Perhaps the most obvious example of this is the hook and loop fastener best known by the trademark Velcro, which is essentially a copy of the burr design on Arctium (burdock) plants. Considering that taxonomists disagree wildly on the global totals of current plant, animal and fungi species - many claiming that less than 20% have been scientifically classified - it seems apparent that nature has plenty more surprises up her sleeve.
Spider silk has long been recognised as an incredibly strong material for its weight, with that generated by many species being up to five times the strength of the equivalent amount of steel. The silk produced by the Madagascan Darwin's bark spider (Caerostris darwini) is ten times stronger than Kevlar, suggesting that bullet-proof clothing manufacturers could do well by investigating it. However, a discovery by an engineering team at Portsmouth University in the UK makes even this seem humdrum: the teeth of limpets are potentially so strong - thanks to a mineral called goethite - that artificial versions of them could be used in high-performance situations, even aircraft components.
In addition to their use in construction, natural substances may prove useful in the development of new pharmaceuticals. I've previously discussed animal defence mechanisms such as that of the bombardier beetle and how small, barely noticed critters such as the peripatus deserve far more investigation. Of course the problem has been that size and aesthetics directly correlate with public attention and newsworthiness, meaning that the likes of the giant panda are used as poster species despite offering little in the way of practical advance for science and technology.
I'm not of course suggesting that species should be judged on the merits of their usefulness to humanity, but that we could probably gain a lot of practical usage from much greater study of the less well known flora and fauna still 'out there'. The resilience of tardigrades is becoming fairly well known, but there are no doubt other seemingly insignificant species with even more astonishing properties. Hydra for example are small, tentacled animals that live in fresh water; thanks to being composed mostly of stem cells they appear to have life cycles that just keep going. There also been limited research on the 'immortal' jellyfish Turritopsis dohrnii; this is surprising, given that the advances in gene splicing technology such as CRISPR-Cas9 and TALEN might lead to important medical breakthroughs, not just glow-in-the-dark pets.
In addition, the race to generate new antibiotics to replace those ineffective against 'superbugs' would suggest any short-cuts that can be taken should be taken. I remember watching a 2006 British murder mystery programme in which people were killed during a hunt for rare South American seeds containing anti-malarial properties. This may be pure fiction, but considering that artemisinin-resistant 'supermalaria' is now on the horizon, the script was somewhat prescient.
The idea behind all this is simple: delving into an existing complex chemical compound is far easier than trying to generate a purely synthetic one from scratch. This is why it is important to conserve small and insignificant species, not just the pandas, elephants and rhinos. Who's to say that a breakthrough medicine or construction material isn't already in existence, just hiding around the corner (or rather, in the genome) of some overlooked species of animal, plant or fungi?
With superbug-beating pharmaceuticals and climate mitigation technology a priority, we're shooting ourselves in the foot if we let an increasing number of unconsidered species became extinct. As I discussed last month all sorts of organisms are now in serious trouble from global amphibian populations via North American snakes and bats to the mighty kauri trees of New Zealand. Just saving a few specimens of doomed species in freezers or formalin is unlikely to be enough: shouldn't we endeavour to minimise species loss for many reasons; and if we must have an economic motive, what about their potential benefit to mankind? Not for nothing has nature been deemed 'the master crafts(person) of molecules' and we lose volumes in that library at own expense.
