δ eq to 2011 should have
19
been 2.9 K. However, that value is approaching four times the 0.76 K observed warming. Even if
20
one were to use the somewhat less excessive feedback fraction = 0.67 derivable using Eq. (2)
21
from the CMIP5 models’ mid-range estimate of 3.3 K Charney sensitivity, equilibrium warming
22
Δ eq to 2011 should have been 2.2 K, or almost thrice the observed industrial-era warming of
23
0.76 K from 1850-2011.
24
25
THE UNDERLYING CONTRADICTION
26
35. The above visible contradiction, readily discernible by the semi-formal use of logic in an
27
instance of Socratic elenchus, arises from the curious and not so easily detected internal
28
contradiction between the defined value 255 K of emission temperature and conclusion 1, which
29
assumes what turns out to be the erroneous premise that three-quarters of the 32 K difference
30
between natural and emission temperature, i.e., Δ ( ) = 24 K, is the feedback response to the
31
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Δ = 8 K directly-forced warming caused by the presence of the naturally-occurring, non-
1
condensing greenhouse gases (Lacis et al. 2010). Here, then, is the underlying contradiction: if 8 K
2
of warming drove a 24 K feedback response, the 255 K emission temperature should have
3
driven a feedback response Δ ( ) = 765 K, making the natural temperature in 1850 equal to
4
( + Δ ( ) + Δ + Δ ( )) = (255 + 765 + 8 + 24) = 1052 K, almost four times the 287 K
5
true value.
6
36. Throughout the 122 years since Arrhenius (1896) first attempted to derive Charney sensitivity,
7
climatology has assumed, inconsistently, that the feedback response to the emission temperature
8
of 255 K was nil, while the feedback response to the next 8 K of temperature caused by the direct
9
warming owing to the presence of the naturally-occurring, non-condensing greenhouse gases, was
10
24 K. It was only when the amici curiae found the inconsistency between arguments 1 and 2 that
11
this underlying inconsistency was identified.
12
37. The physical error of asserting that a small direct warming would induce a feedback thrice
13
itself while assuming, contradictorily, that the large pre-existing emission temperature would
14
induce no feedback response arose for two reasons. The proximate cause was that, though the form
15
of the zero-dimensional model embodied in Eq. (1) is not incorrect, its presentation in climatology
16
has proven misleading in that it specifies that a feedback arises only where there is a change Δ ref
17
in the pre-existing temperature ref, and that no feedback arises from ref itself.
18
38. In fact, Eq. (1) is also valid where the changes in the input and output signals are replaced by
19
the entire input and output signals themselves (Bode 1945, p. vii and ch. 3). Illustratively assuming
20
that the pre-industrial feedback fraction was constant, the true pre-industrial feedback response to
21
emission temperature 255 K and to the 8 K warming caused by the presence of the greenhouse
22
gases is derived by adopting the corrected approach in Eq. (4), where the emission temperature
23
(= 255 K), is added to the warming Δ ref, in this instance equal to the directly-forced warming
24
Δ (= 8 K) from the naturally-occurring, non-condensing greenhouse gases, to serve as the input
25
signal or reference temperature ref = 255 + 8 = 263 K, while the equilibrium temperature eq
26
replaces the equilibrium sensitivity Δ eq as the output signal.
27
= 1 − ( + Δ )/ = 1 − ref/ eq = 1 − (255.4 + 8)/287.5 = 0.08.
(4)
39. Accordingly, the 32 K difference between natural temperature = 287 K in 1850 and
28
emission temperature = 255 K in reality comprises about 23.4 K feedback response Δ ( ) to
29
; 8 K direct greenhouse warming Δ ; and only 0.7 K (rather than 24 K) feedback response Δ ( )
30
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to Δ . Pre-industrial thus falls by an order of magnitude from 24/32 = 0.75 to Δ ( )/(Δ +
1
Δ ( )) = 0.7/8.7 = 0.08. Once this corrected method is applied, taking proper account of the
2
large feedback Δ ( ) to rather than erroneously overstating the feedback fraction by including
3
Δ ( ) as though it were part of the feedback response Δ ( ) to the directly-forced warming Δ
4
from the presence of the naturally-occurring, non-condensing greenhouse gases, it is shown that
5
pre-industrial (= 0.08) coheres with the industrial-era (= 0.05) derived in conclusion 2b,
6
resolving the contradiction between arguments 1 and 2b.
7
40. By this deployment of formal logic in the form of a Socratic elenchus, two distinct methods of
8
deriving Charney sensitivity – the first a theoretical derivation in the pre-industrial era before 1850
9
and the second an empirical derivation in the industrial era from 1850-2011, are found to cohere.
10
Where reference sensitivity Δ ref to doubled carbon dioxide is 1.1 K, as in Eq. (3), and whether
11
the feedback fraction is equal to the industrial 0.05 or pre-industrial 0.08, Charney sensitivity
12
Δ eq is found in Eq. (1) to be 1.1/(1 − ) = 1.2 K.
13
14
THIRD METHOD OF DERIVING CHARNEY SENSITIVITY
15
41. To make assurance triply sure, the amici curiae conducted an empirical campaign in which ten
16
estimates of net industrial-era anthropogenic forcing from all greenhouse gases were obtained from
17
mainstream sources and converted to reference sensitivities using Eq. (3), while the equilibrium
18
sensitivities were taken as the least-squares linear-regression trends on the HadCRUT4 monthly
19
global mean surface temperature anomalies (Morice et al. 2012) for each of the ten periods. Using
20
the CMIP5 feedback fraction = 0.67 the mean ratio of predicted to observed industrial-era
21
global warming was found to be 2.6, a grave excess of prediction over observation, while the ideal
22
unit ratio was attained for = 0.12. Deploying this empirically-derived value of industrial-era
23
in Eq. (1), Charney sensitivity 1.1/(1 − 0.12) = 1.25 K was derived, cohering closely with the
24
value 1.2 K obtained by the first and second methods.
25
26
FOURTH METHOD OF DERIVING CHARNEY SENSITIVITY
27
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1
42. To confirm that the 1.2 K Charney sensitivity (and, equivalently, the 1.2 K warming from all
2
anthropogenic forcings in the 21st century) was consistent with observed temperature change since
3
1950, when according to IPCC the influence of Man on climate first became significant, the amici
4
curiae derived the least-squares linear-regression trend on the HadCRUT4 monthly global mean
5
surface temperature anomalies over the 68 years 1950-2017, the only dataset to commence as early
6
as 1850. The result, shown above, is that warming in the two-thirds of a century since 1950 has
7
occurred at a rate equivalent to 1.2 K/century, again cohering with the Charney sensitivity found
8
using the theoretically-derived pre-industrial feedback fraction = 0.08 and from the industrial-
9
era range of between 0.05 and 0.12.
10
11
FIFTH METHOD OF DERIVING CHARNEY SENSITIVITY
12
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1
43. The amici curiae also averaged the monthly global mean surface and lower-troposphere
2
temperature anomalies from the HadCRUT4 terrestrial and UAH satellite datasets and derived the
3
least-squares linear-regression trend (the bright blue line on the graph) for the 17 years 2001-2017,
4
the first one-sixth of the 21st century. The satellite data were included because they cover a five-
5
mile-high slab of the atmosphere immediately above the surface, and have a coverage greater than
6
the terrestrial measurements. The trend was found to be 0.22 K, equivalent to 1.3 K/century. This
7
result was close to the theoretically-derived 1.2 K/century pre-industrial value, the 1.2-1.25 K
8
industrial-era value derived by two empirical methods and the trend since 1850, but far below the
9
3.3 K/century predicted by IPCC in 1990.
10
11
VERIFICATION BY LABORATORY EXPERIMENTS
12
44. It will be seen from the foregoing argument that the question of equilibrium sensitivity – the
13
“how-much-warming” question – is chiefly a question of the magnitude of the feedback response
14
to the direct or reference warming caused by anthropogenic enrichment of the atmosphere with
15
greenhouse gases. Hitherto, climatology has imagined that the feedback response is 2-4 times the
16
reference sensitivity, with some extreme estimates of up to 10 times reference sensitivity. The
17
results obtained by the amici curiae suggest that the feedback response adds only 0.1 K to reference
18
sensitivity of 1.1 K to give Charney sensitivity of 1.2 K.
19
45. In the climate, it is not possible to use measurement either to distinguish individual temperature
20
feedbacks from each other or to distinguish the sum of all positive and negative feedbacks from
21
the radiative forcings that induced them. However, control theory, which is the study of feedback
22
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in dynamical systems, applies mutatis mutandis to all such systems. The equations are standard.
1
Feedback theory was originally developed at Bell Labs, then in New York, in the 1920s and 1930s,
2
leading to a magisterial paper by Harold S. Black (discoverer inter alia of negative feedback) in
3
1934, and to codification of feedback theory in a popular textbook by his colleague Hendrik Wade
4
Bode, first published in 1945. Bell Labs developed feedback theory because, in the era before
5
digital communications, telephone circuits were notoriously unstable and their researchers had
6
found that incorporating feedback loops in the circuits would assist in stabilizing them.
7
46. In an electronic circuit that incorporates a feedback loop, it is possible to specify and then set
8
the input signal (equivalent to the 255 K emission temperature in the climate), the direct-gain
9
signal in the gain block (equivalent to the amplification of the input signal caused by an
10
anthropogenic radiative forcing), and the feedback fraction, which is the fraction of the output
11
signal (i.e., of equilibrium sensitivity in the climate) that is fed back to the input node. Thereupon
12
the output signal (equilibrium sensitivity in the climate) can be measured directly.
13
47. A government laboratory was commissioned to construct and operate an electronic test
14
feedback circuit to simulate the climate feedback loop. One of the groups of tests on the circuit
15
demonstrated that, even without any gain such as that which is forced by the presence of
16
greenhouse gases, the theoretically-expected feedback response to an input signal ref (in this
17
context, the Earth’s emission temperature) was evident. For, in a dynamical system, even an
18
unamplified input signal induces a response to any feedback (Bode 1945, p. vii. and ch. 3).
19
20
UNCERTAINTIES
21
48. The amici curiae draw the Court’s attention to the following uncertainties:
22
Equilibrium not yet attained: The amici curiae also considered whether, over the pre-
23
industrial and industrial-era periods they had considered, there were some temperature feedbacks
24
that had not fully acted, so that equilibrium in respect of the warming over those periods had not
25
yet been attained. However, the feedbacks listed in IPCC (2013, p. 818, table 9.5) as being relevant
26
to the derivation of equilibrium sensitivity are described by IPCC (2013, p. 128, Fig. 1.2) as having
27
the following durations: Water vapor and lapse-rate feedback hours; Cloud feedback days; Surface
28
albedo feedback years. Therefore, all or very nearly all of the feedback responses examined here
29
will have operated during the periods under consideration.
30
Delay in sensible atmospheric warming owing to ocean overturning: It is possible that
31
some of the warming that might otherwise have become detectable has been taken into the
32
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subsurface strata of the ocean by the overturning process, but that process is of millennial duration
1
and very little of that subsurface heat can be expected to be returned to the surface layer in a policy-
2
relevant timeframe.
3
Nonlinearities in feedbacks: The amici curiae also considered whether nonlinearities in
4
individual feedbacks might make the industrial-era feedback fraction significantly greater than the
5
0.05 derived earlier herein from the 2.29 Watts per square meter current best estimate of total
6
anthropogenic forcing to date given in IPCC (2013, p. 14, Fig. SPM.5). By testing various values
7
of the feedback fraction in Eq. (1), the amici curiae found that to reach IPCC’s current lower-
8
bound estimate of 1.5 K Charney sensitivity a feedback fraction as much as 5-6 times the
9
industrial-era value 0.05 would be required. Given the similarity between the pre-industrial and
10
industrial values of the feedback fraction derived earlier, and indeed the identity between these
11
two values posited e.g. in Lacis et al. (2010), so sudden a jump in the value of the feedback fraction
12
in response to a future doubling of atmospheric carbon dioxide concentration is not plausible. It is
13
extremely unlikely, therefore, that equilibrium sensitivity to doubled atmospheric carbon dioxide
14
concentration (or, equivalently, 21st-century global warming) will reach even 1.5 K.
15
Uncertainty in the CO2 radiative forcing: IPCC (2013, p 676, §8.3.2.1) says there is a
16
0.1 K uncertainty in the radiative forcing of 3.5 Watts per square meter in response to doubled CO2
17
concentration. However, Professor Will Happer of Princeton University, one of the world’s
18
foremost optical physicists, gave a lecture at the 2015 annual meeting of the World Federation of
19
Scientists in Erice, Sicily, in which he reported that the models on which that estimate was based
20
had incorrectly assumed that the collisions between photons of long-wave radiation and CO2
21
molecules that induce a quantum oscillation (illustrated above) in the bending vibrational mode of
22
those molecules occurred instantaneously. In passing, this type of oscillation cannot be
23
collisionally initiated in molecules such as N2 or O2, the principal constituents of the atmosphere,
24
for they consist of fewer than three atoms, answering another of the Court’s questions. The CO2
25
molecule, being symmetrical, does not possess a dipole moment unless it is collisionally excited.
26
27
Oscillation of the CO2 molecule in its bending vibrational mode
28
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In optical physics, the assumption of collisional instantaneity is usually of little import. It
1
simplifies the otherwise intractable partial differential Lorentzian or Voigt lineshape equation. In
2
climatology, however, Professor Happer explained that this assumption had led to a 40%
3
overstatement of the CO2 radiative forcing and consequently of Charney sensitivity. If so, the CO2
4
forcing is not 3.5 but 2.5 Watts per square meter; reference sensitivity to CO2 is not 1.1 K but
5
0.8 K, and, for industrial-era = 0.05, equilibrium sensitivity is 0.8/(1 − 0.05) = 0.8 K.
6
Anthropogenic fraction of industrial-era warming: As demonstrated earlier, there is no
7
“consensus” as to what fraction of industrial-era warming was anthropogenic. It has here been
8
assumed ad argumentum that all industrial-era warming was anthropogenic: but if, for instance,
9
only half of it were anthropogenic, the other half being attributable to the considerable internal
10
variability arising from factors such as variations in the rate of ocean overturning, in volcanic
11
activity, in cloud cover and in the solar irradiance reaching the surface, the empirically-derived
12
industrial-era feedback fraction will be smaller than shown here.
13
Observed warming in some datasets is greater than shown here.
14
15
THE SIGNIFICANCE OF COHERENCE IN SCIENTIFIC RESULTS
16
49. Since all five methods cohere in finding Charney sensitivity or, equivalently, centennial
17
warming to be 1.2 to 1.3 K, it is submitted that the uncertainties listed above – to the extent that
18
they are not self-canceling, since some point one way and others another – will not significantly
19
alter the results presented herein. Whenever so many methods of addressing a single question
20
cohere, and provided that, as here, the theoretical method adopted is scientifically correct, the fact
21
of the coherence strongly supports the results that are obtained. Three days before the Court’s list
22
of questions was issued, the amici curiae submitted a scientific paper announcing their result to a
23
leading climatological journal. Thus, though the first part of the argument set forth herein has
24
passed peer review and has been published, the second part has not yet been sanctified by peer
25
review. However, the argument is simple enough to allow the Court to understand it completely
26
and to verify for itself that the result is likely to be sound.
27
.
28
CONCLUSION
29
50. Notwithstanding assertions to the contrary in IPCC’s Assessment Reports and in the peer-
30
reviewed journals, examination of almost 12,000 of papers on climate and related topics over a
31
21-year period reveals that only 0.3% of those papers had explicitly stated their quantified assent
32
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Page 24
____________________________________________
CASE NOS. C-17-06011 and C-17-06012
BRIEF OF AMICI CURIAE THE VISCOUNT
MONCKTON, ET AL.
24
to the “consensus” proposition that at least half of the global warming of recent decades was
1
anthropogenic. What is more, that “consensus” proposition says nothing about whether
2
anthropogenic global warming has been or will be dangerous, let alone catastrophic.
3
51. Climatologists have hitherto omitted the emission temperature of 255 K from the input signal
4
in their form (Eq. 1) of the zero-dimensional model. This omission had misled them into
5
erroneously including the 23.4 K feedback response to the 255 K emission temperature with the
6
0.7 K feedback response to the 8 K direct warming caused by the presence of the naturally-
7
occurring, non-condensing greenhouse gases. Consequently, they had overstated the feedback
8
fraction by an order of magnitude (i.e., approximately tenfold) and had thus overstated the mid-
9
range estimates of Charney sensitivity (and of all other mid-range equilibrium sensitivities)
10
threefold. Since the mid-range estimate of Charney sensitivity (and, equivalently, of 21st-century
11
global warming) should not be 3.3 K, as had hitherto been thought, but only 1.2 K, and even the
12
high-end estimate will almost certainly be less than 1.4 K, action to prevent global warming is no
13
longer necessary.
14
52. For the foregoing reasons, the Court should reject Plaintiff’s case and should also reject those
15
of Defendants’ submissions that assert that global warming is a serious problem requiring urgent
16
mitigation: for it was only the error that made it appear to be a problem. It is not a problem at all.
17
DATED: March 16, 2018
Respectfully submitted,
18
19
LAW OFFICES OF JAMES BRADEN
20
21
22
By: __/s/ James Braden__________________
23
24
James Braden
25
26
PETER FERRARA
27
28
29
By: ____/s/ Peter Ferrara_____________________
30
31
Peter Ferrara
32
33
Attorneys for Amici Curiae
34
The Viscount Monckton, et al.
35
36
Case 3:17-cv-06011-WHA Document 153-1 Filed 03/16/18 Page 24 of 24