Thursday 26 February 2015

The Statistics of Climate Change

From left to right: Norman Fenton, Hannah Fry, David Spiegelhalter. Link to the Programme's BBC website
(This is a cross posting of the article here)

I had the pleasure of being one of the three presenters of the BBC documentary called “Climate Change by Numbers”  (first) screened on BBC4 on 2 March 2015.

The motivation for the programme was to take a new look at the climate change debate by focusing on three key numbers that all come from the most recent IPCC report. The numbers were:
  • 0.85 degrees - the amount of warming the planet has undergone since 1880
  • 95% - the degree of certainty climate scientists have that at least half the warming in the last 60 years is man-made
  • one trillion tonnes - the cumulative amount of carbon that can be burnt, ever, if the planet is to stay below ‘dangerous levels’ of climate change
The idea was to get mathematicians/statisticians who had not been involved in the climate change debate to explain in lay terms how and why climate scientists had arrived at these three numbers. The other two presenters were Dr Hannah Fry (UCL) and Prof Sir David Spiegelhalter (Cambridge) and we were each assigned approximately 25 minutes on one of the numbers. My number was 95%.

Being neither a climate scientist nor a classical statistician (my research uses Bayesian probability rather than classical statistics to reason about uncertainty) I have to say that I found the complexity of the climate models and their underlying assumptions to be daunting. The relevant sections in the IPCC report are extremely difficult to understand and they use assumptions and techniques that are very different to the Bayesian approach I am used to. In our Bayesian approach we build causal models that combine prior expert knowledge with data. 

In attempting to understand and explain how the climate scientists had arrived at their 95% figure I used a football analogy – both because of my life-time interest in football and because - along with my colleagues Anthony Constantinou and Martin Neil – we have worked extensively on models for football prediction. The climate scientists had performed what is called an “attribution study” to understand the extent to which different factors – such as human CO2 emissions – contributed to changing temperatures. The football analogy was to understand the extent to which different factors contributed to changing success of premiership football teams as measured by the total number of points they achieved season-by-season.  In contrast to our normal Bayesian approach – but consistent with what the climate scientists did – we used data and classical statistical methods to generate a model of success in terms of the various factors. Unlike the climate models which involve thousands of variables we had to restrict ourselves to a very small number of variables (due to a combination of time limitations and lack of data). Specifically, for each team and each year we considered:
  • Wages (this was the single financial figure we used)
  • Total days of player injuries
  • Manager experience
  • Squad experience
  • Number of new players
The statistical model generated from these factors produced, for most teams, a good fit of success over the years for which we had the data. Our ‘attribution study’ showed wages was by far the major influence. When wages was removed from the study, the resulting statistical model was not a good fit. This was analogous to what the climate scientists’ models were showing when the human CO2 emissions factor was removed from their models; the previously good fit to temperature was no longer evident. And, analogous to the climate scientists’ 95% derived from their models, we were able to conclude there was a 95% chance that an increase in turnover of 10 per cent would result in at least one extra premiership point. (Update: note that this was a massive simplification to make the analogy. I am certainly not claiming that increasing wages causes an increase in points. If I had had the time I would have explained that in a proper model - like the Bayesian networks we have previously built - wages offered is one of the many factors influencing quality of players that can be bought which, in turn, along with other factors influences performance).

Obviously there was no time in the programme to explain either the details or the limitations of my hastily put-together football attribution study and I will no doubt receive criticism for it (I am preparing a detailed analysis).  But the programme also did not have the time or scope to address the complexity of some of the broader statistical issues involved in the climate debate (including issues that lead some climate scientists to claim the 95% figure is underestimated and others to believe it is overestimated). In particular, the issues that were not covered were:
  • The real probabilistic meaning of the 95% figure. In fact it comes from a classical hypothesis test in which observed data is used to test the credibility of the ‘null hypothesis’. The null hypothesis is the ‘opposite’ statement to the one believed to be true, i.e.  ‘Less than half the warming in the last 60 years is man-made’. If, as in this case, there is only a 5%  probability of observing the data if the null hypothesis is true, the statisticians equate this figure (called a p-value) to a 95% confidence that we can reject the null hypothesis. But the probability here is a statement about the data given the hypothesis. It is not generally the same as the probability of the hypothesis given the data (in fact equating the two is often referred to as the ‘prosecutors fallacy’, since it is an error often made by lawyers when interpreting statistical evidence).See here and here for more on the limitations of p-values and confidence intervals.
  • Any real details of the underlying statistical methods and assumptions. For example, there has been controversy about the way a method called principal component analysis was used to create the famous hockey stick graph that appeared in previous IPCC reports. Although the problems with that method were recognised it is not obvious how or if they have been avoided in the most recent analyses.
  •  Assumptions about the accuracy of historical temperatures. Much of the climate debate  (such as that concerning the exceptionalness of the recent rate of temperature increase) depends on assumptions about historical temperatures dating back thousands of years. There has been some debate about whether sufficiently large ranges were used.
  • Variety and choice of models. There are many common assumptions in all of the climate models used by the IPCC and it has been argued that there are alternative models not considered by the IPCC which provide an equally good fit to climate data, but which do not support the same conclusions.
Although I obviously have a bias, my enduring impression from working on the programme is that the scientific discussion about the statistics of climate change would benefit from a more extensive Bayesian approach. Recently some researchers have started to do this, but it is an area where I feel causal Bayesian network models could shed further light and this is something that I would strongly recommend.

Acknowledgements: I would like to thank the BBC team (especially Jonathan Renouf, Alex Freeman, Eileen Inkson, and Gwenan Edwards) for their professionalism, support, encouragement, and training; and my colleagues Martin Neil and Anthony Constantinou for their technical support and advice. 

My fee for presenting the programme has been donated to the charity Magen David Adom

Watching the programme as it is screened

Wednesday 18 February 2015

Climate Change Statistics

From left to right: Norman Fenton, Hannah Fry, David Spiegelhalter. Link to the Programme's BBC website
Please see Update here.

I am presenting a documentary called "Climate Change by Numbers" - to be screened at 9.00pm on BBC4 on Monday 2 March 2015. The trailer is here. This is the BBC Press Release about the programme:
BBC Four explores the science behind three key climate change statistics

In a special film for BBC Four, three mathematicians will explore three key statistics linked to climate change.

In Climate Change by Numbers, Dr Hannah Fry, Prof Norman Fenton and Prof David Spiegelhalter hone in on three numbers that lie at the heart of science’s current struggle to get a handle on the precise processes and impact of global climate change.

Prof Norman Fenton said: “My work on this programme has revealed the massive complexity of climate models and the novel challenges this poses for making statistical predictions from them.”

The three numbers are:

-       0.85 degrees - the amount of warming the planet has undergone since 1880
-       95% - the degree of certainty climate scientists have that at least half the recent warming is man-made
-       one trillion tonnes - the cumulative amount of carbon that can be burnt, ever, if the planet is to stay below ‘dangerous levels’ of climate change

All three numbers come from the most recent set of reports from the Intergovernmental Panel on Climate Change.

Prof David Spiegelhalter said: “It's been eye-opening to find out what these important numbers are actually based on.”
In this programme, the three scientists unpack what the history of these three numbers are; where did they come from? How have they been measured? How confident can we be in their accuracy? In their journeys they drill into the very heart of how science itself works, from data collection, through testing theories and making predictions, giving us a unique perspective  on the past, present and future of our changing climate.

Cassian Harrison, Channel Editor BBC Four, said: “This 75 minute special takes a whole new perspective on the issue of climate change. It puts aside the politics to concentrate on the science. It offers no definitive answers, but it does show the extraordinary achievements and the challenges still facing scientists who are attempting to get a definitive answer to what are perhaps the biggest scientific questions currently facing mankind.”

Executive Producer Jonathan Renouf said: “Who would have thought there’d be a link between the navigation system used to put men on the moon, and the way scientists work out how much the planet is warming up? It’s been great fun to come at climate change from a fresh angle, and discover stories that I don’t think anyone will have heard before.”