A member of the space crop production team pours substrate and controlled release fertilizer into a Veggie plant pillow on Thursday, May 29, 2025, inside the Space Systems Processing Facility at NASA’s Kennedy Space Center in Florida. The plant pillows, along with Veg-03 MNO seed films, which will carry seeds of Red Russian kale, Wasabi mustard greens, and Dragoon lettuce, are set to fly aboard NASA’s SpaceX Crew-11 mission to the International Space Station to grow in the space environment to study how microgravity impacts crop development compared to ground-grown plants. Seed films enable seed handling and planting of seeds into plant pillows allowing for astronaut choice of crops to grow. Plants can provide whole food nutrition, improve menu variety, and positively impact behavioral health of astronauts on long duration missions to the Moon and Mars and space crop research aboard the orbiting laboratory is enabled by NASA’s Biological and Physical Sciences Division and the International Space Station Program.

A member of the space crop production team pours substrate and controlled release fertilizer into a Veggie plant pillow on Thursday, May 29, 2025, inside the Space Systems Processing Facility at NASA’s Kennedy Space Center in Florida. The plant pillows, along with Veg-03 MNO seed films, which will carry seeds of Red Russian kale, Wasabi mustard greens, and Dragoon lettuce, are set to fly aboard NASA’s SpaceX Crew-11 mission to the International Space Station to grow in the space environment to study how microgravity impacts crop development compared to ground-grown plants. Seed films enable seed handling and planting of seeds into plant pillows allowing for astronaut choice of crops to grow. Plants can provide whole food nutrition, improve menu variety, and positively impact behavioral health of astronauts on long duration missions to the Moon and Mars and space crop research aboard the orbiting laboratory is enabled by NASA’s Biological and Physical Sciences Division and the International Space Station Program.

A member of the space crop production team pours substrate and controlled release fertilizer into a Veggie plant pillow on Thursday, May 29, 2025, inside the Space Systems Processing Facility at NASA’s Kennedy Space Center in Florida. The plant pillows, along with Veg-03 MNO seed films, which will carry seeds of Red Russian kale, Wasabi mustard greens, and Dragoon lettuce, are set to fly aboard NASA’s SpaceX Crew-11 mission to the International Space Station to grow in the space environment to study how microgravity impacts crop development compared to ground-grown plants. Seed films enable seed handling and planting of seeds into plant pillows allowing for astronaut choice of crops to grow. Plants can provide whole food nutrition, improve menu variety, and positively impact behavioral health of astronauts on long duration missions to the Moon and Mars and space crop research aboard the orbiting laboratory is enabled by NASA’s Biological and Physical Sciences Division and the International Space Station Program.

A member of the space crop production team pours substrate and controlled release fertilizer into a Veggie plant pillow on Thursday, May 29, 2025, inside the Space Systems Processing Facility at NASA’s Kennedy Space Center in Florida. The plant pillows, along with Veg-03 MNO seed films, which will carry seeds of Red Russian kale, Wasabi mustard greens, and Dragoon lettuce, are set to fly aboard NASA’s SpaceX Crew-11 mission to the International Space Station to grow in the space environment to study how microgravity impacts crop development compared to ground-grown plants. Seed films enable seed handling and planting of seeds into plant pillows allowing for astronaut choice of crops to grow. Plants can provide whole food nutrition, improve menu variety, and positively impact behavioral health of astronauts on long duration missions to the Moon and Mars and space crop research aboard the orbiting laboratory is enabled by NASA’s Biological and Physical Sciences Division and the International Space Station Program.

A member of the space crop production team pours substrate and controlled release fertilizer into a Veggie plant pillow on Thursday, May 29, 2025, inside the Space Systems Processing Facility at NASA’s Kennedy Space Center in Florida. The plant pillows, along with Veg-03 MNO seed films, which will carry seeds of Red Russian kale, Wasabi mustard greens, and Dragoon lettuce, are set to fly aboard NASA’s SpaceX Crew-11 mission to the International Space Station to grow in the space environment to study how microgravity impacts crop development compared to ground-grown plants. Seed films enable seed handling and planting of seeds into plant pillows allowing for astronaut choice of crops to grow. Plants can provide whole food nutrition, improve menu variety, and positively impact behavioral health of astronauts on long duration missions to the Moon and Mars and space crop research aboard the orbiting laboratory is enabled by NASA’s Biological and Physical Sciences Division and the International Space Station Program.

A member of the space crop production team pours substrate and controlled release fertilizer into a Veggie plant pillow on Thursday, May 29, 2025, inside the Space Systems Processing Facility at NASA’s Kennedy Space Center in Florida. The plant pillows, along with Veg-03 MNO seed films, which will carry seeds of Red Russian kale, Wasabi mustard greens, and Dragoon lettuce, are set to fly aboard NASA’s SpaceX Crew-11 mission to the International Space Station to grow in the space environment to study how microgravity impacts crop development compared to ground-grown plants. Seed films enable seed handling and planting of seeds into plant pillows allowing for astronaut choice of crops to grow. Plants can provide whole food nutrition, improve menu variety, and positively impact behavioral health of astronauts on long duration missions to the Moon and Mars and space crop research aboard the orbiting laboratory is enabled by NASA’s Biological and Physical Sciences Division and the International Space Station Program.

A member of the space crop production team pours substrate and controlled release fertilizer into a Veggie plant pillow on Thursday, May 29, 2025, inside the Space Systems Processing Facility at NASA’s Kennedy Space Center in Florida. The plant pillows, along with Veg-03 MNO seed films, which will carry seeds of Red Russian kale, Wasabi mustard greens, and Dragoon lettuce, are set to fly aboard NASA’s SpaceX Crew-11 mission to the International Space Station to grow in the space environment to study how microgravity impacts crop development compared to ground-grown plants. Seed films enable seed handling and planting of seeds into plant pillows allowing for astronaut choice of crops to grow. Plants can provide whole food nutrition, improve menu variety, and positively impact behavioral health of astronauts on long duration missions to the Moon and Mars and space crop research aboard the orbiting laboratory is enabled by NASA’s Biological and Physical Sciences Division and the International Space Station Program.

Matt Romeyn, a NASA biologist, secures seeds in plant pillows for the Veggie plant growth system inside a laboratory in the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The plant pillows, containing Outredgeous lettuce, Mizuna Mustard and Waldmann's green lettuce seeds, were packed for delivery to Veggie on SpaceX's 12th commercial resupply services mission to the International Space Station.

Seeds are secured in plant pillows for the Veggie plant growth system inside a laboratory in the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The plant pillows, containing Outredgeous lettuce, Mizuna Mustard and Waldmann's green lettuce seeds, were packed for delivery to Veggie on SpaceX's 12th commercial resupply services mission to the International Space Station.

Seeds are secured in plant pillows for the Veggie plant growth system inside a laboratory in the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The plant pillows, containing Outredgeous lettuce, Mizuna Mustard and Waldmann's green lettuce, were packed for delivery to Veggie on SpaceX's 12th commercial resupply services mission to the International Space Station.

Matt Romeyn, a NASA biologist, secures seeds in plant pillows for the Veggie plant growth system inside a laboratory in the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The plant pillows, containing Outredgeous lettuce, Mizuna Mustard and Waldmann's green lettuce seeds, were packed for delivery to Veggie on SpaceX's 12th commercial resupply services mission to the International Space Station.

Seeds are secured in plant pillows for the Veggie plant growth system inside a laboratory in the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The plant pillows, containing Outredgeous lettuce, Mizuna Mustard and Waldmann's green lettuce seeds, were packed for delivery to Veggie on SpaceX's 12th commercial resupply services mission to the International Space Station.

Seeds are secured in plant pillows for the Veggie plant growth system inside a laboratory in the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The plant pillows, containing Outredgeous lettuce, Mizuna Mustard and Waldmann's green lettuce seeds, were packed for delivery to Veggie on SpaceX's 12th commercial resupply services mission to the International Space Station.

NASA interns Jessica Scotten, left, and Ayla Grandpre water plants in the Veggie hardware in NASA Kennedy Space Center's ISS environment simulator chamber. Mizuna mustard, Outredgeous lettuce and Waldmann's green lettuce are growing in Veggie. Growth in the chamber mimics the growth of plant experiments in the Veggie plant growth system on the International Space Station.

Water and nutrients are being added to plants in the Veggie hardware in NASA Kennedy Space Center's ISS environment simulator chamber. Mizuna mustard, Outredgeous lettuce and Waldmann's green lettuce are growing in Veggie. Growth in the chamber mimics the growth of plant experiments in the Veggie plant growth system on the International Space Station.

Outredgeous red leaf lettuce, Mizuna mustard and Waldmann's green lettuce are growing in the Veggie control system in the ISS environment simulator chamber in the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. Growth in the chamber mimics the growth of plant experiments in the Veggie plant growth system on the International Space Station.

Documentation (overall view) of the Vegetable Production System (Veggie) taken during Pillow watering operations (OPS) for the Veg-04B experiment. Plant Pillows contain Mizuna mustard plants.

CAPE CANAVERAL, Fla. – Jim Smodell, a technician with SGT, removes an outredgeous red lettuce leaf from a plant pillow inside the Payload Development Laboratory at the Space Station Processing Facility, or SSPF, at NASA's Kennedy Space Center in Florida. In the background is George Guerra, a quality control engineer with QinetiQ North America. The plant pillows were removed from the Veggie plant growth system inside a control chamber at the SSPF. The growth chamber was used as a control unit for Veggie and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

CAPE CANAVERAL, Fla. -- Researchers document the ground control plant pillows in the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida prior to thinning them to one plant each. The growth chamber is being used as a control unit and procedures are being followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Charles Spern

CAPE CANAVERAL, Fla. – The plant pillows containing the outredgeous red lettuce leaves are being harvested inside the Payload Development Laboratory at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. From left, are Jim Smodell, a technician with SGT, and George Guerra, a quality control engineer with QinetiQ North America. The plant pillows were removed from a growth chamber was used as a control unit for the Veggie plant growth system, and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

CAPE CANAVERAL, Fla. – Jim Smodell, a technician with SGT, removes an outredgeous red lettuce leaf from a plant pillow inside the Payload Development Laboratory at the Space Station Processing Facility, or SSPF, at NASA's Kennedy Space Center in Florida. The plant pillows were removed from the Veggie plant growth system inside a control chamber at the SSPF. The growth chamber was used as a control unit for Veggie and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The lettuce leaves will be wrapped and placed in a minus eighty-degree freezer, along with the plant pillows and samples swabbed from the plants, plant pillows and Veggie bellows. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

NASA Administrator Jim Bridenstine, at left, tours the Space Station Processing Facility at NASA's Kennedy Space Center in Florida, on Aug. 7, 2018. At right, Trent Smith, Veggie project manager, displays a seed packet and plant pillow for the Veggie plant growth system. Bridenstine also received updates on research and technology accomplishments.

CAPE CANAVERAL, Fla. – The plant pillows containing the outredgeous red lettuce leaves have been removed from the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. From left, are Chuck Spern, lead project engineer with QinetiQ North America on the Engineering Services Contract, Jim Smodell, a technician with SGT, and Gioia Massa, NASA payload scientist for Veggie. The growth chamber was used as a control unit for Veggie and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

CAPE CANAVERAL, Fla. – Outredgeous red romaine lettuce plants grow inside the bellows of a prototype VEGGIE flight pillow. U.S. astronauts living and working aboard the International Space Station are going to receive a newly developed Vegetable Production System VEGGIE. VEGGIE is set to launch aboard SpaceX's Dragon capsule on NASA's third Commercial Resupply Services mission targeted to launch Dec. 9 from Space Launch Complex 40 at Cape Canaveral Air Force Station in Florida. Photo credit: NASA/Bryan Onate

CAPE CANAVERAL, Fla. –Outredgeous red romaine lettuce plants grow inside the bellows of a prototype VEGGIE flight pillow. U.S. astronauts living and working aboard the International Space Station are going to receive a newly developed Vegetable Production System VEGGIE. VEGGIE is set to launch aboard SpaceX's Dragon capsule on NASA's third Commercial Resupply Services mission targeted to launch Dec. 9 from Space Launch Complex 40 at Cape Canaveral Air Force Station in Florida. Photo credit: NASA/Gioia Massa

CAPE CANAVERAL, Fla. – The Veggie plant growth system has been activated inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The red, blue and green LED lights have been turned on and the root mat and plant pillows containing outredgeous red romaine lettuce seeds have been inserted into the chamber. The clear bellows have been expanded and secured. Checking the system are, from left, Gioia Massa, NASA payload scientist for Veggie, Gerard Newsham, Veggie payload support specialist with Jacobs Technology, and Trent Smith, NASA project manager. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

Documentation of a Mizuna mustard plant growing in Plant Pillow 8 in the Vegetable Production System (Veggie). Photo was taken prior to plant harvesting operations (OPS) for the Veg-04B experiment.

iss051e038158 (5/8/2017) --- Chinese cabbage is grown in the Veggie facility on the International Space Station. The sprouts form in a low-maintenance foam pillow and are grown using a special light to help the plants thrive.

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, research scientists prepare the plant pillows for the Veg-03 experiment that will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. From left, are Matt Romeyn, NASA pathways intern; Dr. Gioia Massa, NASA payload scientist for Veggie; and Dr. Mathew Mickens, a post-doctoral researcher. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

CAPE CANAVERAL, Fla. – At far right, Jim Smodell, a technician with SGT, shows a plant pillow from the Veggie plant growth system to Gioia Massa, NASA payload scientist for Veggie. Partially hidden behind Smodell is Chuck Spern, lead project engineer with QinetiQ North America on the Engineering Services Contract. At left is Trent Smith, NASA project manager in the ISS Ground Processing and Research Project Office, and Nicole Dufour, NASA Engineering and Technology Directorate. They are in the Payload Development Laboratory at the Space Station Processing Facility, or SSPF, at NASA's Kennedy Space Center in Florida. The plant pillows were removed from the Veggie plant growth system inside a control chamber at the SSPF. The growth chamber was used as a control unit for Veggie and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

CAPE CANAVERAL, Fla. – Researchers have activated the red, blue and green LED lights on the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. Jim Smodell, a technician with SGT, is securing the plant pillows containing outredgeous red romaine lettuce seeds onto the root mat inside Veggie. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

CAPE CANAVERAL, Fla. – Researchers have activated the red, blue and green LED lights on the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. Jim Smodell, a technician with SGT, is securing the plant pillows containing outredgeous red romaine lettuce seeds onto the root mat inside Veggie. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

CAPE CANAVERAL, Fla. – Inside the International Space Station Environmental Simulator chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida, the bellows has been removed from around the Veggie plant growth system so that the plant pillows containing the outredgeous red lettuce leaves can be removed. The growth chamber was used as a control unit and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

CAPE CANAVERAL, Fla. – From left, Jim Smodell, a technician with SGT, and George Guerra, a quality control engineer with QinetiQ North America, review procedures for removing the plant pillows containing the outredgeous red lettuce leaves from the Veggie plant growth system inside the International Space Station Environmental Simulator chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The growth chamber was used as a control unit and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

CAPE CANAVERAL, Fla. – Researchers have activated the red, blue and green LED lights on the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. Jim Smodell, a technician with SGT, starts the water supply to the plant pillows containing outredgeous red romaine lettuce seeds inside Veggie. Behind him is George Guerra, a quality control engineer with QinetiQ North America. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

CAPE CANAVERAL, Fla. – From left, Jim Smodell, a technician with SGT, and George Guerra, a quality control engineer with QinetiQ North America, prepare to remove the plant pillows containing the outredgeous red lettuce leaves from the Veggie plant growth system inside the International Space Station Environmental Simulator chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The growth chamber was used as a control unit and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

CAPE CANAVERAL, Fla. – Jim Smodell, a technician with SGT, removes the plant pillows containing the outredgeous red lettuce leaves from the Veggie plant growth system inside the International Space Station Environmental Simulator chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The growth chamber was used as a control unit and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

CAPE CANAVERAL, Fla. – Jim Smodell, left, a technician with SGT, and Chuck Spern, lead project engineer with QinetiQ North America on the Engineering Services Contract, move the plant pillows containing the outredgeous red lettuce leaves outside of the International Space Station Environmental Simulator chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The growth chamber was used as a control unit for Veggie and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

CAPE CANAVERAL, Fla. – Researchers have activated the red, blue and green LED lights on the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. Jim Smodell, a technician with SGT, inserts the root mat and plant pillows containing outredgeous red romaine lettuce seeds into the Veggie unit. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

CAPE CANAVERAL, Fla. – Jim Smodell, a technician with SGT, moves the plant pillows containing the outredgeous red lettuce leaves outside of the International Space Station Environmental Simulator chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The growth chamber was used as a control unit for Veggie and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. In the background is Chuck Spern, lead project engineer with QinetiQ North America on the Engineering Services Contract. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

CAPE CANAVERAL, Fla. – Researchers have activated the red, blue and green LED lights on the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. Jim Smodell, a technician with SGT, is securing the plant pillows containing outredgeous red romaine lettuce seeds onto the root mat inside Veggie. To his left, is George Guerra, a quality control engineer with QinetiQ North America. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

CAPE CANAVERAL, Fla. –Outredgeous red romaine lettuce plants grow inside in a prototype VEGGIE flight pillow. The bellows of the hardware have been lowered to better observe the plants. A small temperature and relative humidity data logger is placed between the pillows small white box, central. U.S. astronauts living and working aboard the International Space Station are going to receive a newly developed Vegetable Production System VEGGIE. VEGGIE is set to launch aboard SpaceX's Dragon capsule on NASA's third Commercial Resupply Services mission targeted to launch Dec. 9 from Space Launch Complex 40 at Cape Canaveral Air Force Station in Florida. Photo credit: NASA/Gioia Massa

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, research scientists prepare the plant pillows for the Veg-03 experiment that will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. Matt Romeyn, a NASA pathways intern, measures out the calcined clay, or space dirt, for one of the plant pillows. To his right is Dr. Gioia Massa, NASA payload scientist for Veggie. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

CAPE CANAVERAL, Fla. – Researchers have activated the red, blue and green LED lights on the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. They are checking the plant pillows that contain outredgeous red romaine lettuce seeds. From left, are George Guerra, quality control engineer with QinetiQ North America, and Jim Smodell, a technician with SGT. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

CAPE CANAVERAL, Fla. -- Researchers document the growth of the ground control plants in the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida prior to thinning them to one plant each. The growth chamber is being used as a control unit and procedures are being followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Charles Spern

Commander Steve Swanson harvests plants for the VEG-01 investigation. He is harvesting them on the Maintenance Work Area (MWA) in the Node 2/Harmony. The Veg-01 hardware validation test investigation utilizes the Veggie facility on ISS. This investigation will assess on-orbit function and performance of the Veggie,and focus on the growth and development of Outredgeous Lettuce (Lactuca sativa ) seedlings in the spaceflight environment and the effects of the spaceflight environment on composition of microbial flora on the Veggie-grown plants and the Veggie facility. Lettuce plants are harvested on-orbit, frozen at <-80oC and returned to the ground for post-flight evaluation. Microbial sampling swabs will be taken of the Veggie facility and plant material, frozen and returned to the ground for environmental microbiological examination. Rooting pillows and water sample syringes will also be returned for microbial sampling and root analysis.

CAPE CANAVERAL, Fla. – A 28-day-old Outredgeous red romaine lettuce plant grows in a prototype VEGGIE flight pillow. U.S. astronauts living and working aboard the International Space Station are going to receive a newly developed Vegetable Production System VEGGIE. VEGGIE is set to launch aboard SpaceX's Dragon capsule on NASA's third Commercial Resupply Services mission targeted to launch Dec. 9 from Space Launch Complex 40 at Cape Canaveral Air Force Station in Florida. Photo credit: NASA/Gioia Massa

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, 18 plant pillows for the Veg-03 experiment have been prepared for delivery to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

Flight engineer Kjell Lindgren poses with zinnia plants in the Veggie facility during Plant Pillow water refill operations. Image was taken in the Columbus European Laboratory and released by Lindgren on social media. "Our zinnias are looking good! #SpaceGardener"

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, research scientists prepare the plant pillows for the Veg-03 experiment that will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. Matt Romeyn, a NASA pathways intern, inserts a measured amount of calcined clay, or space dirt, into one of the plant pillows. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, research scientists prepare the plant pillows for the Veg-03 experiment that will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. Dr. Mathew Mickens, a post-doctoral researcher, inserts a bonding agent into one of the Veg-03 plant pillows. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, plant pillows for the Veg-03 experiment are prepared for delivery to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. Dr. Mathew Mickens, a post-doctoral researcher, inserts a bonding agent into one of the Veg-03 plant pillows. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, Michele Koralewicz, a mechanical technician with EASI on the Engineering Services Contract, prepares to sew up the end of a bag that contains one of the Veg-03 plant pillows. In the foreground are all of the other plant pillows that need to be sealed. The Veg-03 experiment will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, research scientists prepare the plant pillows for the Veg-03 experiment that will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. Matt Romeyn, a NASA pathways intern, measures out the calcined clay, or space dirt, for one of the plant pillows. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

CAPE CANAVERAL, Fla. – The plant pillows containing the outredgeous red lettuce leaves have been removed from the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. From left, are Trent Smith, NASA project manager in the ISS Ground Processing and Research Project Office, Chuck Spern, lead project engineer with QinetiQ North America on the Engineering Services Contract, George Guerra, quality control engineer with QinetiQ North America, Jim Smodell, a technician with SGT, Gioia Massa, NASA payload scientist for Veggie, and Nicole Dufour, NASA Engineering and Technology. The growth chamber was used as a control unit for Veggie and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

Mizuna Mustard mustard greens, part of the Veg-04A experiment, are shown growing in a Veggie plant growth chamber aboard the International Space Station on July 9, 2019. The Veg-04A experiment tested the greens, grown in blue-rich lighting and red-rich lighting, to determine the effects of different light ratios on plants grown in space on the station. The plants arrived aboard the SpaceX Commercial Resupply Services-16 mission. Astronaut Christina Koch initiated the on-orbit experiment on June 4, 2019, in the station’s two Veggie plant growth chambers, with six plant pillows per chamber. On June 11, 2019, Koch thinned the Mizuna plants to one plant per pillow. The on-orbit harvest took place July 9, 2019, with astronaut Nick Hague harvesting the plants grown under blue-rich light and Koch harvesting the plants grown under red-rich lights.

Mizuna Mustard mustard greens, part of the Veg-04A experiment, are shown growing in a Veggie plant growth chamber aboard the International Space Station on July 9, 2019. The Veg-04A experiment tested the greens, grown in blue-rich lighting and red-rich lighting, to determine the effects of different light ratios on plants grown in space on the station. The plants arrived aboard the SpaceX Commercial Resupply Services-16 mission. Astronaut Christina Koch initiated the on-orbit experiment on June 4, 2019, in the station’s two Veggie plant growth chambers, with six plant pillows per chamber. On June 11, 2019, Koch thinned the Mizuna plants to one plant per pillow. The on-orbit harvest took place July 9, 2019, with astronaut Nick Hague harvesting the plants grown under blue-rich light and Koch harvesting the plants grown under red-rich lights.

CAPE CANAVERAL, Fla. -- Researchers document the growth of the ground control plants in the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida prior to thinning them to one plant each. The growth chamber is being used as a control unit and procedures are being followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimics the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Charles Spern

CAPE CANAVERAL, Fla. – Inside the International Space Station Environmental Simulator chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida, Jim Smodell, a technician with SGT, prepares to remove the bellows from the Veggie plant growth system containing the outredgeous red lettuce leaves. The growth chamber was used as a control unit and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

CAPE CANAVERAL, Fla. – Researchers review procedures for harvesting the outredgeous red lettuce leaves in the Veggie plant growth system inside the International Space Station Environmental Simulator chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. The growth chamber was used as a control unit and procedures were followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station. The chamber mimicked the temperature, relative humidity and carbon dioxide concentration of those in the Veggie unit on the space station. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth was monitored for 33 days. On June 10, at the end of the cycle, the plants were carefully harvested, frozen and stored for return to Earth by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Photo credit: NASA/Frankie Martin

Kennedy Space Center Veggie Project Manager Trent Smith harvests test crops inside the Veggie growth chamber in the Florida spaceport’s Space Station Processing Facility on Sept. 30, 2019, for a science verification test (SVT) to study their potential to grown in space. The harvest included ‘outredgeous’ red romaine lettuce, which has been grown in space before, and two new plant cultivars – amara mustard and shungiku, an Asian green comparable to an edible chrysanthemum. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

CAPE CANAVERAL, Fla. – Several different types of 21-day-old plants grow in analog VEGGIE pillows include, from right, Outredgeous red romaine lettuce, Bright Lights Swiss chard, Cherry Bomb II radish, Tokyo Bekana Chinese cabbage and Sugar Pod II snow pea. U.S. astronauts living and working aboard the International Space Station are going to receive a newly developed Vegetable Production System VEGGIE. VEGGIE is set to launch aboard SpaceX's Dragon capsule on NASA's third Commercial Resupply Services mission targeted to launch Dec. 9 from Space Launch Complex 40 at Cape Canaveral Air Force Station in Florida. Photo credit: NASA/Gioia Massa

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, Michele Koralewicz, a mechanical technician with EASI on the Engineering Services Contract, prepares to sew the end of a bag that contains one of the Veg-03 plant pillows. The Veg-03 experiment will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, Michele Koralewicz, a mechanical technician with EASI on the Engineering Services Contract, sews up the end of a bag that contains one of the Veg-03 plant pillows. The Veg-03 experiment will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, Michele Koralewicz, a mechanical technician with EASI on the Engineering Services Contract, sews up the end of a bag that contains one of the Veg-03 plant pillows. The Veg-03 experiment will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, Michele Koralewicz, a mechanical technician with EASI on the Engineering Services Contract, sews up the end of a bag that contains one of the Veg-03 plant pillows. The Veg-03 experiment will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, Michele Koralewicz, a mechanical technician with EASI on the Engineering Services Contract, precisely sews up the end of a bag that contains one of the Veg-03 plant pillows. The Veg-03 experiment will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

Inside a laboratory in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida, Michele Koralewicz, a mechanical technician with EASI on the Engineering Services Contract, sews up the end of a bag that contains one of the Veg-03 plant pillows. The Veg-03 experiment will be delivered to the International Space Station aboard the eighth SpaceX Dragon commercial resupply mission. The Veg-03 plant pillows will contain ‘Tokyo Bekana’ cabbage seeds and lettuce seeds for NASA’s third Veggie plant growth system experiment. The experiment will continue NASA’s deep space plant growth research to benefit the Earth and the agency’s journey to Mars.

CAPE CANAVERAL, Fla. – Researchers acquire the ionized water for the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. From left, are Jim Smodell, a technician with SGT, and George Guerra, a quality control engineer with QinetiQ North America. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

CAPE CANAVERAL, Fla. – Researchers have activated the red, blue and green LED lights on the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. In front, is Jim Smodell, a technician with SGT. Behind him is George Guerra, a quality control engineer with QinetiQ North America. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

CAPE CANAVERAL, Fla. – Researchers have activated the red, blue and green LED lights on the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. From left, are Jim Smodell, a technician with SGT, and Chuck Spern, lead project engineer with QinetiQ North America. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

CAPE CANAVERAL, Fla. – Researchers activate the red, blue and green LED lights on the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. From left, are Jim Smodell, a technician with SGT, and Chuck Spern, lead project engineer, with QinetiQ North America. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

CAPE CANAVERAL, Fla. – Researchers prepare to activate the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. From left, are George Guerra, quality control engineer, and Chuck Spern, lead project engineer, both with QinetiQ North America on the Engineering Services Contract. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

CAPE CANAVERAL, Fla. – Researchers fill a water bag with ionized water for the Veggie plant growth system inside a control chamber at the Space Station Processing Facility at NASA's Kennedy Space Center in Florida. In front is Jim Smodell, a technician with SGT. Standing behind him is Chuck Spern, lead project engineer with QinetiQ North America. The growth chamber will be used as a control unit and procedures will be followed identical to those being performed on Veggie and the Veg-01 experiment on the International Space Station by Expedition 39 flight engineer and NASA astronaut Steve Swanson. Veggie and Veg-01 were delivered to the space station aboard the SpaceX-3 mission. Veggie is the first fresh food production system delivered to the station. Six plant pillows, each containing outredgeous red romaine lettuce seeds and a root mat were inserted into Veggie. The plant chamber's red, blue and green LED lights were activated. The plant growth will be monitored for 28 days. At the end of the cycle, the plants will be carefully harvested, frozen and stored for return to Earth. Photo credit: NASA/Dimitri Gerondidakis

iss061e033379 (Nov. 7, 2019) --- Mizuna mustard greens are growing aboard the International Space Station to demonstrate the feasibility of space agriculture to provide fresh food for crews on deep space missions. The plants are grown under red-to-blue lighting and watered in pillows rather than soil in a specialized botany facility called VEGGIE. Crops are grown, harvested and consumed by astronauts with some samples stowed in science freezers for later analysis as part of the VEG-04 study.

iss061e033363 (Nov. 7, 2019) --- Mizuna mustard greens are growing aboard the International Space Station to demonstrate the feasibility of space agriculture to provide fresh food for crews on deep space missions. The plants are grown under red-to-blue lighting and watered in pillows rather than soil in a specialized botany facility called VEGGIE. Crops are grown, harvested and consumed by astronauts with some samples stowed in science freezers for later analysis as part of the VEG-04 study.

iss050e067347 (4/6/2017) --- A view during wick opening on each plant pillow, in the Columbus Module. Organisms grow differently in space, from single-celled bacteria to plants and humans. But future long-duration space missions will require crew members to grow their own food, so understanding how plants respond to microgravity is an important step toward that goal. Veg-03 uses the Veggie plant growth facility to cultivate a type of cabbage, which is harvested in orbit with samples returned to Earth for testing.

iss050e000489 (11/2/2016) --- View during VEG-03 plant thinning (lettuce) - Small Plant Pillow. Organisms grow differently in space, from single-celled bacteria to plants and humans. But future long-duration space missions will require crew members to grow their own food, so understanding how plants respond to microgravity is an important step toward that goal. Veg-03 uses the Veggie plant growth facility to cultivate a type of cabbage, which is harvested in orbit with samples returned to Earth for testing.

Jess Bunchek, an associate scientist at NASA’s Kennedy Space Center in Florida, harvests shungiku – an Asian green comparable to an edible chrysanthemum – inside the Veggie growth chamber in the Space Station Processing Facility on Sept. 30, 2019, for a science verification test (SVT). The SVT included the harvest of two other plant cultivars – amara mustard and ‘outredgeous’ red romaine lettuce – and will study their potential to grow in space. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Jess Bunchek, an associate scientist at NASA’s Kennedy Space Center in Florida, harvests plant cultivars inside the Veggie growth chamber in the Space Station Processing Facility on Sept. 30, 2019, for a science verification test (SVT). This SVT will study the potential of three plants – amara mustard, ‘outredgeous’ red romaine lettuce and shungiku, an Asian green comparable to an edible chrysanthemum – to grow in space. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Test crops are harvested inside the Veggie growth chamber in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Sept. 30, 2019, for a science verification test (SVT) to study their potential to grow in space. The harvest included ‘outredgeous’ red romaine lettuce, which has been grown in space before, and two new plant cultivars – amara mustard and shungiku, an Asian green comparable to an edible chrysanthemum. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Kennedy Space Center employee Anna Maria Ruby harvests plant cultivars inside the Veggie growth chamber in the Space Station Processing Facility on Sept. 30, 2019, for a science verification test (SVT). This SVT will study the potential of three plants – amara mustard, ‘outredgeous’ red romaine lettuce and shungiku, an Asian green comparable to an edible chrysanthemum – to grow in space. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Jess Bunchek, an associate scientist at NASA’s Kennedy Space Center in Florida, harvests plant cultivars inside the Veggie growth chamber in the Space Station Processing Facility on Sept. 30, 2019, for a science verification test (SVT). This SVT will study the potential of three plants – amara mustard, ‘outredgeous’ red romaine lettuce and shungiku, an Asian green comparable to an edible chrysanthemum – to grow in space. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Jess Bunchek, an associate scientist at NASA’s Kennedy Space Center in Florida, harvests shungiku – an Asian green comparable to an edible chrysanthemum – inside the Veggie growth chamber in the Space Station Processing Facility on Sept. 30, 2019, for a science verification test (SVT). The SVT included the harvest of two other plant cultivars – amara mustard and ‘outredgeous’ red romaine lettuce – and will study their potential to grow in space. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Jess Bunchek, an associate scientist at NASA’s Kennedy Space Center in Florida, observes plant cultivars inside the Veggie growth chamber in the Space Station Processing Facility prior to harvesting them on Sept. 30, 2019, for a science verification test (SVT). This SVT will study the potential of three plants – amara mustard, ‘outredgeous’ red romaine lettuce and shungiku, an Asian green comparable to an edible chrysanthemum – to grow in space. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Kennedy Space Center employees harvest test crops inside the Veggie growth chamber in the Florida spaceport’s Space Station Processing Facility on Sept. 30, 2019, for a science verification test (SVT) to study their potential to grown in space. The harvest included ‘outredgeous’ red romaine lettuce, which has been grown in space before, and two new plant cultivars – amara mustard and shungiku, an Asian green comparable to an edible chrysanthemum. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Test crops are harvested inside the Veggie growth chamber in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Sept. 30, 2019, for a science verification test (SVT) to study their potential to grow in space. The harvest included ‘outredgeous’ red romaine lettuce, which has been grown in space before, and two new plant cultivars – amara mustard and shungiku, an Asian green comparable to an edible chrysanthemum. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Jess Bunchek, an associate scientist at NASA’s Kennedy Space Center in Florida, harvests plant cultivars inside the Veggie growth chamber in the Space Station Processing Facility on Sept. 30, 2019, for a science verification test (SVT). This SVT will study the potential of three plants – amara mustard, ‘outredgeous’ red romaine lettuce and shungiku, an Asian green comparable to an edible chrysanthemum – to grow in space. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Kennedy Space Center employee Anna Maria Ruby observes plant cultivars inside the Veggie growth chamber in the Space Station Processing Facility prior to harvesting them on Sept. 30, 2019, for a science verification test (SVT). This SVT will study the potential of three plants – amara mustard, ‘outredgeous’ red romaine lettuce and shungiku, an Asian green comparable to an edible chrysanthemum – to grow in space. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Jess Bunchek, an associate scientist at NASA’s Kennedy Space Center in Florida, harvests shungiku – an Asian green comparable to an edible chrysanthemum – inside the Veggie growth chamber in the Space Station Processing Facility on Sept. 30, 2019, for a science verification test (SVT). The SVT included the harvest of two other plant cultivars – amara mustard and ‘outredgeous’ red romaine lettuce – and will study their potential to grow in space. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Trent Smith, a project manager in the ISS Exploration Research and Technology Program, displays microgreens grown in the same space dirt (arcillite) that is used in the plant pillows for the Veggie plant growth system on the International Space Station and in a 3-D-printed plastic matrix during the 2017 Innovation Expo showcase at NASA's Kennedy Space Center in Florida. The purpose of the annual two-day event is to help foster innovation and creativity among the Kennedy workforce. The event included several keynote speakers, training opportunities, an innovation showcase and the KSC Kickstart competition.

Three crops grown under a test condition representative of the International Space Station are photographed moments before harvest for a science verification test (SVT) in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Sept. 30, 2019. The SVT will study the potential of the three plant cultivars to grow in space. The harvest included ‘outredgeous’ red romaine lettuce, which has been grown in space before, and two new plant cultivars – amara mustard and shungiku, an Asian green comparable to an edible chrysanthemum. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Three crops grown under a test condition representative of the International Space Station are photographed moments before harvest for a science verification test (SVT) in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Sept. 30, 2019. The SVT will study the potential of the three plant cultivars to grow in space. The harvest included ‘outredgeous’ red romaine lettuce, which has been grown in space before, and two new plant cultivars – amara mustard and shungiku, an Asian green comparable to an edible chrysanthemum. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.

Three crops grown under a test condition representative of the International Space Station are photographed moments before harvest for a science verification test (SVT) in the Space Station Processing Facility at NASA’s Kennedy Space Center in Florida on Sept. 30, 2019. The SVT will study the potential of the three plant cultivars to grow in space. The harvest included ‘outredgeous’ red romaine lettuce, which has been grown in space before, and two new plant cultivars – amara mustard and shungiku, an Asian green comparable to an edible chrysanthemum. All three lettuce plants were grown from seed film, making this the first SVT with this new plant growth material. Earlier this year, the amara mustard and shungiku plants were grown for the first time using seed bags – referred to as pillows – during the Sustained Veggie project, a study funded by the Human Research Program.