80NSSC19K1102
Project Grant
Overview
Grant Description
NASA's Johnson Space Center (JSC) hosts and curates the world's most extensive and precious collection of astromaterials with over 250,000 samples of extraterrestrial materials. Over more than 40 years, the Astromaterials Acquisition and Curation Office has made these samples available to the global research community to support scientific research in cosmochemistry, planetary sciences, and astronomy.
Thousands of laboratory studies have been conducted over decades to describe and analyze the chemical, physical, and mineralogical properties of the samples, generating a wealth of information that has fundamentally shaped our understanding of the evolution of the solar system. The data generated by these studies are widely dispersed across decades of scientific publications and conference abstracts and difficult to find, access, and reuse.
A dedicated and comprehensive effort to curate, archive, and provide access to these data has been lacking. The Astromaterials Data System (AstroMat) is intended to fulfill this role and provide a comprehensive long-term solution to the management, archiving, and dissemination of past, present, and future laboratory data of samples from JSC's astromaterials collections. AstroMat will align management of these data with principles for continued free and open access to scientific data, improved ease of use and discoverability, enhanced science applications, and incorporation of best practices that have recently been laid out for NASA's strategic planning effort to maximize the scientific return on NASA data.
AstroMat is designed as an ecosystem of interconnected applications that provide human- and machine-readable interfaces to the data managed in the AstroMat data store. The various components of the ecosystem serve specific purposes and include databases (AstroDB; RepoDB), interfaces for users to search, access, explore, visualize, analyze, and contribute data (AstroSearch, AstroRef, AstroPlot, AstroDesk, AstroRepo), software tools for data curators to compile, track, validate, ingest, manage, and annotate data (AstroAdmin), and machine-actionable interfaces that connect the databases to internal and external software tools (AstroAPIs, RepoAPIs).
Over the course of 5 years, data from approximately 1,500 publications, the Lunar, Antarctic, Meteorite, Cosmic Dust, Genesis, Hayabusa, Stardust, and Microparticle Impact collections will be compiled into a single synthesis, together with relevant information about the provenance of the analytical measurements (e.g., analytical instrumentation, laboratory sample preparation procedures, instrument calibration, data reduction), and the quality of the data. Focus will initially be on geochemical, mineralogical, and geochronological data, but content will be extended later to include additional data types such as experimental petrology, images, and spectrography.
The content of the MoonDB database of lunar sample data, which has already been compiled over the past 4 years with funding from two NASA awards, will be integrated into AstroDB. AstroMat aims to advance and promote a culture in astromaterials research where open data sharing is recognized as an ethical norm rather than a burden. In order to achieve this goal, AstroMat will provide a service for researchers to publish and archive their data as citable scholarly contributions (AstroRepo), following international best practices for data publication and data citation, while at the same time engage and train the community through workshops, webinars, newsletters, and the AstroMat website to grow use of AstroMat and adoption of open and fair data principles in the astromaterials research community.
AstroMat will build on the technical achievements, the established and recognized curation practices and data standards, and the operational infrastructure of the EarthChem data systems and services, which have supported the management of laboratory data acquired on physical samples for over 15 years.
Thousands of laboratory studies have been conducted over decades to describe and analyze the chemical, physical, and mineralogical properties of the samples, generating a wealth of information that has fundamentally shaped our understanding of the evolution of the solar system. The data generated by these studies are widely dispersed across decades of scientific publications and conference abstracts and difficult to find, access, and reuse.
A dedicated and comprehensive effort to curate, archive, and provide access to these data has been lacking. The Astromaterials Data System (AstroMat) is intended to fulfill this role and provide a comprehensive long-term solution to the management, archiving, and dissemination of past, present, and future laboratory data of samples from JSC's astromaterials collections. AstroMat will align management of these data with principles for continued free and open access to scientific data, improved ease of use and discoverability, enhanced science applications, and incorporation of best practices that have recently been laid out for NASA's strategic planning effort to maximize the scientific return on NASA data.
AstroMat is designed as an ecosystem of interconnected applications that provide human- and machine-readable interfaces to the data managed in the AstroMat data store. The various components of the ecosystem serve specific purposes and include databases (AstroDB; RepoDB), interfaces for users to search, access, explore, visualize, analyze, and contribute data (AstroSearch, AstroRef, AstroPlot, AstroDesk, AstroRepo), software tools for data curators to compile, track, validate, ingest, manage, and annotate data (AstroAdmin), and machine-actionable interfaces that connect the databases to internal and external software tools (AstroAPIs, RepoAPIs).
Over the course of 5 years, data from approximately 1,500 publications, the Lunar, Antarctic, Meteorite, Cosmic Dust, Genesis, Hayabusa, Stardust, and Microparticle Impact collections will be compiled into a single synthesis, together with relevant information about the provenance of the analytical measurements (e.g., analytical instrumentation, laboratory sample preparation procedures, instrument calibration, data reduction), and the quality of the data. Focus will initially be on geochemical, mineralogical, and geochronological data, but content will be extended later to include additional data types such as experimental petrology, images, and spectrography.
The content of the MoonDB database of lunar sample data, which has already been compiled over the past 4 years with funding from two NASA awards, will be integrated into AstroDB. AstroMat aims to advance and promote a culture in astromaterials research where open data sharing is recognized as an ethical norm rather than a burden. In order to achieve this goal, AstroMat will provide a service for researchers to publish and archive their data as citable scholarly contributions (AstroRepo), following international best practices for data publication and data citation, while at the same time engage and train the community through workshops, webinars, newsletters, and the AstroMat website to grow use of AstroMat and adoption of open and fair data principles in the astromaterials research community.
AstroMat will build on the technical achievements, the established and recognized curation practices and data standards, and the operational infrastructure of the EarthChem data systems and services, which have supported the management of laboratory data acquired on physical samples for over 15 years.
Funding Goals
NASA S JOHNSON SPACE CENTER (JSC) HOSTS AND CURATES THE WORLD S MOST EXTENSIVE AND PRECIOUS COLLECTION OF ASTROMATERIALS WITH >250 000 SAMPLES OF EXTRATERRESTRIAL MATERIALS. OVER MORE THAN 40 YEARS THE ASTROMATERIALS ACQUISITION AND CURATION OFFICE HAS MADE THESE SAMPLES AVAILABLE TO THE GLOBAL RESEARCH COMMUNITY TO SUPPORT SCIENTIFIC RESEARCH IN COSMOCHEMISTRY PLANETARY SCIENCES AND ASTRONOMY. THOUSANDS OF LABORATORY STUDIES HAVE BEEN CONDUCTED OVER DECADES TO DESCRIBE AND ANALYZE THE CHEMICAL PHYSICAL AND MINERALOGICAL PROPERTIES OF THE SAMPLES GENERATING A WEALTH OF INFORMATION THAT HAS FUNDAMENTALLY SHAPED OUR UNDERSTANDING OF THE EVOLUTIONOF THE SOLAR SYSTEM. THE DATA GENERATED BY THESE STUDIES ARE WIDELY DISPERSED ACROSS DECADES OF SCIENTIFIC PUBLICATIONS AND CONFERENCE ABSTRACTS AND DIFFICULT TO FIND ACCESS AND REUSE. A DEDICATED AND COMPREHENSIVE EFFORT TO CURATE ARCHIVE AND PROVIDE ACCESSTO THESE DATA HAS BEEN LACKING. THE ASTROMATERIALS DATA SYSTEM (ASTROMAT) IS INTENDED TO FULFILL THIS ROLE AND PROVIDE A COMPREHENSIVE LONG-TERM SOLUTION TO THE MANAGEMENT ARCHIVING AND DISSEMINATION OF PAST PRESENT AND FUTURE LABORATORY DATA OF SAMPLES FROMJSC S ASTROMATERIALS COLLECTIONS. ASTROMAT WILL ALIGN MANAGEMENT OF THESE DATA WITH PRINCIPLES FOR CONTINUED FREE AND OPEN ACCESS TO SCIENTIFIC DATA IMPROVED EASE OF USE AND DISCOVERABILITY ENHANCED SCIENCE APPLICATIONS AND INCORPORATION OF BEST PRACTICES THATHAVE RECENTLY BEEN LAID OUT FOR NASA S STRATEGIC PLANNING EFFORT TO MAXIMIZE THE SCIENTIFIC RETURN ON NASA DATA. ASTROMAT IS DESIGNED AS AN ECOSYSTEM OF INTERCONNECTED APPLICATIONS THAT PROVIDE HUMAN- AND MACHINE-READABLE INTERFACES TO THE DATA MANAGED IN THE ASTROMAT DATA STORE. THE VARIOUS COMPONENTS OF THE ECOSYSTEM SERVE SPECIFIC PURPOSES AND INCLUDE DATABASES (ASTRODB; REPODB); INTERFACES FOR USERS TO SEARCH ACCESS EXPLORE VISUALIZE ANALYZE AND CONTRIBUTE DATA (ASTROSEARCH ASTROREF ASTROPLOT ASTRODESK ASTROREPO); SOFTWARE TOOLS FOR DATA CURATORS TO COMPILE TRACK VALIDATE INGEST MANAGE AND ANNOTATE DATA (ASTROADMIN); AND MACHINE-ACTIONABLE INTERFACES THAT CONNECT THE DATABASES TO INTERNAL AND EXTERNAL SOFTWARE TOOLS (ASTROAPIS REPOAPIS). OVER THE COURSE OF 5 YEARS DATA FROM APPROXIMATELY 1 500 PUBLICATIONS THE LUNAR ANTARCTIC METEORITE COSMIC DUST GENESIS HAYABUSA STARDUST AND MICROPARTICLE IMPACT COLLECTIONS WILL BE COMPILED INTO A SINGLE SYNTHESIS TOGETHER WITH RELEVANT INFORMATION ABOUT THE PROVENANCE OF THE ANALYTICAL MEASUREMENTS (E.G. ANALYTICAL INSTRUMENTATION LABORATORY SAMPLE PREPARATION PROCEDURES INSTRUMENT CALIBRATION DATA REDUCTION) AND TO THE QUALITY OF THE DATA. FOCUS WILL INITIALLY BE ON GEOCHEMICAL MINERALOGICAL AND GEOCHRONOLOGICAL DATA BUT CONTENT WILL BE EXTENDED LATER TO INCLUDE ADDITIONAL DATA TYPES SUCH AS EXPERIMENTAL PETROLOGY IMAGES AND SPECTROGRAPHY. CONTENT OF THEMOONDB DATABASE OF LUNAR SAMPLE DATA WHICH HAS ALREADY BEEN COMPILED OVER THE PAST 4 YEARS WITH FUNDING FROM TWO NASA AWARDS WILLBE INTEGRATED INTO ASTRODB. ASTROMAT AIMS TO ADVANCE AND PROMOTE A CULTURE IN ASTROMATERIALS RESEARCH WHERE OPEN DATA SHARING IS RECOGNIZED AS AN ETHICAL NORM RATHER THAN A BURDEN. IN ORDER TO ACHIEVE THIS GOAL ASTROMAT WILL PROVIDE A SERVICE FOR RESEARCHERS TOPUBLISH AND ARCHIVE THEIR DATA AS CITABLE SCHOLARLY CONTRIBUTIONS (ASTROREPO) FOLLOWING INTERNATIONAL BEST PRACTICES FOR DATA PUBLICATION AND DATA CITATION WHILE AT THE SAME TIME ENGAGE AND TRAIN THE COMMUNITY THROUGH WORKSHOPS WEBINARS NEWSLETTERS AND THE ASTROMAT WEB SITE TO GROW USE OF ASTROMAT AND ADOPTION OF OPEN AND FAIR DATA PRINCIPLES IN THE ASTROMATERIALS RESEARCH COMMUNITY. ASTROMAT WILL BUILD ON THE TECHNICAL ACHIEVEMENTS THE ESTABLISHED AND RECOGNIZED CURATION PRACTICES AND DATA STANDARDS AND THE OPERATIONAL INFRASTRUCTURE OF THE EARTHCHEM DATA SYSTEMS AND SERVICES WHICH HAVE SUPPORTED THE MANAGEMENT OF LABORATORY DATA ACQUIRED ON PHYSICAL SAMPLES FOR OVER 15 YEARS.
Grant Program (CFDA)
Awarding / Funding Agency
Place of Performance
New York,
New York
10027-5359
United States
Geographic Scope
Single Zip Code
Related Opportunity
NOT APPLICABLE
Analysis Notes
Amendment Since initial award the total obligations have increased 432% from $859,666 to $4,570,296.
The Trustees Of Columbia University In The City Of New York was awarded
ASTROMAT: Comprehensive Management and Access to NASA's Astromaterials Data
Project Grant 80NSSC19K1102
worth $4,570,296
from Shared Services Center in July 2019 with work to be completed primarily in New York New York United States.
The grant
has a duration of 5 years and
was awarded through assistance program 43.001 Science.
Status
(Complete)
Last Modified 5/21/25
Period of Performance
7/1/19
Start Date
6/30/24
End Date
Funding Split
$4.6M
Federal Obligation
$0.0
Non-Federal Obligation
$4.6M
Total Obligated
Activity Timeline
Subgrant Awards
Disclosed subgrants for 80NSSC19K1102
Transaction History
Modifications to 80NSSC19K1102
Additional Detail
Award ID FAIN
80NSSC19K1102
SAI Number
None
Award ID URI
SAI EXEMPT
Awardee Classifications
Nonprofit With 501(c)(3) IRS Status (Other Than An Institution Of Higher Education)
Awarding Office
80NSSC NASA SHARED SERVICES CENTER
Funding Office
80NSSC NASA SHARED SERVICES CENTER
Awardee UEI
F4N1QNPB95M4
Awardee CAGE
1B053
Performance District
NY-13
Senators
Kirsten Gillibrand
Charles Schumer
Charles Schumer
Budget Funding
| Federal Account | Budget Subfunction | Object Class | Total | Percentage |
|---|---|---|---|---|
| Science, National Aeronautics and Space Administration (080-0120) | Space flight, research, and supporting activities | Grants, subsidies, and contributions (41.0) | $4,170,068 | 100% |
Modified: 5/21/25