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10. Microclimate, airborne particles, and microbiological monitoring protocol for conservation of rock-art caves: The case of the world-heritage site La Garma cave (Spain)

Author

Gobierno de Cantabria, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Martín-Pozas, Tamara [0000-0001-7941-7949], Fernández-Cortés, Ángel [0000-0002-8482-3308], Cuezva, Soledad [0000-0002-2439-4767], Jurado, Valme [0000-0003-0972-9909], González Pimentel, José L. [0000-0002-9687-3134], Hermosín, Bernardo [0000-0002-2147-6636], Ontañón, Roberto [0000-0002-0504-3961], Sánchez Moral, Sergio [0000-0002-7382-3441], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Martín-Pozas, Tamara, Fernández-Cortés, Ángel, Cuezva, Soledad, Jurado, Valme, González Pimentel, José L., Hermosin, Bernardo, Ontañón, Roberto, Arias, Pablo, Cañaveras, José Carlos, Sánchez Moral, Sergio, Sáiz-Jiménez, Cesáreo, Gobierno de Cantabria, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Martín-Pozas, Tamara [0000-0001-7941-7949], Fernández-Cortés, Ángel [0000-0002-8482-3308], Cuezva, Soledad [0000-0002-2439-4767], Jurado, Valme [0000-0003-0972-9909], González Pimentel, José L. [0000-0002-9687-3134], Hermosín, Bernardo [0000-0002-2147-6636], Ontañón, Roberto [0000-0002-0504-3961], Sánchez Moral, Sergio [0000-0002-7382-3441], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Martín-Pozas, Tamara, Fernández-Cortés, Ángel, Cuezva, Soledad, Jurado, Valme, González Pimentel, José L., Hermosin, Bernardo, Ontañón, Roberto, Arias, Pablo, Cañaveras, José Carlos, Sánchez Moral, Sergio, and Sáiz-Jiménez, Cesáreo

Abstract

Cave heritage is often threatened by tourism or even scientific activities, which can lead to irreversible deterioration. We present a preventive conservation monitoring protocol to protect caves with rock art, focusing on La Garma Cave (Spain), a World Heritage Site with valuable archaeological materials and Palaeolithic paintings. This study assessed the suitability of the cave for tourist use through continuous microclimate and airborne particles monitoring, biofilm analysis, aerobiological monitoring and experimental visits. Our findings indicate several factors that make it inadvisable to adapt the cave for tourist use. Human presence and transit within the cave cause cumulative effects on the temperature of environmentally very stable and fragile sectors and significant resuspension of particles from the cave sediments. These environmental perturbations represent severe impacts as they affect the natural aerodynamic control of airborne particles and determine bacterial dispersal throughout the cave. This monitoring protocol provides part of the evidence to design strategies for sustainable cave management.

Published
2024

11. A Second Fungal Outbreak in Castañar Cave, Spain, Discloses the Fragility of Subsurface Ecosystems

Author

Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Martín-Pozas, Tamara [0000-0001-7941-7949], Nováková, Alena [0000-0003-0911-3565], Jurado, Valme [0000-0003-0972-9909], Cuezva, Soledad [0000-0002-2439-4767], Fernández-Cortés, Ángel [0000-0002-8482-3308], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Sánchez Moral, Sergio [0000-0002-7382-3441], Martín-Pozas, Tamara, Nováková, Alena, Jurado, Valme, Cuezva, Soledad, Fernández-Cortés, Ángel, Sáiz-Jiménez, Cesáreo, Sánchez-Moral, Sergio, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Martín-Pozas, Tamara [0000-0001-7941-7949], Nováková, Alena [0000-0003-0911-3565], Jurado, Valme [0000-0003-0972-9909], Cuezva, Soledad [0000-0002-2439-4767], Fernández-Cortés, Ángel [0000-0002-8482-3308], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Sánchez Moral, Sergio [0000-0002-7382-3441], Martín-Pozas, Tamara, Nováková, Alena, Jurado, Valme, Cuezva, Soledad, Fernández-Cortés, Ángel, Sáiz-Jiménez, Cesáreo, and Sánchez-Moral, Sergio

Abstract

Castañar is a cave with strict visitor control measures since it was open to public visits in 2003. However, in recent years, the cave suffered two fungal outbreaks, the first in 2008 and controlled by cleaning the contaminated sediments and subsequent closure of the cave until 2014. The cave was reopened but limited to a maximum of 450 visitors/year. Despite these restrictions on visit, the cave experienced a second outbreak in 2021, originating from the installation of a steel grating walkway, aiming at protecting the ground sediments from the visitors’ footsteps. Here, we conducted an analysis using Next-Generation Sequencing and culture-dependent techniques to investigate the fungal communities related to the second outbreak and compare with those present before the cave suffered the outbreak. The results show that the most abundant fungi involved in the 2021 outbreak were already detected in 2020, and even in 2008 and 2009, although the main species that originating both outbreaks were different, likely due to the different carbon sources introduced into the cave.

Published
2024

12. Gypsum Cave Biofilm Communities are Strongly Influenced by Bat- And Arthropod-Related Fungi

Author

Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Jurado, Valme [0000-0003-0972-9909], Martín-Pozas, Tamara [0000-0001-7941-7949], Fernández-Cortés, Ángel [0000-0002-8482-3308], Calaforra, José María [0000-0001-7673-9950], Sánchez Moral, Sergio [0000-0002-7382-3441], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Jurado, Valme, Martín-Pozas, Tamara, Fernández-Cortés, Ángel, Calaforra, José María, Sánchez-Moral, Sergio, Sáiz-Jiménez, Cesáreo, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Jurado, Valme [0000-0003-0972-9909], Martín-Pozas, Tamara [0000-0001-7941-7949], Fernández-Cortés, Ángel [0000-0002-8482-3308], Calaforra, José María [0000-0001-7673-9950], Sánchez Moral, Sergio [0000-0002-7382-3441], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Jurado, Valme, Martín-Pozas, Tamara, Fernández-Cortés, Ángel, Calaforra, José María, Sánchez-Moral, Sergio, and Sáiz-Jiménez, Cesáreo

Abstract

The Gypsum Karst of Sorbas, Almeria, southeast Spain, includes a few caves whose entrances are open and allow the entry and roosting of numerous bats. Caves are characterized by their diversity of gypsum speleothems, such as stalactites, coralloids, gypsum crusts, etc. Colored biofilms can be observed on the walls of most caves, among which the Covadura and C3 caves were studied. The objective was to determine the influence that bat mycobiomes may have on the fungal communities of biofilms. The results indicate that the fungi retrieved from white and yellow biofilms in Covadura Cave (Ascomycota, Mortierellomycota, Basidiomycota) showed a wide diversity, depending on their location, and were highly influenced by the bat population, the guano and the arthropods that thrive in the guano, while C3 Cave was more strongly influenced by soil- and arthropod-related fungi (Ascomycota, Mortierellomycota), due to the absence of roosting bats.

Published
2024

16. Adaptive response of prokaryotic communities to extreme pollution flooding in a Paleolithic rock art cave (Pindal Cave, northern Spain)

Author

Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Martin-Pozas, Tamara, Cuezva Robleño, Soledad, Fernández Cortés, Ángel, Gonzalez-Pumariega, María, Elez Villar, Javier, Duarte, Elsa, Rasilla, Marco de la, Cañaveras, Juan C., Sáiz Jiménez, Cesáreo, Sánchez Moral, Sergio, Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Martin-Pozas, Tamara, Cuezva Robleño, Soledad, Fernández Cortés, Ángel, Gonzalez-Pumariega, María, Elez Villar, Javier, Duarte, Elsa, Rasilla, Marco de la, Cañaveras, Juan C., Sáiz Jiménez, Cesáreo, and Sánchez Moral, Sergio

Abstract

A flood event affecting Pindal Cave, a UNESCO World Heritage site, introduced a substantial amount of external sediments and waste into the cave. This event led to the burial of preexisting sediments, altering the biogeochemical characteristics of the cave ecosystem by introducing heightened levels of organic matter, nitrogen compounds, phosphorus, and heavy metals. The sediments included particulate matter and waste from a cattle farm located within the water catchment area of the cavity, along with diverse microorganisms, reshaping the cave microbial community. This study addresses the ongoing influence of a cattle farm on the cave ecosystem and aims to understand the adaptive responses of the underground microbial community to the sudden influx of waste allochthonous material. Here, we show that the flood event had an immediate and profound effect on the cave microbial community, marked by a significant increase in methanogenic archaea, denitrifying bacteria, and other microorganisms commonly associated with mammalian intestinal tracts. Furthermore, our findings reveal that one year after the flood, microorganisms related to the flood decreased, while the increase in inorganic forms of ammonium and nitrate suggests potential nitrification, aligning with increased abundances of corresponding functional genes involved in nitrogen cycling. The results reveal that the impact of pollution was neither recent nor isolated, and it was decisive in stopping livestock activity near the cave. The influence of the cattle farm has persisted since its establishment over the impluvium area, and this influence endures even a year after the flood. Our study emphasizes the dynamic interplay between natural events, anthropogenic activities, and microbial communities, offering insights into the resilience of cave ecosystems. Understanding microbial adaptation in response to environmental disturbances, as demonstrated in this cave ecosystem, has implications for broader ecological stu

Published
2024

17. Radon Dynamics in Granite and Calcareous Soils: Long-Term Experiments in a Semi-Arid Context

Author

Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Universidad de Alicante. Departamento de Ingeniería Civil, Gil-Oncina, Sara, Pla, Concepción, Valdes-Abellan, Javier, Fernández Cortés, Ángel, Benavente, David, Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Universidad de Alicante. Departamento de Ingeniería Civil, Gil-Oncina, Sara, Pla, Concepción, Valdes-Abellan, Javier, Fernández Cortés, Ángel, and Benavente, David

Abstract

Radon in soil poses a significant health risk when it accumulates inside dwellings. The estimation of radon potential is a difficult task due to the complex dynamics of radon within soil and its relations with the weather. This research focuses on the variability of radon activity, driven by environmental changes, assessed in two loam soils (loamy sand–granite soil and silty clay loam-calcareous soil) with different radium contents. We conducted an experiment with teow soil columns in a semi-controlled outdoor laboratory, in a warm semi-arid climate. We also examined the consequences of abundant rainfall on radon activity through artificial soil water content (SWC) experiment conditions. Statistical analyses reveal that SWC is the most significant parameter influencing radon activity in these experiments. Radon is proportional to SWC and inversely proportional to temperature, evapotranspiration, and pressure in both soils, while wind is negatively related only in the loamy sand soil. Based on our findings, we modelled radon potential considering different soils and climatic contexts. SWC influences radon potential by changing radon emanation, activity, and permeability, depending on the local soil texture and radium concentration.

Published
2024

18. Scenarios for the Altamira cave CO2 concentration from 1950 to 2100

Author

Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Sáez, Marina, Benavente, David, Cuezva Robleño, Soledad, Huc, Mireille, Fernández Cortés, Ángel, Mialon, Arnaud, Kerr, Yann, Sánchez Moral, Sergio, Mangiarotti, Sylvain, Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Sáez, Marina, Benavente, David, Cuezva Robleño, Soledad, Huc, Mireille, Fernández Cortés, Ángel, Mialon, Arnaud, Kerr, Yann, Sánchez Moral, Sergio, and Mangiarotti, Sylvain

Abstract

A data-driven approach insensitive to the initial conditions was developed to extract governing equations for the concentration of CO2 in the Altamira cave (Spain) and its two main drivers: the outside temperature and the soil moisture. This model was then reformulated in order to use satellite observations and meteorological predictions, as a forcing. The concentration of CO2 inside the cave was then investigated from 1950 to 2100 under various scenarios. It is found that extreme levels of CO2 were reached during the period 1950–1972 due to the massive affluence of visitors. It is demonstrated that it is possible to monitor the CO2 in the cave in real time using satellite information as an external forcing. For the future, it is shown that the maximum values of CO2 will exceed the levels reached during the 1980s and the 1990s when the CO2 introduced by the touristic visits, although intentionally reduced, still enhanced considerably the micro corrosion of walls and pigments.

Published
2024

19. New insights into the structure, microbial diversity and ecology of yellow biofilms in a Paleolithic rock art cave (Pindal Cave, Asturias, Spain)

Author

Ministerio de Ciencia e Innovación (España), European Commission, Agencia Estatal de Investigación (España), Martín-Pozas, Tamara [0000-0001-7941-7949], Fernández-Cortés, Ángel [0000-0002-8482-3308], Cuezva, Soledad [0000-0002-2439-4767], Cañaveras, Juan Carlos [0000-0003-0323-3400], Benavente García, David [0000-0001-7325-4042], Duarte Matías, E. [0000-0003-2767-7049], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Sánchez Moral, Sergio [0000-0002-7382-3441], Martín-Pozas, Tamara, Fernández-Cortés, Ángel, Cuezva, Soledad, Cañaveras, Juan Carlos, Benavente, David, Duarte Matías, E., Sáiz Jiménez, Cesáreo, Sánchez-Moral, Sergio, Ministerio de Ciencia e Innovación (España), European Commission, Agencia Estatal de Investigación (España), Martín-Pozas, Tamara [0000-0001-7941-7949], Fernández-Cortés, Ángel [0000-0002-8482-3308], Cuezva, Soledad [0000-0002-2439-4767], Cañaveras, Juan Carlos [0000-0003-0323-3400], Benavente García, David [0000-0001-7325-4042], Duarte Matías, E. [0000-0003-2767-7049], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Sánchez Moral, Sergio [0000-0002-7382-3441], Martín-Pozas, Tamara, Fernández-Cortés, Ángel, Cuezva, Soledad, Cañaveras, Juan Carlos, Benavente, David, Duarte Matías, E., Sáiz Jiménez, Cesáreo, and Sánchez-Moral, Sergio

Abstract

In the absence of sunlight, caves harbor a great diversity of microbial colonies to extensive biofilms with different sizes and colors visible to the naked eye. One of the most widespread and visible types of biofilm are those with yellow hues that can constitute a serious problem for the conservation of cultural heritage in many caves, such as Pindal Cave (Asturias, Spain). This cave, declared a World Heritage Site by UNESCO for its Paleolithic parietal art, shows a high degree of development of yellow biofilms that represents a real threat to the conservation of painted and engraved figures. This study aims to: 1) identify the microbial structures and the most characteristic taxa composing the yellow biofilms, 2) seek the linked microbiome reservoir primarily contributing to their growth; 3) seed light on the driving vectors that contribute to their formation and determine the subsequent proliferation and spatial distribution. To achieve this goal, we used amplicon-based massive sequencing, in combination with other techniques such as microscopy, in situ hybridization and environmental monitoring, to compare the microbial communities of yellow biofilms with those of drip waters, cave sediments and exterior soil. The results revealed microbial structures related to the phylum Actinomycetota and the most characteristic bacteria in yellow biofilms, represented by the genera wb1-P19, Crossiella, Nitrospira, and Arenimonas. Our findings suggest that sediments serve as potential reservoirs and colonization sites for these bacteria that can develop into biofilms under favorable environmental and substrate conditions, with a particular affinity for speleothems and rugged-surfaced rocks found in condensation-prone areas. This study presents an exhaustive study of microbial communities of yellow biofilms in a cave, which could be used as a procedure for the identification of similar biofilms in other caves and to design effective conservation strategies in caves with valuab

Published
2023

20. Prokaryotic communities inhabiting a high-radon subterranean ecosystem (Castañar Cave, Spain): Environmental and substrate-driven controls

Author

Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Martín-Pozas, Tamara [0000-0001-7941-7949], Cuezva, Soledad [0000-0002-2439-4767], Fernández-Cortés, Ángel [0000-0002-8482-3308], Benavente García, David [0000-0001-7325-4042], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Sánchez Moral, Sergio [0000-0002-7382-3441], Martín-Pozas, Tamara, Cuezva, Soledad, Fernández-Cortés, Ángel, Benavente García, David, Sáiz-Jiménez, Cesáreo, Sánchez Moral, Sergio, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Martín-Pozas, Tamara [0000-0001-7941-7949], Cuezva, Soledad [0000-0002-2439-4767], Fernández-Cortés, Ángel [0000-0002-8482-3308], Benavente García, David [0000-0001-7325-4042], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Sánchez Moral, Sergio [0000-0002-7382-3441], Martín-Pozas, Tamara, Cuezva, Soledad, Fernández-Cortés, Ángel, Benavente García, David, Sáiz-Jiménez, Cesáreo, and Sánchez Moral, Sergio

Abstract

Castañar Cave (Caceres, Spain) is a unique show cave known for its high natural radiation levels. This study presents a comprehensive analysis of its prokaryotic diversity, specifically focusing on investigating the influence of environmental conditions and substrate characteristics on the prokaryotic community structure in the cave sediments. Additionally, the research aims to evaluate the potential impact of human activities on the cave ecosystem. The identification of distinct bioclimatic zones within the cave was made possible through a combination of environmental and microbial monitoring (ATP assays). The results reveal sediment texture as a significant factor, notably affecting the structure, diversity, and phylogenetic variability of the microbial community, including both Bacteria and Archaea. The proportion of clay minerals in sediments plays a crucial role in regulating moisture levels and nutrient availability. These substrate properties collectively exert a significant selective pressure on the structure of prokaryotic communities within cave sediments. The molecular approach shows that heterotrophic bacteria, including those with chitinolytic enzymes, primarily inhabit the cave. Furthermore, chemoautotrophic nitrifiers such as the archaea Nitrososphaeria and the genus Nitrospira, as well as methanotrophic bacteria from the phyla Methylomirabilota, Pseudomonadota, and Verrucomicrobiota, are also present. Remarkably, despite being a show cave, the cave microbiota displays minimal impacts from human activities and the surface ecosystem. Prokaryotic populations exhibit stability in the innermost areas, while the tourist trail area experiences slightly higher biomass increases due to visitor traffic. This suggests that conservation efforts have successfully limited the entry of external nutrients into the innermost cave areas. Additionally, the results suggest that integrating biomarkers like ATP into environmental monitoring can significantly enhance the m

Published
2023

24. Multi-disciplinary approach for assessing the impact of a flood event in a shallow karst cavity (Pindal Cave, Spain)

Author

Tamara Martin-Pozas, Soledad Cuezva, Fernández-Cortés Ángel, María González-Pumariega, Elsa Duarte, Marco de la Rasilla, Juan Carlos Cañaveras, David Benavente, Cesáreo Sáiz-Jiménez, and Sergio Sánchez-Moral

Abstract

Pindal Cave (Asturias, Spain) and its Paleolithic art have been part of the UNESCO World Heritage List since 2008. The importance of this Paleolithic art led to a research project that deals with deciphering the relationships between environmental conditions and microbial activity in natural underground ecosystems and its application to the design of conservation strategies.The Pindal karstic system develops in a calcareous massif (Carboniferous) modeled in the form of an erosional marine terrace (rasa) by coastal morphogenetic processes. This marine terrace level is located at an elevation of 30-68 meters above current sea level and constitutes the preferred catchment area for runoff water from another higher level (140-170 m) developed on quartzite layers with very low permeability (Ordovician). The cave is the main endokarstic feature of the system. On the surface of the 30-68 m rasa there are numerous exokarstic structures of sinkhole and polje type. On one of the sinkholes, located almost vertically to the cave, a cattle farm was installed in 1995.Between October 19 and 23, 2019, an extreme episode of rainfall occurred in the area with a cumulative total of 209 l/m2. This event caused a strong accumulation of water in the aforementioned sinkhole that finally collapsed, flooding the cave for several days. Immediately after the cave had been drained, environmental measurements and sediment samplings were carried out at various points in order to determine the changes caused in the underground ecosystem. In the most affected area by the flood, changes in humidity and temperature of air and sediments were recorded for several months. Biogeochemical data indicated that the sediments deposited as a result of the flooding presented high values of available organic matter, nitrogen, phosphorus and potassium, much higher than those of the innermost areas did not directly affect by the flooding. The comparative microbiological study of sediment samples revealed that the flood produced very significant changes in the microbial composition of sediments: the appearance of the bacterial phyla Bacillota and Bacteroidota, including groups of opportunistic bacterial pathogens (Corynebacterium, Thauera, Clostridiales) and the almost complete disappearance of Rokubacteriales and Nitrospirota. Bacillota and Bacteroidota are common in the intestinal tract of mammals and are dominant in liquid and solid samples of manure from dairy farms. Overall, the results conclude that the sediments dragged into the cave were accompanied by residues from livestock farming and indicate the high degree of vulnerability of this type of cave. Although livestock activity finally ceased in 2021, we continue analyzing environmental parameters, waters, sediments and microbial populations to evaluate their evolution in the medium-long term.Research funded by PID2019-110603RB-I00 – SUBSYST project and PID2020-114978GB-I

Published
2023
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25. Early Detection of Phototrophic Biofilms in the Polychrome Panel, El Castillo Cave, Spain

Author

Gobierno de Cantabria, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Jurado, Valme [0000-0003-0972-9909], González Pimentel, José L. [0000-0002-9687-3134], Fernández Cortés, Ángel [0000-0002-8482-3308], Martín-Pozas, Tamara [0000-0001-7941-7949], Hermosín, Bernardo [0000-0002-2147-6636], Sánchez Moral, Sergio [0000-0002-7382-3441], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Jurado, Valme, González-Pimentel, José Luis, Fernández-Cortés, Ángel, Martín-Pozas, Tamara, Hermosín, Bernardo, Sánchez-Moral, Sergio, Sáiz-Jiménez, Cesáreo, Gobierno de Cantabria, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Jurado, Valme [0000-0003-0972-9909], González Pimentel, José L. [0000-0002-9687-3134], Fernández Cortés, Ángel [0000-0002-8482-3308], Martín-Pozas, Tamara [0000-0001-7941-7949], Hermosín, Bernardo [0000-0002-2147-6636], Sánchez Moral, Sergio [0000-0002-7382-3441], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Jurado, Valme, González-Pimentel, José Luis, Fernández-Cortés, Ángel, Martín-Pozas, Tamara, Hermosín, Bernardo, Sánchez-Moral, Sergio, and Sáiz-Jiménez, Cesáreo

Abstract

European caves contain some of the world’s greatest Paleolithic paintings, and their conservation is at risk due to the use of artificial lighting. Both lighting and high CO2 promotes the growth of phototrophic organisms on walls, speleothems and ground sediments. In addition, the combined effect of increases in CO2, vapor concentration and temperature variations induced by visitors can directly affect the development of corrosion processes on the cave rock surfaces. An early detection of the occurrence of phototrophic biofilms on Paleolithic paintings is of the utmost importance, as well as knowing the microorganisms involved in the colonization of rocks and walls. Knowledge of the colonizing species and their ecology will allow the adoption of control measures. However, this is not always possible due to the limited amount of biomass available for molecular analyses. Here, we present an alternative approach to study faint green biofilms of Chlorophyta in the initial stage of colonization on the Polychrome Panel in El Castillo Cave, Cantabria, Spain. The study of the biofilms collected on the rock art panel and in the ground sediments revealed that the lighting of the cave promoted the development of the green algae Jenufa and Coccomyxa, as well as of complex prokaryotic and eukaryotic communities, including amoebae, their endoparasites and associated bacteria and fungi. The enrichment method used is proposed as a tool to overcome technical constraints in characterizing biofilms in the early stages, allowing a preliminary characterization before deciding for direct or indirect interventions in the cave.

Published
2022

26. Diversity of Microfungi in a High Radon Cave Ecosystem

Author

Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Martín-Pozas, Tamara [0000-0001-7941-7949], Nováková, Alena [0000-0003-0911-3565], Jurado, Valme [0000-0003-0972-9909], Cuezva, Soledad [0000-0002-2439-4767], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Sánchez Moral, Sergio [0000-0002-7382-3441], Fernández-Cortés, Ángel [0000-0002-8482-3308], Martín-Pozas, Tamara, Nováková, Alena, Jurado, Valme, Fernández-Cortés, Ángel, Cuezva, Soledad, Sáiz-Jiménez, Cesáreo, Sánchez-Moral, Sergio, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Martín-Pozas, Tamara [0000-0001-7941-7949], Nováková, Alena [0000-0003-0911-3565], Jurado, Valme [0000-0003-0972-9909], Cuezva, Soledad [0000-0002-2439-4767], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Sánchez Moral, Sergio [0000-0002-7382-3441], Fernández-Cortés, Ángel [0000-0002-8482-3308], Martín-Pozas, Tamara, Nováková, Alena, Jurado, Valme, Fernández-Cortés, Ángel, Cuezva, Soledad, Sáiz-Jiménez, Cesáreo, and Sánchez-Moral, Sergio

Abstract

Castañar Cave is a clear example of an oligotrophic ecosystem with high hygrothermal stability both seasonal and interannual and the particularity of registering extraordinary levels of environmental radiation. These environmental conditions make the cave an ideal laboratory to evaluate both the responses of the subterranean environment to sudden changes in the matter and energy fluxes with the exterior and also any impact derived from its use as a tourist resource under a very restrictive access regime. In 2008, a fungal outbreak provoked by a vomit contaminated the sediments which were removed and subsequently treated with hydrogen peroxide. Fungal surveys were carried out in 2008 and 2009. The visits were resumed in 2014. Here, 12 years after the outbreak, we present an exhaustive study on the cave sediments in order to know the distribution of the different fungal taxa, as well as the prevalence and spatio-temporal evolution of the fungi caused by the vomit over the years under the conditions of relative isolation and high radiation that characterize this cave.

Published
2022

27. Microclimate, airborne particles, and microbiological monitoring protocol for conservation of rock-art caves: The case of the world-heritage site La Garma cave (Spain)

Author

Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Martin-Pozas, Tamara, Fernández Cortés, Ángel, Cuezva Robleño, Soledad, Jurado Lobo, Valme, Gonzalez-Pimentel, Jose Luis, Hermosin, Bernardo, Ontañón Peredo, Roberto, Arias, Pablo, Cañaveras, Juan C., Sánchez Moral, Sergio, Sáiz Jiménez, Cesáreo, Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Martin-Pozas, Tamara, Fernández Cortés, Ángel, Cuezva Robleño, Soledad, Jurado Lobo, Valme, Gonzalez-Pimentel, Jose Luis, Hermosin, Bernardo, Ontañón Peredo, Roberto, Arias, Pablo, Cañaveras, Juan C., Sánchez Moral, Sergio, and Sáiz Jiménez, Cesáreo

Abstract

Cave heritage is often threatened by tourism or even scientific activities, which can lead to irreversible deterioration. We present a preventive conservation monitoring protocol to protect caves with rock art, focusing on La Garma Cave (Spain), a World Heritage Site with valuable archaeological materials and Palaeolithic paintings. This study assessed the suitability of the cave for tourist use through continuous microclimate and airborne particles monitoring, biofilm analysis, aerobiological monitoring and experimental visits. Our findings indicate several factors that make it inadvisable to adapt the cave for tourist use. Human presence and transit within the cave cause cumulative effects on the temperature of environmentally very stable and fragile sectors and significant resuspension of particles from the cave sediments. These environmental perturbations represent severe impacts as they affect the natural aerodynamic control of airborne particles and determine bacterial dispersal throughout the cave. This monitoring protocol provides part of the evidence to design strategies for sustainable cave management.

Published
2023

28. Crossiella, a Rare Actinomycetota Genus, Abundant in the Environment

Author

Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Martin-Pozas, Tamara, Gonzalez-Pimentel, Jose Luis, Jurado Lobo, Valme, Laiz Trobajo, Leonila, Cañaveras, Juan C., Fernández Cortés, Ángel, Cuezva Robleño, Soledad, Sánchez Moral, Sergio, Sáiz Jiménez, Cesáreo, Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Martin-Pozas, Tamara, Gonzalez-Pimentel, Jose Luis, Jurado Lobo, Valme, Laiz Trobajo, Leonila, Cañaveras, Juan C., Fernández Cortés, Ángel, Cuezva Robleño, Soledad, Sánchez Moral, Sergio, and Sáiz Jiménez, Cesáreo

Abstract

The genus Crossiella contains two species, C. equi, causing nocardioform placentitis in horses, and C. cryophila, an environmental bacterium. Apart from C. equi, which is not discussed here, environmental Crossiella is rarely reported in the literature; thus, it has not been included among “rare actinobacteria”, whose isolation frequency is very low. After C. cryophila, only five reports cover the isolation of Crossiella strains. However, the frequency of published papers on environmental Crossiella has increased significantly in recent years due to the extensive use of next-generation sequencing (NGS) and a huge cascade of data that has improved our understanding of how bacteria occur in the environment. In the last five years, Crossiella has been found in different environments (caves, soils, plant rhizospheres, building stones, etc.). The high abundance of Crossiella in cave moonmilk indicates that this genus may have an active role in moonmilk formation, as evidenced by the precipitation of calcite, witherite, and struvite in different culture media. This review provides an overview of environmental Crossiella, particularly in caves, and discusses its role in biomineralization processes and bioactive compound production.

Published
2023

29. 222Rn and CO2 monitoring in soil and indoor atmosphere to understand changes in the gaseous dynamics of Rull cave (Spain)

Author

Universidad de Alicante. Departamento de Ingeniería Civil, Pla, Concepción, Ruiz, Maria Candela, Gil-Oncina, Sara, García-Martínez, Noé, Cañaveras, Juan C., Cuezva Robleño, Soledad, Fernández Cortés, Ángel, Sánchez Moral, Sergio, Benavente, David, Universidad de Alicante. Departamento de Ingeniería Civil, Pla, Concepción, Ruiz, Maria Candela, Gil-Oncina, Sara, García-Martínez, Noé, Cañaveras, Juan C., Cuezva Robleño, Soledad, Fernández Cortés, Ángel, Sánchez Moral, Sergio, and Benavente, David

Abstract

Rull cave is a karstic cave located in Vall d’Ebo (Alicante, Southeast of Spain) developed in massive Miocene conglomerates and Cretaceous limestones. Processes in soil above Rull cave and outdoor atmosphere directly influence the underground environment of the cave. Continuous and discrete monitoring of cave atmosphere and soil (from 2012 to 2022) allows to characterise the spatial distribution and temporal variations of the gaseous concentration (222Rn and CO2) and understand the relationship between the processes which occurred in the 3-component system (soil-cave-atmosphere). Besides the presence of visitors, Rull cave maintains stable values of mean temperature (16.2 °C) and relative humidity (97.6%). In an annual cycle the cave presents two different gaseous stages (stagnation and ventilation). Maximum average values of CO2 and 222Rn concentration are reached within the stagnation stage, in the warmest period of the year. On the contrary, in the ventilation stage (in the coldest months) the cave reaches the lowest concentrations in its inner atmosphere. For the study period, daily average CO2 and 222Rn concentrations are 2008 ppm and 1745 Bq/m3, respectively. Results show that the dynamics of 222Rn and CO2 in the cave air follow different patterns defined by the complex relationships between external and internal factors. Findings from this study provide substantial information about the environmental situation of the cave atmosphere in terms of air quality for visitors and workers.

Published
2023

30. New insights into the structure, microbial diversity and ecology of yellow biofilms in a Paleolithic rock art cave (Pindal Cave, Asturias, Spain)

Author

Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Martin-Pozas, Tamara, Fernández Cortés, Ángel, Cuezva Robleño, Soledad, Cañaveras, Juan C., Benavente, David, Duarte, Elsa, Sáiz Jiménez, Cesáreo, Sánchez Moral, Sergio, Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Martin-Pozas, Tamara, Fernández Cortés, Ángel, Cuezva Robleño, Soledad, Cañaveras, Juan C., Benavente, David, Duarte, Elsa, Sáiz Jiménez, Cesáreo, and Sánchez Moral, Sergio

Abstract

In the absence of sunlight, caves harbor a great diversity of microbial colonies to extensive biofilms with different sizes and colors visible to the naked eye. One of the most widespread and visible types of biofilm are those with yellow hues that can constitute a serious problem for the conservation of cultural heritage in many caves, such as Pindal Cave (Asturias, Spain). This cave, declared a World Heritage Site by UNESCO for its Paleolithic parietal art, shows a high degree of development of yellow biofilms that represents a real threat to the conservation of painted and engraved figures. This study aims to: 1) identify the microbial structures and the most characteristic taxa composing the yellow biofilms, 2) seek the linked microbiome reservoir primarily contributing to their growth; 3) seed light on the driving vectors that contribute to their formation and determine the subsequent proliferation and spatial distribution. To achieve this goal, we used amplicon-based massive sequencing, in combination with other techniques such as microscopy, in situ hybridization and environmental monitoring, to compare the microbial communities of yellow biofilms with those of drip waters, cave sediments and exterior soil. The results revealed microbial structures related to the phylum Actinomycetota and the most characteristic bacteria in yellow biofilms, represented by the genera wb1-P19, Crossiella, Nitrospira, and Arenimonas. Our findings suggest that sediments serve as potential reservoirs and colonization sites for these bacteria that can develop into biofilms under favorable environmental and substrate conditions, with a particular affinity for speleothems and rugged-surfaced rocks found in condensation-prone areas. This study presents an exhaustive study of microbial communities of yellow biofilms in a cave, which could be used as a procedure for the identification of similar biofilms in other caves and to design effective conservation strategies in caves with valuab

Published
2023

31. Prokaryotic communities inhabiting a high-radon subterranean ecosystem (Castañar Cave, Spain): Environmental and substrate-driven controls

Author

Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Martin-Pozas, Tamara, Cuezva Robleño, Soledad, Fernández Cortés, Ángel, Benavente, David, Sáiz Jiménez, Cesáreo, Sánchez Moral, Sergio, Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Martin-Pozas, Tamara, Cuezva Robleño, Soledad, Fernández Cortés, Ángel, Benavente, David, Sáiz Jiménez, Cesáreo, and Sánchez Moral, Sergio

Abstract

Castañar Cave (Caceres, Spain) is a unique show cave known for its high natural radiation levels. This study presents a comprehensive analysis of its prokaryotic diversity, specifically focusing on investigating the influence of environmental conditions and substrate characteristics on the prokaryotic community structure in the cave sediments. Additionally, the research aims to evaluate the potential impact of human activities on the cave ecosystem. The identification of distinct bioclimatic zones within the cave was made possible through a combination of environmental and microbial monitoring (ATP assays). The results reveal sediment texture as a significant factor, notably affecting the structure, diversity, and phylogenetic variability of the microbial community, including both Bacteria and Archaea. The proportion of clay minerals in sediments plays a crucial role in regulating moisture levels and nutrient availability. These substrate properties collectively exert a significant selective pressure on the structure of prokaryotic communities within cave sediments. The molecular approach shows that heterotrophic bacteria, including those with chitinolytic enzymes, primarily inhabit the cave. Furthermore, chemoautotrophic nitrifiers such as the archaea Nitrososphaeria and the genus Nitrospira, as well as methanotrophic bacteria from the phyla Methylomirabilota, Pseudomonadota, and Verrucomicrobiota, are also present. Remarkably, despite being a show cave, the cave microbiota displays minimal impacts from human activities and the surface ecosystem. Prokaryotic populations exhibit stability in the innermost areas, while the tourist trail area experiences slightly higher biomass increases due to visitor traffic. This suggests that conservation efforts have successfully limited the entry of external nutrients into the innermost cave areas. Additionally, the results suggest that integrating biomarkers like ATP into environmental monitoring can significantly enhance the m

Published
2023

32. Crossiella, a Rare Actinomycetota Genus, Abundant in the Environment

Author

Museo Carmen Thyssen Málaga, Martín-Pozas, Tamara, González-Pimentel, José Luis, Jurado, Valme, Laiz Trobajo, L., Fernández-Cortés, Ángel, Cuezva, Soledad, Sánchez-Moral, Sergio, Sáiz-Jiménez, Cesáreo, Museo Carmen Thyssen Málaga, Martín-Pozas, Tamara, González-Pimentel, José Luis, Jurado, Valme, Laiz Trobajo, L., Fernández-Cortés, Ángel, Cuezva, Soledad, Sánchez-Moral, Sergio, and Sáiz-Jiménez, Cesáreo

Abstract

The genus Crossiella contains two species, C. equi, causing nocardioform placentitis in horses, and C. cryophila, an environmental bacterium. Apart from C. equi, which is not discussed here, environmental Crossiella is rarely reported in the literature; thus, it has not been included among "rare actinobacteria", whose isolation frequency is very low. After C. cryophila, only five reports cover the isolation of Crossiella strains. However, the frequency of published papers on environmental Crossiella has increased significantly in recent years due to the extensive use of next-generation sequencing (NGS) and a huge cascade of data that has improved our understanding of how bacteria occur in the environment. In the last five years, Crossiella has been found in different environments (caves, soils, plant rhizospheres, building stones, etc.). The high abundance of Crossiella in cave moonmilk indicates that this genus may have an active role in moonmilk formation, as evidenced by the precipitation of calcite, witherite, and struvite in different culture media. This review provides an overview of environmental Crossiella, particularly in caves, and discusses its role in biomineralization processes and bioactive compound production.

Published
2023

33. Crossiella in Caves

Author

Martín-Pozas, Tamara, González-Pimentel, José Luis, Jurado, Valme, Laiz Trobajo, L., Cañaveras, Juan Carlos, Fernández-Cortés, Ángel, Cuezva, Soledad, Sánchez-Moral, Sergio, Sáiz-Jiménez, Cesáreo, Martín-Pozas, Tamara, González-Pimentel, José Luis, Jurado, Valme, Laiz Trobajo, L., Cañaveras, Juan Carlos, Fernández-Cortés, Ángel, Cuezva, Soledad, Sánchez-Moral, Sergio, and Sáiz-Jiménez, Cesáreo

Abstract

“Rare actinobacteria” are non-Streptomyces actinobacteria whose isolation frequency is much lower than Streptomyces strains, commonly isolated by conventional methods [1][2]. Tiwari and Gupta [3][4] reported 120 new genera of “rare actinobacteria” in the first decade of the 21th century. A total of 40 out of 120 genera were isolated from soils, with comparatively lower percentages from other environments: marine and freshwater sediments, marine animals, plants, buildings, etc. A few reports included the rare genera Actinomadura, Nonomuraea, Micromonospora, Streptosporangium, Nocardiopsis, and Pseudonocardia as the most frequent in diverse environments [5][6][7][8][9]. It is noteworthy an abundance of “rare actinobacteria” in extreme environments, as exemplified in Atacama [7] and other deserts [10][11][12][13]. However, Crossiella has not been included among “rare actinobacteria” thus far. Researchers have found that Crossiella is an abundant genus in most studied Spanish caves, whether they are gypsum, karstic or volcanic [14][15][16][17][18][19][20][21], and in other terrestrial and aquatic environments., Texto completo disponible en: https://encyclopedia.pub/entry/45605

Published
2023

34. 222Rn and CO2 monitoring in soil and indoor atmosphere to understand changes in the gaseous dynamics of Rull cave (Spain)

Author

Ministerio de Ciencia, Innovación y Universidades (España), Generalitat Valenciana, Pla, Concepción, Candela Ruiz, María, Gil-Oncina, Sara, García-Martínez, Noé, Cañaveras, Juan Carlos, Cuezva, Soledad, Fernández-Cortés, Ángel, Sánchez-Moral, Sergio, Benavente, David, Ministerio de Ciencia, Innovación y Universidades (España), Generalitat Valenciana, Pla, Concepción, Candela Ruiz, María, Gil-Oncina, Sara, García-Martínez, Noé, Cañaveras, Juan Carlos, Cuezva, Soledad, Fernández-Cortés, Ángel, Sánchez-Moral, Sergio, and Benavente, David

Abstract

Rull cave is a karstic cave located in Vall d’Ebo (Alicante, Southeast of Spain) developed in massive Miocene conglomerates and Cretaceous limestones. Processes in soil above Rull cave and outdoor atmosphere directly influence the underground environment of the cave. Continuous and discrete monitoring of cave atmosphere and soil (from 2012 to 2022) allows to characterise the spatial distribution and temporal variations of the gaseous concentration (222Rn and CO2) and understand the relationship between the processes which occurred in the 3-component system (soil-cave-atmosphere). Besides the presence of visitors, Rull cave maintains stable values of mean temperature (16.2 °C) and relative humidity (97.6%). In an annual cycle the cave presents two different gaseous stages (stagnation and ventilation). Maximum average values of CO2 and 222Rn concentration are reached within the stagnation stage, in the warmest period of the year. On the contrary, in the ventilation stage (in the coldest months) the cave reaches the lowest concentrations in its inner atmosphere. For the study period, daily average CO2 and 222Rn concentrations are 2008 ppm and 1745 Bq/m3, respectively. Results show that the dynamics of 222Rn and CO2 in the cave air follow different patterns defined by the complex relationships between external and internal factors. Findings from this study provide substantial information about the environmental situation of the cave atmosphere in terms of air quality for visitors and workers.

Published
2023

35. The Marine Bacterial Genus Euzebya Is Distributed Worldwide in Terrestrial Environments: A Review

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), González-Pimentel, José Luis, Martín-Pozas, Tamara, Jurado, Valme, Laiz Trobajo, L., Fernández-Cortés, Ángel, Sánchez-Moral, Sergio, Saiz-Jimenez, Cesareo, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), González-Pimentel, José Luis, Martín-Pozas, Tamara, Jurado, Valme, Laiz Trobajo, L., Fernández-Cortés, Ángel, Sánchez-Moral, Sergio, and Saiz-Jimenez, Cesareo

Abstract

The advent of molecular tools, and particularly next-generation sequencing, has dramatically changed our knowledge of the diversity of microbial life on Earth. In recent decades, many studies on different terrestrial environments have described the intriguing diversity and abundance of Euzebyales/Euzebyaceae/Euzebya, yet its role in the geochemical cycle of elements is unknown. In addition, as far as we know, no Euzebya isolates have been obtained from terrestrial niches. In this review, it is shown that Euzebya and other haloalkaliphilic bacteria can thrive under harsh conditions, such as high concentrations of sodium and/or calcium, high electric conductivity and alkaline pH, highly variable temperatures, and water fluctuations. These conditions are quasi-extreme in the studied terrestrial environments. However, the culture media used so far for isolation have failed to reproduce the original conditions of these terrestrial ecosystems, and this is likely the reason why strains of Euzebya and other bacteria that inhabit the same niche could not be isolated. It is expected that culture media reproducing the environmental conditions outlined in this review could cope with the isolation of terrestrial Euzebya and other haloalkaliphilic genera.

Published
2023

36. Radon (222Rn) outgassing in San Juan volcanic tubes during the Cumbre Vieja eruption 2021, and preliminary values in the newly volcanic tubes.

Author

Pérez-López, Raúl, Fernández-Lorenzo, Octavio, Palanco, Santiago, Galindo, Inés, López-Gutiérrez, Julio, Sanz-Mangas, David, Bernal, Alberto, Moral, Begoña del, Mediato Arribas, José Francisco, Bellido, Eva, Sánchez Jiménez, Nieves, Fernández-Cortés, Ángel, Sánchez-Moral, Sergio, Miller, Ana Zélia, Pérez-López, Raúl, Fernández-Lorenzo, Octavio, Palanco, Santiago, Galindo, Inés, López-Gutiérrez, Julio, Sanz-Mangas, David, Bernal, Alberto, Moral, Begoña del, Mediato Arribas, José Francisco, Bellido, Eva, Sánchez Jiménez, Nieves, Fernández-Cortés, Ángel, Sánchez-Moral, Sergio, and Miller, Ana Zélia

Abstract

During the eruption at Cumbre Vieja ridge (La Palma, Canary Islands, 2021) a radon (222Rn) detector (CORENTIUM Pro alpha particles counter) was emplaced inside the Las Palomas lava tube (San Juan eruption, 1949). In addition, a CO2 meter logger was emplaced to determine relationships between the 2021 eruption and radon plus CO2 inner fluxes. There is a geostructural relationship between the 1949 and 2021 eruptions, probably connected by a previous fault, shown the volcanic vents¿ alignment trending NW-SE. In October 2021, the radon and CO2 loggers were moved to the upper part of the lava tube, in the San Juan volcanic vent (Llano del Banco hollow dyke). Once the eruption ended (in early 2022) both loggers were placed in one newly formed lava tube, and data will be collected in February 2023. Preliminary results show daily average radon values ranging between 2 - 9 Bq/m3, although sporadic peaks of about 270 and 650 Bq/m3 were recorded related to volcano-tectonic earthquakes and volcanic intensity. In general, basaltic eruptions of alkaline affinity show low radon values due to the low concentration in the magma body of uranium and related chemical elements (Th, Ra, etc.). Geochemical analysis of emitted lavas shows a U concentration of about 1 to 5 ppm (g/g) and Th 9.5 ppm. Summer values of Rn increased up to 3 KBq/m3, related to the climate conditions instead of volcanic activity.

Published
2023

37. Multi-disciplinary approach for assessing the impact of a flood event in a shallow karst cavity (Pindal Cave, Spain)

Author

Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Martín-Pozas, Tamara, Cuezva, Soledad, Fernández-Cortés, Ángel, González-Pumariega Solis, María, Duarte Matías, E., Rasilla, Marco de la, Cañaveras, Juan Carlos, Benavente, David, Sáiz-Jiménez, Cesáreo, Sánchez-Moral, Sergio, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), Martín-Pozas, Tamara, Cuezva, Soledad, Fernández-Cortés, Ángel, González-Pumariega Solis, María, Duarte Matías, E., Rasilla, Marco de la, Cañaveras, Juan Carlos, Benavente, David, Sáiz-Jiménez, Cesáreo, and Sánchez-Moral, Sergio

Abstract

Pindal Cave (Asturias, Spain) and its Paleolithic art have been part of the UNESCO World Heritage List since 2008. The importance of this Paleolithic art led to a research project that deals with deciphering the relationships between environmental conditions and microbial activity in natural underground ecosystems and its application to the design of conservation strategies. The Pindal karstic system develops in a calcareous massif (Carboniferous) modeled in the form of an erosional marine terrace (rasa) by coastal morphogenetic processes. This marine terrace level is located at an elevation of 30-68 meters above current sea level and constitutes the preferred catchment area for runoff water from another higher level (140-170 m) developed on quartzite layers with very low permeability (Ordovician). The cave is the main endokarstic feature of the system. On the surface of the 30-68 m rasa there are numerous exokarstic structures of sinkhole and polje type. On one of the sinkholes, located almost vertically to the cave, a cattle farm was installed in 1995. Between October 19 and 23, 2019, an extreme episode of rainfall occurred in the area with a cumulative total of 209 l/m2. This event caused a strong accumulation of water in the aforementioned sinkhole that finally collapsed, flooding the cave for several days. Immediately after the cave had been drained, environmental measurements and sediment samplings were carried out at various points in order to determine the changes caused in the underground ecosystem. In the most affected area by the flood, changes in humidity and temperature of air and sediments were recorded for several months. Biogeochemical data indicated that the sediments deposited as a result of the flooding presented high values of available organic matter, nitrogen, phosphorus and potassium, much higher than those of the innermost areas did not directly affect by the flooding. The comparative microbiological study of sediment samples revealed that th

Published
2023

41. Stable isotope of gypsum hydration water in speleothems from lava tubes of Volcán de la Corona (Lanzarote)

Author

Gázquez, Fernando, Fernández-Cortés, Ángel, Calaforra, José María, Sauro, Francesco, Onac, Bogdan P., Miller, A. Z., Ministerio de Ciencia, Innovación (España), Agencia Estatal de Investigación (España), Fundação para a Ciência e a Tecnologia (Portugal), European Commission, and Junta de Andalucía

Abstract

Comunicación oral presentada en el 1st European Meeting on Geomicrobiology of volcanic caves. días 2-3 de marzo de 2023 celebrado en la Casa de la Ciencia-CSIC de Sevilla, The oxygen and hydrogen stable isotopes (δ18O and δ2H) of water are useful tracers of hydrological processes. The δ18O and δ2H of gypsum (CaSO4·2H2O) hydration water can be used to reconstruct the isotopic composition of the solution at the time of mineral precipitation. Here, we apply this approach to investigate the formation mechanisms of gypsum speleothems, mostly powder gypsum deposits and gypsum crusts, collected in several lava tubes of the Volcán de la Corona area (Lanzarote). The δ18O correlates linearly with δ2H (δ2H = 3.9 · δ 18O – 0.5; R2=0.8), suggesting that the solution underwent significant evaporation prior to gypsum precipitation. We observe an evaporation trajectory that departs δ18O and δ2H values that are similar to those of the mean isotopic composition of rainfall in the Canary Islands (~ –2‰ and ~ –10‰ for δ18O and δ2H, respectively). This indicates a meteoric seepage source of water for the formation of gypsum speleothems. Thus, a direct contribution of seawater can be ruled out. Previous analyses of δ34S and δ18OSO4 in similar speleothems from Lanzarote lava tubes [1] revealed that sulfate is of marine origin. We suggest that sea-spray sulfates accumulate on the soils over the lava tubes and are later dissolved and transported into the caves by infiltration water. Upon entering lava tubes, evaporation ultimately triggers the precipitation of gypsum speleothems. References: [1] Huerta et al., 2019. Sedimentary Geology 383, 136–147., This study has been funded by the TUBOLAN (PID2019-108672RJ-I00) and HIRES-SOM (TED2021-130683B-C22) research projects from the Spanish Ministry of Science and Innovation, the MICROCENO project (PTDC/CTA-AMB/0608/2020) from the Portuguese FCT (Fundação para a Ciência e a Tecnologia) and the MICROLAVA research project (PROYEXCEL_00185) from the Regional Government of Andalusia. Dr. Fernando Gázquez acknowledges the Ramón y Cajal fellowship, RYC2020-029811-I of the Spanish Ministry of Science and Innovation. The analyses were funded by the PALEOQUANT research project (P18-RT-871) of the Regional Government of Andalusia and the GYPCLIMATE research project (PID2021-123980OA-I00) of the Spanish Ministry of Science and Innovation.

Published
2023

42. Radon (222Rn) outgassing in San Juan volcanic tubes during the Cumbre Vieja eruption 2021, and preliminary values in the new volcanic tubes

Author

López Pérez, Raúl, Fernández-Lorenzo, Octavio, Palanco, S., Galindo Jiménez, Inés, López Gutiérrez, Julio César, Sanz-Mangas, David, Bernal, Alberto, Moral, Begoña del, Mediato Arribas, José Francisco, Bellido Martín, Eva, Sánchez Jiménez, María Nieves, Fernández-Cortés, Ángel, Sánchez Moral, Sergio, Miller, A. Z., Ministerio de Ciencia, Innovación (España), Agencia Estatal de Investigación (España), and Consejo Superior de Investigaciones Científicas (España)

Abstract

Comunicación oral presentada en el 1st European Meeting on Geomicrobiology of volcanic caves. días 2-3 de marzo de 2023 celebrado en la Casa de la Ciencia-CSIC de Sevilla, During the eruption at Cumbre Vieja ridge (La Palma, Canary Islands, 2021) a radon (222Rn) detector (CORENTIUM Pro alpha particles counter) was emplaced inside the “Las Palomas” lava tube (San Juan eruption, 1949). In addition, a CO2 meter logger was emplaced to determine relationships between the 2021 eruption and radon plus CO2 inner fluxes. There is a geostructural relationship between the 1949 and 2021 eruptions, probably connected by a previous fault, shown the volcanic vents’ alignment trending NW-SE. In October 2021, the radon and CO2 loggers were moved to the upper part of the lava tube, in the San Juan volcanic vent (Llano del Banco hollow dyke). Once the eruption ended (in early 2022) both loggers were placed in one newly formed lava tube, and data will be collected in February 2023. Preliminary results show daily average radon values ranging between 2 - 9 Bq/m3, although sporadic peaks of about 270 and 650 Bq/m3 were recorded related to volcano-tectonic earthquakes and volcanic intensity. In general, basaltic eruptions of alkaline affinity show low radon values due to the low concentration in the magma body of uranium and related chemical elements (Th, Ra, etc.). Geochemical analysis of emitted lavas shows a U concentration of about 1 to 5 ppm (μg/g) and Th 9.5 ppm. Summer values of Rn increased up to 3 KBq/m3, related to the climate conditions instead of volcanic activity., This study was funded by the project CSIC 20223PAL002 “Investigación Geológica de la Erupción de 2021 en Cumbre Vieja” and partially by the project FAMRAD (PID2020-113407RB-I00): Geochemical modeling of seismic prediction from endogenous gas emission (222Rn, CO2, CH4), and earthquakes by using radioactive caves and boreholes in the Alhama de Murcia fault.

Published
2023

43. Impacto de un evento de inundación en la comunidad bacteriana de un ecosistema subterráneo somero (Cueva del Pindal, Asturias)

Author

Martín-Pozas, Tamara, Cuezva, Soledad, Fernández-Cortés, Ángel, González-Pumariega Solis, María, Duarte Matías, E., Rasilla, Marco de la, Cañaveras, Juan Carlos, Benavente García, David, Goy Goy, José Luis, Elez, Javier, Sáiz-Jiménez, Cesáreo, Zazo, Caridad, Sánchez Moral, Sergio, Principado de Asturias, Ministerio de Ciencia e Innovación (España), Agencia Estatal de Investigación (España), European Commission, Martín-Pozas, Tamara, Cuezva, Soledad, Cañaveras, Juan Carlos, Sáiz-Jiménez, Cesáreo, Zazo, Caridad, and Sánchez Moral, Sergio

Subjects
Inundación, Cueva del Pindal, Conservación, Arte rupestre, Microbiología
Abstract

14 páginas.- 4 figuras.- 3 tablas.- 12 referencias.- Comunicación oral presentada en el VIII Congreso Español sobre Cuevas y Minas Turísticas "Minas y Cuevas: Patrimonio Geológico y Turístico". J.M. Calaforra y J.J. Durán Valsero (eds.), Pulpí (Almería) 19-22 octubre 2022.- Enlace al libro de Actas completo https://www.cuevasturisticas.es/actas-cuevatur-2022, La Cueva del Pindal (Ribadedeva, Asturias) y su arte rupestre paleolítico forman parte de la Lista del Patrimonio Mundial de la UNESCO desde 2008. Actualmente está abierta al público con visitas limitadas y en ella se desarrolla un proyecto de investigación sobre actividad microbiana en ecosistemas naturales subterráneos y su aplicación al diseño de estrategias de conservación. El sistema kárstico del Pindal se desarrolla en un macizo calcáreo modelado en forma de terrazas marinas (rasas), situadas entre 30 y 68 metros s.n.m que constituyen el área de captación hídrica preferente y en las que se observan numerosas estructuras exokársticas tipo dolina y poljé. Sobre una de las dolinas, situada casi en la vertical de la cavidad, se instaló una explotación ganadera en 1995. El 23 de octubre de 2019 tras un episodio extremo de precipitaciones (209 l/m2) se produjo una fuerte acumulación de agua en la dolina y una entrada masiva de agua y sedimentos en la cueva. El 31 de octubre se realizó un muestreo específico para conocer los cambios provocados en el ecosistema subterráneo. La inundación provocó un fuerte incremento de materia orgánica, nitrógeno, fósforo y potasio disponibles en los sedimentos y modificaciones muy significativas en la composición de las comunidades microbianas presentes en los sedimentos: aparición de nuevos filos bacterianos (Firmicutes y Bacteroidetes), incluyendo grupos de bacterias patógenas oportunistas (Corynebacterium, Thauera, Clostridiales) y la casi total desaparición de otros (Rokubacteria y Nitrospirae). Los resultados confirman que el agua y sedimentos arrastrados al interior de la cueva en la inundación fueron acompañados de residuos procedentes de la explotación ganadera, demostrando el alto grado de vulnerabilidad de este tipo de ambientes. Tras el estudio e informe correspondiente, la actividad ganadera cesó en 2021 y continúa el estudio de las poblaciones microbianas para conocer su evolución a medio-largo plazo., Este trabajo ha contado con la financiación de la Consejería de Cultura, Política Lingüística y Turismo del Principado de Asturias para la realización de los análisis de las muestras de octubre de 2019 y con el soporte del proyecto PID2019-110603RB-I00, MCIN/AEI/FEDER UE/10.13039/501100011033 para el resto de la investigación. Cuenta con el apoyo de la Plataforma Temática Interdisciplinar CSIC Patrimonio Abierto: Investigación y Sociedad (PTI-PAIS).

Published
2022

44. Control microclimático de la dispersión bacteriana en cavidades con arte rupestre: aplicación de estrategias de conservación para la cueva de La Garma (Cantabria)

Author

Fernández-Cortés, Ángel, Jurado, Valme, González Pimentel, José L., Cuezva, Soledad, Martín-Pozas, Tamara, Ontañón, Roberto, Arias, Pablo, Hermosín, Bernardo, Sáiz Jiménez, Cesáreo, Sánchez-Moral, Sergio, Gobierno de Cantabria, Ministerio de Ciencia e Innovación (España), Jurado, Valme, González Pimentel, José L., Cuezva, Soledad, Martín-Pozas, Tamara, Ontañón, Roberto, Hermosín, Bernardo, Sáiz-Jiménez, Cesáreo, and Sánchez Moral, Sergio

Subjects
Aerobiología, Monitorización microclimática, Conservación de cavidades, Arte rupestre
Abstract

13 páginas.- 3 figuras.- 1 tablas.- 10 referencias.- Comunicación oral presentada en el VIII Congreso Español sobre Cuevas y Minas Turísticas "Minas y Cuevas: Patrimonio Geológico y Turístico". J.M. Calaforra y J.J. Durán Valsero (eds.), Pulpí (Almería) 19-22 octubre 2022.- Enlace al libro de Actas completo https://www.cuevasturisticas.es/actas-cuevatur-2022, El patrimonio natural y cultural de las cuevas se ve a menudo amenazado por el turismo y por otras actividades de carácter científico que las expone a riesgos que pueden provocar la alteración irreversible de sus condiciones ambientales de carácter irreversible. Las cuevas con arte rupestre y yacimientos arqueológicos suponen un caso especial y complejo. Cualquier modificación en sus condiciones climáticas conlleva un cambio en el ecosistema subterráneo que, a menudo, favorece el desarrollo y proliferación de poblaciones microbianas que llegan a colonizar los diferentes sustratos presentes en la cueva. La cueva de La Garma constituye un ejemplo destacado de cavidad con una larga frecuentación humana desde el Paleolítico antiguo hasta la Edad Media. Desde su descubrimiento en noviembre de 1995, la cueva sólo es accesible para la investigación arqueológica y la monitorización de sus condiciones ambientales. En este trabajo se presentan los resultados del estudio detallado de sus condiciones microclimáticas, y su influencia en la dispersión de microorganismos en el aire subterráneo y en el desarrollo de biofilms sobre la superficie de las rocas y los sedimentos. La dispersión bacteriana en el aire de la cueva está directamente influenciada por la circulación del aire, con fuertes incrementos durante los pulsos de ventilación vinculados a los vientos de componente sur en el exterior. Las conclusiones del estudio desaconsejan la adecuación de la cueva para su uso turístico y el control exhaustivo de cualquier trabajo arqueológico que implique perforaciones, zanjas o movimientos de tierras- sedimentos, ya que se favorecería la proliferación inmediata de colonias microbianas y con ello el desarrollo de procesos irreversibles de biodeterioro., Esta investigación ha sido financiada por la Consejería de Universidades, Igualdad, Cultura y Deporte del Gobierno de Cantabria y el Ministerio de Ciencia e Innovación a través de los proyectos PID2019- 10603RB-I00 y PID2020-114978GB-I00.

Published
2022

45. Environment-driven control of fungi in subterranean ecosystems: the case of La Garma Cave (northern Spain)

Author

Gobierno de Cantabria, Ministerio de Ciencia e Innovación (España), European Commission, Agencia Estatal de Investigación (España), Sánchez Moral, Sergio [0000-0002-7382-3441], Jurado, Valme [0000-0003-0972-9909], Fernández Cortés, Ángel [0000-0002-8482-3308], Cuezva, Soledad [0000-0002-2439-4767], Martín-Pozas, Tamara [0000-0001-7941-7949], González Pimentel, José L. [0000-0002-9687-3134], Ontañón, Roberto [0000-0002-0504-3961], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Sánchez-Moral, Sergio, Jurado, Valme, Fernández Cortés, Ángel, Cuezva, Soledad, Martín-Pozas, Tamara, González-Pimentel, José Luis, Ontañón, Roberto, Sáiz-Jiménez, Cesáreo, Gobierno de Cantabria, Ministerio de Ciencia e Innovación (España), European Commission, Agencia Estatal de Investigación (España), Sánchez Moral, Sergio [0000-0002-7382-3441], Jurado, Valme [0000-0003-0972-9909], Fernández Cortés, Ángel [0000-0002-8482-3308], Cuezva, Soledad [0000-0002-2439-4767], Martín-Pozas, Tamara [0000-0001-7941-7949], González Pimentel, José L. [0000-0002-9687-3134], Ontañón, Roberto [0000-0002-0504-3961], Sáiz-Jiménez, Cesáreo [0000-0003-0036-670X], Sánchez-Moral, Sergio, Jurado, Valme, Fernández Cortés, Ángel, Cuezva, Soledad, Martín-Pozas, Tamara, González-Pimentel, José Luis, Ontañón, Roberto, and Sáiz-Jiménez, Cesáreo

Abstract

Airborne microorganisms can cause important conservation problems in caves with Paleolithic art and therefore the knowledge of cave aerodynamic is essential. La Garma Cave (Cantabria, Spain), an exceptional archaeological site with several levels of galleries interconnected and two entrances, presents a complex atmospheric dynamics. An approach including aerobiological sampling together with microclimate monitoring was applied to assess the factors controlling the origin of airborne fungi. Here we show that winter ventilation is critical for the increasing of Basidiomycota spores in the cave air and the highest concentrations were found in the most ventilated areas. On the contrary, Ascomycota spores prevailed in absence of ventilation. Besides, most Ascomycota were linked to insects and bats that visit or inhabit the cave. The combination of aerobiological and microclimate data constitutes a good approach to evaluate the influence of external climatic conditions and design the most suitable strategies for the conservation of cultural heritage in the cave environment.

Published
2021

47. Active biogeochemical role of cave sediments microbiota in CO2 fluxes

Author

Martín-Pozas, Tamara, Cuezva, Soledad, Seijas, Naomí, Benavente, David, Cañaveras, Juan Carlos, Sánchez-Moral, Sergio, and Fernández-Cortés, Ángel

Abstract

El congreso tuvo lugar en Málaga del 22 al 25 de junio de 2022, The assessment of carbon cycle in the Earth-climate system is one the highest challenge in science nowadays. It still remains some key knowledge gaps and uncertainties concerning the budgets of greenhouse gases (GHG) at ecosystem scale. Covering up to 25 % of the land surface and acting alternately as CO2 source or sink, karstic subterranean ecosystems play a decisive role in carbon cycle in terms of it contribution to global balance of this GHG. The interactions between geological, microbiological and chemical processes are responsible for the physical-chemical properties of the atmosphere and especially for changes in its composition. However, there are still essential gaps in our knowledge about the possible feedback mechanisms between the environmental-microclimatic conditions and the rates and type of activity of microbial communities in natural subterranean ecosystems. Here we study, for the first time, the interactions between the microbiota and the subterranean ecosystem (Pindal cave, northern Spain), with a special focus on environmental controls and feedback, as a key challenge to clarify the effective and accurate contribution of subterranean ecosystems to the global carbon cycle. We applied in situ and real-time monitoring diffusive fluxes using closed chamber-based gas exchange system coupled with NDIR and FTIR gas analysers, a coeval ¿13C geochemical tracing by cavity ring-down spectroscopy and metagenomics analyses, to evaluate and quantify the CO2 fluxes from microbial communities associated with cave sediments and bioinduced-carbonate deposits as moonmilk. Our results on carbon isotopes and CO2 fluxes suggest a source of organic carbon due to Actinobacteria metabolism linked to calcite moonmilk formation and the higher CO2 fixation by the chemoautotrophic bacteria, while in the raw cave sediments (i.e. those not covered with moonmilk deposits) prevails the carbon oxidation of this organic matter by autotrophic and heterotrophic communities, leading to an in-situ production of isotopically heavier CO2. The net CO2-flux rates from the raw cave sediments to cave air varied from 24 to 27 mg CO2 per hour, twice higher than the maximum flux rates registered on the moonmilk surfaces. These findings demonstrate how microbiomes influence the systems in which they inhabit, having direct implications on current challenges of the scientific community including, the study of potential extra-terrestrial analogues through biosignature detection and the design of appropriate strategies for the conservation of subterranean sites with a valuable heritage.

Published
2022

48. 222Rn and CO2 monitoring in soil and indoor atmosphere to understand changes in the gaseous dynamics of Rull cave (Spain).

Author

Pla, Concepción, Ruiz, María Candela, Gil-Oncina, Sara, García-Martínez, Noé, Cañaveras, Juan Carlos, Cuezva, Soledad, Fernández-Cortés, Ángel, Sánchez-Moral, Sergio, and Benavente, David

Subjects
KARST, CAVES, SOIL air, SPELEOTHEMS, AIR quality, HUMIDITY
Abstract

Rull cave is a karstic cave located in Vall d'Ebo (Alicante, Southeast of Spain) developed in massive Miocene conglomerates and Cretaceous limestones. Processes in soil above Rull cave and outdoor atmosphere directly influence the underground environment of the cave. Continuous and discrete monitoring of cave atmosphere and soil (from 2012 to 2022) allows to characterise the spatial distribution and temporal variations of the gaseous concentration (222Rn and CO2) and understand the relationship between the processes which occurred in the 3-component system (soil-cave-atmosphere). Besides the presence of visitors, Rull cave maintains stable values of mean temperature (16.2 °C) and relative humidity (97.6%). In an annual cycle the cave presents two different gaseous stages (stagnation and ventilation). Maximum average values of CO2 and 222Rn concentration are reached within the stagnation stage, in the warmest period of the year. On the contrary, in the ventilation stage (in the coldest months) the cave reaches the lowest concentrations in its inner atmosphere. For the study period, daily average CO2 and 222Rn concentrations are 2008 ppm and 1745 Bq/m3, respectively. Results show that the dynamics of 222Rn and CO2 in the cave air follow different patterns defined by the complex relationships between external and internal factors. Findings from this study provide substantial information about the environmental situation of the cave atmosphere in terms of air quality for visitors and workers. [ABSTRACT FROM AUTHOR]

Published
2023
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50. El agua, la cueva de El Sidrón (Piloña, Asturias, España) y la especie neandertal

Author

Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Rasilla, Marco de la, Rosas González, Antonio, Cañaveras, Juan C., Lalueza-Fox, Carles, Duarte, Elsa, Sánchez Moral, Sergio, Estalrrich Albo, Almudena, García Tabernero, Antonio, Santos-Delgado, Gabriel, Huguet Pàmies, Rosa, Bastir, Markus, Fernández Cascón, Beatriz, Ríos, Luis, Cuezva Robleño, Soledad, Fernández Cortés, Ángel, López Tascón, Cristina, Muñoz Cervera, María Concepción, Silva Barroso, Pablo Gabriel, Viejo Fernández, Xulio, Universidad de Alicante. Departamento de Ciencias de la Tierra y del Medio Ambiente, Rasilla, Marco de la, Rosas González, Antonio, Cañaveras, Juan C., Lalueza-Fox, Carles, Duarte, Elsa, Sánchez Moral, Sergio, Estalrrich Albo, Almudena, García Tabernero, Antonio, Santos-Delgado, Gabriel, Huguet Pàmies, Rosa, Bastir, Markus, Fernández Cascón, Beatriz, Ríos, Luis, Cuezva Robleño, Soledad, Fernández Cortés, Ángel, López Tascón, Cristina, Muñoz Cervera, María Concepción, Silva Barroso, Pablo Gabriel, and Viejo Fernández, Xulio

Abstract

En el singular yacimiento de El Sidrón se han producido una impactante serie de acontecimientos relacionados con las actividades y comportamientos de la especie neandertal, integradas en unos procesos del medio físico peculiares, sazonadas con la proximidad de la mejor materia prima silícea asturiana, y con un peculiar encadenamiento de situaciones expeditivas y rápidas. Todo ello integrado en una investigación interdisciplinar., At the unique site of El Sidrón there have been an impressive series of events related to the activities and behaviors of the Neandertal species, integrated into peculiar environmental processes, seasoned with the proximity of the best Asturian siliceous raw material, and with a peculiar chain of expeditious and fast situations. All this integrated into an interdisciplinary investigation.

Published
2022

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