One of my Italian readers sent me the following "horror chart". (Last I checked, it's not Halloween.)

I mean, people are selling these rainbow sunglasses.

The dataset behind the chart is the market share of steel production by country in 1992 and in 2014. The presumed story is how steel production has shifted from country to country over those 22 years.

Before anything else, readers must decipher the colors. This takes their eyes off the data and on to the color legend placed on the right column. The order of the color legend is different from that found in the nearest object, the 2014 donut. The following shows how our eyes roll while making sense of the donut chart.

It's easier to read the 1992 donut because of the order but now, our eyes must leapfrog the 2014 donut.

This is another example of a visualization that fails the self-sufficiency test. The entire dataset is actually printed around the two circles. If we delete the data labels, it becomes clear that readers are consuming the data labels, not the visual elements of the chart.

The chart is aimed at an Italian audience so they may have a patriotic interest in the data for Italia. What they find is disappointing. Italy apparently completely dropped out of steel production. It produced 3% of the world's steel in 1992 but zero in 2014.

Now I don't know if that is true because while reproducing the chart, I noticed that in the 2014 donut, there is a dark orange color that is not found in the legend. Is that Italy or a mysterious new entrant to steel production?

One alternative is a dot plot. This design accommodates arrows between the dots indicating growth versus decline.

In a rich dataset, it's hard to convey all the interesting insights on a single chart. Following up on the previous post, I looked further at the wealth distribution dataset. In the previous post, I showed this chart, which indicated that the relative wealth of the super-rich (top 1%) rose dramatically around 2011.

As a couple of commenters noticed, that's relative wealth. I indiced everything to the Bottom 50%.

In this next chart, I apply a different index. Each income segment is set to 100 at the start of the time period under study (2000), and I track how each segment evolved in the last two decades.

This chart offers many insights.

The Bottom 50% have been left far, far behind in the last 20 years. In fact, from 2000-2018, this segment's wealth never once reached the 2000 level. At its worst, around 2010, the Bottom 50% found themselves 80% poorer than they were 10 years ago!

In the meantime, the other half of the population has seen their wealth climb continuously through the 20 years. This is particularly odd because the major crisis of these two decades was the Too Big to Fail implosion of financial instruments, which the Bottom 50% almost surely did not play a part in. During that crisis, the top 50% were 30-60% better off than they were in 2000. Is this the "trickle-down" economy in which losses are passed down (but gains are passed up)?

The chart also shows how the recession hit the bottom 50% much deeper, and how the recovery took more than a decade. For the top half, the recovery came between 2-4 years.

It also appears that top 10% are further peeling off from the rest of the population. Since 2009, the top 11-49% have been steadily losing ground relative to the top 10%, while the gap between them and the Bottom 50% has narrowed.

***

This second chart is not nearly as dramatic as the first one but it reveals much more about the data.

This chart from Business Insider caught my attention recently. (link)

There are various things they did which I like. The use of color to draw a distinction between the top 3 lines and the line at the bottom - which tells the story that the bottom 50% has been left far behind. Lines being labelled directly is another nice touch. I usually like legends that sit atop the chart; in this case, I'd have just written the income groups into the line labels.

Take a closer look at the legend text, and you'd notice they struggled with describing the income percentiles.

This is a common problem with this type of data. The top and bottom categories are easy, as it's most natural to say "top x%" and "bottom y%". By doing so, we establish two scales, one running from the top, and the other counting from the bottom - and it's a head scratcher which scale to use for the middle categories.

The designer decided to lose the "top" and "bottom" descriptors, and went with "50-90%" and "90-99%". Effectively, these follow the "bottom" scale. "50-90%" is the bottom 50 to 90 percent, which corresponds to the top 10 to 50 percent. "90-99%" is the bottom 90-99%, which corresponds to the top 1 to 10%. On this chart, since we're lumping the top three income groups, I'd go with "top 1-10%" and "top 10-50%".

***

The Business Insider chart is easy to mis-read. It appears that the second group from the top is the most well-off, and the wealth of the top group is almost 20 times that of the bottom group. Both of those statements are false. What's confusing us is that each line represents very different numbers of people. The yellow line is 50% of the population while the "top 1%" line is 1% of the population. To see what's really going on, I look at a chart showing per-capita wealth. (Just divide the data of the yellow line by 50, etc.)

For this chart, I switched to a relative scale, using the per-capita wealth of the Bottom 50% as the reference level (100). Also, I applied a 4-period moving average to smooth the line. The data actually show that the top 1% holds much more wealth per capita than all other income segments. Around 2011, the gap between the top 1% and the rest was at its widest - the average person in the top 1% is about 3,000 times wealthier than someone in the bottom 50%.

This chart raises another question. What caused the sharp rise in the late 2000s and the subsequent decline? By 2020, the gap between the top and bottom groups is still double the size of the gap from 20 years ago. We'd need additional analyses and charts to answer this question.

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If you are familiar with our Trifecta Checkup, the Business Insider chart is a Type D chart. The problem with it is in how the data was analyzed.

Andy Cotgreave asked Twitter followers to pick between pie charts and bar charts:

The underlying data are proportions of people who say they won't get the coronavirus vaccine.

I noticed two somewhat unusual features: the use of pies to show single proportions, and the aspect ratio of the bars (taller than typical). Which version is easier to understand?

To answer this question, I like to apply a self-sufficiency test. This test is used to determine whether the readers are using the visual elements of the chart to udnerstand the data, or are they bypassing the visual elements and just reading the data labels? So, let's remove the printed data from the chart and take another look:

For me, these charts are comparable. Each is moderately hard to read. That's because the percentages fall into a narrow range at one end of the range. For both charts, many readers are likely to be looking for the data labels.

Here's a sketch of a design that is self-sufficient.

The data do not appear on this chart.

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My first reaction to Andy's tweet turned out to be a misreading of the charts. I thought he was disaggregating the pie chart, like we can unstack a stacked bar chart.

Looking at the data more carefully, I realize that the "proportions" are not part to the whole. Or rather, the whole isn't "all races" or "all education levels". The whole is all respondents of a particular type.