Francesca Lecce’s research while affiliated with ENEA and other places

What is this page?


This page lists works of an author who doesn't have a ResearchGate profile or hasn't added the works to their profile yet. It is automatically generated from public (personal) data to further our legitimate goal of comprehensive and accurate scientific recordkeeping. If you are this author and want this page removed, please let us know.

Publications (26)


Microplastics in Talitrus saltator (Crustacea, Amphipoda): new evidence of ingestion from natural contexts
  • Article

August 2024

·

44 Reads

·

2 Citations

Environmental Science and Pollution Research

·

·

Francesca Lecce

·

[...]

·

Using Fourier transform infrared spectroscopy (FT-IR) measurements and comparing the spectrum peaks (range 4000-600 cm −1) with reference spectra database and instrument libraries, we observed new evidence of the ingestion of microplastic particles analyzing the digestive tracts of Talitrus saltator. Specimens, sampled in central Italy, probably ingested the particles with natural detritus. Since worldwide many species of invertebrates and vertebrates (e.g., birds) feed on Amphipoda along coastal ecosystems , we hypothesized that microplastic in these crustaceans can be accumulated along the food chain.



Cover Story: Microplastic contamination is a globally recognised issue in lake ecosystems. However, our understanding of the ingestion involved and its effects on organisms remains limited. We developed an effective protocol for assessing the ingestion by the talitrid Cryptorchestia garbinii, evaluating the biological effects. Individuals were exposed to PE, PET, PES, and PP through their diets by employing DECOTABs. The results provide clear evidence of the ingestion of the polymers supplied through the tabs, thereby validating the effectiveness of this method of exposure. Our findings provide evidence that ingestion of MP particles can significantly affect the energy reserves of C. garbinii, with potentially negative consequences for their survival and reproductive success.
Uncovering the Hidden Dangers of Microplastic Pollution in Lake Ecosystems: Effects of Ingestion on Talitrid Amphipods
  • Article
  • Full-text available

July 2023

·

92 Reads

·

2 Citations

Environments

Microplastic (MP) contamination is a globally recognised issue in aquatic environments, and recently, there has been an increase in investigations focusing on lake contamination, revealing significant amounts of dispersed MPs. However, our understanding of the ingestion and effects of MPs on organisms living in lake ecosystems remains limited. This study aims to develop an effective protocol for assessing the ingestion of MPs by the talitrid amphipod Cryptorchestia garbinii, with the goal of verifying and evaluating the biological effects following ingestion. Individuals sampled from the shores of Lake Albano were exposed to four different polymers, namely low-density polyethylene (PE), polyethylene terephthalate (PET), polyester (PES), and polypropylene (PP), under laboratory conditions. To deliver MPs through the diet, we decided to employ DECOTABs (DEcomposition and COnsumption TABlets) which have been successfully used as a food source in aquatic toxicity tests. At the end of the experiments, we employed the solvatochromic and fluorescent dye Nile red to detect and quantify the MPs present in the digestive tube contents of the animals. The results clearly demonstrate the ingestion of the supplied polymers through the tabs, validating this method of exposure as effective. Furthermore, the measurement of glucose, glycogen, and lipid levels reveals that within 24 h of ingestion, MPs had an impact on the macromolecules involved in the energy metabolism of C. garbinii. This research underscores the suitability of this species as a model organism for studying MP uptake and its effects.

Download

graphical abstract
Microplastic Toxicity and Trophic Transfer in Freshwater Organisms: Ecotoxicological and Genotoxic Assessment in Spirodela polyrhiza (L.) Schleid. and Echinogammarus veneris (Heller, 1865) Treated with Polyethylene Microparticles

February 2023

·

172 Reads

·

10 Citations

Water

The widespread occurrence of microplastics (MPs) has resulted in their interaction with biological processes. Thus, there is a great concern about the potential toxicity of MPs on animal and plant cells and on the possibility that MPs reach humans through the food web. In order to shed light on both issues, laboratory assays were performed for evaluating the effects of polyethylene (PE) microparticles on the aquatic plant Spirodela polyrhiza (L.) Schleid. and the gammarid Echinogammarus veneris (Heller, 1865). Moreover, a stock of MP-treated Spirodela plants was used to feed gammarid individuals, and the presence of MP particles in their digestive tracts was analyzed. Results evidenced the lack of toxic effects of MPs on plants, evaluated at growth and physiological level by biometric parameters, pigment content, and photosynthetic performance estimated by chlorophyll fluorescence imaging through the ETPT (EcoTox Photosystem Tool). Only a slight reduction in pigment-related indices in MP-treated plants was observed. A remarkable genotoxic effect was instead highlighted by Comet assay in the hemocytes of gammarid individuals exposed to MPs, with three times more DNA damage (expressed as Tail Moment) in MP-treated individuals compared to control ones. Finally, the gut content of the gammarids fed with MP-treated plants revealed the presence of 7.6 MP particles/individual, highlighting the occurrence of trophic transfer of MPs among freshwater ecosystem organisms. Novel indications about the potential impact of the PE microparticles in the aquatic compartment are provided. Notably, the transfer of MP particles between primary producer and primary consumer organisms of the freshwater trophic chain and the genotoxic effects associated with the ingestion of such particles by gammarids are issues of concern for the aquatic ecosystem and the food web leading to the human diet.


Small MICROplastics (<100 μm) bioindicaToRs in the changing ArctiC EnviRonment (MICROTRACER). Field survey report: August 28th - September 26th, 2022

November 2022

·

144 Reads

This report refers on fieldwork activity done in August-September 2022 in the framework of the project MICROTRACER (PRA_0005). Sediment samples were collected from 10 sites, located across Krossfjorden and Kongsfjorden, on board of MS Teisten with a grab or manually from the coast. Amphipods were sampled in front of Ny-Alesund harbour and in the coast of the Loven Islands using a hand net. Sediment and Amphipod samples were pre-processed at the Dirigibile Italia laboratories for further chemical and bacteriological analyses to be performed in Italy.


Location of sampling transects in Lake Bracciano
a MP concentration in surface water; b focus on the surface water contamination of the southern sector; c MP concentration in column water (no microplastics were detected in the southern sector)
Frequency (%) of the MPs shape detected in a surface water and b column water
Frequency (%) of polymers detected in water samples. CPE chlorinated polyethylene; PE polyethylene; PP polypropylene; PS polystyrene; PL polyester; UF urea formaldehyde resin; PET polyethylene terephthalate; PA polyamide resin
a Contaminated fish specimens and length, and polymer type of each MPs detected. b Sample spectra of MP polymers obtained by 785 nm source, magnification 50 × , 1–5% range of laser intensity, 10 s acquisition time, 1 accumulation. Spectra processed by smoothing and background, peaks removed. PS polystyrene
Microplastics distribution and possible ingestion by fish in lacustrine waters (Lake Bracciano, Italy)

May 2022

·

226 Reads

·

10 Citations

Environmental Science and Pollution Research

Understanding the spatial distribution patterns of microplastics (plastics < 5 mm) contributes to the assessment of sources and sinks of pollution thus providing information for the management of biota safety and overall ecosystem functionality. We chose a semi-closed study area, Lake Bracciano (Italy), to assess the environmental variability of contamination, focusing on the water compartment and the exposure of biota, specifically fish, by analysing the ingestion of microplastics. The focus of this study is to evaluate the concentration of microplastics in water (surface and column) across the lake and the ingestion of microplastics by two fish species of economic interest: Atherina boyeri and Coregonus lavaretus, inhabiting demersal and pelagic habitats respectively. Results show a surface contamination of 392,000 ± 417,000 items km⁻² and a column one of 0.76 ± 1.00 items m⁻³. Fragments were the most abundant in surface while fibres in the column. Microplastics were found in C. lavaretus specimens, corresponding to contamination frequency of 5% and concentration of 0.15 items/fish. The main polymer found in water was polyethylene (81%); of minor percentages, there were various other polymers, including polystyrene and acrylic, which were also found in fish. As scientific literature provides few research where water and fish are simultaneously sampled, this investigation wants to contribute filling this knowledge gap by investigating for the first time a volcanic lake.


Anthosart Green Tool: Selecting Species for Green Infrastructure Design

September 2021

·

25 Reads

·

1 Citation

The environmental and economic costs of greenery depend on the planning criteria adopted and on the plants used. These costs can become more sustainable and can also be significantly lowered by using native flora and getting inspired by local plant communities. Nature-based solutions entail the use of species that co-occur naturally, thus replicating a model of coexistence consolidated by the evolutionary coherence of the biosphere. Planning, using and (re-)producing – getting inspired by natural ecosystems – may foster the dissemination of ecological awareness, with gardens, avenues, rooftops, walls and balconies seen as spaces available for the urban reconciliation with nature. The Anthosart Green Tool may support these actions, as a freely accessible online tool dedicated to the species belonging to the Italian flora, by recognizing their value as environmental and cultural assets. This tool is designed for those who want to engage in greenery design work using wild species, discover their potentials in terms of ethnobotanical knowledge and seek out information on the species of the flora of Italy.


Figure 2. Water thermal profiles in 2019 of: (a) Lake Bracciano, (b) Lake Albano, and (c) Lake Nemi (data from two sampling dates in the month of May are available: May = 6 May 2019 and May2 = 31 Figure 2. Water thermal profiles in 2019 of: (a) Lake Bracciano, (b) Lake Albano, and (c) Lake Nemi (data from two sampling dates in the month of May are available: May = 6 May 2019 and May2 = 31 May 2019). Blue lines represent temperature profiles of the mixing phase, during which little or no differences between the surface and deep layers of the water column were observed. Red lines represent thermal stratification, where the water column is divided into epilimnion (top, warmer layer), metalimnion (with rapid temperature change), and hypolimnion (bottom, colder layer).
Sentinel-2 image acquisition dates and sampling dates ("-" indicates the absence of suitable satellite data).
Water Mixing Conditions Influence Sentinel-2 Monitoring of Chlorophyll Content in Monomictic Lakes

July 2021

·

345 Reads

·

8 Citations

Prompt estimation of phytoplankton biomass is critical in determining the ecological quality of freshwaters. Remote Sensing (RS) may provide new opportunities to integrate with situ traditional monitoring techniques. Nonetheless, wide regional and temporal variability in freshwater optical constituents makes it difficult to design universally applicable RS protocols. Here, we assessed the potential of two neural networks-based models, namely the Case 2 Regional CoastColour (C2RCC) processor and the Mixture Density Network (MDN), applied to MSI Sentinel-2 data for monitoring Chlorophyll (Chl) content in three monomictic volcanic lakes while accounting for the effect of their specific water circulation pattern on the remotely-sensed and in situ data relation. Linear mixed models were used to test the relationship between the remote sensing indices calculated through C2RCC (INN) and MDN (IMDN), and in situ Chl concentration. Both indices proved to explain a large portion of the variability in the field data and exhibited a positive and significant relationship between Chl concentration and satellite data, but only during the mixing phase. The significant effect of the water circulation period can be explained by the low responsiveness of the RS approaches applied here to the low phytoplankton biomass, typical of the stratification phase. Sentinel-2 data proved their valuable potential for the remote sensing of phytoplankton in small inland water bodies, otherwise challenging with previous sensors. However, caution should be taken, since the applicability of such an approach on certain water bodies may depend on hydrological and ecological parameters (e.g., thermal stratification and seasonal nutrient availability) potentially altering RS chlorophyll detection by neural networks-based models, despite their alleged global validity.


Main morphometric and hydrological features of Lake Albano.
An Integrated Approach to Chlorophyll Monitoring in Surface Freshwater: The Case Study of Lake Albano (Central Italy)

April 2021

·

79 Reads

·

4 Citations

Water

Inland freshwaters are of great importance for human health and activities, but major stressors such as nutrient pollution, deforestation, and urbanization are compromising their status. Water quality degradation and freshwater ecosystem preservation are current issues worldwide requiring frequent and efficient monitoring protocols. The increasing need for large amounts of data to comply with national and international regulations on water quality monitoring highlights traditional procedures limits. Therefore, the purpose of the present study is to investigate the potential of alternative and rapid methods for chlorophyll concentration surveys in freshwaters. The Phyto-PAM (pulse amplitude-modulated) instrument and the Case-2 Regional Coast Colour (C2RCC) satellite image processor were selected to estimate chlorophyll concentration in the surface waters of Lake Albano (Central Italy), selected as a pilot area for the project BLOOWATER (Water JPI 2018 Joint Call Closing the Water Cycle Gap). The correlation tests’ results indicate significant relations with chlorophyll data measured spectrophotometrically, confirming the suitability of both methods for chlorophyll retrieval. However, the relatively low strength of the correlation between remotely sensed and spectrophotometric data (r = 0.57, p < 2.2 × 10−16) was not as satisfactory as with Phyto-PAM values (r = 0.97, p = 1.2 × 10−4). Even though the techniques in this study proved to be promising in the water body under investigation, their current limitations suggest the need for further calibration and integration with other systems (e.g., unmanned aerial vehicles).


Figure 5. Frequency of grain size sediment for each station divided for riverbed (SE), left riverbank (SX) and right riverbank (DX). Gravel: particles > 2 mm, sand: 0.063 mm < particles < 2 mm, mud: particles < 0.063 mm.
Plastic concentration for water and sediment of rivers flowing into the Mediterranean Sea.
Global Positioning System (GPS) coordinates of the stations on River Mignone sampled for water, sediments and macroinvertebrates during July 2018.
Plastic concentration in water, sediments and caddisfly cases along River Mignone.
Cont.
Transport and Deposition of Microplastics and Mesoplastics along the River Course: A Case Study of a Small River in Central Italy

November 2020

·

457 Reads

·

49 Citations

Hydrology

The release of plastics in freshwater is an increasing concern for ecosystem safety worldwide. There is a large knowledge gap on plastic pollution in Mediterranean freshwater, especially regarding surveys along entire river courses, partly due to the absence of guidelines for standardized monitoring of plastics. The present study analyzes the plastic distribution from source to mouth, also according to the River Continuum Concept, of the environmental matrices (water and sediments) and biota (caddisfly cases) of the Mediterranean River Mignone and their cause-effect relationship. The results of the water quality indices (Extended Biotic Index and Fluvial Functionality Index) were compared with the plastic concentrations observed in the water and sediments to explore what relationship there might be and to understand if the indices could be a proxy of the plastic pollution. Our results showed a significant prevalence of blue fibers, the concentration of which in water and sediment is positively associated. Plastic concentration at each site was not accurately detected by the water quality indices. These results may suggest that the factors considered by water quality indices are not able to detect the contamination of plastic pollution. It is mandatory to identify new tools for assessing the plastic impacts on river ecosystems.


Citations (11)


... Several intertidal species exposed to microplastics on the beach were observed during sampling, including beetles (larva and adult), gastropods (Patella), decapods (crabs), isopods (pill-bugs), amphipods (sandhoppers), and cirripeds. Numerous studies have shown that MPs are consumed by intertidal species such as sandhoppers (Iannilli et al., 2018) and barnacles , potentially promoting the transfer of MPs from one level to another within the food web and posing direct or indirect risks to human life. There is disagreement about whether the amount of plastics measured at sea has kept up with global plastic production over the last few decades (Van Sebille et al., 2020;Lebreton and Andrady, 2019;Geyer et al., 2017). ...

Reference:

Persistence and potential increasing accumulation of microplastic pollution on the Skikda coast (northeastern Algeria)
Microplastics in Talitrus saltator (Crustacea, Amphipoda): new evidence of ingestion from natural contexts
  • Citing Article
  • August 2024

Environmental Science and Pollution Research

... This characteristic, and their trophic role (primary consumers, detritivores, and polyphages) in aquatic environments, make them particularly suitable as bioindicators in toxicity tests [55]. MPs ingestion was documented in several marine species [56][57][58], and studies tested the MPs toxicity and genotoxicity on them at a lab scale [59][60][61][62]. ...

Uncovering the Hidden Dangers of Microplastic Pollution in Lake Ecosystems: Effects of Ingestion on Talitrid Amphipods

Environments

... The absence of toxic effects on the growth of L. minor plants exposed to MPs is consistent with few reports found in the literature on this subject. Similarly, no visible signs of toxicity were recorded in the leaves of Spirodela polyrhiza plants treated with polyethylene microplastics (PE MPs) (Iannilli et al. 2023). Dovidat et al. (2020) observed that exposure of S. polyrhiza plants to PS MPs resulted in unchanged growth, while Kalčíková et al. (2017) did not detect effects on the number of fronds of L. minor. ...

Microplastic Toxicity and Trophic Transfer in Freshwater Organisms: Ecotoxicological and Genotoxic Assessment in Spirodela polyrhiza (L.) Schleid. and Echinogammarus veneris (Heller, 1865) Treated with Polyethylene Microparticles

Water

... In fact, very little is known about the freshwater environmental risk of microplastic contamination (Pan et al., 2021). Recent works recognize that the link between environmental contamination and MPs ingestion by fish is rarely investigated (Cera et al., 2022). However, MPs ingestion has been regularly observed in different taxa (vertebrates and invertebrates) (Andrade et al., 2019). ...

Microplastics distribution and possible ingestion by fish in lacustrine waters (Lake Bracciano, Italy)

Environmental Science and Pollution Research

... Currently, various optical satellite imaging systems have been utilized for estimating Chla, including the Coastal Zone Colour Scanner (CZCS) (Conkright et al., 2003), Seaviewing Wide Field Sensor (SeaWiFS) (Gholizadeh et al., 2016), Medium Resolution Imaging Spectrometer (MERIS) (Moses et al., 2012;Augusto-Silva et al., 2014), Moderate Resolution Imaging Spectroradiometer (MODIS) Li et al., 2019), Geostationary Ocean Colour Imager (GOCI) (Kim et al., 2016), Ocean and Land Colour Instrument (OLCI) (Werther et al., 2021;Kravitz et al., 2020), Landsat 8 OLI (Kuhn et al., 2019;Pu et al., 2019;Cao et al., 2020), and Sentinel-2 (S2) (Sent et al., 2021;Ogashawara et al., 2021;Niroumand-Jadidi et al., 2021). Among the numerous optical satellite datasets available, Sentinel-2B MSI (S2B) data have garnered recognition as a promising tool for Chla retrieval in inland waters (Niroumand-Jadidi et al., 2021;Perrone et al., 2021). The selection of this sensor is primarily motivated by its temporal coverage (10 days), spatial resolution (up to 10 meters), and easy accessibility. ...

Water Mixing Conditions Influence Sentinel-2 Monitoring of Chlorophyll Content in Monomictic Lakes

... Broad-scale and long-term data are crucial as they provide information on the dynamics of litter along the river course, facilitate monitoring of inputs from possible sources and can identify trends over time. This is particularly important in order to generate data that can be used for policy-making decisions to reduce plastic litter generation and littering (Gallitelli et al., 2020). ...

Transport and Deposition of Microplastics and Mesoplastics along the River Course: A Case Study of a Small River in Central Italy

Hydrology

... Litter items are classified as macro-plastics (>25 mm), meso-plastics (5 mm-25 mm), MPs (<5 mm), and nano-plastics (<1 μm), posing remarkable threats to biodiversity and ecosystems (Sharma and Chatterjee, 2017;Iannilli et al., 2020;Andrady, 2022;Caruso et al., 2023) as well as for food security and safety and human health (Barboza et al., 2018). In fact, once dispersed in marine environments, plastic items are exposed to mechanical and physicochemical degradation processes that lead to the formation of secondary MPs, subdivided in different categories: fragments, films, filaments, granules, and foam (Zhang et al., 2021). ...

Plastic abundance and seasonal variation on the shorelines of three volcanic lakes in Central Italy: can amphipods help detect contamination?

Environmental Science and Pollution Research

... This coastal wetland represents a hotspot of biodiversity for plants and animals , where the presence of species such as Eryngium maritimum (Linnaeus, 1753), Elymus farctus (Runemark ex Melderis, 1978) is documented as well as many animal species such as Mugil cephalus (Linnaeus, 1758), Anguilla anguilla (Linnaeus, 1758), Pseudopidalea viridis (Laurenti, 1768), Natrix natrix (Linnaeus, 1758), Procambarus clarkii (Girard, 1852). Several studies were performed about invertebrates for this wetland: Romiti et al. (2021) investigated the impact of anthropogenic litter on sand-dwelling beetles; Battisti et al. (2023) highlighted the occurrence of the alien invasive crab Callinectes sapidus; Amori and Battisti (2007) and Scalici et al. (2010) provided an account of alien species richness and composition, including several invertebrates like Procambarus clarkii, Stenopelmus rufinasus; Iannilli et al. (2018) described evidences of microplastics in Talitrus saltator. Here, for the first time, we investigated macroplastic colonization by macroinvertebrates. ...

Microplastics in Talitrus saltator (Crustacea, Amphipoda): new evidence of ingestion from natural contexts

Environmental Science and Pollution Research

... The estimated contribution of TWPs to global microplastic pollution in oceans is 5-10% [12]. Based on a recent modelling study, it is estimated that 1.2 kt of TWPs are exported to the Atlantic Ocean by European rivers [67]. Additionally, in surface waters and sediments of Charleston Harbour and Winyah Bay, black microplastic fragments were highly abundant, and those were believed to be from TWPs [68]. ...

Microplastic pollution in the surface waters of Italian Subalpine Lakes
  • Citing Article
  • February 2018

Environmental Pollution

... However, some positive impacts were also observed. Pietrelli et al. [74] demonstrated how seagrass detritus traps MPP and transfers it to the shore via egagropiles, ball-shaped masses of seagrass detritus, enhancing the water quality of surrounding areas. Furthermore, plastic bottles in a seagrass meadow were found to be correlated with increased community biodiversity and abundance [75]. ...

Pervasive plastisphere: First record of plastics in egagropiles ( Posidonia spheroids)
  • Citing Article
  • August 2017

Environmental Pollution