Anticipating where are unknown aquatic insects in Europe to improve biodiversity conservation

Aim: Understanding biodiversity patterns is crucial for prioritizing future conservation efforts and reducing the current rates of biodiversity loss. However, a large proportion of species remain undescribed (i.e. unknown biodiversity), hindering our ability to conduct this task. This phenomenon, known as the ‘Linnean shortfall’, is especially relevant in highly diverse, yet endangered, taxonomic groups, such as insects. Here we explore the distributions of recently described freshwater insect species in Europe to (1) infer the potential location of unknown biodiversity hotspots and (2) determine the variables that can anticipate the distribution of unknown biodiversity. Location: The European continent, including western Russia, Cyprus and Turkey. Methods: Georeferenced information of all sites where new aquatic insect species were described across Europe from 2000 to 2020 was compiled. In order to understand the observed spatial patterns in richness of recently described species, spatial units were defined (level 6 of HydroBASINS) and associated with a combination of a set of socioeconomic, environmental and sampling effort descriptors. A zero-inflated Poisson regression approach was used to model the richness of newly described species within each spatial unit. Results: Nine hundred and sixty-six recently described species were found: 398 Diptera, 362 Trichoptera, 105 Coleoptera, 66 Plecoptera, 28 Ephemeroptera, 3 Neuroptera, 2 Lepidoptera and 2 Odonata. The Mediterranean Basin was the region with the highest number of recently described species (74%). The richness of recently described species per spatial unit across Europe was highest at mid-elevation areas (between 400 and 1000 m), latitudes between 40 and 50° and in areas with yearly average precipitation levels of 500–1000 mm, a medium intensity of sampling effort and low population density. The percentage of protected areas in each study unit was not significantly related to the richness of recently described species. In fact, 70% of the species were found outside protected areas. Main conclusions: The results highlight the urgent need to concentrate conservation efforts in freshwater ecosystems located at mid-altitude areas and out of protected areas across the Mediterranean Basin. The highest number of newly described species in those areas indicates that further monitoring efforts are required to ensure the aquatic biodiversity is adequately known and managed within a context of growing human impacts in freshwater ecosystems.Generalitat de Catalunya 2017SGR1643Ministerio de Ciencia e Innovación TED2021-130328B-I00, RYC2019-027446-

Retos y oportunidades para la evaluación del estado ecológico en ríos temporales

Los ríos temporales (RTs) son ecosistemas fluviales en los que los efectos de las perturbaciones antrópicas se mezclan con los de la propia perturbación natural que impone la temporalidad del flujo. A pesar de los avances en el conocimiento de los RTs, todavía persisten muchas lagunas de conocimiento que limitan el desarrollo de metodologías adecuadas para la evaluación de su estado ecológico. En esta revisión identificamos los retos actuales para la correcta evaluación del estado ecológico de los RTs y analizamos las oportunidades existentes para hacerles frente. Estos retos se centran en: la diferenciación entre RTs naturales o hidrológicamente impactados, la diferenciación entre perturbaciones naturales y antrópicas, el desarrollo de índices biológicos para pozas desconectadas y cauces secos, la adaptación de los índices hidrogeomorfológicos, y la aplicación de la teoría de metacomunidades en RTs. Las oportunidades están relacionadas con: el uso de nuevas herramientas moleculares, la existencia de índices alternativos a los tradicionales, la disponibilidad de datos para poder hacer modelización, y la implicación social en la evaluación del estado hidrológico y ecológico. La revisión se centra mayoritariamente en el conocimiento científico y de gestión acumulado desde la implementación de la DMA en España, pero recoge experiencias en otros RTs del mundo para guiar acciones de conservación y gestión en estos ecosistemas únicos y altamente amenazados por el cambio global.Este estudio está financiado por el proyecto “DRY-Guadalmed: Herramientas avanzadas para la evaluación del estado ecológico de ríos temporales mediterráneos durante la fase seca” (PID2021-126143OB-C21 y PID2021-126143OB-C22) financiado por el Ministerio de Ciencia e Innovación (MCIN/AEI/10.13039/501100011033/) y por FEDER Una manera de hacer Europa.info:eu-repo/semantics/publishedVersio