Departament d'Ecologia Evolutiva i de la Conductahttps://museuciencies.cat/area-cientifica/departaments-cientifics/ecologia-evolutiva-i-de-la-conducta/https://hdl.handle.net/2072/3527872026-04-06T17:12:36Z2026-04-06T17:12:36ZComparative skin microbiome analyses reveal differences between wild populations and captive groups of the Montseny brook newt (Calotriton arnoldi)Tulloch, SergiBurriel-Carranza, BernatCarranza, Salvadorhttps://hdl.handle.net/2072/4892072026-02-02T15:44:44Z2026-01-01T00:00:00ZComparative skin microbiome analyses reveal differences between wild populations and captive groups of the Montseny brook newt (Calotriton arnoldi)
Tulloch, Sergi; Burriel-Carranza, Bernat; Carranza, Salvador
The Montseny brook newt, Calotriton arnoldi, is a Critically Endangered amphibian species endemic to the Montseny Massif in Catalonia,
Northeastern Spain. Due to population declines and threats to its natural habitat, an ex-situ breeding program was initiated in 2007. A
key goal of the program is to ensure the survival of captive-bred individuals after reintroduction, which in amphibians heavily relies on
the specimens’ microbiome being capable of protecting them from environmental microorganisms, especially considering the global
Chytridiomycosis pandemic caused by the fungi Batrachochytrium dendrobatidis (Bd) and Batrachochytrium salamandrivorans (Bsal). This
study aims to characterize the skin microbiome of wild and captive C. arnoldi specimens and identify differences in their composition,
contributing to future research on the microbiome’s impact in captive-bred individuals upon reintroduction. Up to 5996 ASVs (Amplicon
Sequence Variants) were identified from 138 samples from 21 and 61 wild and captive-bred individuals, respectively. Results indicate
that wild populations from different subspecies have significantly different skin microbiome composition, as do wild and captive-bred
groups from the same subspecies.
Additionally, dissimilarities in skin microbiome variability were only found within each subspecies, between wild and captive-bred
groups. In terms of composition, certain bacteria were identified as potential markers for both wild and captive environments.
Enhancing skin microbiome variability might improve the survival prospects of reintroduced specimens. Thus, exposing captive
specimens to a more natural environment while in captivity or a soft-release procedure could potentially mitigate the absence of
exposure to other bacteria and potential pathogens from their native environment.
2026-01-01T00:00:00ZSaving the locals: a conservation genomics approach to the endangered Spanish Toothcarp, Aphanius iberus (Valenciennes, 1846)Estarellas, MariaBurriel-Carranza, BernatCarranza, Salvadorhttps://hdl.handle.net/2072/4892062026-02-02T13:53:36Z2026-01-01T00:00:00ZSaving the locals: a conservation genomics approach to the endangered Spanish Toothcarp, Aphanius iberus (Valenciennes, 1846)
Estarellas, Maria; Burriel-Carranza, Bernat; Carranza, Salvador
Understanding the genetic structure and evolutionary history of endangered species is crucial for
effective conservation planning. The Spanish toothcarp, Aphanius iberus (Valenciennes, 1846),
an endemic and euryhaline fish of the Mediterranean coast of the Iberian Peninsula, is currently
threatened by habitat destruction, climate change, and anthropogenic translocations. Here, we
employed both a single genetic marker (cytochrome b) and genome-wide SNP data from mediumcoverage
whole genomes to investigate the population structure, genetic diversity, and demographic
history of A. iberus, especially focussing on its northern distribution, which has remained poorly
studied. Our analyses revealed a well-structured genetic pattern across the species’ range, with four
main genetic lineages: Northern Catalonia, Southern Catalonia, Levantine, and Murcian. Genomic
indicators, including heterozygosity, ROHs, and migration analyses, suggest higher inbreeding and
genetic erosion in the northernmost populations, likely due to long-term isolation, whereas southern
populations maintain higher genetic diversity. We also identified several admixed and potentially
translocated populations. These findings underscore the importance of accurately determining the
origin of populations before any translocation or reintroduction, as misguided management may
compromise the genetic integrity of native lineages. This work provides essential genomic insights to
guide conservation strategies and emphasizes the need for lineage-aware management of endemic
species like A. iberus.
2026-01-01T00:00:00ZLizards on a sky archipelago: genomic approaches to the evolution of the mountain genus IberolacertaTalavera, AdriánBurriel-Carranza, BernatCarranza, Salvadorhttps://hdl.handle.net/2072/4890822026-01-13T12:20:31Z2026-01-04T00:00:00ZLizards on a sky archipelago: genomic approaches to the evolution of the mountain genus Iberolacerta
Talavera, Adrián; Burriel-Carranza, Bernat; Carranza, Salvador
The mountain-dwelling lizards of the genus Iberolacerta inhabit several isolated massifs across central and
southwestern Europe. Their restricted and fragmented ranges, coupled with high altitude specialization in most
species, entail a significant threat in the context of climate change for this group of lizards that has attracted
interest from different fields. On the one hand, the alpine confinement of these relict species precedes the
Pleistocene glacial cycles, and a few hypotheses have been proposed to explain it: from competitive exclusion by
the wall lizards of the genus Podarcis, to adaptations to either cold or hypoxia, that would prevent them from
expanding into lowlands. On the other hand, extensive research on chromosome evolution has shown Iberolacerta
karyotypes to fairly differ from other lacertid lizards, exhibiting reductions in chromosome numbers and multiple
sex chromosome determination systems. Here, we present a chromosome-level genome assembly for Iberolacerta
aurelioi, an endangered rock lizard endemic to the Pyrenees. This genome has shed light on a genome architecture
shaped by chromosome fusions, whose adaptive potential we discuss, as well as on expression shifts
towards a hemoglobin isoform of enhanced oxygen affinity, as an adaptation to altitudinal hypoxia. In addition,
medium coverage whole-genome sequencing (WGS) data from 12 representatives encompassing all species and
subspecies within the genus allowed us to address phylogenomic relationships, unveiling introgression events,
gathering evidence in support of the competitive exclusion hypothesis through past demographic inference, and
providing insights into homozygosity burdens, which offer valuable information for conservation efforts.
2026-01-04T00:00:00ZRemembering Mike Conroy: a key figure in wildlife managementSenar, Juan Carloshttps://hdl.handle.net/2072/4885152026-01-12T09:43:24Z2025-10-01T00:00:00ZRemembering Mike Conroy: a key figure in wildlife management
Senar, Juan Carlos
Obituario a Mike Conroy
2025-10-01T00:00:00Z