A new look at the potential role of marine plastic debris as a global vector of toxic benthic algae

Isabel do Prado Leite; André Menegotto; Paulo da Cunha Lana; Luiz Laureno Mafra Júnior

doi:10.1016/j.scitotenv.2022.156262

A new look at the potential role of marine plastic debris as a global vector of toxic benthic algae

Sci Total Environ. 2022 Sep 10;838(Pt 3):156262. doi: 10.1016/j.scitotenv.2022.156262. Epub 2022 May 26.

Authors

Isabel do Prado Leite¹, André Menegotto², Paulo da Cunha Lana³, Luiz Laureno Mafra Júnior³

Affiliations

¹ Center for Marine Studies, Federal University of Paraná, Av. Beira-mar, s/n, 61, Pontal do Paraná, PR 83255-976, Brazil. Electronic address: isabel.prado@ufpr.br.
² Department of Ecology, Federal University of Goiás, Av. Esperança, s/n, Campus Samambaia, Goiânia, GO 74690-900, Brazil.
³ Center for Marine Studies, Federal University of Paraná, Av. Beira-mar, s/n, 61, Pontal do Paraná, PR 83255-976, Brazil.

PMID: 35643140
DOI: 10.1016/j.scitotenv.2022.156262

Abstract

Marine plastic debris provides a significant surface area for potential colonization by planktonic and benthic harmful microalgae and for the adsorption of their toxins. Furthermore, floating plastics may substantially expand the substrate area available for benthic algae in the ocean, intensifying the transfer of potent toxins through pelagic food webs. In this study, we quantify the available surface area of micro- and macroplastics in different oceanic regions and assess the potential role of floating plastics as vectors for the transfer of toxins from three widespread benthic dinoflagellates, Gambierdiscus spp., Ostreopsis cf. ovata and Prorocentrum lima. To avoid bias associated to the occurrence of benthic algae in deep waters, we selected only records from 0 to 100 m depths. We estimate that 26.8 × 10¹⁰ cm² of plastic surface area is potentially available in surface waters of the global ocean, mostly in the size range of large microplastics (1.01-4.75 mm). Based on the distribution of floating plastics and the habitat suitability of the selected microalgal species, the plastic relative colonization risks will be greater in the Mediterranean Sea and in the subtropical and temperate western margins of the oceans, such as the North American and Asian eastern coasts and, to a lesser extent, southern Brazil and Australia. In places where the colonization of O. cf. ovata cells on floating plastic debris has been properly quantified, such as the Mediterranean and southern Brazil, we estimate a colonization potential of up to 2 × 10⁶ cells km^-2 of ocean surface during the regular occurrence period and up to 1.7 × 10⁸ cells km^-2 during massive blooms of this species. As plastic pollution and harmful benthic algal blooms have both increased substantially over the past decades, we suggest that their interactive effects can become a major and novel threat to marine ecosystems and human health.

Keywords: Biotoxins; Environmental suitability model; Harmful algae; Marine plastic; Plastic colonization; Toxin transfer.

MeSH terms

Dinoflagellida*
Ecosystem
Harmful Algal Bloom
Humans
Mediterranean Sea
Microalgae*
Plastics / toxicity

Substances

Plastics