Profile
Oli Wilson
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About Me:
I’m a full-on plant nerd who’s gone from science teacher to science researcher.
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…and this is how it happened.
It all started in my second week at university, when I first discovered plants could be cool. Things have just escalated from there, and now I’m particularly interested in how we can stop plant species going extinct – especially ones people use for things like food, poison, medicine and magic.
So I was already a plant geek when, one morning a few years ago, I had a brainwave on the train and signed up to climb the steepest learning curve of my life. A year later, after a lot of help and not enough sleep, I became (dun dun DUN) a *science teacherMATOMO_URL
I spent the next couple of years setting fire to stuff, pestering the technicians, and trying (in vain) to make physics seem as cool as biology. Eventually, though, the call of the plants was too strong, so last Christmas I left teaching and moved to Reading to start a PhD. And that’s where I am now!
Away from work I love hanging out with my wife, having a lie-in, spending time in nature, playing or watching bits of sport, and laughing at or learning from books, tv programmes and podcasts.
I’m also a Christian as well as a biologist, which has led to lots of interesting conversations over the years about everything from Adam and Eve to evolution and evil. Oh, and I have a whole load of grey hair – it started changing colour when I was 16. Stupid genetics…
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On the highlands in southern Brazil grow weird-looking Araucaria trees. These have been around for millions of years, but so many have been cut down in the last century or so that they’re now on the brink of going extinct. I want to understand their past better, and help look after them into the future.
While they might be almost gone now, we know the Araucaria forests expanded quickly around 1,000 years ago. Most people who’ve looked at this before think it happened because of climate change, but I’m trying to find out if people had something to do with it too.
This is where the fossil pollen time machines come in! Pollen grains are almost indestructible (although oxygen is their weakness), and they can survive for thousands of years in bogs or lake mud. If you can work out what plant the pollen’s from and when it got trapped, you can see what was growing near the bog at different points in time. I’m working with pollen from places where humans lived long before Europeans arrived, to see how people affected the forests, and if they helped speed up their expansion.
To help with this, and to predict the forests’ future, I’m making high definition maps and computer models of part of southern Brazil, showing in detail which areas are suitable for Araucaria trees now. These should help us work out where Araucaria forests were in the past, as well as where they might be able to hold out in the next hundred years or so. Hopefully, they’ll help Brazil’s government work out what areas to protect to keep the forests safe for the future, even with climate change.
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My Typical Day:
Making maps and models and 3D pollen, analysing data, writing, or reading about other people’s research. Sometimes just having fun talking about science!
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I don’t really have one single kind of typical day, though every day will involve reading and answering emails (which, unlike lots of people, I quite enjoy)!
I don’t do much lab work any more, but I used to spend time there attacking bits of bog mud with chemicals, until only pollen grains are left. These chemicals include stuff that’s used in school (like HCl and KOH), all the way through to hydrofluoric acid (HF). It’s horrible – if it gets a chance it’ll steal the calcium from your blood and bones, killing you. It also eats through glass, so – of course – we heat it up to 80-odd degrees Celsius…
Away from the lab, I download and analyse various different types of data (about the climate, the forests, the altitude etc) to make maps and models of the area. I also try to read articles from other researchers – to keep up with the latest findings, as well as to make sure I’m not copying anyone! It’s a lot of computer work, but that suits me because I live 200 miles away from the lab…
Finally, I also spend time with a laser microscope scanning pollen grains so they can be 3D-printed! It’s very cool…
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What I'd do with the prize money:
Three words: 3D printed pollen!