Harmful algae in the Paranaguá Estuarine Complex, Brazil: a spatio-temporal assessment

Mafra Jr., Luiz Laureno; Escobar, Bruno Pimenta; Fernanda Sobrinho, Bruna

doi:10.1590/2675-2824072.23103

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Ocean and Coastal Research

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Original Article • Ocean Coast. Res. 72 (suppl 1) • 2024 • https://doi.org/10.1590/2675-2824072.23103 copy

Harmful algae in the Paranaguá Estuarine Complex, Brazil: a spatio-temporal assessment

Authorship SCIMAGO INSTITUTIONS RANKINGS

ABSTRACT

Harmful algal blooms (HABs) can negatively affect coastal water quality, aquatic fauna, and human health from the consumption of toxin-contaminated seafood. Estuaries are especially prone to the incidence of these noxious events and sensitive to the associated damage. This study represents a comprehensive overview of previous investigations reporting the occurrence of harmful algae and/or phycotoxins in the Paranaguá Estuarine Complex (CEP), in Southern Brazil. Secondary data from 2002 to 2021 were combined with new results obtained from widely spaced sampling campaigns performed from 2018 to 2019 to assess the periods and estuarine sectors at greater risk for the incidence of HABs. In total, about 600 water/sediment samples containing harmful microalgae and 675 tissue samples of phycotoxin-contaminated fauna were analyzed. The most frequent and abundant species of potentially toxic microalgae were dinoflagellates belonging to the species complexes Dinophysis acuminata and Prorocentrum lima, producers of diarrhetic shellfish toxins (DSTs), and diatoms of the genus Pseudo-nitzschia, producers of amnesic shellfish toxins (ASTs). Okadaic acid, a DST, was by far the most common toxin in the fauna, reaching higher levels in primary consumers such as bivalve mollusks (mussels, oysters, and clams), zooplankton, and suspension-feeding crustaceans (ghost shrimps), and moderate to low levels in cephalopods, fishes, gastropods, echinoderms, sea turtles, seabirds, and cetaceans. Less rainy periods (winter-early spring) were associated with the highest incidence of DSTs and blooms of their producing algae P. lima and Dinophysis spp., mainly in the middle region of Paranaguá Bay and on the shallow continental platform adjacent to the estuarine mouth. However, certain HAB-forming species may be more successful in inner estuarine areas ( Prorocentrum cordatum) and during different periods, such as late summer—early fall ( Pseudo-nitzschia spp.). Continuous monitoring of harmful algae and toxins is therefore highly recommended to mitigate the effects of HABs in the entire estuary.

Keywords:
Algal blooms; Marine phytoplankton; Toxin accumulation; Brazilian coast; Subtropical estuary

Risk	Species^* * Raphidophytes were excluded because they are seldom found/counted in preserved samples.	Potential Effect	Level 1	Level 2	Level 3	Level 4	Level 5
Type 1	Dinophysis acuminata	DSTs	-	-	-	100=1000	>1000
	Dinophysis caudata	DSTs	-	-	-	100-1000	>1000
	Dinophysis fortii	DSTs	-	-	-	100-1000	>1000
	Dinophysis rotundata	DSTs	-	-	-	100-1000	>1000
	Dinophysis tripos	DSTs	-	-	-	100-1000	>1000
	Gymnodinium catenatum	PSTs	-	-	-	presence	>1000
	Phalacroma rotundatum	DSTs	-	-	-	100-1000	>1000
	Prorocentrum lima	DSTs	-	-	-	100-1000	>1000
	Pseudo-nitzschia spp .	ASTs	-	-	-	<100.000	>100.000
Type 2	Amphora spp.	ASTs	-	50.000-80.000	80.000-100.000	>100.000	-
	Anabaena spp .	ATXs, MCs		<8000	8000-10.000	>10.000
	Cochlodinium spp .	Fish mortality	-	<8000	8000-10.000	>10.000	-
	Dinophysis spp.	DSTs	-	<100	100-1000	>1000	-
	Gonyaulax spp.	PSTs	-	<8000	8000-10.000	>10.000	-
	Gyrodinium spp .	Fish mortality	-	<10.000	10.000-100.000	>100.000	-
	Lingulodinium spp .	YTXs	-	<10.000	10.000-100.000	>100.000	-
	Nitzschia spp .	ASP	-	50.000-80.000	80.000-100.000	>100.000	-
	Phalacroma spp .	DSP		<100	100-1000	>1000	-
	Polykrikos spp.	Fish mortality		<8000	8000-10.000	>10.000	-
	Prorocentrum cordatum	Unknown toxins		<10.000	10.000-100.000	>100.000	-
	Prorocentrum spp .	Multiple toxins	-	<10.000	10.000-100.000	>100.000	-
Type 3	Coscinodiscus spp.	High biomass	<10.000	10.000-100.000	>100.000	-	-
	Coscinodiscus wailesii	High biomass	<8000	8000-10.000	>10.000	-	-
	Trichodesmium spp .	Unknown toxins	<8000	8000-10.000	>10.000	-	-

Species	Maximum density	Periods		Reference
Coscinodiscus wailesii	5.6×10 ⁴ cells L ^-1	April	Late rainy season	Fernandes and Brandini (2004)
	1.4×10 ⁴ cells L ^-1	February to April		Mafra et al. ( 2006Mafra, L. L. Jr., Fernandes, L. F. & Proença, L. A. O. 2006. Harmful algae and toxis in paranaguá bay, Brazil: bases for monitoring. Brazilian Journal of Oceanography, 54(2–3), 107–121. DOI: https://doi.org/10.1590/s1679-87592006000200002 https://doi.org/10.1590/s1679-8759200600... )
Chatonella spp.	3.6×10 ⁴ cells L ^-1	June October	Late rainy season Early rainy season	Mafra et al. ( 2006Mafra, L. L. Jr., Fernandes, L. F. & Proença, L. A. O. 2006. Harmful algae and toxis in paranaguá bay, Brazil: bases for monitoring. Brazilian Journal of Oceanography, 54(2–3), 107–121. DOI: https://doi.org/10.1590/s1679-87592006000200002 https://doi.org/10.1590/s1679-8759200600... )
Dinophysis acuminata complex	4.6×10 ³ cells L ^-1	September to December	Early rainy season	Mafra et al. ( 2006Mafra, L. L. Jr., Fernandes, L. F. & Proença, L. A. O. 2006. Harmful algae and toxis in paranaguá bay, Brazil: bases for monitoring. Brazilian Journal of Oceanography, 54(2–3), 107–121. DOI: https://doi.org/10.1590/s1679-87592006000200002 https://doi.org/10.1590/s1679-8759200600... )
Gymnodinium catenatum	6.4×10 ³ cells L ^-1	August and October	Late rainy season	Mafra et al. ( 2006Mafra, L. L. Jr., Fernandes, L. F. & Proença, L. A. O. 2006. Harmful algae and toxis in paranaguá bay, Brazil: bases for monitoring. Brazilian Journal of Oceanography, 54(2–3), 107–121. DOI: https://doi.org/10.1590/s1679-87592006000200002 https://doi.org/10.1590/s1679-8759200600... )
Prorocentrum cordatum	1.3×10 ⁵ cells L ^-1	June to September	Dry season Rainy season	Anderle ( 2004Anderle, P. N. 2004. Fitoplâncton na baía de Paranaguá, Paraná, Brasil (thesis). Setor de Ciências Biológicas, Departamento de Botânica, Universidade Federal do Paraná, Curitiba. Accessed on May 26 2023: https://acervodigital.ufpr.br/handle/1884/32259?show=full. https://acervodigital.ufpr.br/handle/188... )
	1.7×10 ⁴ cells L ^-1	October to April		Mafra et al. ( 2006Mafra, L. L. Jr., Fernandes, L. F. & Proença, L. A. O. 2006. Harmful algae and toxis in paranaguá bay, Brazil: bases for monitoring. Brazilian Journal of Oceanography, 54(2–3), 107–121. DOI: https://doi.org/10.1590/s1679-87592006000200002 https://doi.org/10.1590/s1679-8759200600... )
Pseudo-nitzschia spp.	1.5×10 ⁴ cells L ^-1 3.2×10 ⁴ cells L ^-1	February to April January to March	Rainy season Rainy to dry season	Anderle ( 2004Anderle, P. N. 2004. Fitoplâncton na baía de Paranaguá, Paraná, Brasil (thesis). Setor de Ciências Biológicas, Departamento de Botânica, Universidade Federal do Paraná, Curitiba. Accessed on May 26 2023: https://acervodigital.ufpr.br/handle/1884/32259?show=full. https://acervodigital.ufpr.br/handle/188... ) Mafra et al. ( 2006Mafra, L. L. Jr., Fernandes, L. F. & Proença, L. A. O. 2006. Harmful algae and toxis in paranaguá bay, Brazil: bases for monitoring. Brazilian Journal of Oceanography, 54(2–3), 107–121. DOI: https://doi.org/10.1590/s1679-87592006000200002 https://doi.org/10.1590/s1679-8759200600... )
	14.4×10 ⁴ cells L ^-1	March to August		Fernandes and Brandini (2004)
Phaeocystis spp.	1.1×10 ⁶ cells L ^-1	June to September September to December	Dry season Early rainy season	Mafra et al. ( 2006Mafra, L. L. Jr., Fernandes, L. F. & Proença, L. A. O. 2006. Harmful algae and toxis in paranaguá bay, Brazil: bases for monitoring. Brazilian Journal of Oceanography, 54(2–3), 107–121. DOI: https://doi.org/10.1590/s1679-87592006000200002 https://doi.org/10.1590/s1679-8759200600... )

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[1] ^* Corresponding author: luiz.mafra@ufpr.br