CrusaderFrank
Diamond Member
- May 20, 2009
- 146,624
- 69,758
- 2,330
- Thread starter
- #181
Climate "Science" 101: Excess Heat
- Thread starter CrusaderFrank
- Start date
CrusaderFrank
Diamond Member
- May 20, 2009
- 146,624
- 69,758
- 2,330
- Thread starter
- #182
How did a wisp of atmospheric CO2 warm the ocean down to 700m?
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
Has FCT spoken to you about staying on topic?
The topic you keep avoiding, where was the heat prior to heating the ocean
Frank, no one; not me nor anyone else, has ever suggested that any heat was hiding anywhere. The Earth has been accumulating heat ever since CO2 levels began rising and the oceans have absorbed most of it. There have been fluctuations due to wind and circulatory changes, ENSO and PDO changes, changes in the Meridional Overturning Current, things like that. But no heat has been hiding and no hidden heat has suddenly warmed the oceans. The warming of BTK 2013 was hypothesized to be due to circulation changes - warmed surface waters were subducted into the depths when altering wind patterns drove them against continental margins and forced them downward.
Do you understand? Do us all a favor - most especially YOU - and stop asking stupid questions.
Do you understand? Do us all a favor - most especially YOU - and stop asking stupid questions.
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
Stayed constant or declined during the pause? Let's bring back a few of those comments about reading graphs.
Not gonna fudge --- you can't read a graph. Not a one. And your memory is lousy as well since we've had this EXACT conversion TWICE before..
When did the "pause" begin? Look at the graphs for THAT PERIOD of time (i'll cheat and tell you to look ONLY above 2000 to the end)) -- and NOTICE that the RATE OF STORAGE (the slope on those graphs) actually DECLINES during the pause. That is what I meant by "the RATE" of warming declined.. It is particularly apparent in the black Upper 300 graph, but it appears in ALL of them.
So if the oceans STOLE heat out of the surface/atmos interaction during the pause -- would you expect the ocean warming to ACCELERATE or DECELERATE?
I could be a toad and insist on using the NOAA version of these graphs. The ones that DONT have phoney "volcanic signatures" showing up 700 meters deep.. But I won't. You can keep thinking this BTK study is actual data.
And I COULD also SUPPORT this concept of deep ocean warming as very delayed (retarded would be better) reaction to a warming that MIGHT have occurred even 100 years prior. Because we know that once it's stored, it tends to be very complex thermal redistribution and could take DECADES to equalize..
In the year 2000, the slope of those temperature trends INCREASE dramatically. That increase eventually falls off, but if you want to say it decreases in 2000, then you have no issue with lying.
That perturbation right at 2000 is an artifact of their modeling.. Doesn't exist in the REAL MEASURED data from NOAA. No lying involved. The slope DECREASES over the period of the pause.
Now tell us --- How did the oceans STEAL missing heat from the surface if it SLOWED the rate of it's EATING heat during the pause. ???
Still waiting to see that "REAL MEASURED data from NOAA". Got any?
flacaltenn
Diamond Member
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
Stayed constant or declined during the pause? Let's bring back a few of those comments about reading graphs.
Not gonna fudge --- you can't read a graph. Not a one. And your memory is lousy as well since we've had this EXACT conversion TWICE before..
When did the "pause" begin? Look at the graphs for THAT PERIOD of time (i'll cheat and tell you to look ONLY above 2000 to the end)) -- and NOTICE that the RATE OF STORAGE (the slope on those graphs) actually DECLINES during the pause. That is what I meant by "the RATE" of warming declined.. It is particularly apparent in the black Upper 300 graph, but it appears in ALL of them.
So if the oceans STOLE heat out of the surface/atmos interaction during the pause -- would you expect the ocean warming to ACCELERATE or DECELERATE?
I could be a toad and insist on using the NOAA version of these graphs. The ones that DONT have phoney "volcanic signatures" showing up 700 meters deep.. But I won't. You can keep thinking this BTK study is actual data.
And I COULD also SUPPORT this concept of deep ocean warming as very delayed (retarded would be better) reaction to a warming that MIGHT have occurred even 100 years prior. Because we know that once it's stored, it tends to be very complex thermal redistribution and could take DECADES to equalize..
In the year 2000, the slope of those temperature trends INCREASE dramatically. That increase eventually falls off, but if you want to say it decreases in 2000, then you have no issue with lying.
That perturbation right at 2000 is an artifact of their modeling.. Doesn't exist in the REAL MEASURED data from NOAA. No lying involved. The slope DECREASES over the period of the pause.
Now tell us --- How did the oceans STEAL missing heat from the surface if it SLOWED the rate of it's EATING heat during the pause. ???
Let's see your data.
WTF you talking about Wilbur ?? We're talking about reading an f-ing graph... What data do you need?
Do you know what the slope of a line is? Do you know the difference between DEcelerating and ACcelerating and what that looks like on a graph? Of course you don't. Or wouldn't have asked for "my data"...
flacaltenn
Diamond Member
Don't care about Citations.. I care about a paper that reveals their methods and data.. And EXPLAINS the plausible mechanism for heating to 1000 meters in short periods of time.
flacaltenn
Diamond Member
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
Stayed constant or declined during the pause? Let's bring back a few of those comments about reading graphs.
Not gonna fudge --- you can't read a graph. Not a one. And your memory is lousy as well since we've had this EXACT conversion TWICE before..
When did the "pause" begin? Look at the graphs for THAT PERIOD of time (i'll cheat and tell you to look ONLY above 2000 to the end)) -- and NOTICE that the RATE OF STORAGE (the slope on those graphs) actually DECLINES during the pause. That is what I meant by "the RATE" of warming declined.. It is particularly apparent in the black Upper 300 graph, but it appears in ALL of them.
So if the oceans STOLE heat out of the surface/atmos interaction during the pause -- would you expect the ocean warming to ACCELERATE or DECELERATE?
I could be a toad and insist on using the NOAA version of these graphs. The ones that DONT have phoney "volcanic signatures" showing up 700 meters deep.. But I won't. You can keep thinking this BTK study is actual data.
And I COULD also SUPPORT this concept of deep ocean warming as very delayed (retarded would be better) reaction to a warming that MIGHT have occurred even 100 years prior. Because we know that once it's stored, it tends to be very complex thermal redistribution and could take DECADES to equalize..
In the year 2000, the slope of those temperature trends INCREASE dramatically. That increase eventually falls off, but if you want to say it decreases in 2000, then you have no issue with lying.
That perturbation right at 2000 is an artifact of their modeling.. Doesn't exist in the REAL MEASURED data from NOAA. No lying involved. The slope DECREASES over the period of the pause.
Now tell us --- How did the oceans STEAL missing heat from the surface if it SLOWED the rate of it's EATING heat during the pause. ???
Still waiting to see that "REAL MEASURED data from NOAA". Got any?
Done this 3 times now BullWinkle. I can't keep feeding you.. You're not following much..
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
Stayed constant or declined during the pause? Let's bring back a few of those comments about reading graphs.
Not gonna fudge --- you can't read a graph. Not a one. And your memory is lousy as well since we've had this EXACT conversion TWICE before..
When did the "pause" begin? Look at the graphs for THAT PERIOD of time (i'll cheat and tell you to look ONLY above 2000 to the end)) -- and NOTICE that the RATE OF STORAGE (the slope on those graphs) actually DECLINES during the pause. That is what I meant by "the RATE" of warming declined.. It is particularly apparent in the black Upper 300 graph, but it appears in ALL of them.
So if the oceans STOLE heat out of the surface/atmos interaction during the pause -- would you expect the ocean warming to ACCELERATE or DECELERATE?
I could be a toad and insist on using the NOAA version of these graphs. The ones that DONT have phoney "volcanic signatures" showing up 700 meters deep.. But I won't. You can keep thinking this BTK study is actual data.
And I COULD also SUPPORT this concept of deep ocean warming as very delayed (retarded would be better) reaction to a warming that MIGHT have occurred even 100 years prior. Because we know that once it's stored, it tends to be very complex thermal redistribution and could take DECADES to equalize..
In the year 2000, the slope of those temperature trends INCREASE dramatically. That increase eventually falls off, but if you want to say it decreases in 2000, then you have no issue with lying.
That perturbation right at 2000 is an artifact of their modeling.. Doesn't exist in the REAL MEASURED data from NOAA. No lying involved. The slope DECREASES over the period of the pause.
Now tell us --- How did the oceans STEAL missing heat from the surface if it SLOWED the rate of it's EATING heat during the pause. ???
Let's see your data.
WTF you talking about Wilbur ?? We're talking about reading an f-ing graph... What data do you need?
Do you know what the slope of a line is? Do you know the difference between DEcelerating and ACcelerating and what that looks like on a graph? Of course you don't. Or wouldn't have asked for "my data"...
How very convenient that AFTER you claim the slope decreases with the pause (which began in 1998) you suggest that you were actually talking about other data (which is the data I wanted to see since this data doesn't do what you say it does) and then you go on to claim its an artifact.
What crap. Your NOAA/NESDIS data only contain one of the three sets BTK shows and it displays a similar launch upward between 2001 and 2004.
Last edited:
CrusaderFrank
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- May 20, 2009
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- #189
So the must be coming from the interior of the Earth because, clearly this "Excess heat" was not registering in the atmosphere. Your Cult must be suggesting that CO2 is causing the Earth interior to run hotter or I just wonder why you'd include the oceans in your calculations
Votto
Diamond Member
- Oct 31, 2012
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You got it all wrong Frank, the Earth's battery is running low.
The Earth s Battery Is Running Low
When is the last time Mother Earth changed out the battery?
Votto
Diamond Member
- Oct 31, 2012
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You got it all wrong Frank, the Earth's battery is running low.
The Earth s Battery Is Running Low
When is the last time Mother Earth changed out the battery?
CrusaderFrank
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- May 20, 2009
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- #193
What does that have to do with your failed AGW Theory?
No the treehugger Millennial environmentalists who won't let the forest service clear out underbrush cause forest fires.
flacaltenn
Diamond Member
The slope DOES decrease during the pause. Can't help you with your complete inability to pull inferences out of visual data.. In order to "decrease during the pause" LOGICALLY it would have had to be LARGER going into the pause. OMG.. Hopeless.
IN EITHER data set.. And if you can't see how much more prevalent all those modeling artifacts are in BTK -- that's also a graph-reading problem..
If you can't answer the question...
Is the SLOPE higher from 1992 to 2000 --- or from 2002 - 2010 -- you shouldn't be posting data and graphs..
mamooth
Diamond Member
Which explains the record fires in Alaska. We used to clear the brush from all of Alaska, and now we don't.
Or wait, the Alaskan case kind of totally debunks the "liberals won't let us clear the brush!" kookery, being nobody ever cleared brush in Alaska.
CrusaderFrank
Diamond Member
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- #197
What's the "Average temperature" of the Atlantic Ocean?
jc456
Diamond Member
- Dec 18, 2013
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wow, you really have no thought process. Logic escapes you badly.
So which is it, does man cause fires or does nature? you're now all over the place. Or are you saying that there were never fires before humans?
Which then trickles down to the thought, if no one is present when a tree falls in the woods does it make a sound?
Oh, and I'm still waiting for that apology liar.
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Old Rocks
Diamond Member
Enough of that God damned lie. The Forest Service cannot clear out underbrush and thin because every year, just as we are doing this week, the Forest Service runs out of money allotted to fighting fires, and has to pull out money from other budgets, the first being forest management.
All These Fires Are Burning Through Firefighters Budgets WIRED
THE WHOLE WEST is freckled with fires. And in between each fire, the land is dry and hot as hell. As of yesterday, six million acres of US land has caught fire in 2015. But it’s not the burning land that has firefighters anxious. It’s that the money we’re throwing at these fires is burning up, and will soon come out of the budget for preventing future fires.
The vicious cycle was outlined Wednesday in a report from the US Forest Service. In the past 20 years, the agency’s firefighting budget has more than tripled, which means less money for everything else the service does. And even that budget swell isn’t enough fuel for the firefighting: Many years—including the past three—fire suppression has gone over its already-inflated budget, burning through money for other programs.
And the fire season has just begun.
jc456
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and who is starting all these fires? Man?
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