Biomarkers in the Atacama Desert along the moisture gradient and the depth in the hyperarid zone: Phosphatase activity as trace of microbial activity

Abstract: Microbiological activities can be detected in various extreme environments on Earth, which suggest that extraterrestrial environments, such as on Mars, could host life. There have been proposed a number of biomarkers to detect extant life mostly based on specific molecules. Because terrestrial organisms have catalytic proteins (enzymes), enzymatic activity may also be a good indicator to evaluate biological activities in extreme environments. Phosphatases are essential for all terrestrial organisms because pho… Show more

“…The authors suggest this hypersaline extreme environment as an analogue field site for Mars. Kobayashi et al (2022), (this issue) correlate phosphatase activity with other biomarkers in different regions of the Atacama Desert, which is considered a Mars analogue environment. In contrast to other biomarkers, phosphatase activity is a measure of potential metabolic activity and not a measure of presence only.…”

Special issue: Open questions and next steps in astrobiology in Europe – celebrating 20 years of EANA

“…The authors suggest this hypersaline extreme environment as an analogue field site for Mars. Kobayashi et al (2022), (this issue) correlate phosphatase activity with other biomarkers in different regions of the Atacama Desert, which is considered a Mars analogue environment. In contrast to other biomarkers, phosphatase activity is a measure of potential metabolic activity and not a measure of presence only.…”

Special issue: Open questions and next steps in astrobiology in Europe – celebrating 20 years of EANA

Soil science research in dry environments of South America: Bibliometric evidence from the Caatinga, Patagonia, Gran Chaco and Atacama desert

Organic Catalytic Activity as a Method for Agnostic Life Detection