Saturday, April 18, 2015

Will the PDO Turn Positive in the Next Few Years?

Glossary: PDO - Pacific Decadal Oscillation; LOD - Earth's Length of Day

Back in 2008, I wrote a paper entitled:

Wilson, I.R.G., 2011, Are Changes in the Earth’s Rotation Rate Externally Driven and Do They Affect Climate? The General Science Journal, Dec 2011, 3811. which can be freely down loaded at:

http://gsjournal.net/Science-Journals/Essays/View/3811

One of the results of this paper concerned the long-term changes in the Pacific Decadal Oscillation (PDO). It predicted that the PDO should return to its positive phase sometime around 2015 - 2017.

A.  The difference between the actual LOD and the nominal LOD value of 86400 seconds.

Page 11 - Figure 4


Figure 4: This figure shows the variation of the Earth's length-of-day (LOD) from 1656 to 2005 (Sidorenkov 2005)[blue curve]. The values shown in the graph are the difference between the actual LOD and the nominal LOD value of 86400 seconds, measured in units of  10^(-5) seconds. Superimposed on this graph are 1st and 3rd order polynomial fits to the change in the Earth's LOD.

B. The absolute deviation of the Earth's LOD from a 1st and 3rd order polynomial fit to the long-term changes in the LOD between 1656 and 2005

page 14 - Figure 7a


Figure 7a: Shows the absolute deviation of the Earth's LOD from a 1st and 3rd order polynomial fit to the long-term changes in the LOD (measured in units of 10^(-5) seconds). There are nine significant peaks in the absolute deviation which are centered on the years 1729, 1757, 1792, 1827, 1869, 1906, 1932, 1956 and 1972. 

C. A comparison between the peak (absolute) deviations of the LOD from its long-term trend and the years where the phase of the PDO [proxy] reconstruction is most positive.

Page 15 - Figure 8


Figure 8: The upper graph shows the PDO reconstruction of D’Arrigo et al. (2001) between 1707 and
1972. The reconstruction has been smoothed with a 15-year running mean filter to eliminate short-term fluctuations. Superimposed on this PDO reconstruction is the instrumental mean annual PDO index (Mantua 2007) which extends the PDO series up to the year 2000. The lower graph shows the absolute deviation of the Earth’s LOD from 1656 to 2005. The data in this figure has also been smoothed with a 15-year running mean filter.

A comparison between the upper and lower graph in figure 8 (above) shows that there is a
remarkable agreement between the years of the peak (absolute) deviations of the LOD from its
long-term trend and the years where the phase of the PDO [proxy] reconstruction is most positive. While the correlation is not perfect, it is convincing enough to conclude the PDO index is another good example of a climate system that is directly associated with changes in the Earth's rotation rate.

If you look closely at the peaks in the deviation of Earth's LOD from its long term trend and the peaks in the PDO index shown in figure 8, you will notice that the peaks in deviation of LOD take place 8 - 10 years earlier (on average) than the peaks in the PDO index, suggesting a causal link.


D. The path of the CM of the Solar System about the Sun in a reference frame that is rotating with the planet Jupiter


Page 17 - Figure 9


 Figure 9: Shows the Sun in a reference frame that is rotating with the planet Jupiter. The perspective is the one you would see if you were near the Sun’s pole. A unit circle is drawn on the left side of this figure to represent the Sun, using an x and y scales marked in solar radii. The position of the CM of the Solar System is also shown for the years 1780 to 1820 A.D. The path starts in the year 1780, with
each successive year being marked off on the curve, as you move in a clockwise direction. This
shows that the maximum asymmetry in the Sun’s motion occurred roughly around 1790-91.

The path of the CM of the Solar System about the Sun that is shown in figure 9 [above] mirrors the typical motion of the Sun about the CM of the Solar System. This motion is caused by the combined gravitational influences of Saturn, Neptune, and to a lesser extent Uranus, tugging on the Sun.

The motion of the CM shown in figure 9 repeats itself roughly once every 40 years. The timing and level of asymmetry of Sun’s motion is set, respectively, by when and how close the path approaches the point (0.95, 0.0), just to the left of the Sub-Jupiter point. Hence, we can quantify the magnitude and timing of the Sun’s asymmetric motion by measuring the distance of the CM from the point (0.95, 0.0).

E. The years where the Suns' motion about the CM of the Solar System is most asymmetric.

Page 18 - Figure 10


Figure 10: shows The distance of the centre-of-mass (CM) of the Solar System (in solar radii) from the point (0.95, 0.00) between 1650 and 2000 A.D. The distance scale is inverted so that top of the peaks correspond to the times when the Sun’s motion about the CM is most asymmetric.

An inspection of figure 10 shows that there are times between 1700 and 2000 A.D. where the CM of the Solar System approaches the point (0.095, 0.00) i.e. at the peaks of the blue curve in figure 10 where the Sun's motion about the CM is most asymmetric. These are centred on the years, 1724, 1753, 1791, 1827, 1869, 1901, 1932, and 1970. Remarkably, these are very close to the years in which the Earth’s LOD experienced its maximum deviation from its long-term trend i.e. the years 1729, 1757, 1792, 1827, 1869, 1906, 1932, 1956 and 1972.   

This raised the possibility that the times of maximum deviation of the Earth's LOD might be related to the times of maximum asymmetry in the Sun’s motion about the CM. 

In addition, if both of these indices precede transitions of the PDO into its positive phase by 8 - 10 years, then it could be possible to use the times of maximum asymmetry in the Sun’s motion about the CM to predict when the PDO will make its next transition into its positive phase.

F. When will the transition to the next positive phase of the PDO take place?




This figure shows the proxy PDO reconstruction of D’Arrigo et al. (2001) between 1707 and 1972 [blue curve]. The reconstruction has been smoothed with a 15-year running mean filter to eliminate short-term fluctuations. Superimposed on this PDO reconstruction is the instrumental mean annual PDO index (Mantua 2007) which extends the PDO series up to the year 2000 [green curve]. Also shown is the proximity of the CM of the Solar System to sub-Jupiter point which measures the asymmetry of the Sun's motion about the CM [orange curve].

Hence, like the long term deviation of the Earth's LOD from its long term trend, the peaks in asymmetry of the Sun's motion about the CM of the Solar System take place roughly 8 - 10 years prior to positive peaks in the PDO index. 

Careful inspection of the figure above shows that Sun's motion about the CM peaks in about 2007 which would indicate that the next transition to a positive PDO phase should take place some time around the years 2015 to 2017.

[Note: The above graph shows a prediction made on the assumption that forward shift between the two curves is of the order of the average length of the Hale sunspot cycle = 11 years. It probably a good indicator of the level of uncertainty of the prediction being made]. 


[Note: I propose that GEAR EFFECT is the underlying reason for the connection between peaks in the asymmetry of the Sun's motion about the Barycentre of the Solar System (SSBM) and the absolute deviation of the Earth rotation rate about it's long-term in crease of ~ 1.7 ms/century. A post describing the GEAR EFFECT can be found here:]

http://astroclimateconnection.blogspot.com.au/2013/09/the-gear-effect-vej-tidal-torquing.html

   

4 comments:

  1. Thanks for your latest post.
    Assuming that (a) the PDO transition takes place between 2015 and 2017 and (b) considering the status of other climate cycles please can you make a brief comment on the likely direction of Australian and global climate from 2017 onwards.

    ReplyDelete
  2. Anon,
    Your best bet is to go back to a place in the climate record where the Atlantic Meridional Oscillation (AMO) is negative, the Pacific Decadal Oscillation (PDO) is positive, the ENSO goes through an El Nino[2015]/La Nina[2016] cycle and the Sun is in a Dalton-like Minimum in its magnetic activity cycle.

    If you can find a point in the climate record where this has happened just look at how the world climate responded - however - be a little bit more careful at regional levels - since they are much more nuanced.

    Here is my best guess:

    AMO is a 30 year cooling cycle last from ~ 2000-2030
    The reduced level of solar activity indicates a cooling period lasting from ~ 2005-2035

    PDO is a warming cycle that could last for a decade or two.
    There will be EL Nino warming events in 2015, 2019-20, (2023), 2024 and 2027.

    I think that I am saying that at this staged we can only make an educated guess about what will actually take place.

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  3. Ninderthana,
    Thanks for your comment. I did some amateurish googling to see if I could find a period of a falling AMO, a rising PDO and low sun activity.
    The records don't go back as far as Dalton, but it seems the 1960's have a rough match.
    From what I can see the broad weather patterns of the 1960's were;
    Australia; good rains (especially in the West), moving to drought, especially in the East
    USA; Hurricanes early on, moving on to some very cold years
    Europe; Cold and dry
    India; Some cyclones and floods early on, moving to drought in mid-1960's.
    Southern Africa; good rains.
    ...a very slightly educated guess on the way forward . . .

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  4. Sorry about being a pest, but I am still mulling over the global weather pattern you postulate above.
    I see the Joe Bastardi comment on WUWT below suggests that the current situation is similar to the late 1950's meaning that the early 1960's patterns may be relevant for the near future;
    40. Joe Bastardi
    April 25, 2015 at 3:53 pm
    Does anyone believe in the next 20 years we will reach a tipping point of no return? Given the last 20 years I would say not. So why not let Bill Grays ideas play out and see where global “temperatures” stand by 2030. The current climate cycle is very close to the late 1950s. We have been showing that on Weatherbell constantly. We have been measuring via satellite since the flip in the PDO to warm in the late 1970s, so of course it started at a cooler point. In the late 50s we saw the same kind of thing go on as now, after the overall flip in the early 50s, there was 3 years of warmth in the PDO. When it was done, the Atlantic went into the cold AMO , so they were cold in tandem for 2 decades, almost like we have had that lead to the warmth
    Bills paper
    http://tropical.atmos.colostate.edu/Includes/Documents/Publications/gray2012.pdf
    I have stated time and time again, and showed time and time again, the drop of mixing ratios over the tropical oceans is almost a perfect fit with the PDO. We are constantly looking at temps, when the greatest warming is where its dry and cold in the N polar winters ( please see Danish site) while summers have started to cool) WATER VAPOR IS THE CLIMATE CONTROL KNOB AND SPECIFICALLY OVER THE TROPICS! The trapping hot spot theory is shot to the 4 winds when one simply watches the multi year reaction to enso events. Remember these people were pushing multiyear warm ensos, and for good reason, that would lead to their conclusion. The past 7 years overall has blown that away, and so that is why they go nuts when they see a warm event. The cooling event after this is liable to be a monster drop, and this time the Atlantic will be heading to the cold AMO. That is why you are seeing summer ice melt less and less, as that is a key idea behind the ice cap theory. This year again, is likely to be nowhere close to the death spiral years that had these people speculating about an ice free arctic as early as 2013. There seems to be an intuitive cap on temps, we now have the means to measure without all the nonsense with pre satellite normalization that goes on. It seems more obvious every day that people simply do not want to let this play out, for when we get to the end, it would have been as Bill Gray outlined years ago. And alot of people will be out of jobs and have egg on their face. Of course never underestimate the idea that it simply will be played as worse than we thought, but just later

    ReplyDelete