I was there again on the wave cut platform to see how high the waves broke on the very highest tide for this month, and also to exercise. (During this Corona virus pandemic we are allowed outside to exercise.)

The photograph was taken by Caroline Forsyth yesterday at 7.23 am on 7th April 2020.

I’m standing on the wave cut platform at the time of the highest tide, yet the waves don’t reach anywhere near the cliff face.

Once upon a time when sea levels were higher, I would have been waist-deep in surf. I am referring to a period just a few thousand years ago, known as the Holocene High Stand.

The waves would have pounded that cliff face, occasionally bringing down great lumps of rock from above.

As the cliff-face retreated landward, the platform became wider. That is why this type of formation is called a Wave Cut Platform.

There are similar geological formations all around the world.

The peer-reviewed geological literature explains that they are evidence sea levels have been falling, not rising, over the last few thousand years. (Some relevant technical references are listed in the postscript.)

Of course, the height of the sea tide varies with the 18.6 year lunar declination cycle, and most obviously varies with the moon’s monthly cycle about the Earth. Yesterday was the highest tide and it occurred on the morning the day before the Full Moon.

Of the three Super Moons this year, tonight’s will come closest to Earth and thus appear the largest.

I am going to be out exercising again tonight, and watching the Full Moon come up.

For the Pagan, the Full Moon represents a time to be grateful. I am grateful that today my daughter is released from two weeks of mandatory quarantine having returned exactly two weeks ago from New York. I am grateful.

**** Postscript

If it is the case that failed scientific paradigms are not disproven, but rather they are replaced. We need a new theory of climate, and it could begin with understanding the sea tides and how they vary with the weather during each calendar year, and also the climate over millennia.

Howard Brady wrote to me a year or so ago:

“There is evidence of a gradual fall (not rise) from a high sea level stand between 8000 and 2000 BP. Such evidence comes from an increasing number of peer-reviewed articles describing evidence of this high sea level stand and its decline along the coasts of Australia, South Africa, South America, South Korea, and Vietnam.

There is increasing evidence that such a wide occurrence of a high sea level stand, especially in the Southern Hemisphere, cannot be interpreted as due to crustal movements (Glacial Isostatic Adjustments -GIAs) in different continents at the same time as these areas did not experience any significant glacial or ice crustal loading during the last ice age advances.

Basically, there is now so much data on this fall in sea level from a high-level stand that the GIAs quoted by Dutton and Lambeck 2012 should be abandoned. A few references to peer reviewed articles describing a high sea level stand in the HTM and the fall in sea-level from 8000 -2000 BP are listed below. There is no justification for any glacio-eustatic uplift since 8000 BP that stopped (for some unknown reason about 2000 BP) in regions that did not experience any ice loading during the last glaciation.

Accordi.A, Carbone, F 2016. Evolution of the siliciclastic-carbonate shelf system of the northern Kenyan coastal belt in response to Late Pleistocene-Holocene relative sea level changes. Journal of African Earth Sciences. Volume 123, November 2016, Pages 234-257

Baker,R.G.V., Haworth,R.J; 2000. Smooth or oscillating late Holocene sea-level curve? Evidence from the palaeo-zoology of fixed biological indicators in east Australia and beyond. Marine Geology 163, 367-386.

Baker,R.G.V., Haworth,R.J., Flood,P.G; 2001. Warmer or Cooler late Holocene palaeoenvironments? Interpreting south-east Australian and Brazilian sea level changes using fixed biological indicators and their d18 Oxygen composition. Palaeogeography, Palaeoclimatology, Palaeoecology 168. 249-272.

Baker,R.G.V., Haworth,R.J., Flood,P.G; 2001. Inter-tidal fixed indicators of former Holocene sea levels in Australia; a summary of sites and a review of methods and models. Quaternary International 83-85. 257-273.

Baker,R.G.V., Haworth,R.J., Flood,P.G; 2005.An Oscillating Holocene Sea-level? Revisiting Rottnest Island, Western Australia, and the Fairbridge Eustatic Hypothesis. Journal of Coastal Research, Special Issue no.42.

Bracco,B. et al; 2014. A reply to “Relative sea level during the Holocene in Uruguay. Palaeogeography, Palaeoclimatology, Palaeoecology.Volume 401.

Bradley, S, Milne,G, Horton,B, Zong,Y 2016. Modelling sea level data from China and Malay-Thailand to estimate Holocene ice-volume equivalent sea level change. Quaternary Science Reviews 137:54-68

Chiba,T et al;, 2016. Reconstruction of Holocene relative sea-level change and residual uplift in the Lake Inba area, Japan. Palaeogeography, Palaeoclimatology, PalaeoecologyVolume 441, Part 4,Pages 982-996

Clement, A, Whitehouse,P, Sloss,S 2015. An examination of spatial variability in the timing and magnitude of Holocene relative sea-level changes in the New Zealand archipelago. Quaternary Science Reviews. Volume 131, Part A. January 2016, Pages 73-101

Haworth,R.J., Baker,R.G.V., Flood,P.G; 2001. Predicted and observed Holocene sea-levels on the Australian coast: what do they indicate about hydrostatic models in far field sites? Journal of Quaternary Research 17. 5-6.

Lee, S., Currell. M, Cendon, D. 2015. Marine water from mid-Holocene sea level highstand trapped in a coastal aquifer: Evidence from groundwater isotopes, and environmental significance. Science of The Total Environment. Volume 544. February 2016, Pages 995-1007

Lunning,S, Vahrenholt, F. Im südlichen Afrika lag der Meeresspiegel vor 5000 Jahren um 3 m höher als heute- Kategorien: Allgemein, News/Termine.25. Juni 2018 | 07:30

Oliver and Terry, 2019. Relative sea-level highstands in Thailand since theMid-Holocene based on 14C rock oyster chronology. Palaeogeography, Palaeoclimatology, Palaeoecology,Volume 517. Pages 30-38

Prieto,A. Peltier, W. 2016. Relative sea-level changes in the Rio de la Plata, Argentina and Uruguay: A review. Quaternary International.

Sloss, Craig R,: 2005. Holocene sea-level change and the amino-stratigraphy of wave-dominated barrier estuaries on the southeast coast of Australia, PhD thesis, School of Earth and Environmental Sciences, University of Wollongong, 20. http://ro.uow.edu.au/theses/447.

Sloss, C.R, Murray-Wallace,C.V, Jones.B.G; (2007). Holocene sea-level change on the southeast coast of Australia: a review. The Holocene 17, 7. 999-1014.

Strachan K, et al;, 2014. A late Holocene sea-level curve for the east coast of South Africa. S. Afr. j. sci. vol.110 n.1-2