Silvia Mercurio scite author profile

The COVID-19 pandemic zoonosis has determined extensive lockdowns worldwide that provide an unprecedented opportunity to understand how large-scale shifts of human activities can impact wildlife. We addressed the impacts of the COVID-19 lockdown on wildlife in Italy, the first European country that performed a countrywide lockdown, and identified potentially beneficial and negative consequences for wildlife conservation and management. We combined a qualitative analysis of social media information with field data from multiple taxa, data from citizen science projects, and questionnaires addressed to managers of protected areas. Both social media information and field data suggest that a reduction of human disturbance allowed wildlife to exploit new habitats and increase daily activity. The field data confirmed some positive effects on wildlife conservation, such as an increase in species richness in temporarily less-disturbed habitats, a higher breeding success of an aerial insectivorous bird, and reduction of road-killing of both amphibians and reptiles. Despite some positive effects, our data also highlighted several negative impacts of the COVID-19 crisis on wildlife. The lower human disturbance linked to lockdown was in fact beneficial for invasive alien species. Results from questionnaires addressed to managers of protected areas highlighted that the COVID-19 lockdown interrupted actions for the control of invasive alien species, and hampered conservation activities targeting threatened taxa. Furthermore, the reduction of enforcement could cause a surge of illegal killing of wildlife. The COVID-19 crisis, besides having deep socio-economic impacts, might profoundly affect wildlife conservation, with potentially long-lasting effects.

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Effects of polystyrene microplastics on early stages of two marine invertebrates with different feeding strategies

Messinetti

Mercurio

Parolini

et al. 2018

Environmental Pollution

132

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Nowadays, microplastics represent one of the main threats to marine ecosystems, being able to affect organisms at different stages of their life cycle and at different levels of the food web. Although the presence of plastic debris has been reported in different habitats and the ability to ingest it has been confirmed for different taxa, few studies have been performed to elucidate the effects on survival and development of marine animals. Thus, we explored the effects of different environmental concentrations of polystyrene microbeads on the early stages of two invertebrate species widespread in the Mediterranean shallow waters: the pelagic planktotrophic pluteus larvae of the sea urchin Paracentrotus lividus and the filter-feeding sessile juveniles of the ascidian Ciona robusta. We evaluated the effects on larvae and juvenile development and determined the efficiency of bead ingestion. The feeding stages of both species proved to be extremely efficient in ingesting microplastics. In the presence of microbeads, the metamorphosis of ascidian juveniles was slowed down and development of plutei altered. These results prompted the necessity to monitor the populations of coastal invertebrates since microplastics affect sensitive stages of life cycle and may have consequences on generation recruitment.

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Nervous system characterization during the development of a basal echinoderm, the feather star Antedon mediterranea

Mercurio

Gattoni

Messinetti

et al. 2019

J of Comparative Neurology

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Neural development of echinoderms has always been difficult to interpret, as larval neurons degenerate at metamorphosis and a tripartite nervous system differentiates in the adult. Despite their key phylogenetic position as basal echinoderms, crinoids have been scarcely studied in developmental research. However, since they are the only extant echinoderms retaining the ancestral body plan of the group, crinoids are extremely valuable models to clarify neural evolution in deuterostomes. Antedon mediterranea is a feather star, endemic to the Mediterranean Sea. Its development includes a swimming lecithotrophic larva, the doliolaria, with basiepithelial nerve plexus, and a sessile filter‐feeding juvenile, the pentacrinoid, whose nervous system has never been described in detail. Thus, we characterized the nervous system of both these developmental stages by means of immunohistochemistry and, for the first time, in situ hybridization techniques. The results confirmed previous descriptions of doliolaria morphology and revealed that the larval apical organ contains two bilateral clusters of serotonergic cells while GABAergic neurons are localized under the adhesive pit. This suggested that different larval activities (e.g., attachment and metamorphosis) are under the control of different neural populations. In pentacrinoids, the analysis showed the presence of a cholinergic entoneural system while the ectoneural plexus appeared more composite, displaying different neural populations. The expression of three neural‐related microRNAs was described for the first time, suggesting that these are evolutionarily conserved also in basal echinoderms. Overall, our results set the stage for future investigations that will reveal new information on echinoderm evo‐devo neurobiology.

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Bisphenol A affects neural development of the ascidian Ciona robusta

2018

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Bisphenol A (BPA) is an organic pollutant derived from plastic degradation that has numerous and variable adverse effects on human health and wildlife. In particular, it has been reported that BPA can alter reproductive processes and nervous system development in vertebrates. Considering BPA presence in marine environment and the scant data available on its interaction with nervous system development, we analyzed the effect of BPA exposure on sperm viability, fertilization, embryogenesis, and neural differentiation of the ascidian Ciona robusta. Ascidians are members of the Phylum Tunicata, the sister group of Vertebrata, sharing with them fundamental developmental processes. Our results showed that first cell division was altered starting from 5 µM concentration. Lethal concentration (LC ) was estimated to be 5.2 µM. Larvae developed from treated embryos showed specific malformations to the pigment cells even at 0.1 µM, corresponding to the highest environmental concentration reported so far. Moreover, GABAergic and dopaminergic neurons proved to be target organs of BPA teratogenic action, in accordance with similar results reported in vertebrate animal models. Overall, our results suggest that BPA can exert its effects on nervous system acting on different pathways and underline that C. robusta is a valuable invertebrate animal model for preliminary screenings of effects of pollutants on vertebrates.

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Ingested microscopic plastics translocate from the gut cavity of juveniles of the ascidian Ciona intestinalis

Messinetti

Mercurio

Scarı̀

et al. 2019

The European Zoological Journal

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Small plastic particles, named microplastics, are abundant in the marine environment and can be ingested by marine organisms. Species with different feeding strategies can be differently affected by the presence of microplastics. Moreover, the impact of these particles can depend on their size. In this study, we analyzed the effects of 1 µm polystyrene particles on larval and juvenile development in the ascidian Ciona intestinalis. As previously reported for 10 µm beads, smaller particles caused a delay in the growth of juveniles, even if this delay was registered only at the highest concentration tested. Instead, larval development was not affected by the presence of microplastics. Histological analysis of juveniles revealed that 1 µm particles, after ingestion, can translocate from the gut to the hemocoelic cavity in just 8 days. As a defense mechanism, plastic spheres can also be phagocytized from specific circulating cells with phagocytic activity. Microplastics confirmed their potential as a threat to marine wildlife, interfering with food uptake and growth.

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Effects of bisphenol A on the development of pigmented organs in the ascidian Phallusia mammillata

Messinetti

Mercurio

Pennati

2018

Invertebrate Biology

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Bisphenol A (BPA) is an organic compound that is used in the manufacture of polycarbonate plastic and epoxy resins and is increasingly being released into the environment. BPA can act as a teratogenic substance and an endocrine disruptor, raising concerns about its impact on humans and wildlife. Thus, in the present work, we evaluated the effects of different concentrations of BPA on ontogenetic processes in the ascidian Phallusia mammillata. The phylogenetic position of ascidians, their cosmopolitan distribution in marine ecosystems, and multiple technical advantages associated with their biology make ascidians reliable model organisms for ecotoxicology bioassays. Our investigations showed that BPA did not affect the capability of ascidian sperm to fertilize eggs, but it impaired embryonic development and caused a phenotype that was characterized by a short and kinked tail. Larvae developed from BPA-exposed embryos also presented malformations of pigmented organs such as altered pigment deposition, absence of one or both pigmented organs, and supernumerary organs. The co-exposure with 4-hydroxytamoxifen, an estrogen-related receptor (ERR) inverse agonist, rescued the normal phenotype of pigmented organs, thus supporting the hypothesis that, in ascidians, BPA exerts its teratogenic effects mainly by binding to ERR, as in vertebrate models. K E Y W O R D Snervous system, ocellus, otolith, rescue of function, tunicate

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miR-7 Knockdown by Peptide Nucleic Acids in the Ascidian Ciona intestinalis

Mercurio

Cauteruccio

Manenti

et al. 2019

IJMS

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Peptide Nucleic Acids (PNAs) are synthetic mimics of natural oligonucleotides, which bind complementary DNA/RNA strands with high sequence specificity. They display numerous advantages, but in vivo applications are still rare. One of the main drawbacks of PNAs application is the poor cellular uptake that could be overcome by using experimental models, in which microinjection techniques allow direct delivery of molecules into eggs. Thus, in this communication, we investigated PNAs efficiency in miR-7 downregulation and compared its effects with those obtained with the commercially available antisense molecule, Antagomir (Dharmacon) in the ascidian Ciona intestinalis. Ascidians are marine invertebrates closely related to vertebrates, in which PNA techniques have not been applied yet. Our results suggested that anti-miR-7 PNAs were able to reach their specific targets in the developing ascidian embryos with high efficiency, as the same effects were obtained with both PNA and Antagomir. To the best of our knowledge, this is the first evidence that unmodified PNAs can be applied in in vivo knockdown strategies when directly injected into eggs.

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Embryotoxicity characterization of the flame retardant tris(1‐chloro‐2‐propyl)phosphate (TCPP) in the invertebrate chordate Ciona intestinalis

et al. 2021

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Tris(1‐chloro‐2‐propyl)phosphate (TCPP) is the most common chlorinated organophosphorus flame retardant in seawater. Due to its chemical features and abundance, TCPP has been classified as a high hazard, and restrictions of use have been set in multiple countries. Despite TCPP being highly present in the marine environment, only a few studies have explored the TCPP impact on the development of marine invertebrates. Ascidians are important invertebrate members of benthic marine communities and reliable model systems for ecotoxicological research. The aim of this study was to assess the adverse effects of TCPP exposure on the embryogenesis of the ascidian Ciona intestinalis. Our results showed that this pollutant affected both muscles and nervous system development. Malformations appeared similar to those reported in other animal models for other flame retardants, suggesting that these molecules could share a common mechanism of action and induce a mixture effect when simultaneously present in the aquatic environment even at sub‐teratogenic concentrations.

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Silvia Mercurio

The good, the bad and the ugly of COVID-19 lockdown effects on wildlife conservation: Insights from the first European locked down country

Effects of polystyrene microplastics on early stages of two marine invertebrates with different feeding strategies

Nervous system characterization during the development of a basal echinoderm, the feather star Antedon mediterranea

Bisphenol A affects neural development of the ascidian Ciona robusta

Ingested microscopic plastics translocate from the gut cavity of juveniles of the ascidian Ciona intestinalis

Effects of bisphenol A on the development of pigmented organs in the ascidian Phallusia mammillata

miR-7 Knockdown by Peptide Nucleic Acids in the Ascidian Ciona intestinalis

Embryotoxicity characterization of the flame retardant tris(1‐chloro‐2‐propyl)phosphate (TCPP) in the invertebrate chordate Ciona intestinalis

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