Have you got what it takes to be a Nature Detective?

By Caroline Wood

What do a live kangaroo, mammoth teeth and otter poo have in common? They could all be found at ‘Nature Detectives’: our last outreach event held at Weston Park Museum on Saturday 24th February 2018!

A couple of months ago, we were approached by Weston Park Museum who wanted to increase the science content of their programme of family-friendly activities. Knowing how popular and well-loved the museum is, we leapt at the chance to get involved. During a ‘behind the scenes tour’, we discovered a treasure trove hidden away in the cupboards: bones, teeth, skulls and incredibly lifelike taxidermy. This gave us the idea for our event – using the museum’s collections we would show how scientists can use the ‘clues’ animals leave behind to learn more about their lives and habits.

The museum staff were very accommodating, giving us the use of both their upstairs and downstairs activity rooms. This allowed us to plan a ‘detective trail’ of different activities. After completing each activity, the children would be given a ‘clue’ about a mystery animal.  Once they had all the clues, they could then use our identification key to work out the animal and claim a free goody bag. The idea proved a popular one. Barely a few minutes after opening, the museum was filled with parents and children eagerly filling in their clue sheets.

At each of the activity stands, the children received a ‘clue’ to help them identify a mystery animal…
Photo credit: Daniella Sasaki

Downstairs the big question was ‘Who dung it?’ where we had invited Dr Deborah Dawson and her team from the Sheffield Otter Project as special guests they had brought a plethora of poo samples from all sorts of animals, and demonstrated how these ‘remains’ contain hidden information about animal diets, and how they can even be sources of DNA. Next to them, the children had great fun getting very messy on our footprints stand, where they were busy making animal tracks using pipe cleaner feet and paint.

Upstairs the fun continued with lots of opportunities to handle and closely inspect the museum’s artefacts, including our ‘What can we learn about teeth?’ activity led by Rebecca Hollely, one of our BSA volunteers. “The children really enjoyed being able to hold different kinds of skulls and teeth to guess the species and its diet. We had a range of animals, from the skull of the well-known goat, to a swordfish bill, and even a weighty mammoth molar which impressed children and parents alike!” she said.

Learning what teeth can tell us about animal diets – with the help of a kangaroo! Photo credit: Daniella Sasaki

Meanwhile, our ‘Spot the Moth’ activity used the case of the peppered moth to show how animals evolve to become better adapted to their environment. Some of the moths were so well camouflaged that we stopped using them because they were simply too difficult to find! In our final activity, birds were the star of the show: using the museum’s complete taxidermy collection of British birds, we showed how key features can help us to tell different species apart. “We had a stall teaching kids how to use identification keys to find out the names of taxidermy animals. Both the kids and parents really enjoyed being able to see and examine the taxidermy animals, and many said they had learnt a lot” said Weilin Wu, another one of our volunteers.

Just some of the rewards in our goody bags!
Photo credit: Daniella Sasaki

Throughout the day, we had a constant stream of visitors which left us all exhausted at the end, even those who didn’t dress as a kangaroo to add further amusement! But it was so rewarding to see our visitors really engage with the activities and ask so many questions. The mystery animal quiz was so popular that we had to run and print more copies, and we only just about had enough goody bags to last to the very end. Judging by the smiling faces and feedback, the kids felt a real sense of achievement from the activities. As Rebecca summed it up, “The day was filled with laughter, gasps of exclamation and it would be harder to say who had the most fun… the children or the volunteers!”

BSA Museum
We had a brilliant time at Weston Park Museum and can’t wait to come back for our next event!

We had great fun and we are very grateful to Weston Park museum for making us feel so welcome. We are already looking forward to holding our next event there, “The Science of Multilingualism”, where we will explore what happens in the brain as we learn and speak different languages. This will take place on Saturday 14th April 2018 – keep an eye on our events page, Twitter account and Facebook page for more details!

With special thanks to RSPB, Weston Park Museum, Plantlife UK and the British Ecological Society for providing pens, colouring pencils, stickers and wildlife spotter cards for our goody bags.

And of course, a big thank you to our amazing BSA Sheffield volunteers who made this event happen: Weilin Wu, Caitlin Higgott, Olivia Rhoden, Lynette Hodges, Rebecca Hollely, Shauni McGregor, Ruby Kell, Daniella Sasaki, Antonio del la Vega de Leon, Chloe McCole, Jingyi Huang, Ellie Marshall, Tilly Dixon, Matthew Keedy, Francesca Dawson and Helen Alford.

About the Author

Caroline Wood is a PhD student studying the interactions between parasitic weeds and their hosts at the University of Sheffield. She first became involved with BSA Sheffield when she went along to the launch meeting ‘out of curiosity’. Since then, she has been involved in a number of events for BSA Sheffield, including an activity stand at the Sheffield Food Festival on crop diseases; a Fun Palace on the theme of the five senses and ‘The Science of Wellness’, a collaboration with Sheffield Flourish, a local mental health charity. She blogs at http://scienceasadestiny.blogspot.co.uk/ and you can also follow her on Twitter


Made to order organs, mere fantasy or indisputable reality?

By Abdullah Iqbal

Will we one day be able to end all organ donor lists?

It sounds like a dream that we can produce organs but it may eventually be possible due to research in regenerative medicine and 3D printing. We may one day be able to produce organs for our individual needs.

Some of the organs that can be produced from stem cells-
Image credits – dreamstime.com

The organ supply is currently a major problem with 20 people dying every day in America waiting for an organ. But these organs could, in fact, be produced from our own skin. Scientists do this by first adding certain substances called transcription factors to a sample of our skin cells which reprograms them  into stem cells. Because these organs are produced from our own cells our body’s immune system which protects us from foreign invaders will not destroy the transplanted organ.

You might be thinking, why all this hassle just to produce some stem cells? However, stem cells are very special because they have two abilities which make them immensely important. One being self- renewal; the ability to divide and produce more stem cells, and proliferation; the ability to be able to divide into other cell types.

With these stem cells, scientists are trying to produce organs for transplantation. However the complexity of an organ means that there has not been successful transplantation. For example, the heart has seven different cell types and to ensure it functions  it must be developed in an environment which mimics that of the human body. But at present, we do not fully understand what controls an organs’ formation.

Another major problem is that stem cells produced from our own cells (which are called induced pluripotent stem cells [iPSC]) have a higher chance of becoming cancerous. The exact reason for this is still not fully understood and this problem must be eliminated before we can transplant organs generated from stem cells into a patient.

However, it is not all doom and gloom. There is a bright side as we are getting closer to our goal. In 2015 researchers at the University of California, Berkeley generated ‘mini-hearts’ which even beat like a normal heart and have micro-chambers for blood storage. In the same year, scientists at the Heriot-Watt University, Edinburgh produced the first mini-livers using a 3D printer. These advancements will allow scientists to gain a better understanding of the necessary process that occurs to produce organs and therefore bring us one step closer to our goal of making organs.

The relatively new process of 3D printing will help us get there and hopefully allow us to produce organs on a whim. Imagine having your own made to order organ. You would not have to worry about the donor list. They would just take a small sample of your cells and generate the organ you require – after many complex procedures, of course. These organs are produced using 3D printers and bio-ink.

Bio-ink is a material which mimics the extracellular environment (outside environment) of the organ in question and instead of going on paper the bio-ink is placed layer by layer onto a microgel to ensure the organ keeps its shape. After the organ is produced it must be incubated to allow the cells to mature and so produce a functioning organ.

We are slowly going to achieve our goal of producing organs, but the question is what social and economic ramifications it will cause. Will only the rich be able to use them? Should people who damage their own organs such as smokers and excessive drinkers be allowed to have an organ transplant, when the money could be used to save other people? Will it change social norms, allowing people to become more ignorable to the damage they cause to their organs because they can just be replaced?

I will leave you to ponder these questions and to come to your own decisions.


U.S. Department of Health & Human Services (2017) Organ Donor Statistics [online]. U.S. Department of Health & Human Services. [Viewed 2nd February 2018]. Available from: https://www.organdonor.gov/statistics-stories/statistics.html

National Institutes of Health (2018) Stem Cell Basics 1 [online]. National Institutes of Health. [Viewed 4th February]. Available from: https://stemcells.nih.gov/info/basics/1.htm

Daily Mail (2015) The tiny beating heart grown from STEM CELLS – and scientists say other organs could be on the way [online]. Daily Mail [Viewed 1ST February 2018]. Available from: http://www.dailymail.co.uk/sciencetech/article-3162819/The-tiny-beating-heart-grown-STEM-CELLS-scientists-say-organs-way.html

PubMed.gov (2015) Bioprinting of human pluripotent stem cells and their directed differentiation into hepatocyte-like cells for the generation of mini-livers in 3D [online] PubMed.gov [Viewed 3rd February]. Available from: https://www.ncbi.nlm.nih.gov/pubmed/26486521

How stuff works (2018) How Bioprinting Works [online]. How stuff works [Viewed 2nd February]. Available From: https://health.howstuffworks.com/medicine/modern-technology/3-d-bioprinting.htm

About the Author

I am a first-year undergraduate student at the University of Sheffield studying a Biomedical Science Degree. I am deeply interested in the use of stem cells because this is a field of science which hopefully one day I will conduct research in. Therefore, writing a blog post will allow me to further my own understanding of scientific topics and help inform other people about the amazing research currently occurring worldwide to alleviate suffering. Furthermore by informing people of research it will give them hope that there will eventually be a cure for whatever they are suffering from.

LinkedIn: – https://www.linkedin.com/in/abdullah-iqbal/

Email: abdullahiqbal90@googlemail.com

Email me if you have any queries


CineScience III: Jason Becker and ALS; from basic research to general public

Jason Becker






Amyotrophic Lateral Sclerosis (ALS) is a devastating disease considered the most common adult onset motor neuronal disorder. Sadly, this disease affects many patients around the world (1 to 3 patients per 100,000 people). These patients develop muscle weakness due to the progressive death of motor neurons (the cells responsible to connect muscles and central nervous system). In addition to the escalating failure of the neuromuscular system, the disease also may alter cognitive function and personality features. All these symptoms finally lead into the paralysis of several systems in the human body and, eventually, to death.

It is very hard to see how ALS can affect people from young age, typically from 30 or even younger ones. That was exactly the case of Jason Becker, an extraordinary guitarist diagnosed with ALS at the age of 19. He is the main character -or rather the hero- of Jason Becker: not dead yet), the documentary we watched in the III CineScience event held in October 2017 in Sheffield (South Yorkshire) . I use here the word “hero” because he had the proper behaviour of one. To the hard diagnosis, add the lack of information about the disease (in the 90’s). However, despite all the adversities, he found the way to transform his own life as an ALS-patient in a battle to raise awareness about the disease; an absolute triumph. [Read more on the Society of Spanish Researchers in the UK website]

By Dr Margarita Segovia Roldán, Postdoctoral Researcher, University of Sheffield. SRUK Yorkshire Constituency.