Suppose you wanted to measure whether the total number of ants on earth has been increasing. The number of ants at any given place depends on location and on season. Let’s assume that today there are 10,000 botanists at fixed locations across the world diligently measuring the number of ants passing through each square meter. The daily average population at each location can then be estimated as the sum of the maximum daytime population plus the minimum nighttime population divided by two. Unfortunately though 100y ago there were only 30 such botanists at work and they used pen and paper to record the data. How can we possibly hope to determine whether the global ant population has been increasing since then? The only way is to do that is to assume that changes in ant population are the same everywhere because it is a global phenomenon – for example it depends on oxygen levels. Our botanists sample this change at random fixed places. Then as far as possible we should remove any spatial biases inherent in this ever changing historical sampling coverage. We can only do this by normalising at each location the population time series relative to its ‘average’ value within say a standardised 30 year (seasonal) average. Then we can subtract this normal value to derive the ant population differentials (anomalies). Next we form a ‘spatial’ average of all such disparate ant anomalies (essentially differentials) for each year in the series. What we can then deduce are annual global ant population ‘anomalies’ , but in doing so we have essentially giving up hope of ever knowing what the total number of ants alive on earth were at any given time.
Measuring global temperatures is rather analogous because they too are based on the same assumptions, namely that a) temperatures change coherently over vast areas and b) these changes are well reflected by stochastic sampling over the earth’s surface. The global temperature anomaly is a spatial average over all measurements of localised monthly temperature differentials relative to their average over a fixed period.
Figure 1 shows the decadal smoothed results from GHCN V3/HadSST3. The big picture shows there are four phases:
1880-1910 Falling or flat
1945-1975 Falling or flat
Figure 1: a) Global Temperature Anomalies. Data are 10 year rolling averages b) Differences between GHCN anomaly trends.
The individual station anomalies for Tav, Tmin and Tmax have each been computed using their respective seasonal averages between from 1961-1990. Note how all the series get zeroed together at the fixed normalisation period. This is an artefact of the choice of baseline period. We can also observe the following apparently odd effects in Figure 1b.
Tav ‘warms’ faster than both Tmin and Tmax after 1980.
Oceanic temperatures were warmer than global temperatures before 1910 and then again between 1930 to 1972, but have since lagged behind land temperatures. This appears to be a cyclic phenomenon.
The zeroing effect in differences is again an artefact of using temperature anomalies. However, if one looks at these trends dispassionately one must conclude that there is an underlying natural oceanic cycle of amplitude ~0.3C and wavelength ~90y which drove global temperatures until ~1930. Since then a slow but increasing CO2 induced warming effect has emerged which has now distorted this natural cycle. This has resulted in an underlying global warming of about 0.8C.
I have just finished reading the book ‘Denied’ by Richard Black, the director of the Energy and Climate Intelligence Unit (ECIU) and ex-BBC environment editor. It is well written and easy to read. He claims to demolish the climate “contrarian” and climate “denier” positions on climate change and renewable energy. As far as I can work out contrarians are lukewarmers who accept the science but argue that any future warming will be far less damaging than the consequences of overreacting to it right now, while ‘deniers’ argue that CO2 can have no effect on the climate at all. His main targets in the book are the usual suspects: the GWPF, Nigel Lawson, Matt Ridley, Christopher Brooker, James Delingpole, Judith Curry and anyone else who dissents from mainstream climate and green energy orthodoxy. Richard is also upset with the BBC for interviewing Nigel Lawson on the Today programme, and with various newspapers for giving Brooker, Delingpole or David Rose any column space. In this vein then I too should be placed in the Contrarian camp, particularly concerning renewable energy policy.
Richard however does acknowledge that climate gate exposed a certain amount of sculduggery within the climate science community and because climate gate also coincided with a 15y pause in global warming, the position of sceptics back in 2014 was actually very strong and put climate scientists onto the back foot. The chapter in AR5 discussing this warming hiatus reflects this defensiveness. However, by the end of 2018 Richard argues in his book that consequent events have now demolished all those contrarian or “denier” arguments and therefore these opinions should now be denied any undue influence in determining future climate policy. His main arguments for this are:
Warming has continued as expected and the pause never actually happened. Temperature data are now compatible with model ‘projections’.
Prices of new off-shore wind capacity and of solar panels have dropped so dramatically that they are competitive or cheaper than Nuclear and Gas. So objecting to green energy is illogical.
The new SR15 report has highlighted the need for immediate action to close down fossil fuels as soon as possible and invest in ‘clean’ energy. Shale Gas is an illusion.
Let’s look at each claim in turn.
The Pause is no more.
Here is the original plot from AR5 showing a comparison of four major temperature datasets versus CMIP5 model projections.
In 2012 all the major temperature sets (HadCRUT, GISS,NCDC) showed no consequent year warmer than the El Nino year 1998. Furthermore the trend was dropping below model predictions. Since then a huge effort has been made to add new weather stations in Arctic regions where warming is fastest and to improve the spatial coverage averaging.
HadCRUT4.6 has about 2000 more stations than HadCRUT3 had in 2012, but also dropped some stations in S. America (they were cooling). Temperature homogenisation on land and oceans has also had a net warming effect, although quite why seems to be a bit of a mystery. The method of spatial averaging also has an important net effect on the global temperature. Cowtan & Way used kriging to infill empty regions, whereas I use a 3D spherical triangulation to provide natural global coverage. The results are almost identical.
What is interesting though is that the flat trend prior to 2014 has now disappeared in HadCRUT4.6 which uses the same averaging procedure throughout. So this must be due to ongoing data corrections and to all the new stations added consequently. Each new monthly release of data shows that earlier values of global temperatures also get updated. Data homogenisation is a continuing process updating past measurements as well as new ones. Note however that temperatures have been falling for the last two years following the the 2016 El Nino peak. If 2019 continues this cooling trend then the pause or hiatus in warming could well return.
2. Falling prices of renewable energy.
Recent auctions for new off-shore wind farm capacity “Contracts for difference” have reached as low as £57:50/MWh for 15 years , apparently undercutting both new gas and the Hinkley C price £92/MWh for 35 years. So if the price of new wind and solar generation is so cheap why don’t we just buy more of it? The problem of course is that we are not comparing like with like. Although Hinkley is very expensive (consequent nuclear stations should strike a much lower price) it is still cheaper than the London Array which receives £150/MWh, but the main difference is that nuclear is predictable. Nuclear provides constant base load power which can in the future be used for charging EVs overnight. Wind energy is fickle and may or may not be available to meet peak demand, and this inherent unreliability will not change in the future. Other advantages of nuclear over wind are
that its environmental footprint is tiny
that it lasts 3 times as long as wind farms (60 years as opposed to 20 years)
Solar Energy makes little sense in Britain because it produces no power in winter. Annual peak demand is around 5pm during winter evenings when solar output is zero. So if energy security is your goal then solar power is useless no matter how cheap the price falls. The only thing going for it is that it can displace fossil generation during summer months thereby reducing CO2 emissions if that is the goal, but this then increases the overall energy cost.
3. Urgent action to avoid climate disaster.
How realistic is it to expect the world to cut carbon emissions in half by 2030 and eliminate them by 2050 to meet the 1.5C target? If we get it wrong by acting too soon then we don’t get a second chance because we destroy our economies in the attempt. David Mackay said we need a plan that works for the UK. Similarly each country needs a plan that works for its particular environment. To get to zero carbon we also have to electrify both transport and heating. This means that electricity peak demand will increase to a minimum of around 90GW. The problem then is that this increased demand must be reliably met on cold winter evenings or people will die. Does Richard Black imagine that by expanding wind power alone one could achieve this goal, or that somehow battery storage might cover such wind lulls ? Last night is a good example of the problems we already face after installing well over 20GW of wind capacity and over 30GW of solar capacity.
Power generation by source for 2/3 Jan 2019. UK still regularly depends on coal when green energy lets us down each winter, despite all the hype. Coal was fired up to provide ~6GW because wind+solar combined could only manage ~2GW
Renewables simply cannot provide energy security. Nor can some magic smart grid or energy storage system cover several day long wind lulls affecting Northern Europe each winter. So given that we must provide power 24/7 to maintain modern life then the only realistic low carbon solution is nuclear power. Roughly 30 identical Hinkley sized nuclear plants would do the job nicely. I doubt whether Richard Black nor his ECIU would agree with that. I wonder who might eventually be called an energy denier?
Global averaged surface temperature for November 2018 was 0.63C using my spherical triangulation method merging GHCNV3 with HadSST3. This is a fall of 0.12C since October. The baseline used is always 1961-1990.
With just one month to go this ensures that 2018 will be the 4th warmest year, continuing the slow recovery from the super El Nino year in 2016.
Annual global temperatures. The bottom trace shows that continuous small adjustments are made retroactively in GHCN – right hand axes.