1. Bridging mountains and seas : genomic and plastid data evidence for two migration routes of Drypis spinosa across the Adriatic–Ionian regionPeter Glasnović, Ivan Radosavljević, Sara Laura Šarančić, Damjan Mitić, Boštjan Surina, 2026, original scientific article Abstract: Aim Amphi–Adriatic–Ionian plant taxa, distributed on both the Balkan and Apennine peninsulas, exemplify one of the many diversity patterns characteristic of the Mediterranean biodiversity hotspot. To better understand these patterns, we examined the genetic and morphological variability, as well as the present day and Last Glacial Maximum (LGM) potential distribution of a scree-dwelling plant endemic to the study region. Location Amphi–Adriatic–Ionian region within the Mediterranean basin. Taxon Drypis spinosa L. (Caryophyllaceae). Methods Population genomics and phylogeographic patterns were investigated by analysing single–nucleotide polymorphisms (SNPs) and plastid DNA markers. Morphometric techniques were additionally used to assess taxonomic relationships. Environmental niche modelling (ENM) was applied to evaluate potential occurrences under present-day and LGM conditions. Results Genetic data revealed concordant patterns of genetic diversity, indicating that the mountainous areas of the western Balkans harbour the highest genetic variability in D. spinosa. Historical connections were detected among populations from the Kvarner area, the central and southern Apennines, and the Scardo–Pindic Mountains. Neither molecular nor morphological analyses supported the historically proposed lower-rank taxonomic distinctions. ENM suggests a substantial increase in favourable conditions during the LGM compared to the present day. Main Conclusions Our findings indicate two primary links between the Balkan Peninsula and the Apennines: one spanning the northern and central Adriatic Sea, involving populations from the Kvarner area and the central Dinaric Alps, and another connecting the Scardo–Pindic Mountains across the Ionian Sea. This reveals a biogeographical pattern not previously documented in plants with an Amphi–Adriatic–Ionian distribution.
Keywords: Amphi–Adriatic–Ionian distribution, environmental niche modelling, genomics, Mediterranean, morphometrics, phylogeography, plastid DNA
Published in RUP: 25.05.2026; Views: 185; Downloads: 7
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2. Biodiversity Genomics Europe (BGE) Project – abridged grant proposalDimitris Koureas, Pedro Beja, Mark L. Blaxter, Astrid Böhne, Sarah J. Bourlat, Torbjørn Ekrem, Brent C. Emerson, Katharina F. Heil, José Melo-Ferreira, Ben Price, Elena Bužan, Laura Iacolina, 2026, review article Abstract: The Biodiversity Genomics Europe (BGE) Project has the overarching aim of accelerating the use of genomic science to enhance understanding of biodiversity, monitor biodiversity change, and guide interventions to address its decline. The BGE Project comprises activities focused on DNA Barcoding (Barcoding Stream) and Reference Genome Generation (Genomes Stream) for eukaryotic species across Europe, bringing together two European networks: the International Barcode of Life in Europe (iBOL Europe) and the European Reference Genome Atlas (ERGA). This publication is an abridged version of the successful grant proposal developed jointly by iBOL Europe and ERGA in response to the Horizon Europe call HORIZON-CL6-2021-BIODIV-01-01. Two key strands of genomic science form the basis of this proposal: DNA barcoding - sequencing short, standardised genomic regions to tell the world’s species apart, transforming the speed of completion of the inventory of life on Earth and providing the foundations of a global bio-surveillance system for biodiversity; and genome sequencing - generating high-quality complete reference genomes for all species on Earth, transforming understanding of biodiversity at the genetic level, and delivering fundamental knowledge of how biological systems function and how species respond and adapt to environmental change. The BGE Project objectives are focused on (i) Capacity: To establish functioning biodiversity genomics networks at the European level to connect and grow community capacity to use genomic tools to tackle the biodiversity crisis; (ii) Production: To establish and implement large-scale biodiversity genomic data generation pipelines for Europe to accelerate the production and accessibility of genomic data for biodiversity characterisation, conservation, and biomonitoring; and (iii) Application: To apply genomic tools to enhance understanding of pan-European biodiversity and biodiversity declines to improve the efficacy of management interventions and biomonitoring programmes.
Keywords: biodiversity genomics, DNA barcodes, ERGA, Horizon Europe, iBOL Europe, reference genomes
Published in RUP: 03.03.2026; Views: 407; Downloads: 24
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3. From permits to samples : addressing key challenges for high-quality reference genome generation in EuropeKatja Reichel, Jaakko Pohjoismäki, Jonas J. Astrin, Astrid Böhne, Chiara Bortoluzzi, Elena Bužan, Javier del Campo, Claudio Ciofi, Camilla B. Di-Nizo, Pradeep K. Divakar, 2026, review article Abstract: High-quality reference genome assemblies have become essential for deepening our understanding of biodiversity, yet obtaining them for many species remains surprisingly challenging. Drawing on experiences from the European Reference Genome Atlas (ERGA) community, we focus on permit and sample-handling procedures leading up to nucleic acid sequencing, covering tasks such as ensuring ethical and legal compliance, verifying accurate species identification, maintaining sample integrity during transport, and isolating high-quality DNA or nuclei. While many of the challenges and solutions we discuss are broadly relevant, our regulatory and logistical examples are primarily from Europe. By synthesising practical guidance, we highlight the crucial importance of taxonomic expertise, proper vouchering and biobanking, rigorous cold-chain management or alternative preservation methods, and emphasise adherence to packaging and shipping requirements for biological materials. We showcase examples spanning diverse regions, taxa and source materials, which underscore the importance of context-specific strategies and internationally harmonised protocols, particularly for metadata reporting. Our recommendations aim to support both small-scale projects and large initiatives, directing collective efforts to facilitate efficient sampling, vouchering and sample processing for future genomic studies.
Keywords: permits, samples, genomics
Published in RUP: 21.01.2026; Views: 570; Downloads: 10
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4. Biodiversity genomics research practices require harmonising to meet stakeholder needs in conservationElena Bužan, Christian de Guttry, Chiara Bortoluzzi, Nathaniel R. Street, Kay Lucek, Anna Rosling, Lino Ometto, Alice Mouton, Luísa S. Marins, María José Ruiz-López, José Melo-Ferreira, Elisabet Ottosson, Camila J. Mazzoni, Robert M. Waterhouse, 2025, original scientific article Abstract: Biodiversity resilience relies on genetic diversity, which sustains the evolutionary potential of organisms in dynamic ecosystems. Genomics is a powerful tool for accurately estimating genetic diversity across genomes of species and populations. However, integration of genomic data into conservation efforts faces challenges due to the heterogeneity of approaches employed. Establishing common sets of standards for genomic data production and analysis is essential to consistently interpret results and clearly communicate outcomes to stakeholders. While the European Reference Genome Atlas (ERGA) community has contributed significantly to the standardisation of reference genome methodologies in synergy with other initiatives, there is now an urgent need to extend these principles to downstream analyses. ERGA aims to build on its experience to help establish harmonised approaches in applied biodiversity genomics research, aligned with ongoing efforts to define standardised metrics for measuring and reporting genetic diversity. Establishing consensus on best practices for genome-wide data generation methods and applications will substantially increase accuracy, interpretability, and comparability, together with enhanced stakeholder capacities. By identifying key opportunities and challenges, as well as conducting preliminary stakeholder mapping and examining case studies, the goal is to build an inclusive framework that ensures the relevance and widespread adoption of these best practices: fostering trust and confidence in genomics research practices to meet stakeholder needs in biodiversity conservation. We call upon the broader research community to join efforts in establishing these approaches, recognising the importance of participation of end-users, to foster the integration of genomic data into the toolkit for measuring and reporting genetic diversity.
Keywords: best practices, biodiversity genomics, genome-wide genetic diversity, stakeholder engagement, standardisation, whole genome resequencing data
Published in RUP: 16.01.2026; Views: 641; Downloads: 2
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5. Population genomics and the environmental drivers of population structure in a cosmopolitan marine predator, Tursiops truncatusDaniel M. Moore, André E. Moura, Ada Natoli, Elena Papale, Mónica A. Silva, Tilen Genov, Stefania Gaspari, Giuseppa Buscaino, Per Berggren, A. Rus Hoelzel, 2025, original scientific article Abstract: The marine environment comprises vast regions without physical barriers to movement, making the understanding of population isolation and the evolution of diversity challenging. This is especially the case for highly mobile marine species. Here we investigate populations of the common bottlenose dolphin (Tursiops truncatus) across the Mediterranean Sea and adjacent North Atlantic using high-resolution genomic markers (RADseq) and stable isotope analyses to better understand the evolution of population structure in this system. High-resolution genomic data and broad geographic sampling revealed patterns of structure not previously identified, and integration with stable isotope data suggests that prey choice varies across this region. Unexpected patterns included genetic and isotopic similarity between the North Atlantic and the region around Sicily (but not including the medially located Gulf of Cádiz and surrounding regions). The regional habitat within and beyond the Mediterranean Sea is structured with ocean frontal systems including thermal and halocline transitions, several of which show alignment with genetic transitions within our data. Our data help to distinguish among possible drivers of population differentiation for a marine predator that has the potential for long-distance dispersion. 1 Introduction
Keywords: genomics, phylogeography, population structure, stable isotopes, Tursiops truncatus
Published in RUP: 27.12.2025; Views: 637; Downloads: 1
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6. Red deer resequencing reveals the importance of sex chromosomes for reconstructing Late Quaternary eventsMenno J. de Jong, Gabriel Anaya, Aidin Niamir, Javier Pérez-González, Camilla Broggini, Alberto Membrillo del Pozo, Marcel Nebenfuehr, Eva de la Peña, Jordi Ruiz-Olmo, Jose Manuel Seoane, Elena Bužan, Laura Iacolina, 2025, original scientific article Abstract: Sex chromosomes differ in their inheritance properties from autosomes, and hence may encode complementary information about past demographic events. We compiled and analysed a range-wide resequencing dataset of the red deer (Cervus elaphus), one of the few Eurasian herbivores of the Late Pleistocene megafauna still found throughout much of its historic range. Our analyses of 144 whole genomes reveal striking discrepancies between the population clusters suggested by autosomal and X-chromosomal data. We postulate that the genetic legacy of Late Glacial population structure is better captured and preserved by the X chromosome than by autosomes, for two reasons. First, X chromosomes have a lower Ne and hence lose genetic variation faster during isolation in glacial refugia, causing increased population differentiation. Second, following postglacial recolonisation and secondary contact, immigrant males pass on their X chromosomes to female offspring only, which effectively halves the migration rate when gene flow is male-mediated. Our study illustrates how a comparison between autosomal and sex chromosomal phylogeographic signals unravels past demographic processes which otherwise would remain hidden.
Keywords: red deer, sex chromosome, genomics
Published in RUP: 08.08.2025; Views: 797; Downloads: 33
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7. Pilot study on genetic associations with age-related sarcopeniaFelicita Urzi, Boštjan Pokorny, Elena Bužan, 2021, original scientific article Keywords: sarcopenia, MTHFR, ACTN3, NRF2, genetic factors, conservation genomics, domestic pig, SNPs
Published in RUP: 18.01.2021; Views: 2648; Downloads: 44
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8. Fragmentation and translocation distort the genetic landscape of ungulates : red deer in the NetherlandsJoost F. de Jong, Pim van Hoof, Hendrik-Jan Megens, Richard Crooijmans, Gerard Arjen de Groot, Josephine M. Pemberton, Jisca Huisman, Luděk Bartoš, Laura Iacolina, Sip E. van Wieren, 2020, original scientific article Keywords: landscape, red deer, genomics
Published in RUP: 10.11.2020; Views: 2980; Downloads: 134
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9. Conservation genomic analysis of the Croatian indigenous Black Slavonian and Turopolje pig breedsBoris Lukić, Maja Ferenčaković, Dragica Šalamon, Mato Čačić, Vesna Orehovački, Laura Iacolina, Ino Čurik, Vlatka Čubrić Čurik, 2020, original scientific article Keywords: conservation genomics, domestic pig, SNPs
Published in RUP: 28.05.2020; Views: 3406; Downloads: 283
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