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José Antônio Baptista Neto

Bio: José Antônio Baptista Neto is an academic researcher from Federal Fluminense University. The author has contributed to research in topics: Bay & Estuary. The author has an hindex of 18, co-authored 88 publications receiving 855 citations.


Papers
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Journal ArticleDOI
TL;DR: In this paper, a large proportion of the plastics found in the ocean are in the form of microplastics (i.e., micro-plastic fractions) and it is widely recognized as an important marine environmental pollutant.

122 citations

Journal ArticleDOI
TL;DR: This review aims to provide an updated overview of this emerging topic, reviewing the literature mainly from 2018 onwards and considering the effects of nanoplastics on ecosystems, their uptake and transport of polluting molecules, and the challenges that are faced by workers in this area.

110 citations

Journal ArticleDOI
TL;DR: In this article, the authors investigated the concentration of microplastic in the benthic sediment of Vitoria Bay estuarine system (SVB), SE Brazil, using scanning electron micrographs.

80 citations

Journal ArticleDOI
TL;DR: This review discusses detection, characteristics, sources and ecological effects of paint fragments in the authors' oceans, as well as the abundance of Paint fragments in MP samples around the world and their colonization by marine microorganisms, which differs from that of non-paint MPs.

76 citations

Journal ArticleDOI
01 Apr 2004
TL;DR: Guanabara Bay bottom sediments and seabed characteristics were analyzed using high-resolution (7 kHz) sub-bottom profiles associated with particle size analyses of 92 bottom sediment samples.
Abstract: Guanabara Bay bottom sediments and seabed characteristics were analysed using high-resolution (7 kHz) sub-bottom profiles associated with particle size analyses of 92 bottom sediment samples. Eight types of echo-characters were identified revealing the strong relation with the particle size distribution. Sandy bottom areas presented strong echo reflections, without sub-bottom penetration (Echo types I and III), while in muddy areas sub-bottom reflections showed the acoustic basement delineating buried sugar-loaf hills and infilled-valley features (Echo type IV). The presence of shallow gas within the sediments is indicated by acoustic blanket and a series of bottom-multiple reflections (Echo types Va and Vb). Erosion by bottom currents and artificial mechanical dredging are suggested by truncations of sub-bottom reflections and a wrinkled seabed surface (Echo types VI and VII). Crystalline basement outcrops on the seabed are recognized by multiple or single hyperbolae with varying elevations above the bay bottom (Echo type II).

58 citations


Cited by
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Journal ArticleDOI
TL;DR: The sources and global distribution of microplastics in the environment, the fate and impact on marine biota, especially the food chain are described and the control measures discussed are those mapped out by both national and international environmental organizations for combating the impact from microplastic pollution.

1,487 citations

Journal ArticleDOI

1,100 citations

Journal ArticleDOI
TL;DR: Because of the recent threat of microplastics to marine biota as well as on human health, it is important to control excessive use of plastic additives and to introduce certain legislations and policies to regulate the sources of plastic litter.
Abstract: Human populations are using oceans as their household dustbins, and microplastic is one of the components which are not only polluting shorelines but also freshwater bodies globally. Microplastics are generally referred to particles with a size lower than 5 mm. These microplastics are tiny plastic granules and used as scrubbers in cosmetics, hand cleansers, air-blasting. These contaminants are omnipresent within almost all marine environments at present. The durability of plastics makes it highly resistant to degradation and through indiscriminate disposal they enter in the aquatic environment. Today, it is an issue of increasing scientific concern because these microparticles due to their small size are easily accessible to a wide range of aquatic organisms and ultimately transferred along food web. The chronic biological effects in marine organisms results due to accumulation of microplastics in their cells and tissues. The potential hazardous effects on humans by alternate ingestion of microparticles can cause alteration in chromosomes which lead to infertility, obesity, and cancer. Because of the recent threat of microplastics to marine biota as well as on human health, it is important to control excessive use of plastic additives and to introduce certain legislations and policies to regulate the sources of plastic litter. By setup various plastic recycling process or promoting plastic awareness programmes through different social and information media, we will be able to clean our sea dustbin in future.

528 citations

Journal ArticleDOI
TL;DR: In this paper, the authors report catchmentwide patterns of microplastic contamination, classified by type, size and density, in channel bed sediments at 40 sites across urban, suburban and rural river catchments in northwest England.
Abstract: Microplastic contamination of the oceans is one of the world’s most pressing environmental concerns. The terrestrial component of the global microplastic budget is not well understood because sources, stores and fluxes are poorly quantified. We report catchment-wide patterns of microplastic contamination, classified by type, size and density, in channel bed sediments at 40 sites across urban, suburban and rural river catchments in northwest England. Microplastic contamination was pervasive on all river channel beds. We found multiple urban contamination hotspots with a maximum microplastic concentration of approximately 517,000 particles m−2. After a period of severe flooding in winter 2015/16, all sites were resampled. Microplastic concentrations had fallen at 28 sites and 18 saw a decrease of one order of magnitude. The flooding exported approximately 70% of the microplastic load stored on these river beds (equivalent to 0.85 ± 0.27 tonnes or 43 ± 14 billion particles) and eradicated microbead contamination at 7 sites. We conclude that microplastic contamination is efficiently flushed from river catchments during flooding.

488 citations

27 Feb 2015
TL;DR: This study confirms the indicated occurrence of potentially pathogenic Vibrio bacteria on marine microplastics and highlights the urgent need for detailed biogeographical analyses of marinemicroplastics.
Abstract: The qualitative and quantitative composition of biofilms on microplastic surfaces is widely unknown. A previous study (Zettler et al., 2013; EST) reports the presence of potentially pathogenic bacteria (Vibrio spp.) on floating microplastic particles. Hence microplastics could function as vectors for the dispersal of microorganisms to new habitats. Several Vibrio species are serious human pathogens. Contact with contaminated water and consumption of raw seafood are the main infection factors for Vibrio associated diseases. On research cruises to the North- and Baltic Sea, microplastic particles were collected and subjected to APW (alkaline peptone water) enrichment. Growth on selective CHROMagar™ Vibrio and further identification of isolates by MALDI-TOF (matrix assisted laser desorption/ionization time-of-flight) clearly indicate the presence of potentially pathogenic Vibrio spp. on microplastics. Our results highlight the urgent need for detailed microbiological analyses of floating microplastic particles in the future.

376 citations