Your search keyword '"Tamara Martin-Pozas"' showing total 3 results

1. Role of subterranean microbiota in the carbon cycle and greenhouse gas dynamics

Author

Tamara Martin-Pozas, Soledad Cuezva, Angel Fernandez-Cortes, Juan Carlos Cañaveras, David Benavente, Valme Jurado, Cesareo Saiz-Jimenez, Ivan Janssens, Naomi Seijas, Sergio Sanchez-Moral, Ministerio de Ciencia e Innovación (España), European Commission, Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, and Petrología Aplicada

Subjects

Biomineralization, History, Greenhouse gases fluxes, Environmental Engineering, Polymers and Plastics, Subterranean ecosystems, Microbiota, Nitrous Oxide, Greenhouse gas fluxes, Carbon Dioxide, Pollution, Industrial and Manufacturing Engineering, Moonmilk, Carbon Cycle, Microbial activity, Greenhouse Gases, Soil, Chemistry, Environmental Chemistry, Humans, Business and International Management, Waste Management and Disposal, Methane, Biology, Petrología y Geoquímica

Abstract

Subterranean ecosystems play an active role in the global carbon cycle, yet only a few studies using indirect methods have focused on the role of the cave microbiota in this critical cycle. Here we present pioneering research based on in situ real-time monitoring of CO2 and CH4 diffusive fluxes and concurrent δ13C geochemical tracing in caves, combined with 16S microbiome analysis. Our findings show that cave sediments are promoting continuous CH4 consumption from cave atmosphere, resulting in a significant removal of 65% to 90%. This research reveals the most effective taxa and metabolic pathways in consumption and uptake of greenhouse gases. Methanotrophic bacteria were the most effective group involved in CH4 consumption, namely within the families Methylomonaceae, Methylomirabilaceae and Methylacidiphilaceae. In addition, Crossiella and Nitrosococcaceae wb1-P19 could be one of the main responsible of CO2 uptake, which occurs via the Calvin-Benson-Bassham cycle and reversible hydration of CO2. Thus, syntrophic relationships exist between Crossiella and nitrifying bacteria that capture CO2, consume inorganic N produced by heterotrophic ammonification in the surface of sediments, and induce moonmilk formation. Moonmilk is found as the most evolved phase of the microbial processes in cave sediments that fixes CO2 as calcite and intensifies CH4 oxidation. From an ecological perspective, cave sediments act qualitatively as soils, providing fundamental ecosystem services (e.g. nutrient cycling and carbon sequestration) with direct influence on greenhouse gas emissions., This work was supported by the Spanish Ministry of Science, Innovation through project PID2019-110603RB-I00, MCIN/AEI/FEDER UE/10.13039/501100011033 and with collaboration of projects RTI2018-099052-B-I00 and PID2020-114978GB-I00. This research has also received funding from the European Union's Horizon 2020 research and innovation programme under the Marie Skłodowska-Curie grant agreement No 844535 — MIFLUKE.

Published

2022

2. Dominance of Arcobacter in the white filaments from the thermal sulfidic spring of Fetida Cave (Apulia, southern Italy)

Author

Cesareo Saiz-Jimenez, Jo De Waele, Ana Z. Miller, Daniele Ghezzi, Sergio Sanchez-Moral, Jose L. Gonzalez-Pimentel, Martina Cappelletti, Tamara Martin-Pozas, Soledad Cuezva, Angel Fernandez-Cortes, Ilenia M. D’Angeli, Valme Jurado, Jurado, Valme, D'Angeli, Ilenia, Martin-Pozas, Tamara, Cappelletti, Martina, Ghezzi, Daniele, Gonzalez-Pimentel, Jose Lui, Cuezva, Soledad, Miller, Ana Zelia, Fernandez-Cortes, Angel, De Waele, Jo, Sanchez-Moral, Sergio, Saiz-Jimenez, Cesareo, Ministerio de Economía y Competitividad (España), Ministerio de Ciencia e Innovación (España), and CSIC - Unidad de Recursos de Información Científica para la Investigación (URICI)

Subjects

Microbial diversity, Environmental Engineering, Sulfide, Geochemistry, Sulfuric acid speleogenesis, Sulfides, Water geochemistry, Cave, Spring (hydrology), Cave atmosphere, Environmental Chemistry, Dominance (ecology), Sulfuric acid speleogenesi, Seawater, Waste Management and Disposal, Sea level, chemistry.chemical_classification, Arcobacter, geography, geography.geographical_feature_category, biology, Microbial filament, biology.organism_classification, Pollution, humanities, Caves, chemistry, Microbial filaments, Upwelling, Geology, Sulfur

Abstract

The thermal spring of Fetida Cave, a still active sulfuric acid cave opening at sea level and located in Santa Cesarea Terme, southeastern Salento (Apulia region, Southern Italy) hosts abundant floating white filaments. The white filaments were mainly composed of sulfur crystals surrounded by microbial mass of the phyla Epsilonbacteraeota, Proteobacteria, Bacteroidetes, and Patescibacteria. The most abundant genus in the white filaments collected from the waters in the innermost part of the cave dominated by sulfidic exhalations was Arcobacter. This abundance can be related to the higher concentration of sulfide dissolved in water, and low oxygen and pH values. Conversely, lower Arcobacter abundances were obtained in the filaments collected in the entrance and middle part of the cave, where sulfidic water mixes with seawater, as the cave is subjected to tides and the mixing of fresh (continental) with marine water. The geochemical analysis of water and atmospheric gases confirmed these environmental constraints. In fact, the highest concentrations of H2S in the air and water were recorded closest to the spring upwelling in the innermost part of the cave, and the lowest ones near the cave entrance. The metabolic versatility of Arcobacter might provide a competitive advantage in the colonization of water bodies characterized by high sulfide, low oxygen, and dynamic fluid movement., This work was supported by the Spanish Ministry of Economy and Competitiveness through project CGL2016-75590-P with ERDF funds and PID2019-110603RB-I00/AEI/10.13039/501100011033. We acknowledge support of the publication fee by the CSIC Open Access Publication Support Initiative through its Unit of Information Resources for Research (URICI).

Published

2021

3. Biologically mediated release of endogenous N

Author

Tamara, Martin-Pozas, Sergio, Sanchez-Moral, Soledad, Cuezva, Valme, Jurado, Cesareo, Saiz-Jimenez, Raul, Perez-Lopez, Raul, Carrey, Neus, Otero, Anette, Giesemann, Reinhard, Well, Jose M, Calaforra, and Angel, Fernandez-Cortes

Subjects

Spain, Nitrogen Dioxide, Nitrous Oxide, Gases, Methane, Phylogeny

Abstract

The migration of geogenic gases in continental areas with geothermal activity and active faults is an important process releasing greenhouse gases (GHG) to the lower troposphere. In this respect, caves in hypogenic environments are natural laboratories to study the compositional evolution of deep-endogenous fluids through the Critical Zone. Vapour Cave (Alhama, Murcia, Spain) is a hypogenic cave formed by the upwelling of hydrothermal CO

Published

2020