Bacterial communities forming yellow biofilms in different cave types share a common core.

The walls of different types of caves under diverse geological settings (limestone, gypsum and volcanic) are colonized by biofilms of different colors: white, yellow, pink, grey, green to dark brown, but only a few colored biofilms such as the white, yellow and grey ones have been extensively studied. However, an assessment among the microbial communities originating these biofilms in different lithologies is lacking. Here we compare the yellow biofilms from two caves, Covadura and C3, in the Gypsum Karst of Sorbas in Spain, with those from two Spanish limestone caves (Pindal and Santian), and four volcanic caves in Spain and Italy (Viento, Honda del Bejenado, Grotta del Santo, Grotta di Monte Corruccio).

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

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.

Scenarios for the Altamira cave CO concentration from 1950 to 2100.

A data-driven approach insensitive to the initial conditions was developed to extract governing equations for the concentration of CO 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 CO inside the cave was then investigated from 1950 to 2100 under various scenarios.

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

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.

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

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.