Nematodes trophic groups changing via reducing of bacterial population density after sediment enrichment to ciprofloxacin antibiotic: Case study of Marine Mediterranean community

•Ciprofloxacin antibiotic presented a high adsorption capacity in aquatic sediments.•Ciprofloxacin reduce the bacteria abundance with the levels of the concentrations.•Nematodes responded by decrease of trophic groups abundance (CF), (FP) and (M) ↓.•Bacteria density reduction has led to the prolifer...

Full description

Saved in:
Bibliographic Details
Published in:Aquatic toxicology 2020-11, Vol.228, p.105632-105632, Article 105632
Main Authors: Nasri, Ahmed, Allouche, Mohamed, Hannachi, Amel, Barkaoui, Taha, Barhoumi, Badreddine, Saidi, Ibtihel, D'Agostino, Fabio, Mahmoudi, Ezzeddine, Beyrem, Hamouda, Boufahja, Fehmi
Format: Article
Language:English
Subjects:
Bacterial density
Ciprofloxacin
Community structure
Microcosm
Nematode trophic groups
Sediment enrichment
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Ciprofloxacin antibiotic presented a high adsorption capacity in aquatic sediments.•Ciprofloxacin reduce the bacteria abundance with the levels of the concentrations.•Nematodes responded by decrease of trophic groups abundance (CF), (FP) and (M) ↓.•Bacteria density reduction has led to the proliferation of the rest trophic groups. An experiment was carried out using microcosms to evaluate the impact of the fluoroquinolone antibiotic on nematode trophic groups structure and bacterial abundance. Sediment samples were experimentally enriched with four increasing doses of ciprofloxacin [D1 (50 ppm), D2 (100 ppm), D3 (200 ppm) and D4 (500 ppm)] and compared to non-enriched sediments (used as control). Ciprofloxacin changed the trophic composition of nematodes taxa where the relative abundance of microvores (M), epigrowth feeders (EF) and ciliate consumers (CF), raised in a control microcosm, was highly affected and significantly decreased in response to the increasing doses. Nevertheless, the abundance of deposit feeders (DF), optional predators (FP) and exclusive predators (Pr) showed a significant increase. Results from the multivariate analysis showed a clear impact of this antibiotic on nematode trophic assemblages. Microcosms treated with the three highest doses [D2, D3 and D4] were different from the control. The exceptions were those treated with the lowest dose, D1, and which were grouped with the control. The SIMPER analysis results showed that the average dissimilarity continuously increased in the treated microcosms compared to the control. Furthermore, our results have shown that ciprofloxacin also leads to a significant decrease in bacterial density with the highest dose, which could explain the results obtained for nematode trophic groups distribution. Thus, the bacteriophages nematodes only use bacteria as a nutrition source and the lack or presence in small quantity of this food could induce a decrease in their abundance as well as changing of nematodes groups repartition. Our work demonstrates that the nematode responses were dependent on sediment enrichment with ciprofloxacin and opens new perspectives on the potential impact of antibiotics on functional nematode diversity.
ISSN:0166-445X
1879-1514
DOI:10.1016/j.aquatox.2020.105632