BLUE ZONES CHINA
by Henryk Szubinski
images from the coastline
from the Vitnameese plains to the Southern Hills to the Chinese plains and the Coran Peninsula ,through the Manchuria plains.
The focus is on the blue details of blue water effects so only those images are shown in no special way.
similarity to views from space of the clouds and ocean blueness as though it were reflected or focused by lensing .
NEW DATA;
Over millions of years, the shore has developed the appearance of the milky way at night along the shore. Possibly because of the Shale and Sandstone and salt being = in density to water as 2H+ and oxygen that has similar density of the H+ in space as related to objects such as planets having theese components.
Could also be that when you look at the blue sky there are holes between planets and stars in the backgrond that play an important role in that the polarization of light into blue spectrum functions better when the background distance of empty space has some extra advantage for the polarized light displaceing forwards with greter space freedom and greater mass centerability .
red and green are complementary colors . The Yellow beach brightens the zone.
beach sand washed away due to low sedementary strength. Most of the coastlines conduct pollution this way.
Blotches of blue and white which when seen close up represent flat stones maybe GRAY SHALE.
More tendencies to the reflection of the sky + the breakage of waves.
small flat stone fragments that function as purosity of the ocean with oxygen and light reflection more of a stagnant water feeling.
In places where there is much sediment flow with the water currents along the Chineese coast line, this zone seems to be seeping clean or settled water.As though the water pressure was invariant.
thin spikes of sedimentary layers in the middle of the image that indicate faster water erosion.
most of Chinas coastline looks like this with muddy water and clearer blueness out at sea.
Gray shale and red sand stone or bauxite that mix intot he ocean making green underwater zones.
from www.reference.com
Because both shale and sandstone are the same density thay might function as having the same buoyancy similar to the density of oxygen and 2 hydrogens in water.
Shale is formed when silt and clay-sized minerals compact together over time. Slate must be composed of at least 67 percent clay. The remaining part of shale includes larger particles of silt or gravel, minerals and organic matter. Sandstone is made of sand-sized mineral particles, most often sand itself. Along with the sand, there is a material in the sediment known as the matrix and also an additional material that holds all the grains together.
Together with salt the density equals the ability to be dissolved into the ocean water at a faster rate and the particles of shale and sand stone could be reflective.
from www.reference.com
Because both shale and sandstone are the same density thay might function as having the same buoyancy similar to the density of oxygen and 2 hydrogens in water.
Shale is formed when silt and clay-sized minerals compact together over time. Slate must be composed of at least 67 percent clay. The remaining part of shale includes larger particles of silt or gravel, minerals and organic matter. Sandstone is made of sand-sized mineral particles, most often sand itself. Along with the sand, there is a material in the sediment known as the matrix and also an additional material that holds all the grains together.
Together with salt the density equals the ability to be dissolved into the ocean water at a faster rate and the particles of shale and sand stone could be reflective.
close up you can see the whole ocean filled with small fishing barges. The main diet consits of aquatic life in these places.
The underwater topography is swirly and mostly obstructs any water currents, so the sediments from the ocean floor usually would get stuck on their way to the coastline.
So this would be a barrier for most of the water scillicate mixing to remain close to the coastline.
So this would be a barrier for most of the water scillicate mixing to remain close to the coastline.
More places where fishing is the main activity.
strange flakes or just cloud reflection?
close up the flakes appear as flattened shale that has it's depth at a moderate temperature of the water that creates these large sized flattened rocks to create a greater visability underneath the water. Probably the type of SHALE that gets the water to have less salt or the type of water that has no minerals left in it= pure water in terms of blue zone requirements, the water may be bitter or very clear. All the sediments have dropped down to the ocean floor.
fractured rock as visable only from space where the details show how the granite probably fractures outwards to the ocean and has some quartz to reflect the sun light with.
Prominet blue cobalt color.
Cobalt needs a lot of other elements to make it blue. But the Cobalt that had these elements may long ago have been eroded into the ocean and has no longer the elemental composition of it's previous mix. A time vector in reverse and then forwards instead of the forwards and then the result.
This could be true of every BLUE COLOR that is vaisable from space as well as blue zones.
Cobalt needs a lot of other elements to make it blue. But the Cobalt that had these elements may long ago have been eroded into the ocean and has no longer the elemental composition of it's previous mix. A time vector in reverse and then forwards instead of the forwards and then the result.
This could be true of every BLUE COLOR that is vaisable from space as well as blue zones.
SEA SPARKLE, small fragements of rock that appear to be floating around in the ocean but are probably parts of the ocean where the wave level washes below and then above.
Fishing barges and their shadows on the ocean floor.Yo can obsrve that the distance of a barge to the shore = the length of the shadow underwater as it's depth. As a type of polarization, this may work to define blue zones.
more blue and white cosmic noise, similar to a horizon of a blue galaxy.
More underwater fish faming that stretch underwater for long distances.