Transcribed by Bert.
Payday
[25 July 2015 Part 3]
(22:09 mark)
iON: Bacteria and cells, bacteria can be cells also, but the bacteria - we aren’t against the bacteria. That’s fine but in your body of a gram-positive or gram-negative and the bacteria in the GI tract. It can survive, but it won’t be gram-negative. It won’t matter. It will just be a symbiont, it won’t be affected. That’s the point as Dr. Dean would say, “You can have that but you won’t have it as a disease”.
Caller: So, we don’t have gram-negative cells per se that will be consumed?
iON: You do not, no. But now, when the AL2SO4 kicks up, you’re going to have more nitrogen in your veins. So if you do a blood gas, you’re going to know it. That’s going to be… ah, it’ll take a bit of getting used to.
Dr. Dean: Let’s follow-up on that. iON, where are we at with the AL2SO4? What percentage of that new environment constituent chemical is making up our present environment?
iON: We would probably say, “Too near home”.
Dr. Dean: “Too near home”?
iON: Yeah, you’re close.
Dr. Dean: Did I get that right?
iON: You did! You did!
Dr. Dean: So, we’re getting close. Can I ask you about percentages? Like, is it 70%?
iON: Uh-uh! No, we can’t just yet because the “Prince of Tides” has not spoken.
Dr. Dean: So, we’re waiting for the red tide before the next percentage.
iON: Declaration, yes!
Dr. Dean: So, we’re waiting for the red tide. Was what happened on that beach in Providence, was that related to some AL2SO4 event?
iON: Yes, and it’s also a working example of negative pH.
Bob: So, AL2SO4... - that long formula - refers to negative pH, Carolyn? Is that in there?
Dr. Dean: It will be in a negative pH environment.
iON: For God's sake, don’t tell anybody, for sure.
Bob: No!
Payday
[25 July 2015 Part 3]
(22:09 mark)
iON: Bacteria and cells, bacteria can be cells also, but the bacteria - we aren’t against the bacteria. That’s fine but in your body of a gram-positive or gram-negative and the bacteria in the GI tract. It can survive, but it won’t be gram-negative. It won’t matter. It will just be a symbiont, it won’t be affected. That’s the point as Dr. Dean would say, “You can have that but you won’t have it as a disease”.
Caller: So, we don’t have gram-negative cells per se that will be consumed?
iON: You do not, no. But now, when the AL2SO4 kicks up, you’re going to have more nitrogen in your veins. So if you do a blood gas, you’re going to know it. That’s going to be… ah, it’ll take a bit of getting used to.
Dr. Dean: Let’s follow-up on that. iON, where are we at with the AL2SO4? What percentage of that new environment constituent chemical is making up our present environment?
iON: We would probably say, “Too near home”.
Dr. Dean: “Too near home”?
iON: Yeah, you’re close.
Dr. Dean: Did I get that right?
iON: You did! You did!
Dr. Dean: So, we’re getting close. Can I ask you about percentages? Like, is it 70%?
iON: Uh-uh! No, we can’t just yet because the “Prince of Tides” has not spoken.
Dr. Dean: So, we’re waiting for the red tide before the next percentage.
iON: Declaration, yes!
Dr. Dean: So, we’re waiting for the red tide. Was what happened on that beach in Providence, was that related to some AL2SO4 event?
iON: Yes, and it’s also a working example of negative pH.
Bob: So, AL2SO4... - that long formula - refers to negative pH, Carolyn? Is that in there?
Dr. Dean: It will be in a negative pH environment.
iON: For God's sake, don’t tell anybody, for sure.
Bob: No!
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