{"id":29,"date":"2012-11-06T17:40:06","date_gmt":"2012-11-06T17:40:06","guid":{"rendered":"http:\/\/artscilabs.case.edu\/ansmet\/?page_id=29"},"modified":"2023-08-04T17:24:58","modified_gmt":"2023-08-04T21:24:58","slug":"faqs","status":"publish","type":"page","link":"https:\/\/caslabs.case.edu\/ansmet\/faqs\/","title":{"rendered":"FAQs"},"content":{"rendered":"

What is ANSMET?<\/h3>\n

\"\"The Antarctic Search for Meteorites program (ANSMET) is a US-led field-based science project that recovers meteorite specimens from Antarctica. Since 1976 we have recovered more than 23,000 specimens from meteorite stranding surfaces along the Transantarctic Mountains. These specimens are a reliable, continuous source of new, non-microscopic extraterrestrial material and support thousands of scientists from around the globs as they seek essential \u201cground-truth\u201d concerning the materials that make up the asteroids, planets and other bodies of our solar system. The study of ANSMET meteorites has greatly extended our knowledge of the materials and conditions in the primeval nebula from which our solar system was born, revealed the complex and exotic geologic nature of asteroids, and proved, against the conventional wisdom, that some specimens represent planetary materials, delivered to us from the Moon and Mars, free of charge.<\/p>\n

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Who runs ANSMET?<\/h3>\n

\"\"<\/h3>\n

During its 40+ history \u00a0the ANSMET program has had three Principal Investigators (PIs). From 1976 to 1995, Prof. William A. Cassidy (of the University of Pittsburgh, above left) served that role. from 1996 to 2023 Dr. Ralph P. Harvey (below right, of Case Western Reserve University) has been the PI and in 2016 began sharing PI duties with Dr. Jim Karner (below left, University of Utah). In mid-2023, Jim became the sole PI. The ANSMET program supports two additional personnel. John Schutt (Dr. Johnny Alpine, above right) has served as ANSMET\u2019s main mountaineer and field safety officer since 1981 and is assisted by 2nd mountaineer Brian Rougeux (left, bottom photo). Both are currently employed half-time by the program.<\/p>\n

.\"Ralph<\/p>\n

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How is ANSMET supported?<\/h3>\n

The Antarctic Search for Meteorites program (ANSMET) is a US government-supported activity; simply put, it is supported by you, the taxpayer. Funding for annual fieldwork is supported by competed grants awarded to Case Western Reserve University from NASA while curation and characterization work (at the Johnson Space Center and the National Museum of Natural History) is supported by a partnership between NASA and the Smithsonian Institution. ANSMET has been continuously funded since 1976. \u00a0Currently ANSMET support comes from NASA’s Yearly Opportunities for Research in Planetary Defense (YORPD) program, with funding through the 2027-2028 season. That makes us part of the Planetary Defense Initiative, with a role similar to forensic science (collecting what’s left of the projectiles that have collided with Earth) . \u00a0Don’t worry, we’ll protect you.<\/p>\n

ANSMET has been called \u201cthe poor person\u2019s space mission\u201d because we\u00a0recover materials from other solar system bodies\u00a0at a fraction of the cost required by other methods. The cost of ANSMET fieldwork over its entire history still amounts to much less than 1% of a typical sample return imssion.<\/p>\n

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How are ANSMET meteorites distributed? Who owns them?<\/h3>\n

After each field season the newly recovered specimens are shipped (still frozen) to the Antarctic Meteorite laboratory at NASA\u2019s Johnson Space Center in Houston Texas. The samples are thawed and dried and carefully examined both macro- and microscopically. Small chips are broken off of each specimen for initial description by curatorial staff at both JSC and at the Smithsonian. The product of these initial examinations is a short written description, which is subsequently published in the Antarctic Meteorite Newsletter that is distributed to researchers and facilities around the globe twice each year. This newsletter invites interested researchers to request samples for their investigations by submitting requests to the meteorite curators at both the Johnson Space Center and the Smithsonian. The Meteorite subcommittee of ExMAG, a community-based, interdisciplinary group that guides the collection, curation, and analysis of extraterrestrial samples, including planning future sample return missions., helps oversee the process. ANSMET leadership and field party members do not keep any samples for their own use and do not receive special privileges during subsequent distribution of samples. This is done to guarantee that the scientists who study these rocks can make their own dramatic discoveries.<\/p>\n

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Who makes up ANSMET field parties? How do I volunteer?<\/h3>\n

ANSMET is one of the few Antarctic research projects that invites graduate students and senior researchers from other institutions to participate in our field work on a volunteer basis. We do this primarily to help the broader community understand the collection circumstances and the Antarctic history that these meteorites have experienced. We also firmly believe that a diverse field team strengthens ANSMET by continuously upgrading our view of Antarctica and our life in the field. \u00a0Around 200 individuals have participated in ANSMET research throughout its history, some several times.<\/p>\n

The first step in volunteering to join us in the field is simply a letter, on paper, stating your interest in the program. Note: I did say paper, didn\u2019t I?<\/span>\u00a0 \u00a0Consider following that instruction your first test. \u00a0Please also note that you don’t need to write it out by hand- just printing it out is fine.<\/p>\n

Your letter will go into a big file that we look through each year, usually in the spring. The letter should tell us several things. First, give us your personal reasons for wanting to join ANSMET’s altruistic efforts to recover meteorites for planetary science community. \u00a0And second, how would getting involved with us help you? \u00a0We want to understand what drives you to volunteer for a very challenging endeavor, how you balance the benefits to science with the costs and benefits to you personally. As might be expected, we give high priority to those involved in active research with Antarctic meteorites as university researchers or graduate students. For obvious reasons we also value some level of fitness and outdoor experience, and sheer enthusiasm; but we place a much higher value on academic involvement with meteorites or other planetary materials. ANSMET needs strong intellects, not just strong bodies. \u00a0 Make sure you also tell us when you are available, paying particular attention to any academic or job commitments you may have. Just saying \u201cI could go anytime\u201d is not as useful as saying \u201cI will finish my degree in spring of 2025 and would love to go for the 2025-2026 season\u201d. We do not need a CV or 20 of your most famous publications, or photos from your hang-gliding trip in Nepal.<\/p>\n

Also, be patient<\/span>. we get a hundred or more\u00a0volunteers each year, and because most field parties are a mix of ANSMET veterans and newcomers (for safety), only a few new people are likely to be invited each season. Even the most qualified volunteers will probably have to wait several years for an opportunity, so write new letters every year to increase your chances and restate your interest. If possible, introduce yourself to one of us at scientific meetings.<\/p>\n

Finally, we should note that field party selection is not a democratic process, nor is it \u201cfirst-come, first-served\u201d. \u00a0It is ANSMET leadership\u2019s job to construct a field party capable of accomplishing the baseline technical goals of the field work, facing the challenges of the harsh and isolated environment, and maybe even having a little fun along the way. \u00a040+ successful ANSMET field seasons have shown that the fieldwork functions best when the team is diverse and brings a broad variety of skills and experiences, from meteorite science to field work. \u00a0Creating functional, well-balanced teams is a craft rather than a science, and we take that privilege very seriously.<\/p>\n

Send your letter ON PAPER\u00a0<\/strong>to:<\/p>\n

Jim Karner, \u00a0ANSMET
\nGeology and Geophysics FASB
\nUniversity of Utah
\n115 S 1460 E, #383
\nSalt Lake City UT 84112-0102<\/p>\n

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Why Antarctica?<\/h3>\n

Antarctica is the world\u2019s premier meteorite hunting-ground for two reasons. Although meteorites fall in a random fashion all over the globe, the likelihood of finding a meteorite is enhanced if the background material is plain and the accumulation rate of indigenous sediment is low. Consequently the East Antarctic icesheet, a desert of ice, provides an ideal background for meteorite recovery- go to the right place, and any rock you find must have fallen from the sky. This allows the recovery of meteorites without bias toward types that look most different from earth rocks (a problem on the inhabited continents) and without bias toward larger sizes.<\/p>\n

But another factor may be equally important. As the East Antarctic icesheet flows toward the margins of the continent, its progress is occassionally blocked by mountains or obstructions below the surface of the ice. In these areas, old deep ice is pushed to the surface and can become stagnant, with very little outflow and consistent, slow inflow. When such places are exposed to strong katabatic winds, massive deflation results, removing large volumes of ice and preventing accumulation of snow while leaving a lag deposit of meteorites on the surface. These areas exhibit a variable balance between infall, iceflow and deflation, all of which are intimately tied to environmental change during recent Antarctic history. Over significant stretches of time (tens or hundreds of thousands of years) phenomenal concentrations of meteorites can develop, as high as 1 per square meter in some locations. Terrestrial exposure ages of meteorites suggest that some stranding surfaces may have even been active for millions of years.<\/p>\n

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How many meteorites has ANSMET found? Why do you need so many?<\/h3>\n

As of the end of 2022 ANSMET has recovered slightly more than 23,000 specimens (the number is inexact because the latest finds are still being characterized, and some may not be meteorites). This represents an average number of recoveries of around 550 per season, although the total for any individual season has varied from 30 to more than 1200 specimens. All told, including Japanese, Chinese and European Antarctic meteorite recoveries, over 50,000 specimens have been recovered.<\/p>\n

\"\"That sounds like a lot, but meteoritics is still a young science in a descriptive, explorational phase, and there is a strong scientific demand for new specimens. Meteoritic materials have the potential to reveal the breadth of mineralogical, chemical and textural features present in the inner solar system, but their rarity puts a severe limit on how complete our understanding of the solar system can be. Thus, even though meteorites have been studied scientifically for over 200 years, our understanding of the place of these materials in the history of the solar system is incomplete, containing many large gaps.<\/p>\n

The best way to fill in these gaps is, of course, to recover more meteorites. About 80-85% of the specimens we find fit within a fairly well known family tree of meteorites (called the ordinary chondrites). they\u2019re still of great interest, given they represent asteroidal bodies that remain only modestly changed from the beginnings of the solar system. But the remaining specimens get the most attention, representing parent bodies that have undergone more complex histories. Sometimes we find something REALLY odd; specimens representing poorly-sampled or previously unknown parent bodies, poorly understood time periods of solar system history, or rarely-seen geological processes. To find these uniquely valuable specimens, ANSMET tries to recover everything that has a chance to be a meteorite.<\/p>\n

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How does ANSMET search for meteorites?<\/h3>\n

The first job of ANSMET is to find meteorite concentrations. Typically this begins when we identify an area of blue ice in a geographical setting that suggests known meteorite concentration mechanisms might be in force (see \u201cWhy Antarctica\u201d above). The next step is to actually get some boots on the ice at such a location, look for meteorites and explore the full potential of the site (How productive of a site can it be? How hard will it be to search?). Once a site has passed these tests, more systematic recovery of meteorites can be conducted. Typically that involves sending a fairly large team (6-8 individuals is typical) to conduct searches at that site. A typical field season can last 6 weeks, and some sites may take many seasons to be fully searched.<\/p>\n

\"\"In general, we search in a series of parallel transects- the field party members form a line, spaced 10 – 30 m apart, and slowly drive their snowmobiles across the icefield, scanning visually for specimens in their paths. These transects are arranged to provide significant overlap so specimens are unlikely to be missed, and to minimize exposure to uncomfortable crosswinds which affect visibility. Spacing between individual field party members will vary as the concentration of specimens is taken into account, and if the concentration of samples is sufficiently high, snowmobile transects are replaced by foot searching. Training of ANSMET field party members helps ensure consistent recovery methods from year to year.<\/p>\n

Once a sample is located, we assign it an identification number, establish its position by GPS, take its picture,and make note of its size, possible classification, and any distinguishing features such as shape or fusion crust. The site is typically marked with a temporary flag, and the sample is enclosed within a sterile teflon bag, with care being taken to avoid contact with any mechanical or biological materials. the specimens are then kept frozen until they arrive at NASA\u2019s Johnson Space Center for initial processing and characterization (see \u201chow are ANSMET meteorites distributed\u201d above).<\/p>\n","protected":false},"excerpt":{"rendered":"

What is ANSMET?
\nThe Antarctic Search for Meteorites program (ANSMET) is a US-led field-based science project that recovers meteorite specimens from Antarctica. Since 1976 we have recovered more than 23,000 specimens from meteorite stranding surfaces along the Transantarctic Mountains. These specimens are a reliable, continuous source of new, non-microscopic extraterrestrial material and support thousands of scientists from around the globs as they seek essential \u201cground-truth\u201d concerning the materials that make up the asteroids, planets and other bodies of our solar system. The study of ANSMET meteorites has greatly extended our knowledge of the materials and conditions in the primeval nebula from which our solar system was born,<\/p>\n

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