This image taken in ESA’s Columbus laboratory on the International Space Station is a snapshot of the many opportunities in space research and exploration.
In the centre is the Biolab facility, a fridge-sized unit that hosts biological experiments on micro-organisms, cells, tissue cultures, small plants and small invertebrates. Performing life science experiments in space identifies the role that weightlessness plays at all levels of an organism, from the effects on a single cell up to a complex organism including humans.
The facility has enabled researchers to make some remarkable discoveries, most notable that mammalian immune cells required a mere 42 seconds to adapt to weightlessness, prompting more questions but also an overall positive outlook for long-duration human spaceflight.
The pink glow in the image is from the greenhouse that has enabled many studies on plant growth in space.
With plans to visit the Moon and Mars, future astronauts will need a regular, fresh source of food as they take on these missions farther away from home. In addition to providing much-needed vitamins and minerals, growing plants in space contributes to sustainability and adds a homey touch to exploration.
Growing plants in the microgravity conditions of the International Space Station has allowed researchers to fine tune the approach: European research showed plants respond best to red and blue light, giving the Columbus module a disco feel.
If you look closely, you can spot Astro Pi Ed to the left of Biolab. As part of ESA astronaut Tim Peake’s Principia mission (2015–2016) to the ISS, two space-hardened Raspberry Pi computers, called Astro Pis and nicknamed Ed and Izzy, equipped with environmental sensors, were sent to the Space Station. They are regularly used to run students’ and young people’s programs as part of the Astro Pi Challenge.
Of course, a whole host of researchers, ground control crew, and mission support specialists make space research and exploration possible. The excitement of space continues.
Biolab (artist’s impression). Biolab is a facility designed to support biological experiments on micro-organisms, cells, tissue cultures, small plants and small invertebrates. The major objective of performing Life Sciences experiments in space is to identify the role that weightlessness plays at all levels of an organism, from the effects on a single cell up to a complex organism including humans. The Biolab facility will be launched inside the European Columbus laboratory. Larger image
Astrobiology, space biology,