Where Meiofauna? An assessment of interstitial fauna at a Belgian beach
Monnissen, J.; Thijs, S.; Artois, T.; Jouk, P.; Van de Reydt, E.; Van Dijck, T.; Monnens, M. (2025). Where Meiofauna? An assessment of interstitial fauna at a Belgian beach. Diversity 17(4): 287. https://dx.doi.org/10.3390/d17040287
In: Diversity. MDPI: Basel. ISSN 1424-2818; e-ISSN 1424-2818, more
|   |
| Keywords |
Biodiversity
Belgium, Ostende
Marine/Coastal |
| Author keywords |
Ostend; metabarcoding; 18S rDNA; invertebrates |
| Authors | | Top |
|
- Van de Reydt, E., more
- Van Dijck, T.
- Monnens, M., more
|
|
| Abstract |
Meiofauna are frequently overlooked in biodiversity assessments, resulting in a lack of understanding regarding their current status, the potential impact of anthropogenic activities, and climate change. This study on the intertidal zone of the Small Beach of Ostend marks a new effort to characterize meiofaunal communities along the Belgian coast. Sampling was carried out on five separate occasions throughout the year, with abiotic data collected during each event. Collected specimens were sorted according to their taxonomic group, resulting in a retrieval of 1742 organisms. Among these, Platyhelminthes and Nematoda were most abundant. Through metabarcoding of the 18S ribosomal region, a biodiversity assessment was conducted, yielding a total of 106 Amplicon Sequence Variants (ASVs). After filtering out rare reads, 65 metazoan ASVs were retained: 18 representing Platyhelminthes, 16 Nematoda, 15 Copepoda, 12 Polychaeta, and 4 Acoela. Identification of the ASVs through blasting generated 23 unique species-level identifications. The highest species richness was observed among Proseriata and Nematoda, each comprising six different species. Additionally, four different species of Polychaeta and Copepoda, two species of Acoela, and one species of Rhabdocoela were identified. Compared to findings on similar beaches along the Belgian coast from about 40 years ago, the meiofaunal communities on this beach exhibit an overall low species richness. Finding fewer and other species might be linked to the potential impact of beach nourishments, human trampling, and climate change. However, confirming this hypothesis requires future research. |
|
