Ignorance is bliss: why admitting lack of knowledge could be good for science

"We just don't know" might be one of the best phrases in support of the scientific method ever written. But unfortunately it carries an inherent danger: if a STEM professional - or indeed an amateur scientist/citizen scientist - uses the term, it can be used by those wishing to disavow the subject under discussion. Even adding "- yet" to the end of it won't necessarily improve matters; we humans have an unfortunate tendency to rely on gut instinct rather than rational analysis for our world model, hence - well, just about any man-made problem you care to name, now or throughout history.

Even though trust in scientists and the real-world application of their work may have taken an upswing thanks to some rapid vaccine development during the current pandemic, there are many areas of scientifically-gleaned knowledge that are still as unpopular as ever. Incidentally, I wonder whether if it wasn't for much stricter laws in most countries today, we would have seen far more of the quackery that arose during the 1918 Spanish flu epidemic. During this period low-tech 'cures' included gas inhalation, enemas and blood-letting, the former about as safe as last year's suggestion to drink bleach. I've seen very little about alternative cures, no doubt involving crystals, holy water or good old-fashioned prayer, but then I probably don't mix in those sort of circles (and certainly don't have that type of online cookie profile). But while legislation might have prevented alternative pandemic treatments from being advertised as legitimate and effective, it hasn't helped other areas of science that suffer from widespread hostility. 

Partly this is due to the concept - at least in liberal democracies - of free speech and the idea that every thesis must surely have an antithesis worthy of discussion. Spherical planets not your bag, baby? Why not join the Flat Earth Society. It's easy to be glib about this sort of thing, but there are plenty of more serious examples of anti-scientific thinking that show no sign of abating. The key element that disparate groups opposing science seem to have in common is simple; it all comes down to where it disagrees with the world picture they learnt as a child. In most cases this can be reduced even further to just two words: religious doctrine.

This is where a humble approach to cutting-edge research comes in. Humility has rarely been a key characteristic of fictional scientists; Hollywood for example has often depicted (usually male) scientists as somewhere on a crude line between power-crazed megalomaniacs and naive, misguided innocents. The more sensational printed volumes and tv documentaries communicating scientific research to a popular audience likewise frequently eschew ambiguities or dead-ends in favour of this-is-how-it-is approach. Only, quite often, it isn't how it works at all. Doubts and negative results are not only a key element of science, they are a fundamental component; only by discarding failures can the search for an answer to an hypothesis (or if you prefer the description of the brilliant-yet-humble physicist Richard Feynman: a guess) be narrowed down. 

There are plenty of examples where even the most accomplished of scientists have admitted they don't know the answer to something in their area of expertise, such as Sir Isaac Newton being unable to resolve the ultimate cause of gravity. As it was, it took over two centuries for another genius - Albert Einstein - to figure it out. Despite all the research undertaken over the past century or so, the old adage remains as true as ever: good science creates as many new questions as it answers. Key issues today that are unlikely to gain resolution in the next few years - although never say never - include what is the nature of dark energy (and possibly likewise for dark/non-baryonic matter) and what is the ultimate theory behind quantum mechanics? 

Of course, these questions, fascinating though they are, hold little appeal to most people; they are just too esoteric and far removed from everyday existence to be bothered about. So what areas of scientific knowledge or research do non-scientists worry about? As mentioned above, usually it is something that involves faith. This can be broken down into several factors:

1. Disagreement with a key religious text
2. Implication that humans lack an non-corporeal element, such as an immortal soul
3. Removal of mankind as a central component or focal point for the universe 

These obviously relate to some areas of science - from a layman's viewpoint - far more than others. Most non-specialists, even religious fundamentalists, don't appear to have an issue with atomic theory and the periodic table. Instead, cosmology and evolutionary biology are the disciplines likely to raise their ire. Both are not in any sense complete; the amount of questions still being asked is far greater than the answers so far gleaned from research. The former is yet to understand what 96% of the universe is composed of, while the latter is still piecing together the details of the origin and development of life of our planet, from primordial slime up to Donald Trump (so possibly more of a sideways move, then). 

Herein lies the issue: if scientists claim they are 'certain' about the cause of a particular phenomenon or feature of reality, but further research confirms a different theory, then non-scientists are  legitimately able to ask why the new idea is any more final than the previous one? In addition, the word 'theory' is also prone to misinterpretation, implying it is only an idea and not an hypothesis (guess, if you like) that hasn't yet failed any tests thrown at it, be they practical experiments, digital simulations or mathematical constructions. Bill Bryson's best-selling A Short History of Nearly Everything is an example of how science can be done a disservice by material meant to promote it, in that the book treats science as if it were an ever-expanding body of knowledge rather than as a collection of methods that are used to explore answerable questions about life, the universe, and of course, everything.

Perhaps one answer to all this would be for popular science journalism, from books written by professional scientists to short news items, to include elements related to what is not yet known. The simplistic approach that avoids the failures only serves to strengthen the opinion that experts are arrogant believers in their own personal doctrines, as inflexible and uncompromising as holy writ. 

Unfortunately, in efforts to be both concise and easy-to-comprehend, much science communication appears to render the discipline in this manner, avoiding dissension and doubt. In addition, the often wonderful - and yet to be resolved subtleties - of research are neglected. For example, the majority of specialists agree that birds are descended from theropod (i.e. carnivorous) dinosaurs, and yet the primary growth axis on the forelimbs of the two groups differs. This issue has not been satisfactorily answered, but the vast collection of evidence, both from fossils and experimentation, claims it as the most plausible solution to this particular phylogenetics tree. Further research, especially in embryology, may one day find a more complete solution.

Ultimately then, science education would probably benefit from it confirming boundaries of uncertainty, where they exist. This may help allay fears that the discipline wants to impose absolutes about everything; in most areas (the second law of thermodynamics excepted) we are still in the early stages of understanding. This doesn't mean that the Earth may be flat or only six thousand years old, but it does mean that science usually works in small steps, not giant paradigm shifts that offer the final say on an aspect of reality. After all, if scientists already knew everything about a subject, there wouldn't be any need for further research. What a boring world that would be!

Biomaterial bonanza: putting plastics out of a job

With the rapidly approaching midwinter (at least for the Northern Hemisphere) festival - and traditionally a time of gift-giving - wouldn't it be great to say that humanity can offer a present to the entire planet? The amount of plastic-based products manufactured every year is somewhere between three hundred and four hundred million tons, about fifty percent of which is single-use or disposable. 

Presumably if you've got any sort of interest whatsoever in the world around you (and how your children will get on) then you have been replacing disposable plastic items with reusable non-plastic, or at least biodegradable, alternatives. But are the companies producing the latter guilty of subtle greenwashing?

A friend recently told me that he had put some allegedly biodegradable plastic bags into his compost heap, only to retrieve them - albeit with some holes in - a year or so later. Bearing in mind there isn't an internationally-recognised set of characteristics for just what defines biodegradable, is it surprising that the wool (sorry, polyester) is being pulled over consumers' eyes?

A report last year summarised a three-year research programme at the UK's University of Plymouth, offering clear evidence that many types of allegedly biodegradable bags do not break down when buried in soil or underwater. Although the material did decay in open air, it was just into smaller pieces of plastic rather than degrading into simpler molecules. 

Recent studies by Tel Aviv University and the Goethe Universität in Frankfurt go even further in putting allegedly ecofriendly materials in a bad light. Both claim that not just biodegradable plastics but even those based on starch and cellulose contain numerous toxic chemicals. Such materials are used in food and drink packaging. So where do we go from here?

Last year I wrote a post about the potential of chitosan, a genuinely biodegradable material made from marine arthropod carapaces (i.e. shellfish discards) that can be produced in an eco-friendly process. 

There now appear to be several other materials that also have the possibility to replace traditional plastics. A group at the University Of Science And Technology Of China have developed a lightweight but durable material using mica and cellulose-derived nanofibre that has more than double the strength of high-performance petroleum-based plastics.

Another alternative to plastic that utilises surprising source material has been developed by a student at the University of Sussex in the UK. Lucy Hughes has used red algae to augment discarded fish scales and fish skin to produce a single-use translucent substance called MarinaTex. In addition to its use of material otherwise destined for landfill, MarinaTex - which biodegrades within six weeks - is the antithesis of conventional plastics in that the red algae component makes its production carbon positive! 

The bad news is that both materials are still at the research and development stage and there is no indication of when they would be ready for commercial mass-production. Crucially, there doesn't appear to be any news of large corporations buying the research for implementation; why is it that so many paradigm-shifting projects are having to be developed by crowd-funded start-ups rather than established multi-nationals? 

Surely there are enough ethical executives out there to pick up once the research has shown such potential? But as I've no doubt mentioned before, we are living in a world where the largest national economy - the United States of course - spends more each year on pet grooming products than on nuclear fusion research. Will future historians dub our era the Decades of Dubious Sanity?

Meanwhile, immense amounts of plastics are dumped in landfill and the oceans, polluting everything, including microplastics in the food we eat. Isn't it time these researchers are given the backing they need to convert smart ideas into ecosystem saviours? After all, no-one, no matter how wealthy, can opt out of the planetary biosphere!