Apollo 14 Moon Tree
Apollo 14 Moon Tree
On January 31, 1971, Apollo 14 carried three astronauts to the moon along with hundreds of tree seeds. Upon return, the U.S. forest service successfully germinated a small number of seeds and dispersed the saplings during the bicentennial celebrations of 1975 and 1976.
This specimen comes from a surviving moon tree: a Sycamore living on the campus of the University of Arizona in Tucson, Arizona. In 2014, the tree was damaged in a storm and a fallen limb was preserved by Senior Research Specialist and White House Champion for Change, Dolores Hill.
๐ธThe specimen in a gem jar
TREES FROM LUNAR ORBIT?
Across the Apollo program, numerous experiments were undertaken to determine the impacts of the extraterrestrial environment on various aspects of Earth life. The moon trees were born out of one such experiment, in which seeds were taken to space and then germinated successfully back on Earth.
This specimen comes from one such tree, whose seeds were taken to lunar orbit by astronaut Stuart Roosa during the Apollo 14 mission.
๐ธ The specimen with jar and card
As pictured, each hand-cut specimen is housed in an acrylic jar and ships inย a classic, glass-topped riker display case measuring 4 1/2" x 3 1/2". Individual specimens are all roughly 1x1 cm. A small information card is also included, which serves as the certificate of authenticity.
This incredible specimen is a touchstone of humanity's journey through the stars and an amazing collector's item for just about anyone.
๐ธ "We sure picked a clear day to arriveโyou can see all the way to the horizon." ~ Stuart Roosa, Apollo 14 Command Module Pilot, upon entering lunar orbit.ย
MORE ABOUT THE APOLLO 14 MOON TREE
๐ธ Apollo 14 crew (top to bottom) of Ed Mitchell (LMP), Stu Roosa (CMP), and Alan Shepard (CDR) pose on the ladder of aย Lunar Module mock-up. July 1970, oh yes... definitely 1970! (Source: NASA AP14-S70-45581)
ED AND STU AND ALAN, TOO
The Apollo 14 mission was the 3rd crewed Apollo flight to land on the Moonโs surface. Launching from Complex 39-A on January 31st, 1971, the landing module touched down days later on February 5th with a mission to travel the surface and collect geologic samples. On one of these moonwalks, Commander Alan Shepard playfully hit a golf swing with a makeshift club, becoming the first man to golf in lunar gravity.
Shepard, along with his fellow astronauts Stuart Roosa, and Edgar Mitchell made up the crew of the mission. While Shepard and Mitchell explored the surface, Roosa was busy as well. He had brought along a packet of 500 seeds from pine, sycamore, sweetgum, redwood, and fir trees. An idea inspired by his days working for the U.S. forest service, Roosa sought to see the effects of lunar gravity on the development of seedlings.
ASTRONAUTS AT WORK
๐ธ February 5th, 1971 Astronaut Alan B. Shepard Jr., commander of the Apollo 14 lunar landing mission, stands by the deployed United States flag on the lunar surface during the early moments of the first extravehicular activity (EVA) of the mission. Shadows of the Lunar Module (LM), astronaut Edgar D. Mitchell, lunar module pilot, and the erectable S-Band Antenna surround the scene of the third flag implanting to be performed on the lunar surface. While astronauts Shepard and Mitchell descended in the LM "Antares" to explore the Fra Mauro region of the moon, astronaut Stuart A. Roosa, command module pilot, remained with the Command and Service Modules (CSM) "Kitty Hawk" in lunar orbit. (Source: NASAย AS14-66-9232)
๐ธ "Big Bertha" Lunar Sample 14321 the third largest Moon sample returned during the Apollo program. This sample also contains an embedded Earth-origin meteorite, a fragment of Canada's Acasta Gneiss the oldestย datedย rock formation on earth. (Source: NASA AS14-S71-29181)
Big Bertha
Both the surface and orbit missions brought back interesting results. 94 pounds (43 kg) of moon rocks were hauled back to Earth, including a massive 19 pound stone nicknamed โBig Bertha.โ As for Roosaโs seeds, almost all were germinated and sprouted upon return to the planet. The successful saplings were donated to state forestry programs a few years later as a part of the Apollo 14 bicentennial.
What makes these trees so scientifically interesting is that they developed without issue and were indistinguishable from their planet side counterparts. As an important early step in the field of astrobotany, this experiment showed that extended movements through low and zero gravity spaces did not stunt the growth of these plants. Such results pose exciting prospects for the use of planets in terraforming and perhaps even oxygen production on extraplanetary bases. Today, many of these trees can be found in parks, universities, and government sites, where they stand as a reminder to the amazing journey they took as tiny seeds.
Front of the Specimen Card
Back of the Specimen Card
Further Reading
Mitchell, Edgar D. Earthrise: My Adventures as an Apollo 14 Astronaut. Chicago Review Press. 2010.
Reynolds, David West, Wally Schirra, and Von Hardesty. Apollo: The epic journey to the Moon. New York: Harcourt, 2002.
Watkins, Billy. Apollo moon missions: the unsung heroes. Greenwood Publishing Group, 2006.
Desrochers, Dan. "UA's moon tree struggles in dry climate." Arizona Daily Star. March 15, 2015
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