link to Home Page

Zetas RIGHT Again!

Prior to July, 1995 ZetaTalk stated that Life on Mars had existed prior
to the giant hominoids from Planet X pouring the Mars oceans into
SUBTERRANEAN CAVITIES while washing ore during their mining operations. 

    Mars met its demise as a result of visitors from [Planet X], 
    who set up mining operations on Mars in preference to 
    Earth where large carnivorous mammals roamed about 
    in great numbers. [Planet X] has no such carnivores on land, 
    and as large and muscular as these giant hominoid visitors 
    are, they quaked at the thought. Where the atmosphere on 
    Mars was thin, it was ample, so the visitors set about using 
    what water resources they could muster to wash the ore 
    they were after. In so doing they sought to control the 
    run-off on the relatively flat surface of Mars, and did so 
    in a thoughtless manner by directing waste water down a 
    culvert. Thus precious water increasingly was sent 
    underground, and a chain of events was set in motion that 
    could not be reversed. The surface of Mars cooled as the 
    atmosphere thinned, and the freezing surface accelerated 
    this process.
        ZetaTalk™: Life on Mars
            (http://www.zetatalk.com/worlds/w09.htm)

On Dec 10, 1999, Science Magazine and the Brown University News Service
reported definitive evidence of ancient oceans on Mars, and on June 12,
2000 NASA confirmed this.

    Science Magazine, Dec 12, 1999
    Possible Ancient Oceans on Mars: 
    Evidence from Mars Orbiter Laser Altimeter Data

        High-resolution altimetric data define the detailed 
        topography of the northern lowlands of Mars, and a 
        range of data is consistent with the hypothesis that a 
        lowland-encircling geologic contact represents the 
        ancient shoreline of a large standing body of water 
        present in middle Mars history.

    Brown Geologist finds Evidence Supporting Ancient Ocean on Mars
    News Service, Brown University
    For Immediate Release: December 9, 1999

        According to Head, the team has found four types of 
        quantitative evidence that points to the possible ancient
        ocean:
        -  The elevation of a particular contact (the border 
           between two geological units, such as where one type 
           of surface meets another) is nearly a level surface, 
           which might indicate an ancient shoreline. 
        -  The topography is smoother below this possible 
           ancient shoreline than above it, consistent with 
           smoothing by sedimentation. 
        -  The volume of the area below this possible shoreline
           is within the range of previous estimates of water on
           Mars. 
        -  A series of terraces exists parallel to the possible 
           shoreline, consistent with the possibility of receding
           shorelines.

    NASA finds evidence of Water on Mars
    Spaceflight Now, June 21, 2000

        Confirming what scientists had long theorized, NASA 
        will announce Thursday that water has been found on 
        Mars. The Mars Global Surveyor spacecraft currently 
        orbiting the planet made the detection. MGS was 
        launched in 1996 to map the Martian surface. Among 
        the news reports circulating was a BBC story. The 
        report today said evidence of liquid surface water was 
        detected "in the central part of the mighty Valles 
        Marineris, the 6,000 km long (3,700 miles) canyon 
        that scars the Martian surface." Images taken by MGS 
        show blackish, or dirty, water seeping from beneath 
        the surface in an area of layered terrain and pooling.

And now, Zetas RIGHT Again!

    Underground Ice Reportedly Detected on Mars
    Reuters, May 26 2002 9:49PM

        NASA's Mars Odyssey spacecraft has reportedly 
        detected water ice under the surface of the red planet, 
        according to scientific papers to be published this week, 
        a finding that could be a giant step in exploration of Mars.
        Many astronomers believe Mars used to have quantities 
        of liquid water on its surface, but they have never agreed 
        on where the water went. Research to be published in
        this week's edition of the journal Science may help answer
        that question. Liquid water is seen as a prerequisite for 
        Earth-type life on a planet. Underground water ice 
        could be a key to understanding how Mars developed 
        and could inform future exploratory missions. While 
        full technical details will not be made public until 
        Thursday, the detection of sub-surface water ice on 
        Mars is just what Mars Odyssey was sent into space to 
        investigate. Launched in April 2001, Odyssey began its 
        primary science mission last February by starting to map
        the amount and distribution of chemical elements and 
        minerals on Mars' surface. 
            (http://my.aol.com/news/news_story.psp?type=1&cat=0200&id=0205262149551577)