Marine Science Can Contribute to the Search for Extra-Terrestrial Life

Jacopo Aguzzi; Javier Cuadros; Lewis Dartnell; Corrado Costa; Simona Violino; Loredana Canfora; Roberto Danovaro; Nathan Jack Robinson; Donato Giovannelli; Sascha Flögel; Sergio Stefanni; Damianos Chatzievangelou; Simone Marini; Giacomo Picardi; Bernard Foing

doi:10.3390/life14060676

Marine Science Can Contribute to the Search for Extra-Terrestrial Life

Jacopo Aguzzi^*
, Javier Cuadros
, Lewis Dartnell
, Corrado Costa
, Simona Violino
, Loredana Canfora
, Roberto Danovaro
, Nathan Jack Robinson
, Donato Giovannelli
, Sascha Flögel
, Sergio Stefanni
, Damianos Chatzievangelou
, Simone Marini
, Giacomo Picardi
, Bernard Foing

^*Corresponding author for this work

Instituto de Ciencias Del Mar (ICM-CSIC)
Stazione Zoologica Anton Dohrn Napoli
The Natural History Museum, London
University of Westminster
Centro di Ricerca Ingegneria e Trasformazioni Agroalimentari
Council for Agricultural Research and Economics
Polytechnic University of Marcs (UNIVPM)
University of Naples Federico II
National Research Council of Italy
Rutgers - The State University of New Jersey, New Brunswick
Woods Hole Oceanographic Institution
Institute of Science Tokyo
Helmholtz Centre for Ocean Research Kiel
Vrije Universiteit Amsterdam

Research output: Contribution to journal › Review article › peer-review

5 Citations (Scopus)

Abstract

Life on our planet likely evolved in the ocean, and thus exo-oceans are key habitats to search for extraterrestrial life. We conducted a data-driven bibliographic survey on the astrobiology literature to identify emerging research trends with marine science for future synergies in the exploration for extraterrestrial life in exo-oceans. Based on search queries, we identified 2592 published items since 1963. The current literature falls into three major groups of terms focusing on (1) the search for life on Mars, (2) astrobiology within our Solar System with reference to icy moons and their exo-oceans, and (3) astronomical and biological parameters for planetary habitability. We also identified that the most prominent research keywords form three key-groups focusing on (1) using terrestrial environments as proxies for Martian environments, centred on extremophiles and biosignatures, (2) habitable zones outside of “Goldilocks” orbital ranges, centred on ice planets, and (3) the atmosphere, magnetic field, and geology in relation to planets’ habitable conditions, centred on water-based oceans.

Original language	English
Article number	676
Journal	Life
Volume	14
Issue number	6
DOIs	https://doi.org/10.3390/life14060676
Publication status	Published - Jun 2024
Externally published	Yes

Keywords

deep-sea
extraterrestrial intelligence
extremophiles
habitability
icy moons
term-map clusters

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10.3390/life14060676

Cite this

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title = "Marine Science Can Contribute to the Search for Extra-Terrestrial Life",

abstract = "Life on our planet likely evolved in the ocean, and thus exo-oceans are key habitats to search for extraterrestrial life. We conducted a data-driven bibliographic survey on the astrobiology literature to identify emerging research trends with marine science for future synergies in the exploration for extraterrestrial life in exo-oceans. Based on search queries, we identified 2592 published items since 1963. The current literature falls into three major groups of terms focusing on (1) the search for life on Mars, (2) astrobiology within our Solar System with reference to icy moons and their exo-oceans, and (3) astronomical and biological parameters for planetary habitability. We also identified that the most prominent research keywords form three key-groups focusing on (1) using terrestrial environments as proxies for Martian environments, centred on extremophiles and biosignatures, (2) habitable zones outside of “Goldilocks” orbital ranges, centred on ice planets, and (3) the atmosphere, magnetic field, and geology in relation to planets{\textquoteright} habitable conditions, centred on water-based oceans.",

keywords = "deep-sea, extraterrestrial intelligence, extremophiles, habitability, icy moons, term-map clusters",

author = "Jacopo Aguzzi and Javier Cuadros and Lewis Dartnell and Corrado Costa and Simona Violino and Loredana Canfora and Roberto Danovaro and Robinson, \{Nathan Jack\} and Donato Giovannelli and Sascha Fl{\"o}gel and Sergio Stefanni and Damianos Chatzievangelou and Simone Marini and Giacomo Picardi and Bernard Foing",

note = "Publisher Copyright: {\textcopyright} 2024 by the authors.",

year = "2024",

month = jun,

doi = "10.3390/life14060676",

language = "English",

volume = "14",

journal = "Life",

issn = "2075-1729",

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TY - JOUR

T1 - Marine Science Can Contribute to the Search for Extra-Terrestrial Life

AU - Aguzzi, Jacopo

AU - Cuadros, Javier

AU - Dartnell, Lewis

AU - Costa, Corrado

AU - Violino, Simona

AU - Canfora, Loredana

AU - Danovaro, Roberto

AU - Robinson, Nathan Jack

AU - Giovannelli, Donato

AU - Flögel, Sascha

AU - Stefanni, Sergio

AU - Chatzievangelou, Damianos

AU - Marini, Simone

AU - Picardi, Giacomo

AU - Foing, Bernard

PY - 2024/6

Y1 - 2024/6

N2 - Life on our planet likely evolved in the ocean, and thus exo-oceans are key habitats to search for extraterrestrial life. We conducted a data-driven bibliographic survey on the astrobiology literature to identify emerging research trends with marine science for future synergies in the exploration for extraterrestrial life in exo-oceans. Based on search queries, we identified 2592 published items since 1963. The current literature falls into three major groups of terms focusing on (1) the search for life on Mars, (2) astrobiology within our Solar System with reference to icy moons and their exo-oceans, and (3) astronomical and biological parameters for planetary habitability. We also identified that the most prominent research keywords form three key-groups focusing on (1) using terrestrial environments as proxies for Martian environments, centred on extremophiles and biosignatures, (2) habitable zones outside of “Goldilocks” orbital ranges, centred on ice planets, and (3) the atmosphere, magnetic field, and geology in relation to planets’ habitable conditions, centred on water-based oceans.

AB - Life on our planet likely evolved in the ocean, and thus exo-oceans are key habitats to search for extraterrestrial life. We conducted a data-driven bibliographic survey on the astrobiology literature to identify emerging research trends with marine science for future synergies in the exploration for extraterrestrial life in exo-oceans. Based on search queries, we identified 2592 published items since 1963. The current literature falls into three major groups of terms focusing on (1) the search for life on Mars, (2) astrobiology within our Solar System with reference to icy moons and their exo-oceans, and (3) astronomical and biological parameters for planetary habitability. We also identified that the most prominent research keywords form three key-groups focusing on (1) using terrestrial environments as proxies for Martian environments, centred on extremophiles and biosignatures, (2) habitable zones outside of “Goldilocks” orbital ranges, centred on ice planets, and (3) the atmosphere, magnetic field, and geology in relation to planets’ habitable conditions, centred on water-based oceans.

KW - deep-sea

KW - extraterrestrial intelligence

KW - extremophiles

KW - habitability

KW - icy moons

KW - term-map clusters

UR - https://www.scopus.com/pages/publications/85197117507

U2 - 10.3390/life14060676

DO - 10.3390/life14060676

M3 - Review article

AN - SCOPUS:85197117507

SN - 2075-1729

VL - 14

JO - Life

JF - Life

IS - 6

M1 - 676

ER -

Marine Science Can Contribute to the Search for Extra-Terrestrial Life

Abstract

Keywords

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