DOI: 10.3897/ved.176908

Authors: Tiberio Fiaschi, Leopoldo de Simone, Francesco Mascia, Ilaria Bonini, Silvia Cannucci, Bruno Foggi, Matilde Gennai, Giulio Pandeli, Simona Maccherini, Emanuele Fanfarillo, Claudia Angiolini

Abstract: Riverine habitats play a vital ecological role, offering key ecosystem services, regulating hydrology, and supporting high biodiversity, including species and habitats of conservation concern. This study aimed to identify Annex I habitats under the Habitats Directive (92/43/EEC) within a former protected area along the mid-upper Elsa River (Tuscany, central Italy). From 2021 to 2023, 85 vegetation relevés were collected to classify habitats, map their distribution, and assess major threats. Multivariate analyses revealed 15 Annex I habitats, including 32A0, reported here for the first time in Italy, and three priority habitats (7220*, 91E0*, 91AA*). Habitat 32A0, officially included in Annex I following the accession of Croatia to the EU, shows distinct ecological and structural features compared to habitat 7220*, despite sharing some bryophyte species. While the two often occur in close proximity or form mosaics, habitat 32A0 develops in active waterfalls with constant flow and low carbonate deposition, whereas habitat 7220* forms in slow-dripping areas with high tufa accumulation. The absence of habitat 32A0 from the Italian Habitat Manual underscores the need to revise national habitat classifications to improve identification accuracy and conservation strategies. Our study enhances knowledge of riverine habitats and stresses the importance of adaptive management to safeguard the Elsa River ecosystem. Key actions include continuous monitoring and control of invasive alien species. Incorporating the area into a nearby Special Area of Conservation would strengthen long-term protection in line with the EU Biodiversity Strategy for 2030.

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DOI: 10.3897/ved.176891

Authors: Silvia Cannucci, Rossano Bolpagni, Gianmaria Bonari, Francesco Candini, Alice Dalla Vecchia, Emanuele Fanfarillo, Tiberio Fiaschi, Simona Maccherini, Francesco Mascia, Lorenzo Scalia, Claudia Angiolini

Abstract: Ponds are widespread yet highly vulnerable freshwater habitats that support diverse aquatic and terrestrial plant communities influenced by land use and water characteristics. The PONDY (Pond vegetation data and water physico-chemical parameters) dataset integrates vegetation and water physico-chemical data that have been collected to understand the responses of vegetation to environmental parameters. The dataset comprises 575 plots, of which 232 are aquatic and 343 are terrestrial, derived from 115 ponds across continental and insular areas of Italy. The dataset includes 743 vascular plant taxa and 5 macroalgae encompassing 364 genera and 89 families. Terrestrial plots host 690 taxa belonging to 87 families, while aquatic plots host 117 taxa belonging to 36 families. The dataset includes 10 taxa belonging to the Italian Red List and 39 alien species. Moreover, 11% of the aquatic plots have been classified in a Habitats Directive 92/43/EEC habitat type, while 48% have been classified in a EUNIS habitat type. The dataset contains, for each plot, measurements of physico-chemical water variables such as dissolved oxygen, water depth, and temperature, pH, turbidity, conductivity, and nutrient concentration. The PONDY dataset provides comprehensive information on plant diversity and abundance, community composition, habitat types, and water chemistry in Italian ponds, serving as a key resource for studying plant–environment relationships, developing predictive models, and supporting freshwater conservation efforts.

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