The IPCC writes in the “leaked” SPM

It is very likely that oceanic uptake of anthropogenic CO2 results in acidification of the ocean. The pH 44 (see 7) of seawater has decreased by 0.1 since the beginning of the industrial era, corresponding to a 45 26% increase in hydrogen ion concentration. {3.8.2; Box 3.2; FAQ 3.2}

later they say:

Earth System Models project a worldwide increase in ocean acidification for all RCP scenarios. The 1 corresponding decrease in surface ocean pH by the end of 21st century is 0.065 (0.06 to 0.07)12 for 2 RCP2.6, 0.145 (0.14 to 0.15) for RCP4.5, 0.203 (0.20 to 0.21) for RCP6.0, and 0.31 (0.30 to 0.32) for 3 RCP8.5 (see Figures SPM.6 and SPM.7). {6.4.4}

Here are the figures cited, SPM6C and SPM7D:

Gosh, just look at all that scary, red, burning, “acid”. What they fail to note is that the oceans still haven’t turned acidic at the end of their model projections. The pH has to be below 7.0, and a drop to 7.75 by 2100 still doesn’t qualify by the way the pH scale works. Note also, like the Richter earthquake scale, the pH scale is logarithmic, not linear, a drop of 1 unit in pH equals a ten-fold increase in acidity. So, there would have to be an acceleration for their model scenarios to become true. Note the normal ranges of for rainwater and streamwater flowing into the oceans are far lower than the model projections:

Meanwhile, while the IPCC is “virtually certain” a call goes out via the X-prize to design a pH meter actually capable of monitoring the projected change. The X Prize Foundation announced a $2 million competition September 9th to spur innovation in the equipment used to measure “ocean acidification”. Here is the announcement. Note what I highlighted in red.

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Overview

The Challenge: Improve Our Understanding of Ocean Acidification

The Wendy Schmidt Ocean Health XPRIZE is a $2 million global competition that challenges teams of engineers, scientists and innovators from all over the world to create pH sensor technology that will affordably, accurately and efficiently measure ocean chemistry from its shallowest waters… to its deepest depths.

There are two prize purses available (teams may compete for, and win, both purses):

A. $1,000,000 Accuracy award – Performance focused ($750,000 First Place, $250,000 Second Place): To the teams that navigate the entire competition to produce the most accurate, stable and precise pH sensors under a variety of tests.

B. $1,000,000 Affordability award – Cost and Use focused ($750,000 First Place, $250,000 Second Place): To the teams that produce the least expensive, easy-to-use, accurate, stable, and precise pH sensors under a variety of tests.

The Need for the Prize

Problem

Our oceans are currently in the midst of a silent crisis. Rising levels of atmospheric carbon are resulting in higher levels of acidity. The potential biological, ecological, biogeochemical and societal implications are staggering. The absorption of human CO2 emissions is already having a profound impact on ocean chemistry, impacting the health of shellfish, fisheries, coral reefs, other ecosystems and our very survival.

The Market Failure

While ocean acidification is well documented in a few temperate ocean waters, little is known in high latitudes, coastal areas and the deep sea, and most current pH sensor technologies are too costly, imprecise, or unstable to allow for sufficient knowledge on the state of ocean acidification.

Solution

Breakthrough sensors are urgently needed for scientists, managers and industry to turn the tide on ocean acidification and begin healing our oceans. A competition to incentivize the creation of these sensors for the study and monitoring of ocean acidification’s impact on marine ecosystems and ocean health will drive industry forward by providing the data needed to take action and produce results.

Impact

Making a broad impact—one that reaches far beyond new sensing technologies—is critical to the success of the prize. It begins with a breakthrough pH sensor that will catalyze our ability to measure—and thus respond to—ocean acidification.

Source: http://oceanhealth.xprize.org/competition-details/overview

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In the NBC News story I cited about the announcement there was this:

“It is only in the last decade where scientists have begun to study ocean acidification, so our knowledge is really limited still,” Paul Bunje, a senior director with the X Prize Foundation who is the lead scientist behind the ocean health competition, told NBC News.

“But we do know that we don’t know enough, and we don’t have the tools needed to even begin to measure it sufficiently — much less to begin to respond, to adapt to it, to implement local policies that might allow ocean acidification to be less harmful,” he said.

…

The open ocean is acidifying at about .02 pH units per decade, according to according to Richard Feeley, a marine scientist and leading researcher on ocean acidification at NOAA’s Pacific Marine Environmental Laboratory in Seattle. “That means that you have to have an instrument that you can rely on to be both precise and accurate for a very, very long period of time, so that you can actually see that signal,” he told NBC News.

So, are the IPCC models based on uncertain measurements and an assumed trend? It sure seems so.

It’s like a bad acid trip.