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science + communication
Complaining about ineffective graphics is easy — fixing them takes time and love. After receiving a migrane-inducing graphic, I set out on a mission to tell the story of the data — obesity patterns around the world.
Visit the Poster Hospital to see redesigns of real-world posters and learn practical design guidelines for scientific posters and layouts on a large canvas.
The Nature Methods Points of View column column offers practical advice in design and data presentation for the busy scientist.

Effective graphical abstract design for science communication

Guidelines to get you started and keep you going

Martin Krzywinski / Martin Krzywinski @MKrzywinski mkweb.bcgsc.ca
Guidelines for summarizing your research story with a graphical abstract—sober design, typography and data visualization tips all in one place with a minimum of fuss (v1.2 12 Nov 2020). (Download PDF template)

GRAPHICAL ABSTRACT DESIGN GUIDELINES

The graphical abstract guidelines build on my design guidelines for posters. Because their focus is on telling the essence of a story in a small space, I see them as much less negotiable than guidelines for posters, where the large canvas allows for more options.

See how the guidelines can be applied to graphical abstracts in the wild by visiting the graphical abstract hospital.

The Graphical abstract mindset

# 1
Pure story clearly told

The purpose of the graphical abstract is to quickly present the key findings of a paper in a way that closely matches the narrative of the paper. The graphical abstract should place all central terms in context and emphasize key relationships.

A

A graphical abstract is Figure 0.

B

Everything you learn about the design of graphical abstracts applies to the design of figures.

C

Everything you learn about the design of figures applies to the design of posters.

Identifying what to put in the graphical abstract cannot be answered by design alone. Design can help place and shape what you have chosen, but it cannot tell you what to chose — that's up to the science.

Graphical abstracts are typically small square bitmaps. Though individual journal requirements vary, this constraint on the size of the canvas places tremendous limits on the design and imposes more strict requirements than when designing for a larger space.

D

The graphical abstract is a tiny space that offers no quarter. A bad design decision cannot be mitigated by a good design decision downstream. There is no room for "style".

E

The graphical abstract is a visual elevator pitch. There is no room for visual garnish or embelishment of any kind.

F

The function of a graphical abstract comes from its form, which cues the nature of relationships in its story.

Many abstracts struggle to fit the path of the story into a small space. Individual scenes meander down the image, often snaking, as elements struggle for space and attention. Make it easy for the eye and guide it along simple paths.

# 2
Restraint

The graphical abstract should never be designed with attracting the eye as the first priority. Rather, it's your first opportunity for engaging the reader's pre-attentive processing and to lay out a map of the story. Every part of the abstract should correspond to the beginning of important story arcs in the paper.

A

Strict control of color.

B

No gradients. There, I said it.

C

No elaborate three-dimensional representations. While well-drawn ones can be attractive, many distract the eye with too much detail and draw attention away from the story path.

Your paper is a mansion and the graphical abstract is a studio apartment — you cannot bring all the furniture. Too often, "style" is that credenza you've been lugging around everywhere. It's time to let it go.

# 3
Organization

Most graphical abstracts have poor top-level organization. In many, the wrong things are grouped and categories, such as experimental conditions, are not clearly demarcated. Opportunities for maintaining continuity between scenes of the story are often missed.

A

Understand and practise good Gestalt grouping principles. In a small space, color will group more powerfully than position and much more powerfully than shape.

B

Organize content in a way that reflects spatial or semantic hierarchy by making use of Gestalt figure-ground principles. These are very helpful in reinforcing inside vs. outside (e.g. cytosol vs. nucleus).

C

Tables are dead. Long live the table.

Typical graphical tropes, such as those used in figures and presentations, have no place in graphical abstracts. Everything must be distilled down to its core essence — this part is hard and requires that you pay attention to how graphical elements relate in shape and position and whether these relationships are unambiguous and speak to your story with specificity.

Many abstracts do not balance visual weight: they have too much detail in shapes and symbols and have too much variation in text size and line thickness.

In most abstracts, key aspects of the story are lost among too much variation due to loose design.

D

For every pair of things on the abstract, ask yourself: (1) can their graphical relationship be improved to better match their actual relationship? (2) does their graphical relationship imply something that isn't important or true? (3) am I repeating myself?

E

Are things of equal importance drawn with equal emphasis? How many different sizes of type are being used?

F

The abstract's grid layout should present a strong tabular feel. Can you draw a horizontal or vertical line across the abstract to divide its elements along thematic or categorical boundaries?

# 4
Leading the eye

Stick to straight paths for the eye: left-to-right, top-to-bottom, or top-left to bottom-right. Avoid requiring the reader to backtrack or turn sharply.

A

Align ruthlessly. In a small space even tiny misalignments become obvious and a barrier to assessing relationship between elements.

B

Encapsulate your story in a strong and obvious grid layout (1×2, 2×2, ...) and maintain symmetry in margins, padding and spacing between elements.

C

Use open form (elements extending beyond the image) to imply that the scene is a vignette of a larger scene or more complex process.

Color

# 5
More color isn't the solution

The success of a graphical abstrat rests on how well it is organized and how well it represents important relationships. Color can be used to maintain a theme (e.g. health vs disease) but this effect is diluted by other colors.

A

Do not create too many color groups. Instead, group using space and shape.

B

Avoid strongly coloring elements that are drawn for context or are of secondary importance.

C

Avoid background color, which generally reduces contrast. If you cannot overcome your desire for a background gradient, make it as subtle as possible.

Typography

# 6
Tightly control font size and color

Well-chosen type placement and size goes a long way in alleviating tightness of a small space.

A

Have a modest type size ladder with no more than 3 sizes — for example, 4, 6, 8 pt.

B

Generally, do not apply color to text unless you're cuing the continuation of a theme. But do so carefully.

C

Use light and dark grey for text to indicate a hiearchy of importance.

# 7
Do not rely on a variety of type faces (bold, italic) or styling

On a large canvas, there is room for a fully type hierarchy (bold, small caps, italics, etc). In a small space, there isn't. Always evaluate the legibility of text on the final bitmap.

A

Do not outline or add styling to text, such as drop shadows or glow.

B

Apply bold and italics gently and do not combine them — too much variation in type will overwhelm the space.

C

Small italic labels make for great annotations.

Technical Considerations

# 8
Design with physical size in mind

Although the graphical abstract itself may never be printed, it's extremely helpful to design it to a specific physical size. You'll be able to standardize your design process for graphical abstracts, figures and posters.

A

Design on a 4" × 4" artboard and export at 300 dpi. Scale artboard size, not output resolution, to match journal requirements.

B

Use point units for sizing text in the range 6–10 pt. Limit yourself to Arial or one of the Helveticas. Avoid angled or vertical text.

C

Draw lines no thinner than 0.5 pt. Standardize line and arrow length and angle.

news + thoughts

Propensity score weighting

Mon 17-03-2025

The needs of the many outweigh the needs of the few. —Mr. Spock (Star Trek II)

This month, we explore a related and powerful technique to address bias: propensity score weighting (PSW), which applies weights to each subject instead of matching (or discarding) them.

Martin Krzywinski @MKrzywinski mkweb.bcgsc.ca
Nature Methods Points of Significance column: Propensity score weighting. (read)

Kurz, C.F., Krzywinski, M. & Altman, N. (2025) Points of significance: Propensity score weighting. Nat. Methods 22:1–3.

Happy 2025 π Day—
TTCAGT: a sequence of digits

Thu 13-03-2025

Celebrate π Day (March 14th) and sequence digits like its 1999. Let's call some peaks.

Martin Krzywinski @MKrzywinski mkweb.bcgsc.ca
2025 π DAY | TTCAGT: a sequence of digits. The digits of π are encoded into DNA sequence and visualized with Sanger sequencing. (details)

Crafting 10 Years of Statistics Explanations: Points of Significance

Sun 09-03-2025

I don’t have good luck in the match points. —Rafael Nadal, Spanish tennis player

Points of Significance is an ongoing series of short articles about statistics in Nature Methods that started in 2013. Its aim is to provide clear explanations of essential concepts in statistics for a nonspecialist audience. The articles favor heuristic explanations and make extensive use of simulated examples and graphical explanations, while maintaining mathematical rigor.

Topics range from basic, but often misunderstood, such as uncertainty and P-values, to relatively advanced, but often neglected, such as the error-in-variables problem and the curse of dimensionality. More recent articles have focused on timely topics such as modeling of epidemics, machine learning, and neural networks.

In this article, we discuss the evolution of topics and details behind some of the story arcs, our approach to crafting statistical explanations and narratives, and our use of figures and numerical simulations as props for building understanding.

Martin Krzywinski @MKrzywinski mkweb.bcgsc.ca
Crafting 10 Years of Statistics Explanations: Points of Significance. (read)

Altman, N. & Krzywinski, M. (2025) Crafting 10 Years of Statistics Explanations: Points of Significance. Annual Review of Statistics and Its Application 12:69–87.

Propensity score matching

Mon 16-09-2024

I don’t have good luck in the match points. —Rafael Nadal, Spanish tennis player

In many experimental designs, we need to keep in mind the possibility of confounding variables, which may give rise to bias in the estimate of the treatment effect.

Martin Krzywinski @MKrzywinski mkweb.bcgsc.ca
Nature Methods Points of Significance column: Propensity score matching. (read)

If the control and experimental groups aren't matched (or, roughly, similar enough), this bias can arise.

Sometimes this can be dealt with by randomizing, which on average can balance this effect out. When randomization is not possible, propensity score matching is an excellent strategy to match control and experimental groups.

Kurz, C.F., Krzywinski, M. & Altman, N. (2024) Points of significance: Propensity score matching. Nat. Methods 21:1770–1772.

Understanding p-values and significance

Tue 24-09-2024

P-values combined with estimates of effect size are used to assess the importance of experimental results. However, their interpretation can be invalidated by selection bias when testing multiple hypotheses, fitting multiple models or even informally selecting results that seem interesting after observing the data.

We offer an introduction to principled uses of p-values (targeted at the non-specialist) and identify questionable practices to be avoided.

Martin Krzywinski @MKrzywinski mkweb.bcgsc.ca
Understanding p-values and significance. (read)

Altman, N. & Krzywinski, M. (2024) Understanding p-values and significance. Laboratory Animals 58:443–446.

Martin Krzywinski | contact | Canada's Michael Smith Genome Sciences CentreBC Cancer Research CenterBC CancerPHSA
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