Planetary Radio: Space Exploration, Astronomy and Science - Crickets and gastrodiplomacy: The future of space food
Episode Date: August 21, 2024As we look to build a more sustainable human presence in space, we will need to find new and innovative ways to feed our travelers. This week, we hear from Team Insecta, a group of Canadian students e...xploring crickets as a viable source of space food. Newton Campell Jr., a member of The Planetary Society's board of directors and co-founder of Heritage Space Food, discusses gastrodiplomacy and the importance of representation in space food. Then we close out with What's Up with Bruce Betts and a look at one of The Planetary Society's STEP grant-winning projects studying the complexities of growing plants in space. Discover more at: https://www.planetary.org/planetary-radio/2024-crickets-and-gastrodiplomacySee omnystudio.com/listener for privacy information.
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Cricuts in zero G. This week on Planetary Radio.
I'm Sarah El Ahmed of the Planetary Society with more of the human adventure across our
solar system and beyond.
As we look to build a more sustainable permanent presence for humans in space, we're going
to need to find new and innovative ways to feed our travelers.
This week we'll hear from Team Insecta, a group of Canadian students who are exploring crickets
as a viable source of protein and a kickstarter for space agriculture. To kick off our conversation
about space food, we'll also hear from Newton Campbell Jr., a member of the Planetary Society's
Board of Directors and co-founder of Heritage Space Food. We'll talk about gastro diplomacy and
the importance of representing many cultures in the foods that we take to
space with us. We'll close out our show with what's up with Bruce Betts, our
chief scientist. We'll take a look at one of our step grant winning projects that
are studying the complexities of growing plants in space. If you love Planetary
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If there are two things that I'm most passionate about in this world, it's space and food,
closely followed by video games and cats, but who's counting?
Food is about so much more than sustaining our bodies.
It's about happiness, about connecting with our friends and family, expressing our cultures,
and enjoying the bounty provided by our beautiful planet.
If you think the search for life is difficult,
imagine how much harder it's going to be
to find an alien culture with anything close
to tacos, sushi, and fatoush.
Our first guest today is Dr. Newton Campbell, Jr.
He joined us a few weeks ago to discuss his appointment
to our board of directors and a few other topics.
He's joining us again for a quick chat about the importance of representing as many cultures
as possible in the food that we take to space.
Newton leads the Australian Remote Operations for Space and Earth, or AROSE, consortium,
but he's also the co-founder of Heritage Space Food, a gastro-diplomacy nonprofit dedicated
to representing food cultures and communities in space.
Hey, Newton. Welcome back. Hey, Sarah. How's it going? nonprofit dedicated to representing food cultures and communities in space.
Hey, Newton. Welcome back. Hey, Sarah. How's it going? It's good to be back. Well, the last time we had you on the show, we were talking about what felt like so many different
subjects, AI, ethics and space, Australia's new lunar rover, the rover, best name ever.
But at the end of that conversation, you brought up briefly that you were a co-founder of
this nonprofit called Heritage Space Food, and we barely even got to brush the surface of that topic.
And since we're talking about food and space this week, I thought it'd be the perfect opportunity
to bring you back on to talk about that. Oh yeah, no, I'm more than happy to talk about
Heritage Space Food. You know, this is one of my 18 jobs, as I like to call it. The notion
about heritage space food really came from some conversations that I was having between
myself and a good friend of mine who is a bit of a celebrity chef. Her name is Dahlia
David. She's a wellness chef. Her focus is on, all right, how do I craft food, craft
meals that help people with, you know, both
obviously nutrition, but also their psychological wellness, their physical well-being, etc.,
etc. So we were having a conversation one day, a little bit about diversity, equity
and inclusion. It was a bit of a bummer conversation because both of us had just been through a
couple of events that really soured
us.
And, you know, she started talking about the notion of, well, you know, tell me things
about space that it is that you're doing.
Not having any notion that, hey, this might be something that I could get into.
She just wanted to hear about things like the journey to Mars and what we're doing with
Artemis, etc., etc.
And so we started having this conversation and I told her,
look, the hardest problem that the astronauts are going to deal with
when they're actually on the ship, it's not it's not the mechanics of getting there.
It's not even space radiation, both very hard problems.
We haven't even figured out the space radiation problem yet.
It really is psychology.
You're talking about
a journey that right now would be six to nine months. NASA's trying to bring it down to
three months with one of its new NIAC programs, but you're talking about a journey that's
six to nine months to get there. You have to wait a year for Earth and Mars to realign,
and it's going to be six to nine months on the way back for the Mars journey. We're also talking about astronauts living in sustainable environments on or around the
moon.
In those spaces, they're going to be dealing with aspects of loneliness, depression, anxiety,
all of these things.
And so we have to really be thinking about their psychology.
And so the first thing she asked me was, well, what are they doing about food on board?
Thinking that, yes, it's okay to analyze their psychology,
talk about ways of activities that they can do,
medications they can take, et cetera,
but from a food perspective,
that does a lot for your mental health.
How you eat, what you eat, things like that.
Not just the nutrition of it, but aspects of culture.
Everybody remembers that favorite dish from mom or dad when they were a kid.
Everybody remembers the thing that they ate growing up in their culture,
whoever raised you, and what their favorite thing was.
And that does bring a sense of warmth in a lot of ways to people.
And so we started talking about that
and the fact that these are gonna be
the loneliest people ever,
not to be a bummer about it, on Artemis.
So what if we were able to bring
a little bit of Earth's cultures on the journey?
Artemis is hopefully going to be
the most multicultural journey
that we've ever constructed.
We're at 43 countries that are now signed up for the Artemis Accords to establish the
sustainable environment around the moon to set up a path for going to Mars.
With that, while not all of them are going to be sending astronauts, some of them will. And then they will want aspects of home on that journey, aspects of home that will help
deal with that loneliness, deal with the fact that they are very far away and doing this
job being our emissaries to the stars.
And so with that, we started thinking, well, what if we could identify what are those cultural
requirements for food for the astronauts?
Most of the time when we're talking about space, we're talking about nutrition because
there's so many problems that the human body has to deal with when we're going to space
that have to be addressed by what people are eating.
You have bone density issues, you have muscular tissue starting
to strip away, you have issues with eyesight and all of these other things that occur just
being in a no pressure or low pressure environment or a no gravity or low gravity environment.
So we're often focused on those and the requirements for those. What do we have to do to plants
in order to genetically modify them to pack them in with vitamin D, things like
that.
But less often, I'm not saying it's not considered at all, but less often, we consider the cultural
requirements of something.
Heritage Space Food is a nonprofit that Dahlia and I started with our third co-founder, Stephanie
Wan, with the idea of promoting those conversations.
And then out of those conversations falls these cultural requirements that we can then
yield to the space food habitat and space food engineering community.
So most of what we're doing is focused here on Earth.
What are the cultural requirements?
How do we bring aspects of culture through to the space sector as we're sending our emissaries off to the stars?
And we're getting ready to produce a series of media events and media content that focus in or around those conversations.
We really want to be able to have astronauts have access to food from all over the world,
whether it's from a place that you're from or not.
I'm not Ethiopian. I love Ethiopian food. I would want to have something like that on board the
spacecraft. I would want to have, I'm imagining a refrigerator full of food with each of the drawers
having a different flag on them so that the people of Earth can carry our culture on this grand adventure
for our explorers.
Humanity has been in space with a permanent presence on the ISS for 20 years, and I'm
sure that there is an inbuilt bias in the foods that we provide people there and is
probably already impacting the people that have been in space.
Absolutely, 100%.
Look, there is an overwhelming amount of our astronauts that have been trained
on through the astronaut program that are of Eurocentric backgrounds, right? And that
has had an effect on the food that we've produced thus far in space. It's food from a very specific
backgrounds, right? It's not always food that may even be the most
appropriate for space in terms of maximizing nutrition and things like that. And we have
tried to deal with their sense of loneliness, their sense of depression, all of those things
through that lens. But again, as we diversify, as we're getting ready to put the first woman in person of color
on the moon through the Artemis program, we are going to need to diversify. And like I said,
it's not just about the food from your culture, being able to have access to home, not just home
from the local sense, not just home from where you grow up, but
home as in Earth.
Having each of the cultures of Earth represented on that ship that goes to Mars is going to
be so important.
And we need to start having those conversations and innovating around that capacity now.
I was at an international STEM conference this weekend where the folks
over at Illuminate FNQ, so FNQ here in Australia is far north Queensland, it's the
far far north regions of Australia where there's thousands of indigenous folks in
various communities around there. The Yarba people are one of many of the
groups there and a Yarba-run organization called Eliminate FNQ
had a really big STEM conference this past weekend
at Trinity Bay High School.
A number of the different high schools in the local region
actually came around and had students there
that were there to listen to us talk about our careers
in STEM, our careers in science, so on and so forth.
And they asked the most amazing questions.
And I do want to give a shout out to one of the young Aboriginal girls, Shania, who just
asked the most amazing questions during one of our STEM round tables, questions of how
this actually impacts people in her community, what can she do going forward, what can we
do to really focus on some of
the Indigenous youth that all are just so full of opportunity in Australia.
So I just wanted to give a quick shout out to her and a shout out to the folks at Illuminate
FNQ.
What a fantastic festival.
I'm hoping to bring so many more people from the space community there next year.
Do you have any advice for anybody who wants to find a way to help more people be represented
in space through food?
Well, first and foremost, so much like we plug planetary.org, I'm going to plug heritagespacefood.com.
We have set up our website in preparation to have discussions, interview different people
and actually think about events that we can have.
So if you want to get involved in this, definitely go to heritage space food.com.
Outside of that, getting involved, you know, if people want to get involved in the space
food and space food nutrition side of things, there's a number of avenues that NASA has
provided in order to do this.
NASA has a number of competitions that they work on among students such as the Deep Space
Food Challenge, which just concluded in Columbus, Ohio.
Two of our co-founders were at that event where they simply work on, hey, here's a particular
dish or a particular set of dishes.
How do we actually bring these foods into space?
That typically runs through high schools and
colleges that are working on these programs. I know down here in Australia, we have RMIT,
which has a really significant food lab, and two universities that are actually working
with JPL on plants in space, where the question is, all right, for the plants that are supplying
these ingredients, how do we pack them with
the right nutrients? How do we genetically modify them? So on and so forth. So there's
lots of these different avenues. And if you don't want to do specifically food, we also
have to keep in mind the habitat, the environment that is surrounding what you eat. What you
eat is just as, if not less, important than how you eat it when
it comes to certain cultures or how it's prepared. So thinking about questions in terms of space
habitat engineering, which happens at a range of universities across the country, small projects
from Arizona State University to University of Buffalo have different projects on space habitat
engineering. How can you inject some of these cultural requirements into those avenues,
into those domains, I think is also a way to get involved. Well, thanks for joining me to talk
about this and for working on something that I think is going to make so many more people
feel welcome in the space community. This is some really important stuff.
It's always great to talk to you, Sarah. There are so many tricky bits when it comes many more people feel welcome in the space community. This is some really important stuff.
It's always great to talk to you, Sarah.
There are so many tricky bits when it comes
to feeding our space travelers.
Ensuring that we have a lot of different cultures
represented in our food is an important aspect.
But before we can fully tackle that challenge,
we have to master the basics.
How do we ensure that our astronauts have a balanced diet?
And how do we make our food systems sustainable as we move away from Earth?
On space stations like the ISS, we can send up supply runs to our astronauts,
but as we look to build a permanent settlement on the Moon, or then move on to Mars,
we have to create closed systems that can support our astronauts' health and well-being without depending on Earth.
Our next guests are Hunter Brzezinski and Cassandra Stabile, laboratory researchers
at Carleton University in Ottawa, Ontario, Canada.
They're members of Team Insecta, one of the most recent groups of students from the
Canadian Reduced Gravity Experiment Design Challenge, or CANRGX.
CANRGX is the first microgravity research competition for students in Canada
in collaboration with the National Research Council of Canada and the Canadian Space Agency.
It allows Canadian post-secondary students to design and test small experiments on the
NRC's Falcon 20 aircraft. Low-gravity flights, which are sometimes called parabolic or zero-g
flights, simulate weightlessness by flying on parabolic trajectories.
Passengers experience brief periods of microgravity during the downward phase of each parabola,
which gives them time to conduct low gravity experiments without having to launch all the
way to space.
Although, I'm pretty sure that both Hunter and Cassandra would totally take that ride
up to the ISS.
Team Insecta is a student research group from Carleton University's Department of Biology led by professors Heath McMillan
and Sue Bertram. They're exploring the suitability of crickets as a food source
in space by first testing how low-gravity environments affect crickets
in the short and long term. Welcome to Planetary Radio Hunter, Cassandra. It's
great to have you. Hi, thanks for having us.
Great to be here.
So your team is one of several that was accepted in one of the most recent rounds for the Canadian Reduced Gravity Experiment Program it's a nationwide competition here in Canada
in collaboration with the Canadian Space Agency, the CSA,
and the National Research Council, the NRC.
And it's hosted and organized by the Students
for the Exploration and Development
of Deep Space Organization.
And they've done a great job.
Your team is from a biology department.
You didn't come from the space angle.
So how did you become interested in pursuing crickets as a sustainable food source for space travel?
I think most of our motivation actually came from another university that was tasked with a similar project.
And it was from the Canadian Deep Space Competition.
So this was in collaboration with NASA, with CSA, the Canadian Space Agency,
and another organization called IMPACT.
And it's a separate organization.
They fund innovative works around Canada, specifically STEM.
And it just so happened that a team based out of McGill
had the idea of creating a habitation module for crickets.
They were also exploring the idea of like, let's bring crickets to deep space.
And so we saw this at the beginning of writing our proposal and we said,
we're on the right track. These guys are doing, they came to the same conclusion that we did.
And that's a big reason of why we're here.
So why crickets is really my first question,
because there are many ways that we
can think about feeding people sustainably in space.
But clearly, we have some limited resources
in those scenarios.
So why crickets of all the ways that we
could go at this problem?
Yeah, so since we know that a fundamental barrier
to deep space travel is the absence
of a dependable and renewable food system in space.
We really wanted to attack this sort of problem with a renewable system that could use limited
resources and can be propagated for long terms. So to do that, we looked at what we already knew,
which we're all coming from an insect physiology and ecology lab.
And we're already working with some Canadian industrial partners that are working with
edible insects as food and animal feed.
So coming from that angle, we wanted to see if crickets themselves were possible to be
in space because they are being looked at as an attractive solution for the food security
crisis on earth.
So what if we could bring that up to space?
That's a really interesting solution. I mean, when I brought this subject up to some of my co-workers,
their first thought immediately went to closed ecosystem fed by crickets.
Their first thought was snowpiercer, back of the train, right?
But I think more broadly, this discussion about how to create sustainable food sources as the climate changes is really important.
And I've heard this, crickets as the solution for this issue before.
What specifically is it about crickets versus other forms of insects that we could be using
that makes them optimal for this?
I would say that because of working with our industry partners who also specialize in insects
for feed, and specifically crickets, and their go-to characteristics for these guys is that
they're high in protein, B12, and they take a fraction of the resources to raise.
There are other suitable candidates for insects that we could potentially rear.
It's just that crickets specifically have been the most well-worked with the last decade.
And that's why we thought they would be a very suitable candidate for deep space travel,
for instance.
As well, the cricket industry has started to look into using agricultural waste and
things like brewery waste and weeds as a food source for crickets because they're very versatile
in what they can eat and what they can grow on.
So the possibility of bringing crickets into space and then using sort of a bioregenerative
system with astro crop waste as their food would kind of even reduce further the amount
of resources we need to put into them.
That's a really interesting point and brings me to my next question. If we can use them
to kind of take the byproducts of agriculture in space and
use that as a food source, that's really cool. But I know that there are a lot of people listening
right now who are either vegetarian or vegan. We have many people on our team as well that are also
vegetarians. And they wanted to know why pursue bugs as a protein source rather than try to go
straight for the space agriculture, say legumes or something
like that? Is there a functional reason why this would work better in space or is this something
limited to our current lack of ability to farm in space? So I would say that some crops can be very
demanding in terms of resources, in terms of water. But we're interested in crickets because they would be an alternative
to traditional forms of livestock.
They would be a meat substitute
or something that you could possibly
supplement your diet with.
But we're interested in the secondary benefits as well.
The idea that it could possibly be a circular system
and the fact that some of the resources in the crickets
can be recycled for other purposes.
And I'll give you an example. For instance, the chitin structure that's part of the exoskeleton of the crickets,
it can actually be used as a natural insecticide. So it can boost the plant's immune system. And if
we're considering colonization of distant planets like the moon or Mars, perhaps it would be best if we can bolster their defense systems.
And not only that, but the frass or the excrement of the crickets, they can be used as a natural
fertilizer, one that doesn't burn plants like traditional phosphorus or nitrogen fertilizers,
and one that allows them to grow very well. That's really important to think too. A lot of the worlds that we're going to be
visiting, say the moon and Mars, they don't have classic soil like we have here on
Earth. We have this regolith that is basically just tiny shards of rock, very
very sharp, very sticky. We're going to have to be able to, you know, nitrogenate
that soil, do a lot of things to be able to plant in it. And preliminary experiments
show this is possible. But if we can do that by bringing a sustainable farm of crickets with us,
instead of say, a bunch of chemicals that not only save space, but might also be a more kind of
organic way of going about solving that problem. So I love that. But in order to test this,
you've got to actually go on a really cool experience. So recently on July 22nd, your team actually got to go and do this micro G environment
experiment.
How many members of the team did you bring and how many crickets did you bring along
for the ride?
Yeah.
So we ended up doing two different flights.
So we were able to get four people up onto the plane.
I flew with another member, Sophie, on the first flight and Hunter Hunter flew with the other co-lead, Emily, on the second flight. And we brought about
between the two flights a couple hundred crickets on different life stages. We had adults that
were about six to seven weeks old, juveniles or like adolescents that are about two to
three weeks, and we also brought eggs up.
That's cool to think because in my brain I was thinking maybe you bring all adult crickets
but what is the benefit of having so many different life stages of crickets during this
experiment?
Yeah, so we wanted to see how the different life stages were affected by this space flight
because in the egg stage they're very susceptible to different stressors as well as the adolescents
while adults are more resilient to different stresses, but they're also later in life. So we wanted
to see if bringing up crickets at a lower life stage or even before hatching
could have long-lasting effects on their fecundity or their ability to reproduce,
their growth, the yield that they could result in. Basically, we wanted to see if
both their gene expression changed and if their ability to survive and create
the next generation was possible.
Because I imagine it might impact the young ones much more
or maybe impact the ones that are of breeding age,
and they would pass that on to their offspring.
That's really interesting.
Before we actually get into the experiments you've
been conducting on these crickets,
what was the actual flight like?
Because I've wanted to do that since I was a child.
That sounds awesome.
It was fantastic.
I think that's the only way to describe it.
Something like 2G is an environment you can't really imagine unless you've actually gone
through it.
But for all the viewers out there, it was you're twice your body weight.
You're being pushed down back into the seat.
And suddenly there is this brief 20 second window
at the top of the flight where you're suddenly weightless.
And it's like you're in the pool.
Your brain is trying to catch its bearings
and you're holding onto your seat for dear life
because you feel like you're gonna fall off
the face of the earth. But it's there and it's real
and you're looking across at the other two members of the team because there
was another team that was with us and suddenly you're brought back down to
your seat and you do that eight more times over the span of an hour or two so
it was a very magical experience.
That's the only way to describe it. Yeah, it was a once-in-a-lifetime experience, honestly, and being able to share it with another
group of students our age also experiencing for the first time. We had some NRC members
that are old-hatted it, had flown over a hundred times at this point, but just to see the joy and
hear everybody laughing over the headset,
it was just, it was amazing.
What other groups went up with you?
So for my flight, I shared with a Waterloo, University of Waterloo team.
They were soldering in space to see if they created a centrifugal force,
if they can make their solderings better than the voids that you get in space.
That's really clever.
And for my flight, we went out with another team from the Southern Alberta Institute of Technology,
and they're working on an ionic thruster with a gyroscope.
So it's a very neat, very neat and wide range of projects that are happening in CanRGX.
That's awesome. And I felt like what camaraderie by the time you come down from that flight,
that must have been so fun.
Yeah, definitely. By the end of the week, That's awesome. And I've got like what camaraderie by the time you come down from that flight. That must have been so fun.
Yeah, definitely. By the end of the week, we were best friends with the widest array of people, little biology students getting to meet all these different engineers, them being excited to tell us about their stuff, a ride like that is really exciting because we know what's going on.
But I'm sure for the crickets, that is a whole stressful situation.
So how did the crickets respond to the ride?
Surprisingly, well, I'm not going to say surprisingly because we did a lot of testing to make sure
that they would survive.
But they survived well.
We did end up bringing two clear vials of a cricket each up into the plane because all
of our other crickets were inside a sealed pelican case.
You can really see what was going on inside.
But we did bring some crickets up just to see them floating in microgravity.
It was very interesting.
You can see them sort of paddling their way through like when you hold a dog over the
water.
But they fared pretty well when we came down and pulled them out of the box. They were a little groggy, not moving too much, but within five minutes
they were back to their usual activity.
Do you have video of these crickets reacting?
We do. It's currently being held hostage by one of our NRC contacts, but we're getting
it from him soon.
We're getting approval. It's in the works.
But they didn't panic or anything, right?
They just kind of looked like they were doggy paddling.
I mean, the difference, I think, visually for me is like the difference between how
the dogs reacted in Zero G versus cats.
The dogs just kind of paddled around.
The cats lost their minds trying to flip their tails, trying to reorient in Zero G. So I
guess the crickets don't have that same kind of system that really panics them when they're not knowing where the sun is or what's up or down.
It's very interesting actually, because I think Cass, you were telling me that the cricket,
we call them the celebrity crickets. So Jiminy Cricket and Sherp Aldrin were their names.
And I think the crickets that you, they're the same batch crickets, the ones that like
you brought on your flight, they're a lot more relaxed.
But what I noticed in the second flight
is that they were actually a lot like a cat
and they were trying to orient themselves.
And that's something that we were interested in observing.
So, yeah.
Yeah, maybe it's a cricket personality thing.
And there are also many variations of crickets
across this planet.
What kind of crickets did you take up there and why?
We work with an industry partner, Aspire, who uses Achaeta domesticis, which is a tropical
cricket most commonly known as the house cricket.
And it is an established edible cricket, and that's the one that we brought up on the plane.
There are a few other different species of edible crickets that we could have brought
up, but it was mostly just our collaboration with the industry partner that made us choose
the species. We'll be right back after the short break.
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Other than cricket stress, I mean, clearly you guys
are trying to do a lot of different tests
on these crickets.
What were the most important things that you're trying
to learn about how they reacted to zero G or low gravity?
So we wanted to see both their genetic changes
or if there were any genetic changes
and phenotypic changes.
So in terms of phenotype, like I mentioned before,
we were looking at growth coming out of the flight
to see if those that flew in our flight treatments
were growing slower or smaller
than the ones that were in our control.
So we are going to be measuring them,
I think every two days from this point on
until they become adults
to see if their growth is deviating in any way.
We wanted to see fecundity, so their ability
to lay eggs and reproduce and create the next generation.
And then in terms of gene expression, RNA sequencing.
So we're going to be looking at the entire transcriptome, which
is really beneficial because we're
trying to come at this in a totally unbiased way.
We want to just see what is happening overall
in the entire organism across the entire genome.
So we do have specific genes and pathways
that we're interested.
There's three main genetic pathways
when it comes to insects for their immune system.
That's the toll IMDB and JaxSat pathways.
So we're gonna be keeping an eye on them
because we know that these pathways upregulate
in a lot of other stressors like cold or excessive heat
or a lot of movement and a lot of noise.
So we know that they're gonna react.
It could be that the control crickets are reacting
because we tried to mimic walking them out to the plane,
walking them back, they got driven all the way to Quebec.
They're gonna have some stress there.
But so we're gonna be looking at those specifically, but by being able to look at
the entire transcriptome, we get to see if there are any novel upregulations or downregulations
or anything that could be happening in the cricket that we weren't expecting,
that could be giving us information if they can survive space travel.
Do you think that these changes to, you know to future generations of crickets would be more likely
due to that exposure to zero-G and maybe even more particles from space impacting their
genetics directly? Or would it be more of an epigenetic thing that's passed down through
this trauma response from being in space?
At this point, I think we're at a really preliminary stage.
These crickets were exposed to just a few minutes of microgravity in this parabolic
flight.
They were experiencing, you know, hypergravity as well, takeoff, vibrations, temperature
fluctuations, everything that you would be experiencing in a space flight, right? But we don't know how long the space flight would take
to really maybe have a detrimental effect
or have a really long lasting effect.
So this is really a preliminary study for us.
We wanna see if in this short amount of time,
something happened that we wouldn't really like,
or maybe they're doing great
and we can do longer studies from this point out.
But I wouldn't say like or maybe they're doing great and we can do longer studies from this point out. But I wouldn't say at this point that we would be seeing really long lasting generational stuff.
We might be, not too sure yet. But with the amount of time that they were exposed, I wouldn't expect
a huge, huge change in the entire genome. What's interesting about this to me is I always assumed sending things into microgravity or
into space would negatively impact their ability to procreate and things like that.
But in some cases we've seen with experiments on the ISS, you'll send, say, a group of seeds
up there.
And when we bring them back down, it's actually the opposite.
The ones that survive it tend to flourish and grow faster and do things we really didn't
expect.
So it's quite possible that if we had extended periods of time with crickets, not even just
in microgravity, but in zero G, it might do things that actually benefit them, which might
be very strange.
And that's exactly right.
And most of the rationale behind the study actually came from the ISS.
So like what we start to see in astronauts is that exposure to
zero G's or microgravity can impact their immune system and dysregulate their endocrine system.
And a more insect specific example would be Drosophila melanogaster or fruit flies and
exposure to microgravity in this case ended up rounding out their hearts. And so like putting these two ideas together, we wanted to see if there would be any impacts on,
let's say, the crickets. But whether or not these impacts will manifest into like observable
changes, like physical changes, changes in in weights, changes in survivability and in measurements,
that's something that we'll have to see. But something
like gene expression is entirely possible. We're hoping to get a snapshot of what has
happened by snap freezing them after the flight campaigns.
What is the typical lifespan of these crickets and how will that impact how long it takes
you to actually track these differences in their genetics. So the average lifespan for a cricket would be about, I wanted to say around 10 to 12 weeks.
That's the optimal point. And most of the crickets experience their growth by week six,
and that's when they become adults. So we're hoping to see any changes manifest by then.
Or if there's a lack of changes, that might tell us some things as well.
How much food and water does it take to sustain these cricket populations?
Not much. I mean, we brought a little condiment sort of food container of cricket food with us
for the entire week and I think we hardly made a dent in it. A few grams a week
could sustain a good-sized colony bin. So there's not a lot of food that goes into them.
And in terms of water, honestly evaporation will take the water out faster than the crickets
drinking it. So we change it out pretty frequently just to maintain cleanliness and to make sure that they're getting clean vials.
But again, it's not a lot.
They're little 1.5 milliliter tubes of water with a little cotton swab on top and that's
all they really need.
And for a bit of a comparison, crickets would be like a fantastic source of food.
And the reason why is because they take like what Cass was saying so few resources and I believe the figure is something like a thousand
times less food and water compared to a cow for instance. So that is why they are
so-called a superior food system or more sustainable. You mentioned earlier that
they can do things like eat the biotech products of plants but are there any
other food sources that we could use to feed them that would be sustainable and create a self-contained
ecosystem other than large-scale agriculture? Could we use some kind of moss or something
like that? I don't know what crickets are down to eat.
Yeah. So these crickets are pretty nonspecific in what they eat. We have some people in the lab that are studying microplastics and the crickets will eat those
up, which isn't very great.
But we also have some people researching brewery waste.
So we got some waste from a local brewery and they were able to eat the spent grain
from that.
And we're also doing some studies into euglena, So microalgae, they have also been able to consume that.
It does affect their growth a little bit,
but we're in the preliminary stages that, you know,
multigenerational studies could show that they adapt to it
because they're very adaptable insects.
It's exciting to hear because I've increasingly been talking to more people
who are actually trying to pursue this idea of trying to brew
alcohol in space, brew beer in space, and even investigate the different ways that it tastes and
feels when you have these carbonated or alcoholic drinks in space. It's a whole new industry. And
if they knew that they could team up with Team Insecta and create a whole sustainable ecosystem,
I mean, I know it sounds a little
silly to some people out there, but honestly, this is the beginning of a whole new age of us being
able to not only feed ourselves in space, but think about the ways that our food systems here
on Earth interact. Do you think that you've grown in an appreciation of the ways that we deal with
our food here on Earth through this experiment?
Yeah, I think working in the environment that we have the last few years in like the edible insect
field, we've had a new appreciation for the amount of resources that go into traditional livestock
and the lack of sustainability long term of a growing industry of cattle and chickens and all that stuff.
If we can reduce it and supplement even a portion of that protein that we're
getting from those traditional livestocks with our crickets, it could
become a more sustainable system. Crickets on the thousands can be reared
in the size of like a chicken coop. So even just land space that is being consumed by
agricultural industries can be
reduced significantly using the crickets.
I think that's a great point,
just the sustainability of it all.
And I think I can speak for the entire team when I say that
it's getting us to think one step beyond.
We're not just thinking about bringing livestock
or crickets to the moon or the Mars.
We're thinking about bringing the entire system up.
How can we integrate this best
with the parts that are already there?
Like what we were discussing earlier on
with the circular system
and possibly feeding them on waste products.
That's something that is very beautiful.
And that's something that we could use here on Earth.
So going one step past that and saying,
how can we use our resources?
How can we use the tools at our disposal
the best that we can?
And feed our space travelers while we're at it.
So you're in the process of gathering data
on what happened here, putting it all together.
What are you gonna be doing with this data set?
Are you going to be keeping it internally
for your own purposes, or are you
going to be sharing this data set more broadly with people
who might want to be getting into space bugs?
I think the first approach would be keeping it internally
at first just to process the data
and to carry out the experiment, and then eventually make
it public access so that other people can access
the information and then eventually make it public access so that other people can access the information and hopefully motivate someone who doesn't know anything about this to take
up the cause.
Yeah, we have a few more months.
RNA sequencing takes a little while, but once we get that data analyzed, we're hoping to
get it published out.
Man, how wild is it that we can even be in a day and age where we can actually RNA sequence
crickets to see how space impacted them.
This seems old hat at this point, but it still completely blows my mind that we have this ability
at all. It's just amazing, startling. Putting the weirdest sentences together with this project.
Let me tell you, the whole proposal really shocked everyone at SEDS and the RSC and the
CSA.
It came across their desk and they're like, what, crickets?
So it was surprising for a lot of people, but it worked out great.
What can I say?
Oh, that is an interesting point, right?
In that many cultures use bugs as a food source, but not all cultures.
When I was a child, I was exposed to people from many
different cultures. I ate a whole lot of bugs, including crickets, spiced
crickets when I was a kid. And I had no idea that my friends at that age thought
that was super gross until one of my friends told me and thought it was very
weird. But this is a common thing and something we're gonna be thinking about
a lot more as we deal with the effects of climate change on our agriculture.
Have people responded to this in one of those like, ew, bugs kind of ways or are they like amenable to this idea?
That's a great point of how to integrate crickets into like the food that we're eating now.
And one of our commercial partners Entomolol Farms, was working with the possibility of
or making Cheeto puffs, for instance, and making different varieties, different flavors
of the oven-baked crickets.
So you had Doritos, you had Cool Ranch, you had Honey Mustard.
And I think if you're looking at something like that, then it will be a lot better for
using people into it. And we also hosted a cafeteria event at Carleton University a little while ago.
And the chefs did a great job of using people into it.
They had cricket flower pancakes, they had cricket themed cake pops.
And when it came in and from that idea, people were more than willing to try some.
And from that idea, people were more than willing to try some. So the easiest way to integrate, I think,
the cricket into sort of the Western diet,
because Eastern cultures are a lot more
amenable to whole insects.
And it's a cultural thing.
People in the West are learning a little bit more.
There's a really big edible insects industry
boom in Europe right now.
And we're starting
that in North America as well.
But these crickets can be ground down into a protein powder and they can be supplemented
just like whey powder into, you know, we had cricket cookies, like chocolate chip cookies
and they were just a high protein cookie at that point.
You're not tasting cricket.
You don't have the visual that a lot of people are a little bit worrisome from.
And that way you can just integrate it as a protein supplement into your diet like any other protein supplement.
And I think that's the easiest way for people to sort of learn and step their feet into the waters of edible insects.
Are there any food organizations or any bug organizations that you've worked with during
this research?
Not as much, no.
It's mainly been collaborating with our industry partners to spread word of mouth that crickets
would be a great sustainable food option for deep space.
Because I know that they're beginning to start having these competitions for space food or
having these collectives that more broadly are trying to
think about how to do this sustainably. It's really beautiful seeing this kind of blossoming
industry. And who even knows, one of these days we might have a whole subculture or like a whole
sub-industry of just cricket-based foods that we can send to space. I think that would be really
interesting, but we're not there yet. Has anyone expressed any interest in trying to use your data so far?
We've had a lot of interest about seeing what's going to come from the data, but I think right
now it's still early steps.
If we're getting positive results from the data, I think people are going to be more
open to the idea and there'll be further studies that can be conducted, but right now we'll
see how it goes.
So what's next for Team Insecta, other than piecing together all this data? Now that you've
had this exposure to these micro-G experiments, is this changing the way you're thinking about
the future of your careers?
I do know one of our members was pretty set on being a...
She wants to be a space doctor.
Yeah, but she's always been interested in space medicine.
And I think this very much solidified it for her.
It's always one of those experiences, right?
Like you think your career is going one way and then suddenly you have exposure
to something like this and it just changes everything.
Just we were able to walk around the CSA and get to see some of the things that
they were up to. And as a biology student who has never had interest in,
you know, engineering to for an entire career for a minute there, I was like,
I'm going to make a Mars Rover.
How did the people at the CSA react?
Positively. Everybody was super nice.
We've had such a great reception to the project upon meeting the NRC and the CSA members at the tarmac when we all got there that week.
It was amazing.
I have to say that our team was a bit of a black sheep going into the competition because the competition is in our own minds.
Exactly. because the competition is in our own minds exactly. And the reason why is
because most of the other teams, they're engineering. There's very few
life sciences or groups specializing in life sciences that go on and win the
competition. So as soon as we stepped into the room, we were asked so many
questions, especially by the CSA. Like how do crickets orient
themselves? Do they have cat-like reflexes in mycogravity? And these are all questions that we had to answer in that week.
And even now, people from the other teams
are still reaching out to us and asking us how the project went,
asking us what are the next steps.
And so it's been a great time overall.
Yeah, I was surprised by the amount of people
who met us on the first day and said, can I hold a cricket?
I mean, that is the one thing that comes to mind for me, because when I was a child, we had a lot of animals around our home.
We raised emus and goats and chickens and many reptiles.
And of course, that meant that we had crickets around in order to feed our reptiles.
But as a kid, I'd knock over the cricket bin, we'd end up with crickets all over the house.
And now I'm imagining just the terror of having crickets all over your spacecraft. How would you deal with that?
Exactly. So we had a specialized, our payload was a 0350 Pelican case, and so it kept all of our
crickets inside. And we had to, for the last year, we've been constructing this almost like pill-like container specimen
holder that held all our crickets together. And that's something that we had to run by the NRC
and the CSA to make sure that it met all the required guidelines and that two weren't going
to escape on the plane because for a while there that was a concern. It's no longer though.
Yeah, they all stayed where they were supposed to be.
They all stayed where they were supposed to be. They all stayed where they were supposed to be.
Well, the CSA is one of the partners in NASA's Artemis program, Going to the Moon.
Who even knows how this kind of research could impact future bases on the moon?
If we can get a sustainable water source, if we've got teams already thinking about
trying to pursue sustainable agriculture on the moon. I think adding this element of sustainable protein production
through crickets is a good avenue,
because we don't want to take all of the waste
and the complication of livestock to the moon.
They won't survive, and that would be cruel to do to them.
But crickets, I think we can make them a part
of our human sustainable movement on the moon
and make them our friends and our food source.
Yeah, I hope so.
Absolutely.
It's going to be a really complicated thing to create sustainable places for people in
space, whether or not it's keeping them alive, getting the water we need, anything like that.
We're not always going to be tethered to Earth as much as we love this planet.
If we want to make ourselves a multi-planetary species, we're going to have to ask ourselves some really complex questions about
how we interact with our environments and how we keep that sustainable and ethical as we go into
the future. Not just the way that we treat ourselves and each other, but also the way we
treat our food sources. And I think this is a really good starting point. And I'm so glad to
have you on to talk about it because I don't think many people think about these things.
Yeah, we're glad to come and talk about it.
We're always excited to share.
Absolutely.
Well, thanks so much, Hunter and Cassandra.
Thanks for having us.
Thank you.
If you're a Canadian university student with a good idea for a low-gravity experiment,
I'll leave a link to the page for the CanRGX program
on the website for this episode of Planetary Radio. The next round of proposals opens up in
September 2024, just next month, so you're going to want to get working on that.
With more on the challenges of growing crops off of Earth, we turn to Dr. Bruce Betts,
our chief scientist for What's Up. He's one of the driving forces behind the Planetary Society's STEP grant program, science and technology empowered by the public.
Hey, Bruce.
Hello, Sarah.
We're talking about space food this week. That's exciting for me because, you know,
I'm a little bit of a chef. So I love the idea of having more options for what to cook
in space someday, you know, when I'm living up there with my cat. You're gonna need special cat food for, you know, I guess you need...
That didn't even occur to me. I'm gonna have to feed the cat too.
Yeah, who's doing research on that?
I mean, I hope someone someday. Oh man, if anyone out there is studying that, please
reach out to us. I want to know more. I mean, this isn't a new subject, clearly. You know,
we have some students that are doing some beginning projects
on studying crickets in space and things like that.
Obviously, people are considering
the diversity of heritages that we're
representing in our foods in space, which is also great.
But the main issue is, how do you just grow the food right
out the gate?
We've got a major issue.
But thankfully, people are studying that, too,
including one of our previous StepGrant winners.
The StepGrant program has been around for about two years at this point. So we've only awarded
two rounds of StepGrants. And in the 2023 group, we actually had a group that was specifically
studying growing food and space. Would you like to tell us a little bit about that one?
Pete Slauson And they still are. They're in the midst of
their study. Yes, it's led by Andrew Palmer at Florida Institute of Technology.
And they are doing a study where they grow things in hydroponics using water plus
nutrients, and they grow things in a lunar regolith simulant.
So regolith is the upper broken up part of the moon that's been
beaten on by meteorite impacts.
And we have lunar dirt and people have grown in it, but it's not something part of the moon that's been beaten on by meteorite impacts.
And we have lunar dirt and people have grown in it, but it's not something that people
are really excited to have you mess up the lunar dirt.
So they're using a lunar simulant, which has been chosen from Earth to match fairly
closely the properties.
And they're basically no one has...
People have grown plants in space, they've grown
plants in lunar simulant, they've done hydroponics, but no one's taken a real systematic look
at this is looking off in the far future, further future, where you have long term food
needs.
What's the most efficient way to grow things?
Is it hydroponics?
Is it using the, assuming you haven't brought a bunch of soil
from earth, can you use lunar regolith and how do the two compare? And how does it compare
for different plants? So they've got ones that have very little like extra leaves and
then things like tomatoes that have a bunch of extra leaves that you fold back into your
next generations. Leaves in this case meaning ones you don't eat, as well as they're growing romaine and lettuce and other things. So they've got a whole
group collection of them doing this and we're excited they, as you said,
earned one of the recent STEP grants, Science and Technology, empowered by the
public, which is funded by our members and donors where we try to make a
difference and push it ahead. So this gives them a chance to show what they've got and then they can move on to
bigger sources of money and funding and hopefully learn stuff about feeding
people in the future on the best way to do it. I mean from my knowledge of sci-fi
it seems to suggest that hydroponics is the way that a lot of people think we're
gonna go with this. Are there any major downsides to taking that approach? I mean, other than the fact
that you clearly need a lot of water, but you're going to need water if you're
going to be planting in regolith as well.
Yeah, and possibly for other things on board, I'm guessing.
Hydroponics, you have water and what you add to it, but some plants kind of want,
they want that nice dirt feel, you know, rolling around in the dirt, feeling good, getting muddy.
Okay, maybe not muddy.
That's actually one reason the regolith on the moon is different because it doesn't play
with liquid water over billions of years.
I mean, that is a big thing though.
If they want dirt, the regolith on the moon and on Mars are clearly not dirt.
So how are they fundamentally different from
the soil that we have on our planet?
Yeah, I don't know. I think they're technically might be dirt, but we call them regolith because
what they're not is soil and then often we refer to them as soils. But once in a while,
you'll get one of those soil scientists in your meeting and they will give you a little
lecture on what soil is. And soil on earth is mostly broken down critter matter, you
know, plants and animals and microbes and gross stuff that, well, I'm sorry, that was
the non-biologist talking, that form over time this upper layer of dirt of soil.
And in lunar regolith, you have a very different condition where it's basically been without
an atmosphere, without liquid water.
The major process over billions of years is impact.
So it just crushes, shatters the volcanic rocks that are there.
And you end up lacking the nutrients that Earth organisms, plants have learned to love.
At Mars, you get something different, but you presumably don't have, unless we find
something different, whole piles of dirt or soil on the surface
from life. But you do have a little more processes in back in Mars history.
Things got modified by liquid water. You had to have wind processes blowing stuff
around. But you also we think have these nasty oxidizers in there, including
perchlorate. So it's got that, that's kind of extra nasty. The lunar regolith, because
it hasn't been blown around, it's been whacked over and over, and it hasn't been rolled in
the water, has very sharp little tiny fragments. And so they all all three different beasts but definitely oddly
enough earth plants evolved to work nicely in earth soil and so that's part
of the challenge. On a different animal scale that's part of what Palmer's group
is looking at with the step grant because they're looking at the microbiome
the microbiology and both that get set up and affect these things, as well
as how you might use what isn't eaten to help re-enrich the soil.
Nitrogen fixing.
But I mean, that means ultimately they can do all these experiments, but one of these
days they're going to have to do either what these Canadian students have done or take
it one step further to the ISS and keep these experiments in low gravity permanently or in the bombardment
of all the different cosmic rays and stuff from space to see how that in the long term
is going to affect these plants. But man, what a start.
So, I, of course, haven't heard the interview. Did you ask them about whether they're going
to make noise at night and whether the astronauts are going to think that's soothing or it's just going to keep
them awake?
See, I didn't ask about that.
My concern was that the crickets would get loose on the ISS and you'd have cricket palooza.
Wow.
Cricket fire festival.
Yeah, that's definitely probably more on brand.
So you're thinking of the important things that no one else is thinking of.
We'll figure it out, man.
We'll figure it out.
All right, cool.
All right.
Shall we go on?
Yeah.
What is our random space fact this week?
Well, first of all, let's say, so I don't know if you discussed eating in space, but let's go over that, shall we?
The first to eat in space was indeed the first person in space, Yuri Gagarin.
He had some tasty meat tubes and a little bit of what actually might have been tasty,
chocolate sauce squeezed out of tubes.
The second person in space, Gherman Titov. And he is, unfortunately for him, famous
for being the first to vomit in space. And then John Glenn was the first American to
orbit. Earth was the first to eat as well. And they were afraid in zero G you wouldn't
be able to swallow and things like that. But hey, they can. So, cool.
That's interesting. Why would they think you couldn't swallow?
They were all spoke to about everything.
Yeah. I mean, question everything when it's something you've never done before, I guess. Why would they think you couldn't swallow? They were all spoke to us. How would they know? Everything.
Yeah.
I mean, question everything when it's something you've never done before, I guess.
And it was a little unclear on when the first time maybe people can educate me.
I was looking around.
Certainly the first time American astronauts ate what they grew in space was 2015 on ISS
when they grew some tasty, tasty lettuce, which I think, by the way, is cruel. I mean,
you take people to space, say you're going to grow your own food, and then you eat lettuce.
I don't know. Anyway.
Yeah, I'm glad we've kind of transcended beyond meat go-gurts as our standard way of feeding
people in space.
God, that makes me hungry.
Ugh.
We're about done? Meat go-gurt.
Ugh. I'll go with the crickets, please makes me hungry. Ugh. We're about done. Meet Gogurt.
Ugh.
I'll go with the crickets, please, and thank you.
All right.
Are we tasty?
Yep.
Are we done?
I think we're good.
Are we fed?
All right, everybody, go out there and look up in the night sky.
And for your sake, don't think about Meet Gogurt's, but do think about what would you
eat in space and what your pet would
want to eat in space.
Thank you and good night.
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week with more space science and exploration.
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