The structure, diversity and temporal distribution of the infaunal polychaetes associated to Cymodocea nodosa meadows were studied in Tenerife (Canary Islands). The samples were collected monthly throughout a year, to depths between 13-16 m. The sediment was extracted by means of PVC cores, in which four layers were separated (i.e., 0-5 cm, 5-10 cm, 10-20 cm and 20-30 cm). 1,167 polychaete specimens, belonging to 69 taxa were collected, representing one of the most dominant groups in the benthic assemblage throughout all the year. The most common families were Syllidae, Paraonidae and Spionidae, both in terms of abundance and species richness. The dominant species were Streptosyllis bidentata, Aricidea assimilis and Exogone parahomoseta mediterranea, resulting also the only constant species throughout the year. The highest values of species richness, diversity, equitability and abundance of polychaetes occurred in September. The multifactorial analysis of abundances (i.e. cluster analysis and non-metric multi-dimensional scaling) indicated a temporal segregation of samples from July, August and September (i.e. the warmest months) with respect to those of the rest of the year, due to structural differences in the assemblage.Polychaete species have been found up to 30 cm depth in the sediment. Nevertheless, most of them (89%) occurred in the first 5 cm of the sediment, with an increase of specimens in deeper layers in February (i.e., due to punctual episodes of higher hydrodynamics). To compare the vertical distribution of polychaetes, additional core samples were collected in two seagrass meadows (i.e., C. nodosa and Ruppia cirrhosa) at the Ebro's Delta (NW Mediterranenan), in which five layers were separated (i.e. 0-5 cm, 5-10 cm, 10-15 cm, 15-20 cm, 20-25 cm). The results obtained in the R. cirrhosa meadow (98% of the polychaetes within the first 5 cm) agrees with those in the Canarian C. nodosa meadow, while the polychaetes reached up to 15 cm deep in a C. nodosa meadow (i.e., ≈ 39% between 0-5 cm, ≈ 41% between 5-10 cm, .≈ 20% between 10-15 cm). Our results supported that the structural characteristics of the assemblages appeared to be more strongly controlled by the combined characteristics of the sediment (i.e. lack of oxygen, granulometry and degree of compaction) than by the seagrass species building the meadow.2
