{"project":{"acronym":"","projectId":92757,"title":"The DEEP Project: DEtecting Extraterrestrial Piezophiles in Ocean World Analogs","primaryTaxonomyNodes":[{"taxonomyNodeId":10627,"taxonomyRootId":8816,"parentNodeId":10623,"level":3,"code":"TX04.3.4","title":"Sample Acquisition and Handling","definition":"Sample acquisition and appropriate handling includes the actions and means to extract or collect, move, transfer, or modify samples (regolith, cuttings, volatile samples) that have been acquired, loading them into instruments or packaging systems for analysis.","exampleTechnologies":"Robotic drilling, deep robotic drilling, surface/shallow robotic sample acquisition, subsurface robotic sample acquisition, sample handling, regolith/volatiles sample handling and transfer, robotic excavation, sterilization of drilling equipment at destination, biobarriers for drilling equipment to maintain sterile condition","hasChildren":false,"hasInteriorContent":true}],"description":"OBJECTIVES : Searching for extraterrestrial life necessitates a better understanding of the unique aspects of life detection in the high-pressure, deep oceans of Europa, Enceladus, and Titan. Generally, Earth's oceans are similar to these extraterrestrial ocean worlds, but the closest analogs are deep-sea hydrothermal vents where microbes cycle nutrients and energy across a range of geochemical conditions. All of these ecosystems share one central physical parameter - high hydrostatic pressure - and piezophily is the common characteristic of life in the deep ocean. This high-pressure adaptation confers a competitive advantage to piezophiles, allowing them to access additional energy sources and expand habitable niches. While deep-sea microbes have been studied extensively, obligate piezophiles remain elusive, excluded by traditional decompressive sampling techniques. Putative microbial communities in the deep oceans of Europa, Enceladus, and Titan would necessarily be piezophiles, therefore instrument development for upcoming missions to ocean worlds must include the ability to (1) detect life under high pressure conditions and/or (2) develop sample handling and life detection analysis protocols that mitigate the effects of sample decompression on analytical outcomes. The DEEP project will take advantage of a new high pressure sampling system (PUSH50) that allows for sample retrieval and manipulation without decompression. Here we propose a field research program to the Earth's deepest hydrothermal vents, the Mid Cayman Rise, in order to develop high pressure sample handling protocols that optimize life detection in high pressure environments. METHODOLOGY: We will evaluate the fidelity of a range of life detection techniques on a variety of deep-sea vent samples for which in situ pressures have been maintained throughout the analytical process, and compare these to parallel samples that have been subjected to standard decompressive techniques. We aim to: (1) identify the most robust suite of analyses for life detection in high pressure ecosystems; (2) determine the instrumental/analytical requirements for in situ life detection on future ocean worlds missions. In situ detection of microbial communities will include: quantification of cell and biomass; characterization of species and metabolic diversity; enrichment cultivation for high value target metabolisms; and measurement of geochemical isotopic biosignatures. Many of these techniques can be (and are currently being) adapted for remote deployment on landers and rovers. Our proposed research will identify which of these techniques is most robust in high-pressure environments, optimize in situ analysis protocols for high-pressure ecosystems, and develop the technology necessary to implement these protocols in upcoming mission instrument packages SIGNIFICANCE This work addresses the following PSTAR Objectives. Science: We will elucidate the processes by which high pressure microbiomes are sensitive to traditional decompression sampling, characterize the metabolic and species diversity that has been obscured by these techniques, and develop new approaches to detecting these enigmatic piezophiles in high pressure environments. Technology: We will perform the first tests of a newly developed sampling system that maintains high in situ pressures during recovery. We will further develop the technology and protocols necessary for carrying out life detection under high pressures.","destinations":[{"lkuCodeId":1546,"code":"INSIDE_SOLAR_SYSTEM","description":"Others Inside the Solar System","lkuCodeTypeId":526,"lkuCodeType":{"codeType":"DESTINATION_TYPE","description":"Destination Type"}}],"startYear":2017,"startMonth":5,"endYear":2020,"endMonth":4,"statusDescription":"Completed","principalInvestigators":[{"contactId":261224,"canUserEdit":false,"firstName":"Karyn","lastName":"Rogers","fullName":"Karyn L Rogers","fullNameInverted":"Rogers, Karyn L","middleInitial":"L","primaryEmail":"rogerk5@rpi.edu","publicEmail":false,"nacontact":false}],"programDirectors":[{"contactId":510275,"canUserEdit":false,"firstName":"Erica","lastName":"Montbach","fullName":"Erica N Montbach","fullNameInverted":"Montbach, Erica N","middleInitial":"N","primaryEmail":"erica.n.montbach@nasa.gov","publicEmail":true,"nacontact":false}],"programManagers":[{"contactId":386825,"canUserEdit":false,"firstName":"Rebecca","lastName":"Mccauley Rench","fullName":"Rebecca L Mccauley Rench","fullNameInverted":"Mccauley Rench, Rebecca L","middleInitial":"L","primaryEmail":"rebecca.l.mccauleyrench@nasa.gov","publicEmail":true,"nacontact":false}],"coInvestigators":[{"contactId":215866,"canUserEdit":false,"firstName":"Jennifer","lastName":"Rosch","fullName":"Jennifer A Rosch","fullNameInverted":"Rosch, Jennifer A","middleInitial":"A","primaryEmail":"roschj@rpi.edu","publicEmail":false,"nacontact":false},{"contactId":452396,"canUserEdit":false,"firstName":"Susan","lastName":"Lang","fullName":"Susan Q Lang","fullNameInverted":"Lang, Susan Q","middleInitial":"Q","primaryEmail":"slang@geol.sc.edu","publicEmail":false,"nacontact":false},{"contactId":275301,"canUserEdit":false,"firstName":"Kiana","lastName":"Frank","fullName":"Kiana L Frank","fullNameInverted":"Frank, Kiana L","middleInitial":"L","primaryEmail":"kianalfrank@gmail.com","publicEmail":false,"nacontact":false}],"website":"","libraryItems":[],"transitions":[],"responsibleMd":{"acronym":"SMD","canUserEdit":false,"city":"","external":false,"linkCount":0,"organizationId":4909,"organizationName":"Science Mission Directorate","organizationType":"NASA_Mission_Directorate","naorganization":false,"organizationTypePretty":"NASA Mission Directorate"},"program":{"acronym":"PSTAR","active":true,"description":"
There are four major technology programs within the Planetary Science Division:
- Planetary Instrument Concepts for the Advancement of Solary System Observations (PICASSO)
- Maturation of Instruments for Solar System Exploration (MATISSE)
- Mars Technology
- Europa Technology
- Planetary Science and Technology through Analog Research
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