Extraordinary Insects. Anne Sverdrup-Thygeson
come to the dead trees in their hordes. Bark beetles party in the sap that ferments beneath the bark, longhorn beetle larvae trace ingenious patterns on the surface of the wood, and like tiny crocodiles, wireworms greedily snap up anything that moves within the rotting wood. Together, thousands of insects, fungi and bacteria work to break down dead matter and transform it into new life.
I feel incredibly lucky to be able to research such an exciting topic, because I have a fantastic job: I am a professor at the Norwegian University of Life Sciences (NMBU), where I work as a scientist, teacher and communicator. One day I might be reading about new research, digging deep and losing myself in scientific detail. The next, I’m due to give a lecture and have to look for an overarching structure in a given subject area, find examples and illustrate why the issue matters to you and me. Maybe it will end up as a post on our research blog, Insektøkologene (The Insect Ecologists).
Sometimes I work outdoors. I seek out ancient, hollow oaks or map forests affected to varying degrees by logging. All this I do in the company of my wonderful colleagues and students.
When I tell people I work with insects, they often ask me: What good are wasps? Or: Why do we even need mosquitoes and deer flies? Because some insects are a nuisance, of course. The truth is, though, that they are a vanishingly small minority compared with the teeming myriads of tiny critters that all do their little bit to save your life, every single day. But let’s start with the more troublesome ones. I have three answers.
First of all, these annoying insects are useful to nature. Mosquitoes, gnats and their relatives are vital food for fish, birds, bats and other creatures. In the highlands and the far north of Norway, in particular, swarms of flies and mosquitoes are crucial to animals much larger than themselves, and on a vast scale. During the short, hectic Arctic summer, insect swarms can determine where the large reindeer flocks graze, trample the earth and deposit nutrition in the form of dung. This has ripple effects that influence the whole ecosystem. Similarly, stinging wasps are useful, both for us and other creatures. They help pollinate plants, gobble up pests whose numbers we’d rather keep down and provide food for honey buzzards and countless other species.
Secondly, helpful solutions may await us where we least expect them. This even applies to creatures we see as disgusting nuisances. For example, blow flies can cleanse hard-to-heal wounds, while mealworms turn out to be able to digest plastic, and scientists are currently investigating the use of cockroaches for rescue work in collapsed or severely polluted buildings, as we will see in Chapter 8.
Thirdly, many people think that all species should have the opportunity to achieve their full life potential – that we humans have no right to play fast and loose with species diversity driven by short-sighted judgements about which species we see as cute or useful. This means we have a moral duty to take the best possible care of our planet’s myriad creatures – including critters that do not engage in any visible value creation, insects that do not have soft fur and big brown eyes and species we see no point in.
Nature is bewildering in its complexity and insects are a significant part of these ingeniously constructed systems in which we humans are just one species among millions of others. That is why this book will deal with the very smallest among us: all the strange, beautiful and bizarre insects underpinning the world as we know it.
The first part of the book is about the insects themselves. In Chapter 1, you can read about their mind-bogglingly rich variety, how they are put together, how they sense their surroundings, and a bit about how to recognise the most important insect groups. Then in Chapter 2, you’ll gain an insight into their rather strange sex lives. After that, I’ll dig deeper into the intricate interplay between insects and other animals (Chapter 3), and between insects and plants (Chapter 4): the daily struggle to eat or be eaten in which every creature battles to pass on its own genes. Yet there is still room for collaboration, in countless peculiar ways.
The rest of the book is about insects’ intimate relationship with one particular species: us humans. How they contribute to our food supply (Chapter 5), clean up the natural environment (Chapter 6) and give us some of the things we need, from honey to antibiotics (Chapter 7). In Chapter 8, I take a look at new fields where insects can lead the way. Finally, in Chapter 9, I consider how these tiny helpers of ours are getting along, and how you and I can help improve their lot. Because we humans rely on insects getting their job done. We need them for pollination, decomposition and soil formation; to serve as food for other animals, keep harmful organisms in check, disperse seeds, help us in our research and inspire us with their smart solutions. Insects are nature’s little cogs that make the world go round.
There are more than 200 million insects for every human being living on Planet Earth today. As you sit reading this sentence, between one and 10 quintillion insects are shuffling and crawling and flapping around on the planet, outnumbering the grains of sand on all the world’s beaches. Like it or not, they have you surrounded, because Earth is the planet of the insects.
There are so very many of them that it’s difficult to take it in, and they are everywhere: in forests and lakes, meadows and rivers, tundra and mountains. Stoneflies live in the chilly heights of the Himalayas at altitudes of 6,000 metres, while brine flies inhabit the piping-hot springs of Yellowstone, where temperatures exceed 50°C. In the eternal darkness of the world’s deepest caverns live blind cave midges. Insects also live in baptismal fonts, computers, oil puddles, and in the acid and bile of a horse’s stomach. They live in deserts, beneath the ice on frozen seas, in the snow and in the nostrils of walruses.
Insects live on all continents – although they are admittedly represented by only a single species on Antarctica: a flightless midge that kicks the bucket if the temperature happens to creep more than 10 degrees above zero for any length of time. There are even insects in the sea. Seals and penguins have various kinds of lice in their hides, which remain in place when their hosts dive beneath the surface. And we mustn’t forget the louse that lives in a pelican’s pouch, or the water striders who spend their lives scudding six-legged across the open sea.
Insects may be tiny but their achievements are far from trifling. Long before human beings set foot on this planet, insects had already taken up agriculture and animal husbandry: termites grow fungus for food, while ants keep aphids as dairy cattle. Wasps were the first creatures to make paper from cellulose and caddisfly larvae were catching other creatures in net-like webs millions of years before we humans managed to weave our first fishing nets. Insects solved complicated problems of aerodynamics and navigation several million years ago, and learnt, if not how to tame fire, then at least how to tame light – even within their own bodies.
Insects Assemble
Whether we opt to count them by individual or species, there are good grounds for claiming that insects are the most successful class of animal on the planet. Not only are there incredible numbers of individual insects, they also account for well over half of all known multicellular species. They come in around a million different variants. This means that you could have an ‘insect of the month’ calendar featuring a new species every