Functional Diversity of Macroinvertebrate Communities in River Nature Reserves of Spain
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López Rodríguez, Manuel Jesús; Luzón-Ortega, Julio; Díez Castro, Jesús; Tierno-Cinque, Alejandra; Tierno De Figueroa, José ManuelEditorial
MDPI
Materia
traits protected areas streams functional indices
Date
2024-11-16Referencia bibliográfica
López Rodríguez, M.J. et. al. Water 2024, 16, 3290. [https://doi.org/10.3390/w16223290]
Sponsorship
Project “Toma de muestras y análisis de elementos fisicoquímicos y biológicos para la determinación del estado ecológico de las masas de agua de las reservas naturales fluviales” (ref.tec0004670); Spanish Ministry of Science and Innovation (Ph.D. Grant “Aid for contracts for training of researchers in companies, Industrial Doctorate”)Abstract
In recent decades, aquatic ecosystems have suffered a series of impacts that have made
them some of the most threatened ecosystems on a global scale. So, protection measures are needed
to conserve the biodiversity we find in some of the less impacted ecosystems. In the Spanish legislation,
a category arose for this purpose in lotic ecosystems, the River Natural Reserve (RNR). In
this work, we analyse the taxonomic and functional diversity of 145 macroinvertebrate biocoenoses
from 128 different RNRs belonging to 10 different basins and representing 18 typologies. Most of the
analysed biocoenoses have an overall high taxonomic diversity, with some exceptions corresponding
to particular reaches suffering occasional disturbances or with very special conditions. An intermediate
functional homogeneity has been also detected, related to a relatively low average functional
richness. We also found medium levels of functional evenness, a high functional divergence, and
low functional dispersion and Rao index values, the latter supporting similarities among taxa in
functional terms. In our studied systems, there is high taxa turnover, but functional turnover is very
low. This means that most of the trait dissimilarity between taxa is found within a community, but
not among communities, though there are relatively strong dissimilarities in community composition.
Our results support the fact that the RNRs are protecting communities of great diversity, not only
taxonomic, but also functional, which contributes to the proper functioning of the ecosystems found
in these stream reaches. Thus, the analysis of the functional diversity of the communities, as in the
present approach, should be implemented to identify and prioritize protection of reaches with higher
functional diversity, where enhanced ecosystem functioning can be expected.