Non-invasive eDNA reveals the ecological and genetic status of the Western Capercaillie ( Tetrao urogallus aquitanicus ) in the Eastern Pyrenees

The Anthropocene era is expected to bring about significant biodiversity and habitat loss for many species. These geographical changes, whether driven by climatic or anthropogenic factors, are likely to lead to considerable alterations in population size, structure, and genetic diversity. Monitoring natural populations is therefore essential to assess these impacts and enable informed conservation strategies for threatened species. The Western Capercaillie ( Tetrao urogallus , L. 1758) has a widespread distribution in Boreal forests but fragmented in mountainous regions of the Palearctic, and is locally threatened by climate change, habitat destruction, and human disturbance. Our study focused on the eastern population of the subspecies T. u. aquitanicus , which is endemic to the Pyrenees mountains. The monitoring of this population has relied on direct methods and no genetic information had been generated so far. Here, we conducted a molecular study based on 229 non-invasive samples (faeces) to assess the ecological and genetic status of local population in the Catalan Nature Reserves. At the individual level, we assessed multi-locus genotypes, sexing, levels of inbreeding, stress level (Fecal Corticosterone Metabolites; FCMs) and diet. At the population level, we assessed sex ratio, genetic diversity and structure. We identified 62 individuals with a balanced sex ratio and estimated a census size of 79 individuals [95%CI = 68–92] in the study area. Genetic diversity was low and suggested significant inbreeding levels. FCM levels were lower in birds of areas considered as disturbed by humans and metabarcoding approach indicated a geographical structuring of diet composition at the reserve scale, with individuals exhibiting feeding behavior upon only one or few plant species. Our estimate of population census size was higher with figures assessed from lek counts, and the genetic approach provided additional insights on this population, establishing a baseline that will support conservation management plans.