Inhibition of Larval Development of Marine Copepods Acartia tonsa by Neonocotinoids

Neonicotinoids (NEOs) are neurotoxic pesticides widely used in agriculture due to their high effectiveness against pest insects. Despite their widespread use, very little is known about their toxicity towards marine organisms, including sensitive and ecologically relevant taxa such as copepods. Thus, we investigated the toxicity of five widely used NEOs, including acetamiprid (ACE), clothianidin (CLO), imidacloprid (IMI), thiacloprid (THI), and thiamethoxam (TMX), to assess their ability to inhibit the larval development of the copepod Acartia tonsa. The more toxic NEOs were ACE (EC50 = 0.73 μg L−1), TMX (EC50 = 1.71 μg L−1) and CLO (EC50 = 1.90 μg L−1), while the less toxic compound was IMI (EC50 = 8.84 μg L−1). Early life-stage mortality was unaffected by NEOs at all of the tested concentrations. The calculated toxicity data indicated that significant effects due to ACE (EC20 = 0.12 μg L−1), THI (EC20 = 0.88 μg L−1) and TMX (EC20 = 0.18 μg L−1) are observed at concentrations lower than established chronic aquatic life benchmarks reported by USEPA for freshwater invertebrates. Nevertheless, since environmental concentrations of NEOs are generally lower than the threshold concentrations we calculated for A. tonsa, the effects may be currently of concern only in estuaries receiving wastewater discharges or experiencing intense runoff from agricultur

Impacts of exhaust gas cleaning systems (EGCS) discharge waters on planktonic biological indicators

Exhaust Gas Cleaning Systems (EGCS), operating in open-loop mode, continuously release acidic effluents (scrubber waters) to marine waters. Furthermore, scrubber waters contain high concentrations of metals, polycyclic aromatic hydrocarbons (PAHs), and alkylated PAHs, potentially affecting the plankton in the receiving waters. Toxicity tests evidenced significant impairments in planktonic indicators after acute, early-life stage, and long-term exposures to scrubber water produced by a vessel operating with high sulphur fuel. Acute effects on bacterial bioluminescence (Aliivibrio fischeri), algal growth (Phaeodactylum tricornutum, Dunaliella tertiolecta), and copepod survival (Acartia tonsa) were evident at 10 % and 20 % scrubber water, while larval development in mussels (Mytilus galloprovincialis) showed a 50 % reduction at ∼5 % scrubber water. Conversely, larval development and reproductive success of A. tonsa were severely affected at scrubber water concentrations ≤1.1 %, indicating the risk of severe impacts on copepod populations which in turn may result in impairment of the whole food web

NEMO-SN1 Abyssal Cabled Observatory in the Western Ionian Sea

The NEutrinoMediterranean Observatory—Submarine Network 1 (NEMO-SN1) seafloor observatory is located in the central Mediterranean Sea, Western Ionian Sea, off Eastern Sicily (Southern Italy) at 2100-m water depth, 25 km from the harbor of the city of Catania. It is a prototype of a cabled deep-sea multiparameter observatory and the first one operating with real-time data transmission in Europe since 2005. NEMO-SN1 is also the first-established node of the European Multidisciplinary Seafloor Observatory (EMSO), one of the incoming European large-scale research infrastructures included in the Roadmap of the European Strategy Forum on Research Infrastructures (ESFRI) since 2006. EMSO will specifically address long-term monitoring of environmental processes related to marine ecosystems, marine mammals, climate change, and geohazards

A novel SPR based method for measuring diffusion coefficients: From small molecules to supramolecular aggregates

Investigating peptides and proteins conformations in vitro is of paramount importance in biochemistry and cell biology, as the understanding of many physiological pathways and pathological processes, which underscore the onset and progression of “conformational diseases”, is closely dependent on the actual possibility of monitoring the conformation, oligomerization and the specific properties, such as metal-binding features, that proteins adopt in complex systems.In this work, we report a newly designed Surface Plasmon Resonance (SPR) based dispersion analysis, hereby named D-SPR, which allows to measure the diffusion coefficients of molecules with unprecedented easiness and precision. Several small molecules have been tested with this new approach, and the diffusion coefficients obtained are in accordance with the values reported in the literature. A theoretical background is given and the newly designed method has been also applied to carnosine, a dipeptide which has recently attracted great attention by virtues of its anti-oxidative, anti-aggregating and enzyme activating properties. Results clearly show the high performance of the new method, which is based on the newly unveiled SPR capability to measure diffusion coefficients, to give information on carnosine metal-induced oligomerization, expanding the potentiality of commonly used SPR instruments well over the canonic investigation of biomolecular interactions

Effects of emerging pollutants on the larval development of the bivalve Mytilus galloprovincialis

The toxicity of 19 emerging pollutants, including neonicotinoid insecticides, fragrance materials, pharmaceuticals, and other pesticides, was assessed using the larval development test with the mussel Mytilus galloprovincialis. The data evidenced that most of the tested compounds (neonicotinoid pesticides, oranger crystals, erythromycin, amoxicillin, and methiocarb) have low toxicity toward the early-life stages of M. galloprovincialis, with estimated EC50s > 10 mg L-1. The herbicide triallate was the more toxic compound, with an estimated EC50 of 505 μg L-1. The data provided evidence that early-life stages of mussels tend to be more resistant to emerging pollutants than other planktonic bioindicators, such as larval stages of copepods. Further studies are needed to improve the knowledge concerning the effects of these compounds on whole organisms and larval stages

Neonicotinoids and pharmaceuticals in hair of the Red fox (Vulpes vulpes) from the Cavallino-Treporti peninsula, Italy

Neonicotinoids (NEOs) and active pharmaceuticals ingredients (API) are contaminants widely diffused worldwide, causing increasing concern for potential adverse effects on wildlife. However, research on these contaminants have focused on target and non-target invertebrates, while information on potential effects in terrestrial mammals is lacking. We performed preliminary non-invasive monitoring of NEOs and API in a suburban and agricultural area using hair of the Red fox. The Red fox is a widely diffused mesopredator in Europe, and its plasticity in feeding habits makes it an excellent indicator for assessing exposure to environmental contamination. We observed the presence of NEOs in many Red fox hair samples (n = 11), including imidacloprid (IMI), acetamiprid (ACE), and clothianidin (CLO). The highest quantified concentrations were 6.4 ng g−1 dry weight (dw), 6.7 ng g−1 dw, and 0.9 ng g−1 dw for IMI, ACE, and CLO, respectively. The targeted APIs included non-steroidal anti-inflammatory drugs (NSAIDs) and antidepressants. APIs were less frequently detected than NEOs, and the compounds with the highest prevalence were the NSAID ketoprofen (36%), the antidepressant sertraline (36%), and its active metabolite norsertraline (27%). The presence of human pharmaceuticals such as the NSAID ibuprofen and the antidepressants sertraline, fluoxetine, and their active metabolites norsertraline and norfluoxetine suggest environmental contamination due to untreated and partially treated wastewater discharged in surface waters and soils of the study area. The detection and quantification of ketoprofen and flunixin also suggest the possible use of contaminated manure on farmland. Findings indicate that hair may be used for monitoring environmental exposure to NEOs and provide evidence that hair is a good marker of exposure for antidepressants and certain NSAIDs, including ibuprofen, ketoprofen, and flunixin

The use of feathers of Sandwich tern (Thalasseus sandvicensis) for the non-destructive monitoring of emerging pollutants in coastal habitats

Seabirds were extensively used as indicators for trace element contamination and bioavailability due to their high position in the aquatic food web, well-known ecology, abundance, and widespread distribution. Nevertheless, seabirds are still disregarded for monitoring emerging pollutants in coastal areas. Consequently, monitoring contamination and bioavailability still rely on analysing abiotic matrices and measures of body burdens in invertebrates or fishes. In the present paper, we summarise how monitoring neonicotinoid pesticides and human and veterinary pharmaceuticals using seabird’s fledgelings could provide valuable information on such contaminants in the environment. Using seabird feathers is an ethically acceptable method for monitoring emerging pollutants, may provide relevant insight into the extent of environmental contamination, and provide a better picture of the potential hazards to men

Ion-irradiation of complex hydrocarbons: implications for small Solar System bodies

International audienc

Ion-irradiation of complex hydrocarbons: implications for small Solar System bodies

International audienc

The ubiquity of neonicotinoid contamination: Residues in seabirds with different trophic habits

Neonicotinoids are one of the most diffusely used classes of pesticides whose level of danger toward non-target invertebrate and vertebrate species has raised increasing concern in the last decades. Among vertebrates, birds are particularly susceptible to unintentional neonicotinoid poisoning since they can be exposed through different pathways, including ingestion of dressed seeds, sucking of contaminated pollen, ingestion of sprayed insects, predation on contaminated aquatic and terrestrial preys. In the present study, we investigated the possible exposure of seabirds by measuring the residues of five neonicotinoids (acetamiprid, clothianidin, imidacloprid, thiacloprid and thiamethoxam) in samples of pooled feathers collected from fledglings of the strictly piscivorous Sandwich tern (Thalasseus sandvicensis) and the mixotrophic species Mediterranean gull (Ichthyaetus melanocephalus). At least one neonicotinoid was quantified in all the Mediterranean gull samples (n = 11) and 89% of the analysed Sandwich tern samples (n = 36). The active principles with the highest quantification rates were imidacloprid (100% in Mediterranean gulls and 58% in Sandwich terns) and clothianidin (100% in Mediterranean gulls and 61% in Sandwich terns), while thiacloprid was the less frequently detected pesticide (<20% of samples in both species). Mean concentrations ± standard error for imidacloprid, clothianidin and thiamethoxam were 8.8 ± 1.4, 4.5 ± 0.19 and 0.16 ± 0.02 ng g−1 for the Mediterranean gull, and 5.8 ± 0.55, 0.60 ± 0.08 and 0.36 ± 0.03 ng g−1for the Sandwich tern, respectively. Our data evidenced the exposure of seabirds to neonicotinoids and the further need to investigate the extent of neonicotinoid contamination in non-agricultural ecosystems