CAVES, an acronym for Cooperative Adventure for Valuing and Exercising human behaviour and performance Skills, is a European Space Agency astronaut training course in which international astronauts train in a space-analogue cave environment.[1] Designed at the European Astronaut Centre, the course aims to prepare astronauts for safe and efficient long duration spaceflight operations by means of a realistic scientific and exploration mission within a multicultural, ISS-representative team.

CAVES 2019: astronaut base camp in the cave interior

Each training course lasts for approximately three weeks. The first two weeks focus on providing the astronauts with the necessary behavioural patterns, scientific knowledge, and technical skills to work effectively and safely in an underground environment. During this time, trainees visit simple caves to become acquainted with the conditions they will find themselves in during their final expedition, a six-day uninterrupted expedition exploring a complex cave system. The main purpose of the mission is to foster their communication, decision-making, problem-solving, leadership and team dynamics capabilities by means of team activities and a real crew mission performed in a space-like environment.[2][3][4]

Location

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The first five editions of CAVES (2011, 2012, 2013, 2014 and 2016) took place in several caves on the Italian island of Sardinia, part of a Karst System which lies within the Supramonte region. The rocks in this area are predominantly limestone and dolomite.[2][5]

The 2019 edition of CAVES was carried out in the so-called “Classical Karst” area, a karst region between Italy and Slovenia, world famous for its limestone caves. Here, the course makes use of facilities provided by Škocjanske Caves Regional Park, with field activities occurring in several caves along the underground course of the river Timavo, both in Italy[6] and Slovenia.[2]

Objectives

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Astronauts looking for water and microbiological samples during CAVES

The CAVES training has the following training objectives for its participants:

  • Working together effectively in a challenging environment;
  • Adapting to a lack of comfort and privacy;
  • Exploring the cave;
  • Conducting scientific and technological research;
  • Managing logistical problems and coping with limited resources;
  • Facing the psychological effects of the mission;[7][8]
  • Handling critical situations;
  • Being aware of safety requirements at all times;
  • Training the participants in leadership skills.[2][5]

A space analogue

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Microbiological sampling

The cave environment is an exceptional space analogue. It recreates on Earth many of the stressful conditions and specific characteristics encountered in long duration spaceflight, such as:

  • Unknown / unfamiliar environment – The crew's knowledge about the cave is limited to what previous expeditions have found and documented.
  • Permanent darkness / need for artificial illumination.
  • Lack of time references – A direct consequence of the cave's permanent darkness.
  • Alteration of circadian rhythm and sleep disturbance – The lack of time references and limited facilities affect sleep quality and cycles length.
  • Sensory alteration / deprivation – Not only are caves lightless, they also provide almost no auditory or olfactory stimuli.
  • Limited privacy – Small, confined spaces do not offer much room for privacy or personal space for team members.
  • Social and cultural aspects / crew size – The team includes astronauts from ESA, NASA, ROSCOSMOS, CSA, JAXA and CNSA, so the team dynamics that emerge during the mission are similar to those expected on an international cooperative space mission.
  • Limited resources / hygiene – The logistics inside the cave is extremely complex, only limited supplies can be carried inside.
  • Isolation / Limited communication with outside world – Communications with the outside world are limited to interactions with the mission support team over delay to enhance the sense of isolation.
 
Astronaut in a squeeze during CAVES
  • High level of autonomy – The crew must operate with few inputs from outside whilst exploring.
  • Real physical danger – Even implementing all reasonable safety measures, caves still present risks to human explorers, including falling, slipping, rock falls, or becoming trapped by landslides or floodings. Participants must be constantly aware of these risks.
  • Limited mission abort / rescue capabilities – Given the complexity of the environment, both evacuation and rescue operations require several hours or even days to plan and execute.

Another parallel with space exploration concerns astronaut progression within the cave, i.e., how they move through the environment. Speleological techniques involve safety principles similar to that of an EVA, such as the need to be attached to a safe surface – the cave wall in CAVES, the ISS or a vehicle in space. The crew mission performed during the final expedition also has several elements in common with astronaut's experience during ISS operations, including a time-lined activities schedule, daily planning calls to the ground support team, and standardised procedures and data collection methods.[2]

Crew mission

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In the same way astronauts in space spend a considerable part of their time doing science, “cavenauts” must perform a real crew mission involving several different experiments and activities while exploring the cave. After team training, conducting scientific and technological research is the secondary objectives of the CAVES course. The third objective is to further explore and document previously unknown areas of the cave.[2]

Mission programme

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Geology (analysis of water's chemical and physical properties, counting of drip rate)

Environment (measurement of air temperature / relative humidity / wind / air pressure / CO2 concentration / radon concentration)

 
New Alpioniscus species discovered by astronauts during a caves training.

Microbiology (sampling of micro-organisms in soil and on surfaces for later cultivation)

Biology (counting and sampling of cave terrestrial and aquatic fauna, search for micro-crustaceans, search for fauna in the soil)

Technology testing (underground communication devices, physiology sensors)

Cave documentation (photos and 3D survey of the cave, photogrammetry modeling of relevant speleothems)

Results

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One of the most remarkable scientific results is the discovery of a previously unknown species of crustaceans of the genus Alpioniscus living in the cave.[6]

All other results are available on the ESA Erasmus Experiment Archive, divided by year:

Participants

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Different roles and responsibilities are assigned to the participants for the mission, according to their background, experience and interests.

Possible roles, in line with the mission programme, include: mission commander, camp site manager, scientist, data engineer, photo engineer and survey engineer.

All participants are astronauts – either veteran or rookies – unless otherwise mentioned.

CAVES 2011

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CAVES 2012

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CAVES 2013

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CAVES 2014

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CAVES 2016

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CAVES 2019

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See also

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References

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  1. ^ a b Park, William (November 30, 2016). "Why caves are the best place to train astronauts". BBC. Retrieved 2017-01-30.
  2. ^ a b c d e f Sauro, Francesco; De Waele, Jo; Payler, Samuel J.; Vattano, Marco; Sauro, Francesco Maria; Turchi, Leonardo; Bessone, Loredana (2021-07-01). "Speleology as an analogue to space exploration: The ESA CAVES training programme". Acta Astronautica. 184: 150–166. Bibcode:2021AcAau.184..150S. doi:10.1016/j.actaastro.2021.04.003. hdl:11585/819077. ISSN 0094-5765. S2CID 234819922.
  3. ^ a b Howell, Elisabeth (October 5, 2013). "Astronauts Emerge from Cave After Underground Spaceflight Training". Space.com. Retrieved 2017-01-30.
  4. ^ Thompson, Amy. "Why NASA Astronauts Just Spent A Week Living In A Cave". Popular Science. Retrieved 2017-01-31.
  5. ^ a b "CAVES Information Kit" (PDF). ESA. 2012.
  6. ^ a b "Underground astronauts preparing for space". Retrieved 2017-01-30 – via phys.org.
  7. ^ Mogilever, Nicolette B.; Zuccarelli, Lucrezia; Burles, Ford; Iaria, Giuseppe; Strapazzon, Giacomo; Bessone, Loredana; Coffey, Emily B. J. (2018-10-30). "Expedition Cognition: A Review and Prospective of Subterranean Neuroscience With Spaceflight Applications". Frontiers in Human Neuroscience. 12: 407. doi:10.3389/fnhum.2018.00407. ISSN 1662-5161. PMC 6218582. PMID 30425628.
  8. ^ Zuccarelli, Lucrezia; Galasso, Letizia; Turner, Rachel; Coffey, Emily J. B.; Bessone, Loredana; Strapazzon, Giacomo (2019-04-24). "Human Physiology During Exposure to the Cave Environment: A Systematic Review With Implications for Aerospace Medicine". Frontiers in Physiology. 10: 442. doi:10.3389/fphys.2019.00442. ISSN 1664-042X. PMC 6491700. PMID 31068833.
  9. ^ Chow, Denise (November 2, 2011). "Cave Astronauts Explore Deep Inside Earth to Simulate Spaceflight". Space.com. Retrieved 2017-01-30.
  10. ^ "Seeing the light: Astronauts "cave crew" returns to Earth". 2011-10-20. Retrieved 2017-01-31 – via CBSnews.
  11. ^ Cowing, Keith (September 11, 2012). "ESA's CAVES: Going Underground – SpaceRef". spaceref.com. Retrieved 2017-01-30.[permanent dead link]
  12. ^ Horne, Rebecca (September 11, 2012). "Spacemen Underground". WSJ. Retrieved 2017-01-30.
  13. ^ "ESA's five 'cavenauts' set to explore the caves of Sardinia, Italy". September 15, 2014. Retrieved 2017-01-30.
  14. ^ O'Connell, Claire (August 22, 2014). "To prepare for outer space, astronauts go underground". The Irish Times. Retrieved 2017-01-30.
  15. ^ Ybanez, Alvin (July 21, 2016). "Chinese Astronaut Re-emerges from ESA Cave Training Mission". Yibada English. Retrieved 2017-01-30.
  16. ^ Jones, Andrew (June 23, 2016). "NASA and Chinese astronauts set to work together on historic mission with ESA". gbtimes.com. Archived from the original on 2018-08-15. Retrieved 2017-01-30.
  17. ^ "Astronauts prep for space by living in caves". CNNMoney. Retrieved 2017-02-15.
  18. ^ "A dress code for the cave – Caves & pangaea blog".
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