1,720,980 research outputs found
Riparian vegetation plastic monitoring: a harmonized protocol for sampling macrolitter in vegetated riverine habitats
No full textMany studies highlighted that rivers transported land -based plastics to the sea. However, most of the litter remains stuck in the fluvial ecosystem, also blocked by vegetation. To date, research on riverine macrolitter focused on floating and riverbank monitoring, thus methods to sample riverbank and floating litter have been developed. Concerning rivers, few recent studies highlighted the role of riparian vegetation in entrapping plastics. Given that vegetation represents a large part of riverine ecosystems and that the dynamics of plastics entrapped by vegetation are neglected, it appears pivotal to study in more detail how vegetation contributes to plastic retention. However, as current protocols and guidelines considered only floating and riverbank plastics without providing standardized and updated strategies to monitor litter in vegetation, here we aimed to develop a new standardized protocol and tools to assess plastics in vegetation. Specifically, we focused on unveiling the three -tridimensional structure of vegetation in relation to plastic occurrence, while considering seasonal and hydromorphological aspects. To investigate the trapping effect of vegetation, we developed a three-dimensional vegetation structure index (3DVI) related to plastics. The 3DVI index considers plant structure (i.e., number of branches) and diversity (i.e., species). To test the 3DVI, we conducted an in -situ case study in central Italy. We found that both primary and secondary riparian vegetation blocked plastic litter. In detail, 3DVI correlated with the number of plastics, highlighting that the densest and most diverse communities trap more plastics. Furthermore, we provided for the first time the assessment of seasonality for the macroplastic entrapment by riparian vegetation and a preliminary quantification of wind-blown plastics. Our results should be of interest to promote the development of standardized and harmonized monitoring strategies for riparian habitat management and conservation
Non-native Corbicula fluminea (Müller, 1774) (Bivalvia, Veneroidea) in Central Italy: do the waters pumped by Reclaimed Agencies may have a role in spreading through translocation?
Full text linkAsian clam, Corbicula fluminea, is an invasive mollusk species (Bivalvia, Veneridae) known to cause several negative impacts in freshwater ecosystems where it has been introduced. In the 2022 summer season a total drying up took place in the “Torre Flavia” wetland, a Special Protection Area (Latium, central Italy): it made possible a survey of biological remains deposited in the bottom of the wetland channels (> 2,000 m in total length). During this survey, for the first time, we recorded valves belonging to 68 specimens of Asian clam. We did not record living specimens. This is the first case of occurrence of this mollusk in a wetland basin (the fourth record for Central Italy). The population would not appear to have naturalized locally but, probably, individuals could be accidental arrived by the waters pumped by the Reclaimed Agency. We discussed the implications about the role of these Agencies in favour involuntarily the translocation of both native and non-native species from the dewatering pumps (along the Tiber River) to surrounding land reclaimed wet areas (channels and swamps) and croplands connected to the artificial water system
Anthropogenic particles in coypu (Myocastor coypus; Mammalia, Rodentia)’ faeces: first evidence and considerations about their use as track for detecting microplastic pollution
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Using Social Media to Determine the Global Distribution of Plastics in Birds’ Nests: The Role of Riverine Habitats
Full text linkPlastics are widely distributed in all ecosystems with evident impacts on biodiversity. We aimed at examining the topic of plastic occurrence within bird nests. We conducted a systematic search on three social media platforms (Facebook, Instagram, and Twitter) to fill the gap of knowledge on plastic nests worldwide. As a result, we observed nests with plastics mostly belonging to synanthropic species inhabiting riverine habitats, mainly in Europe, North America, and Asia, with an increase in occurrence over the years. Two common and generalist freshwater species (Eurasian Coot Fulica atra and Swans Cygnus sp.) showed the highest frequency of occurrence of plastic debris. We suggest plastics in bird nests as a proxy for debris occurring in the environment. However, our data may be biased, due to our sample’s low representativeness. Therefore, more data are necessary to have more information on plastic distribution. In conclusion, social media might be pivotal in indicating plastic hotspot areas worldwide and being an indicator of plastic pollution within the environment
Dunal plants as sink for anthropogenic marine litter: The entrapping role of Salsola kali L. (1753) in a Mediterranean remote beach (Sardinia, Italy)
No full textThe ability to retain anthropogenic marine litter by a halo-psammophilous plant formation dominated by a single prostrate species (Salsola kali) on a Sardinian beach was measured. We hypothesized that the anthropogenic litter (i) is trapped by plants to a greater extent than in control areas, and (ii) has more elongated size, mimicking the organic Posidonia wrack, largely occurring locally as ‘banquettes’. Salsola kali patches show an apparently higher anthropogenic litter density than control sites without vegetation. Salsola kali plants trap litter items significantly longer and a larger number of size length categories than control plots. These effects may be due to the prostrate structure of the plant with small thorns at the apex. Also, litter entrapped by plants can interfere with the mechanisms of dune deposition and structuration, in turn affecting food chains by decreasing the availability of organic material for pedofaun
Preliminary Observations on the Use of Microplastics by Aquatic Larvae of the Moth Cataclysta lemnata (Linnaeus, 1758)
No full textThe interaction between freshwater biota and microplastics (MPs) has recently been described, mostly focusing on indoor experiments using fish, crustaceans, and chironomids. Among aquatic invertebrates, although having an important ecological role, aquatic butterfly larvae have not yet been investigated concerning plastics. We examined the interaction between aquatic larvae of the moth Cataclysta lemnata (Linnaeus, 1758) and MPs. We verified if (i) larvae could use MPs to build their protective cases, (ii) they could chew PVC, and (iii) there were effects on the pupae emergence to adult moths after larvae exposure to PVC. By performing two indoor experiments, (i) we exposed larvae to different MPs polymers, aquatic plant Lemna minuta, and a mix of MPs with L. minuta, and (ii) exposed larvae to a PVC layer. For the first time, we observed that C. lemnata larvae use MPs to build their cases and chewed the PVC layer. About half of the larvae (48.0%) pupated of which 43.7% emerged as adults. Our findings suggest that MPs are used by C. lemnata larvae, potentially affecting their life cycle. Future studies should explore whether MPs are transported by adult moths, linking aquatic and terrestrial ecosystems
Passive biomonitoring of airborne microplastics using lichens: A comparison between urban, natural and protected environments
No full textCurrently, natural and urban ecosystems are affected by different types of atmospheric deposition, which can compromise the balance of the environment. Plastic pollution represents one of the major threats for biota, including lichens. Epiphytic lichens have value as bioindicators of environmental pollution, climate change, and anthropic impacts. In this study, we aim to investigate the lichen bioaccumulation of airborne microplastics along an anthropogenic pollution gradient. We sampled lichens from the Genera Cladonia and Xanthoria to highlight the effectiveness of lichens as tools for passive biomonitoring of microplastics. We chose three sites, a “natural site” in Altipiani di Arcinazzo, a “protected site” in Castelporziano Presidential estate and an “urban site” in the centre of Rome. Overall, we sampled 90 lichens, observed for external plastic entrapment, melt in oxygen peroxide and analysed for plastic entrapment. To validate the method, we calculated recovery rates of microplastics in lichen. Particularly, 253 MPs particles were detected across the 90 lichen samples: 97 % were fibers, and 3 % were fragments. A gradient in the number of microplastic fibers across the sites emerged, with increasing accumulation of microplastics from the natural site (n = 58) to the urban site (n = 116), with a direct relationship between the length and abundance of airborne microplastic fibers. Moreover, we detected the first evidences of airborne mesoplastics entrapped by lichens. On average, the natural site experienced the shortest fibre length and the centre of Rome the longest. No differences in microplastics accumulation emerged from the two genera. Our results indicated that lichens can effectively be used for passive biomonitoring of microplastic deposition. In this scenario, the role of lichens in entrapping microplastics and protecting pristine areas must be investigated. Furthermore, considering the impact that airborne microplastics can have on human health and the effectiveness of lichens as airborne microplastic bioindicators, their use is encourage
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