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Mountain building reorganizes drainage networks, influencing riverine biodiversity. Northern Italy offers a natural experiment in the impact of tectonic and geomorphic processes on aquatic species distributions. We combined geomorphic analysis with environmental DNA from rivers to assess the influence of tectonically driven drainage reorganization on genetic diversity, targeting an endemic fish species, Telestes muticellus (A. Risso, 1827). In the Northern Apennines, horizontal shortening and topographic advection in an orogenic wedge have been hypothesized as leading to river capture and drainage divide migration. In addition, slab rollback has produced a spatial transition from contraction to extension, which is more pronounced from north to south, with normal faulting producing range-parallel drainage only in the southern regions. In contrast, the adjacent Ligurian Alps are a remnant of the Alpine orogen with little modern deformation. We found distinct zones of geomorphic characteristics from north to south, including divide asymmetry and frequency of range-parallel drainage. Analysis of DNA sequences shows cross-divide assemblage characteristics that correlate with the geomorphic zonation. The Northern Apennines show higher values of the directional measures of assemblage change gain, loss, and turnover; the Ligurian Alps show higher values of overlap and nestedness. There is a positive correlation between divide asymmetry and genetic distance, and gain, loss, and turnover of DNA sequences from Adriatic to Ligurian sites; there is a negative correlation with overlap and nestedness. Since the species is confined to freshwater environments, tectonically driven drainage reorganization is one of the only mechanisms that can explain its spatial genetic differentiation.

Dominik Kirschner

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Understanding the intricate dynamics of biodiversity within and across riverine ecosystems, influenced by geological history and environmental factors, is crucial for effective conservation and management strategies. Italy, particularly the Ligurian region, harbors diverse freshwater fish communities and populations shaped by unique geological and hydrological conditions. Here, we investigated the suitability of eDNA-metabarcoding to identify inter- and intraspecific diversity patterns of riverine fish populations along the main drainage divide (MDD) between the Adriatic and Ligurian basins in Northern Italy. We collected 96 aquatic eDNA samples across 48 riverine sites, amplified them using a cytb primer pair and denoised the sequences to retrieve amplicon sequence variants (ASV). We calculated communities’ phylogenetic distance with betaMPD based on genetic distances derived from the ASVs, combined them with conductance-based landscape metrics and applied generalized dissimilarity models (GDM) to assess spatial genetic structure. Our results reveal genetic differentiation among populations of several fish species, with some displaying clustering patterns across the drainage divide and isolation by distance patterns. Overall, taxon richness was significantly higher in the Ligurian sites (25) than in the Adriatic side of the MDD (22), as was ASV richness (205 vs. 196). Our findings highlight the effectiveness of eDNA-metabarcoding in uncovering various facets of diversity, shedding light on hidden genetic diversity within ASVs, and revealing significant spatial genetic structuring in freshwater fish populations across multiple species.