This story began with a loose end. There was a 6-year cycle and the stock for Norwegian Arctic cod. From the laws of cybernetics, I knew that this period must have a source outside the cod stock. So, where in nature is this source? It turned out to be a biological resonance period of 18.6/3 years with a temperature cycle of 18.6 years in the Barents Sea. It took time to follow the thread further. It turned out that the temperature cycle of 18.6 years was governed by a tidal wave of 18.6 years. A tidal wave that was governed by a periodic change in the Earth’s rotation of 18.6 years. The change in the Earth’s rotation was governed by a Lunar Node cycle of 18.6 years. In other words, it is the moon that is the first cause of periodic changes in the cod stock.
Figure 1 The Earth’s elliptical plane towards the Sun and the Moon’s elliptical plane towards the Earth.
A Lunar node (LN) is the intersection point between the Moon’s elliptical plane against the Earth’s elliptical plane towards the Sun. This crossing point is called a Lunar node. The node rotates with a Lunar node cycle (LNC) of 18.61 years. The Lunar nodes are known as the north and south nodes. The nodes are points in space where two different paths intersect.
The Earth’s axis has an angle of 23.44° relative to the Earth’s elliptical plane towards the Sun. As the intersection points rotate around the Earth’s plane towards the Sun, the angle between the direction of the Earth’s axis and the direction of the Moon’s elliptical plane towards the Earth changes. The angle between the Earth’s axis and the moon’s plane changes by +/- 5.14 degrees over the period of 18.6 years.
A change in the angle of the Earth’s axis is a movement in the direction of the Earth’s axis relative to a star. This movement is called the nutation of the earth’s axis. The nutation causes a disturbance in circulating ocean currents, which ultimately affects the climate.
Lunar cycle movement
Figure 2. Lunar node cycle variations for the years: t = 1900… 2000.
The angle between the Earth’s axis and the planes of the Moon had a maximum at the year 8 November 1987. This figure shows how the angle between the Earth-Moon-plane and the Earth-Sun-plane changes between a maximum and a minimum.
How Lunar cycle affects climate
Lunar cycle has a significant impact on global climate change. My studies show that LNC produces a spectrum of periodic changes in the Earth’s axis’ nutation. This spectrum causes periodic changes in ocean currents and affects the Arctic and global climate. If one is to understand the cause of global climate change, one must understand the impact of the Luna node cycle.