Silvano Onofri
Overview
Explore the profile of Silvano Onofri including associated specialties, affiliations and a list of published articles.
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Articles
73
Citations
922
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Recent Articles
11.
Gevi F, Leo P, Cassaro A, Pacelli C, de Vera J, Rabbow E, et al.
Front Microbiol
. 2022 May;
13:749396.
PMID: 35633719
The identification of traces of life beyond Earth (e.g., Mars, icy moons) is a challenging task because terrestrial chemical-based molecules may be destroyed by the harsh conditions experienced on extraterrestrial...
12.
Cassaro A, Pacelli C, Baque M, Cavalazzi B, Gasparotto G, Saladino R, et al.
Environ Microbiol
. 2022 Apr;
24(7):2938-2950.
PMID: 35437941
The Moon is characterized by extremely harsh conditions due to ultraviolet irradiation, wide temperature extremes, vacuum resulting from the absence of an atmosphere and high ionizing radiation. Therefore, its surface...
13.
DAlo F, Baldrian P, Odriozola I, Morais D, Vetrovsky T, Zucconi L, et al.
FEMS Microbiol Ecol
. 2022 Mar;
98(3).
PMID: 35238906
As the European Alps are experiencing a strong climate warming, this study analyzed the soil microbiome at different altitudes and among different vegetation types at the Stelvio Pass (Italian Alps),...
14.
Pacelli C, Cassaro A, Catanzaro I, Baque M, Maturilli A, Bottger U, et al.
Life (Basel)
. 2021 Nov;
11(11).
PMID: 34833088
The success of an astrobiological search for life campaign on Mars, or other planetary bodies in the Solar System, relies on the detectability of past or present microbial life traces,...
15.
Cassaro A, Pacelli C, Baque M, de Vera J, Bottger U, Botta L, et al.
J Fungi (Basel)
. 2021 Oct;
7(10).
PMID: 34682280
The discovery of life on other planets and moons in our solar system is one of the most important challenges of this era. The second ExoMars mission will look for...
16.
Cassaro A, Pacelli C, Aureli L, Catanzaro I, Leo P, Onofri S
Extremophiles
. 2021 Sep;
25(5-6):437-458.
PMID: 34586500
One of the main objectives of astrobiological research is the investigation of the habitability of other planetary bodies. Since space exploration missions are expensive and require long-term organization, the preliminary...
17.
Canini F, Geml J, Buzzini P, Turchetti B, Onofri S, Paolo DAcqui L, et al.
Biology (Basel)
. 2021 Apr;
10(4).
PMID: 33920495
In Victoria Land, Antarctica, ice-free areas are restricted to coastal regions and dominate the landscape of the McMurdo Dry Valleys. These two environments are subjected to different pressures that determine...
18.
DAlo F, Odriozola I, Baldrian P, Zucconi L, Ripa C, Cannone N, et al.
Sci Total Environ
. 2021 Apr;
783:147012.
PMID: 33872894
Soil enzymatic activity was assessed in the Stelvio Pass area (Italian Central Alps) aiming to define the possible effects of climate change on microbial functioning. Two sites at two different...
19.
Selbmann L, Stoppiello G, Onofri S, Stajich J, Coleine C
J Fungi (Basel)
. 2021 Apr;
7(3).
PMID: 33809619
In the harshest environmental conditions of the Antarctic desert, normally incompatible with active life, microbes are adapted to exploit the cryptoendolithic habitat (i.e., pore spaces of rocks) and represent the...
20.
Albanese D, Coleine C, Rota-Stabelli O, Onofri S, Tringe S, Stajich J, et al.
Microbiome
. 2021 Mar;
9(1):63.
PMID: 33741058
Background: Cryptoendolithic communities are microbial ecosystems dwelling inside porous rocks that are able to persist at the edge of the biological potential for life in the ice-free areas of the...