Impact of Plastic Debris on the Gut Microbiota of Caretta caretta From Northwestern Adriatic Sea

Biagi, Elena; Musella, Margherita; Palladino, Giorgia; Angelini, Valeria; Pari, Sauro; Roncari, Chiara; Scicchitano, Daniel; Rampelli, Simone; Franzellitti, Silvia; Candela, Marco

doi:10.3389/fmars.2021.637030

Cited by 27 publications

(19 citation statements)

References 91 publications

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“…The characteristics of plastic elements make them one of the primary pollutants in ecosystems, mainly due to their tendency to fragment into small particles, such as microplastics and nanoplastics [23][24][25][26][27][28]; and by the emission, due to ultraviolet radiation from the sun, of some chemical substances that are added during the manufacturing process (additives) to improve the characteristics of the plastic (e.g., biophenol) [29,30]. Unfortunately, the dumping of plastic waste is a common practice and marine ecosystems have experienced the highest incidence of dumping [31,32], which 2 of 19 affects their flora and fauna [25], and its associated microbiome [33]; as well as their physical environment [34]. Negative externalities have also affected terrestrial ecosystems and agriculture has become a source of pollution, particularly in the case of intensive agriculture due to the massive use of inputs made from plastics [18,22].…”

Section: Introductionmentioning

confidence: 99%

The Management of Agriculture Plastic Waste in the Framework of Circular Economy. Case of the Almeria Greenhouse (Spain)

Segura

Ureña

Camacho‐Ferre

et al. 2021

IJERPH

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In recent decades, ecosystems have suffered diverse environmental impacts caused by anthropogenic activities, including the dumping of plastic waste. This situation has prompted the European Union to introduce a new policy based on the circular economy. In this study, the present state and future perspectives on the generation and treatment of plastic waste in the intensive agriculture of Almeria (Spain) are analyzed. This activity generates 1503.6 kg·ha−1·year−1, on average, of plastic waste with an approximate treatment cost of 0.25 €/kg. The present study shows that the volume of plastic waste from intensive agriculture in Almeria is constantly increasing (48,948.2 tons in 2020/21) and it is suggested that the current management system does not meet the needs of the sector. Although it presents great opportunities for improvement under the framework of the circular economy. Furthermore, this work reports a direct relationship between the price of the raw materials needed for the production of plastic and the volume of recycled plastics. For this reason, it would be advisable for the administration to consider the implementation of a tax rebate system for the sector and specifically when the petroleum derivatives used to manufacture plastic are less expensive, and the recycling option is not so attractive.

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Section: Introductionmentioning

confidence: 99%

The Management of Agriculture Plastic Waste in the Framework of Circular Economy. Case of the Almeria Greenhouse (Spain)

Segura

Ureña

Camacho‐Ferre

et al. 2021

IJERPH

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“…There are multiple factors that may alter the microbiota detected in the feces of sea turtles, including but not limited to health status, diet, age, location, treatment, and debris [46][47][48]. Ahasan et al investigated the effect of antibiotics versus bacteriophage therapy on the fecal microbiota of juvenile green turtles raised in captivity from emergence [46].…”

Section: Fecal Samplesmentioning

confidence: 99%

“…Ingestion of foreign items is a threat to sea turtles and is likely the result of indiscriminate feeding or mistaking foreign objects as food, as such there is growing concern about the effect that plastic may have after ingestion [45]. Ingested plastic debris can act as a vehicle for microbes, chemical pollutants, and toxic compounds [45,47]. Additionally, plastic debris have the potential to cause epithelial damage to the gastrointestinal tract during passage and can result in local inflammation, which may alter the environment within the gastrointestinal tract [47].…”

Section: Fecal Samplesmentioning

confidence: 99%

What lives on and in the sea turtle? A literature review of sea turtle bacterial microbiota

Kuschke

2022

anim microbiome

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Within the United States, all populations of sea turtles are listed as threatened or endangered under the Endangered Species Act. Identifying methods of supporting health, preventing disease, and treating disease is essential for conservation and management strategies for all species. Over the last few decades, advances in technology and high throughput sequencing have allowed a proliferation of research into core microbiota and microbiomes in humans and animals. Such investigations have proven that microbiota on and within a host can influence physiology, immunity, and development. Accordingly, a comprehensive understanding of microbiota is essential for unearthing the complex relationships within a microbiome and how those interactions and relationships can be used to promote health and prevent or treat disease. The goal of this review is to summarize the current microbiota research available across all species of sea turtles and identify any emerging trends. Methodological differences made it challenging to draw conclusions across studies, but it is apparent that each anatomical location investigated has a unique core microbiota with some potential overlap. In the future, unifying methodology across microbiota studies will allow broader conclusions to be drawn across all anatomic locations and species of sea turtles. These conclusions will then allow clinicians and conservationists to apply the research results in the field. Additionally, future efforts should include a wider range of organisms including fungi, viruses, parasites, epibiota, and archaea to unveil essential relationships among and between the organisms and host for maintenance of a healthy microbiome.

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“…Although these and other studies have provided important glimpses on the interaction processes between the gut microbiome and MPs, the results are mostly focused on model organisms and were obtained under laboratory conditions, exposing mice to MPs comprised of a single polymer and shape at concentrations that might not reflect actual exposure. In a recent study, Biagi et al [48] explored the connections between microbiome composition and gastrointestinal plastic contamination in real-world conditions, i.e., in live loggerhead sea turtles (Caretta caretta) rescued form the Northwestern Adriatic Sea. According to authors, 48 Operational Taxonomic Units (OTUs) showed increased abundance with an increasing plastic content in the feces.…”

Section: Impact Of Microplastics On the Human Gut Ecologymentioning

confidence: 99%

“…The study by Biagi et al [48] indicate that, under real-world conditions, MPs have the potential to affect the gut microbiome, shaping its compositional structure, both directly and indirectly, and facilitating dysbiotic transitions. This evidence, coupled with recent findings showing a relevant MP burden in the human gut, support the importance of quantitatively assessing both the exposure and hazards of MPs in the human gut, allowing for the deduction of real-world risks and outcomes of dybiotic gut microbiome changes.…”

Section: Conclusion and Future Perspectivementioning

confidence: 99%

Microplastics shape the ecology of the human gastrointestinal intestinal tract

Turroni

Wright

Rampelli

et al. 2021

Current Opinion in Toxicology

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Impact of Plastic Debris on the Gut Microbiota of Caretta caretta From Northwestern Adriatic Sea

Cited by 27 publications

References 91 publications

The Management of Agriculture Plastic Waste in the Framework of Circular Economy. Case of the Almeria Greenhouse (Spain)

The Management of Agriculture Plastic Waste in the Framework of Circular Economy. Case of the Almeria Greenhouse (Spain)

What lives on and in the sea turtle? A literature review of sea turtle bacterial microbiota

Microplastics shape the ecology of the human gastrointestinal intestinal tract

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