Earth

On this page I will have several pictures as examples of how much ash is spewed from a volcano during an eruption. As you look at each picture, like the one above. I want you to imagine a bunch of volcanoes erupting for millions and billions of years, and try to comprehend where all the toxic volcanic ash went. The picture you see above is after one volcanic eruption. The picture was taken from a helicopter, and the water that is cutting through is a stream. Notice how far this stream has cut through this volcanic ash, and how deep into the ash the stream is.

This is a picture of the volcanic ash after the Mt. St. Helen eruption. Can you spot the man standing next to the helicopter? This should give you an idea of how much ash is actually expelled during an eruption.

Now for the picture and comment, that says it all.

MSH81_dredging_toutle_river_02-05-81.jpg
In order to remove the May 18, 1980 sediment deposits, and to keep up with new sedimentation, the U.S. Army Corps of Engineers began a dredging program on the Toutle (shown here), the Cowlitz, and the Columbia Rivers. By 1987, nearly 140 million cubic yards (110 million meters) of material had been removed from the channels. This is enough material to build twelve lanes of highway, one-foot thick, from New York to San Francisco.
USGS Photograph taken on February 5, 1981, by Lyn Topinka.
Reference: http://vulcan.wr.usgs.gov/Volcanoes/MSH/SlideSet/ljt_slideset.html Copyright: http://vulcan.wr.usgs.gov/Photo/copyright_info.html

Question: Where's all the volcanic ash from all the volcanic eruptions required to make our earth, and the earth's atmosphere, over millions and billions of years?

If it can't be found on land, then it should have washed into the oceans from the millions and billions of years of rain. Which means we should have somewhere between a quarter to a half mile thick layer on the bottom of the ocean floor. So where is it?

Need more of global picture about early earth? Currently there are over 600 active volcanoes. And there are 10s of thousands inactive volcanoes. Which also means they were "all" active at one time during early earth formation. Which means that the whole earth would have been covered with volcanic ash. Not just an cover, but several hundred feet. Why? I have already shown what individual erruptions can do, Now imagine all of what thousands of them can do. Not only would they pollute the atmosphere to such a mass amount and make it impossible for life. But what would drain off into our oceans and streams would make the planets oceans and waters so toxic, no life could exist.

You don't get 10s of thousands of these volcanoes polluting the air like the picture above. To makes a planet with a clean atmosphere like the picture below.

Because if the earth can recover from 10s of thousands of errupting volcanoes, it can surely recover from the problem of global warming. Unless our atmosphere did not form, but was created. Why? All the air pollution man has ever produced does not equal one major volcanoe erruption. So if earth has a problem with our pollution, it never had 10,000 times more of it through the supposed conditions of early earth.