Antarctic permafrost: An analogue for water and diagenetic minerals on Mars

Dickinson, Warren W.; Rosen, Michael R.

doi:10.1130/0091-7613(2003)031<0199:apaafw>2.0.co;2

Cited by 91 publications

(78 citation statements)

References 24 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…While there is no proof that salt distribution in the ground is not inherited, the higher total salt content at deeper depth in ice cement ( Table 1) does indicate that salt was likely transported in brine films, a process also suggested by Dickinson and Rosen (2003). Brine transport is also supported by the salt composition that follows the path of solubility at subfreezing temperatures.…”

Section: Model Resultsmentioning

confidence: 78%

“…Such excess has been observed in 'open' water bodies in lakes of East Antarctica (Richter and Bormann, 1995), in Don Juan Pond (Matsubaya et al, 1979) where they attest to considerable evaporation. As noted by Dickinson and Rosen (2003) and Marchant et al (2002), the high deuterium excess may reflect the formation of this ice from residual melt water remaining after much evaporation, consistent with snowmelt water being the source for ice recharge.…”

Section: Introductionmentioning

confidence: 72%

“…A compilation of soil characteristics in the Dry Valleys noted that $40% of the soils contain ice, predominantly at coastal sites and along the plateau (Bockheim, 2002;Campbell and Claridge, 2006). Ice contents between 5 and 45 wt% are described for Sirius Group sediments on Table Mountain (Dickinson and Rosen, 2003) and other locations throughout the Transantarctic Mountains (Campbell and Claridge, 2006). Ice rich permafrost was observed to 300 m depth during the Dry Valley Drilling Project (Stuiver et al, 1981).…”

Section: Introductionmentioning

confidence: 97%

“…one event approximately every 2 years for the past 8 years), suggesting snowmelt water infiltration as a potentially significant recharge mechanism. The stable isotope composition (dD, d 18 O) of ice lenses in sublimation till (Marchant et al, 2002) and ice cement at Table Mountain (Dickinson and Rosen, 2003) has been altered by physico-chemical processes that caused low deuterium excess. Such excess has been observed in 'open' water bodies in lakes of East Antarctica (Richter and Bormann, 1995), in Don Juan Pond (Matsubaya et al, 1979) where they attest to considerable evaporation.…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Ground ice recharge via brine transport in frozen soils of Victoria Valley, Antarctica: Insights from modeling δ18O and δD profiles

Hagedorn

Sletten

Hallet

et al. 2010

Geochimica et Cosmochimica Acta

View full text Add to dashboard Cite

Section: Model Resultsmentioning

confidence: 78%

Section: Introductionmentioning

confidence: 72%

Section: Introductionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Ground ice recharge via brine transport in frozen soils of Victoria Valley, Antarctica: Insights from modeling δ18O and δD profiles

Hagedorn

Sletten

Hallet

et al. 2010

Geochimica et Cosmochimica Acta

View full text Add to dashboard Cite

“…These analogs tend to be focused, at a high level, on science, science operations, or technology research and testing, or a combination of these topics (e.g. Dickinson and Rosen 2003;Sarrazin et al 2005; Cabrol et al 2007;Pollard et al 2009; Lim et al 2011;Abercromby et al 2013). Analog field settings are used to evaluate scientific instruments of particular relevance to future flight missions in a rugged field setting.…”

mentioning

confidence: 99%

Planetary science and exploration in the deep subsurface: results from the MINAR Program, Boulby Mine, UK

Payler

Biddle

Coates

et al. 2016

International Journal of Astrobiology

View full text Add to dashboard Cite

Abstract. The subsurface exploration of other planetary bodies can be used to unravel their geological history and assess their habitability. On Mars in particular, present-day habitable conditions may be restricted to the subsurface. Using a deep subsurface mine, we carried out a program of extraterrestrial analog research -MINAR (MINe Analog Research). MINAR aims to carry out the scientific study of the deep subsurface and test instrumentation designed for planetary surface exploration by investigating deep subsurface geology, whilst establishing the potential this technology has to be transferred into the mining industry. An integrated multi-instrument suite was used to investigate samples of representative evaporite minerals from a subsurface Permian evaporite sequence, in particular to assess mineral and elemental variations which provide small scale regions of enhanced habitability. The instruments used were the Panoramic Camera emulator (AUPE-2), Close-Up Imager (CLUPI), Raman Spectrometer, SPLIT (Small Planetary Linear Impulse Tool), Ultrasonic Drill and handheld XRD. We present science results from the analog research and show that these instruments can be used to investigate in situ the geological context and mineralogical variations of a deep subsurface environment, and thus habitability, from millimeter to meter scales. We also show that these instruments are complementary. For example, the identification of primary evaporite minerals such as NaCl and KCl, which are difficult to detect by portable Raman spectrometers, can be accomplished with XRD. By contrast, Raman is highly effective at locating and detecting mineral inclusions in primary evaporite minerals. MINAR demonstrates the effective use of a deep subsurface environment for planetary instrument development, understanding the habitability of extreme deep subsurface environments on Earth and other planetary bodies, and advancing the use of space technology in economic mining. IntroductionPlanetary analog research involves the investigation of terrestrial environments that are comparable to extraterrestrial environments. These analogs tend to be focused, at a high level, on science, science operations, or technology research and testing, or a combination of these topics (e.g. Dickinson and Rosen 2003;Sarrazin et al. 2005; Cabrol et al. 2007;Pollard et al. 2009; Lim et al. 2011;Abercromby et al. 2013). Analog field settings are used to evaluate scientific instruments of particular relevance to future flight missions in a rugged field setting. These field tests have, for example, ranged from deserts to underwater settings (e.g. Cabrol et al. 2007;Jasiobedzki et al. 2012;Abercromby et al. 2013), and have taken a variety of forms, from testing a single technology to examine its performance in a particular environment (e.g. Skelley et al. 2007), to fully integrated rover tests utilizing a variety of different instruments (e.g. Schenker et al. 2001).One environment that has received less attention for analog research, but which holds a great deal o...

show abstract

Subsurface imaging reveals a confined aquifer beneath an ice-sealed Antarctic lake

Dugan

Doran

Tulaczyk

et al. 2015

Geophys. Res. Lett.

View full text Add to dashboard Cite

Liquid water oases are rare under extreme cold desert conditions found in the AntarcticMcMurdo Dry Valleys. Here we report geophysical results that indicate that Lake Vida, one of the largest lakes in the region, is nearly frozen and underlain by widespread cryoconcentrated brine. A ground penetrating radar survey profiled 20 m into lake ice and facilitated bathymetric mapping of the upper lake basin. An airborne transient electromagnetic survey revealed a low-resistivity zone 30-100 m beneath the lake surface. Based on previous knowledge of brine chemistry and local geology, we interpret this zone to be a confined aquifer situated in sediments with a porosity of 23-42%. Discovery of this aquifer suggests that subsurface liquid water may be more pervasive in regions of continuous permafrost than previously thought and may represent an extensive habitat for microbial populations.

show abstract

Antarctic permafrost: An analogue for water and diagenetic minerals on Mars

Cited by 91 publications

References 24 publications

Ground ice recharge via brine transport in frozen soils of Victoria Valley, Antarctica: Insights from modeling δ18O and δD profiles

Ground ice recharge via brine transport in frozen soils of Victoria Valley, Antarctica: Insights from modeling δ18O and δD profiles

Planetary science and exploration in the deep subsurface: results from the MINAR Program, Boulby Mine, UK

Subsurface imaging reveals a confined aquifer beneath an ice-sealed Antarctic lake

Contact Info

Product

Resources

About