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Learn about creating habitats for animals in space for successful space missions, from food and water to microgravity challenges. Explore real-life examples like NASA's Animal Enclosure Module.
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Habitat • An animal’s habitat consists of the natural environment in which it lives. • In order to take animals into space we must artificially provide the animal with everything it needs to survive. • This closed environment becomes an artificial habitat.
Habitat • The four major components of a habitat are: • Food • Water • Shelter • Space • In space we also need to provide things that are taken for granted on Earth like air!
Habitat • Generally the simpler the form of life the easier it is to keep in space. • There is significant engineering involved in designing animal habitats for space. • They must provide everything the animal requires while being kept to a minimum size and weight.
Animals on the Space Shuttle • All of the animals that have flown on the Space Shuttle have been housed in the middeck area or in a laboratory module fitted into the cargo bay. Space Shuttle Middeck
Animals on the Space Shuttle • Within the middeck there are 42 lockers that can be used to carry experimental payloads • When rodents are launched on the Space Shuttle one to three of these lockers are reconfigured with Animal Enclosure Modules (AEMs)
Class Brainstorm • Imagine you are designing a habitat to carry 5 adult rats into space aboard the Space Shuttle. • The habitat must fit within a middeck locker the size of which is shown, measurements are in inches (1 inch = 2.54 cm)
Class Brainstorm • As a class brainstorm what the rats will need to survive in the closed environment of their habitat inside the locker. • Keep in mind they are in microgravity, what does that mean for how the rats move around, what about food and water?
Habitat Design • In groups of 4 or 5 come up with a quick habitat design for the rats • Highlight the major points and show roughly how it will all fit into such a small space. • Following this we will look at NASA’s actual Animal Enclosure Module and you can see if you missed anything.
NASA’s AEM • The AEM is used for studying the influence of microgravity on rodents. • It can carry 5 adult rats or 8 adult mice and has flown on 23 Space Shuttle missions.
NASA’s AEM • The AEM is a self-contained habitat providing its occupants with living space, food, water, ventilation and lighting. • The unit has a waste management system designed to keep the animals separate from their waste and to prevent these by products and food crumbs from escaping into the Space Shuttle environment.
NASA’s AEM • The module itself is composed of a stainless steel grid cage module. • As the rats will be in microgravity they will be floating around just like the astronauts on board, the wire mesh gives them something to grip onto.
NASA’s AEM • The AEM remains in the storage locker during take off and landing • During a mission the AEM can be removed from the locker and the astronauts can observe or photograph the animals through a clear cover.
NASA’s AEM • Cabin air is exchanged with the AEM through a filter system. • Four fans cause air to suck waste products into a collection filter. • Special filters prevent any microbiological escape into the cabin atmosphere.
NASA’s AEM • Treated charcoal within the unit confines animal odours within the closed system so that astronauts don’t have to put up with rat smell! • Woodchip bedding like used in rat cages on Earth is no good in microgravity.
NASA’s AEM • Four internal lamps provide lighting that runs on a 12 hour day night cycle. • Standard gravity feed water bottles don’t work in space so water is provided through pressurised water containers which the astronauts can refill during the mission. • Dry food in a bowl is no good either, instead special compressed rodent food bars molded into a rectangular shape are placed in plates inside the cage.
NASA’s AEM • The AEM is 24.50 x 43.69 x 51.05 cm and weighs approximately 27.2 kg (with food, water, and animals). • It requires 35.5 Watts of power from the Space Shuttle, less than a normal light bulb! • The temperature of the AEM is not controlled but is dependent on the temperature of the middeck.
Research Animal Holding Facility • More complicated habitats exist such as the Research Animal Holding Facility carried in the SpaceLab module in the cargo bay of the Shuttle.
Research Animal Holding Facility • The RAHF can carry up to 24 rats or four squirrel monkeys. • Unlike the AEM the animals can be removed from the RAHF and handled for tissue or fluid sampling or administration of treatment.
Animals on the ISS • The Space Station Biological Research Program is the main life sciences research to be undertaken on the ISS. • Currently there are plans to build habitats for rodents, fish, quail, fruit flies as well as facilities for growing plants.
Keeping Animals in Space • There have been a wide variety of animals sent into space and every animal requires slightly different conditions. • The challenge with keeping animals in space is to provide them with a comfortable artificial habitat to undertake study.
Future Plans • Current animal research in space is restricted to taking animals up in the Space Shuttle and ISS for relatively short stays. • Future plans involve breeding animals in space to look at the effect of microgravity over multiple generations.
Future Plans • Even further into the future may be the possibility of creating complete artificial eco-systems, particularly to aid life support and provide food for long duration stays by humans in space. • What are some of the challenges you can think of with this ambitious idea? • How could we overcome them?
