Finding the needle in a haystack: Evaluation of ecotoxicological effects along the continental shelf break during the Brazilian mysterious oil spill.

Oceanic oil spills present significant ecological risks that have the potential to contaminate extensive areas, including coastal regions. The occurrence of the 2019 oil spill event in Brazil resulted in over 3000 km of contaminated beaches and shorelines. While assessing the impact on benthic and beach ecosystems is relatively straightforward due to direct accessibility, evaluating the ecotoxicological effects of open ocean oil spills on the pelagic community is a complex task. Difficulties are associated with the logistical challenges of responding promptly and, in case of the Brazilian mysterious oil spill, to the subsurface propagation of the oil that impeded remote visual detection. An oceanographic expedition was conducted in order to detect and evaluate the impact of this oil spill event along the north-eastern Brazilian continental shelf. The pursuit of dissolved and dispersed oil compounds was accomplished by standard oceanographic methods including seawater polycyclic aromatic hydrocarbons (PAHs) analysis, biomass stable carbon isotope (δ13C), particulate organic carbon to particulate organic nitrogen (POC:PON) ratios, nutrient analysis and ecotoxicological bioassays using the naupliar phase of the copepod Tisbe biminiensis. Significant ecotoxicological effects, reducing naupliar development by 20-40 %, were indicated to be caused by the presence of dispersed oil in the open ocean. The heterogeneous distribution of oil droplets aggravated the direct detection and biochemical indicators for oil are presented and discussed. Our findings serve as a case study for identifying and tracing subsurface propagation of oil, demonstrating the feasibility of utilizing standard oceanographic and ecotoxicological methods to assess the impacts of oil spill events in the open ocean. Ultimately, it encourages the establishment of appropriate measures and responses regarding the liability and regulation of entities to be held accountable for oil spills in the marine environment.

Oil spills: The invisible impact on the base of tropical marine food webs.

The Brazilian oil spill, from August 2019 to January 2020, was considered the most extensive accident in tropical oceans. We estimated the concentration of oil droplets that may be available for ingestion by microzooplankton. The collection was carried out in three areas: estuarine plume, bay and reef (Tamandaré, Pernambuco coast). We highlight the contribution of coral larvae in the reef region, surpassing the copepods, evidencing a spawning event. Oil droplets were recorded in all the sampled areas, with a high numerical abundance in the plume. Traces of oil ingestion by Brachyura zoea and Calanoida, Paracalanidae and Oithonidae copepods were observed, suggesting that these groups might have an important role in the degradation and final destination of oil dispersed after spills. The vulnerability of the larval phases of crabs and reef-building corals has been hypothesized, suggesting that the negative effects of oil on zooplankton can affect the recruitment of benthic invertebrates.

Non-predatory mortality of planktonic copepods in a reef area influenced by estuarine plume.

Although it has been proven that non-predatory mortality accounts for a large proportion of copepod mortality, there is still a lack of knowledge of the temporal and spatial patterns and influence of environmental variables on non-predatory mortality, especially in tropical areas where reefs are influenced by estuarine plumes. This study evaluated the percentage of carcasses and the non-predatory mortality rates for planktonic nauplii and copepodites in a bay with the presence of reefs under the influence of an estuarine plume, in the Atlantic tropical region. The average percentage of carcasses was less than 13% for both nauplii and copepodites, and was close to the minimum for other marine environments. However, there was a variation according to the different families and life stages of planktonic copepods. Nauplii had the highest mortality rate, with a mean rate of 0.04 ± 0.02 day-1 (maximum, 0.11 day-1), while the copepodites had a mean of 0.03 ± 0.01 day-1 (maximum of 0.06 day-1). Non-predatory mortality was higher in the rainy season, and differed between the nearby studied areas (bay, plume and reefs). Considering the three areas separately, only the estuarine plume showed higher percentages of carcass and non-predatory mortality rates of nauplii and copepodites. The increase in mortality rates for some copepod families was influenced by high salinity and low values of chlorophyll-a, dissolved oxygen and pH. These results demonstrate that the non-predatory mortality of copepods varies in a complex mosaic of interconnected ecosystems, and that the relationships between environmental variables with some groups may indicate susceptibility of different stages and families to death due to specific environmental conditions.

A comunidade microfitoplanctônica do Arquipélago de São Pedro e São Paulo (Atlântico Norte-Equatorial): variação diurna e espacial / Microphytoplankton community of São Pedro e São Paulo Archipelago (Atlantic North Equatorial): diurnal and spatial variation

The present study was developed in the São Pedro and São Paulo Archipelago, with the objective to describe the structure of the microphytoplankton community, and establish its diurnal and spatial variation. The samplings were carried out in two stations (Enseada and Cabeço da Tartaruga) during five consecutive days (May 12 to 16, 2008) of the rainy season, during early morning and late afternoon, by subsurface horizontal hauls of 10 minutes duration with plankton net of 45 μm of mesh size. A total of 131 taxa were recorded, out of which 117 in Cabeço station and 89 in Enseada. The group of dinoflagellates was the most diverse, represented by 90 taxa belonging to 17 genera, highlighting the Ceratium genus with 33 species. The cyanophyceae Trichodesmium thiebautti Gomon ex Gomont was the only dominant species in the area, influencing the community structure, and serving as indicator species for the area. There was a greater number of species at the Cabeço than in Enseada. The marine planktonic oceanic species predominated, with 61.26 percent of the overall species richness. The diversity and evenness were in general higher in both sampling stations. At Cabeço station, the values of species diversity were between a minimum of 0.76 bits.cell-1 and a maximum of 4.27 bits.cell-1 and evenness varied between 0.16 and 0.84. At the Enseada station, it was registered a minimum of 2.91 bits.cell-1 and a maximum of 3.87 bits.cell-1, and evenness with minimum and maximum values of 0.64 and 0.84, respectively. The cluster analysis showed the formation of three distinct associations of species, with Cabeço and Enseada species in separate groups, highlighting the differences between the communities of the two studied sites. In each station, there was no significant difference between samples of different hours. The study area is characterized by a floristic composition typical of stable, transparent and oligotrophic waters.

O presente trabalho foi desenvolvido no Arquipélago de São Pedro e São Paulo, com o objetivo de descrever a estrutura da comunidade microfitoplanctônica, assim como estabelecer sua variação diurna e espacial. As amostras foram coletadas em duas estações (Cabeço da Tartaruga e Enseada) durante cinco dias consecutivos (12 a 16/05/08) do período chuvoso, nos horários da manhã e da tarde, por meio de arrastos horizontais subsuperficiais de 10 minutos de duração, com uma rede de plâncton com abertura de malha de 45 µm. Um total de 131 táxons foram registrados, dos quais 117 foram na estação Cabeço da Tartaruga e 89 na Enseada. O grupo dos dinoflagelados foi o mais diverso, representado por 90 táxons pertencentes a 17 gêneros, destacando-se o gênero Ceratium com 33 espécies. A cianofícea Trichodesmium thiebautti Gomont ex Gomon foi a única espécie dominante na área, influenciando a estrutura da comunidade, servindo como a espécie indicadora da área. Houve um número maior de espécies na estação Cabeço do que na Enseada. As espécies marinhas planctônicas oceânicas predominaram, com 61,26 por cento da riqueza total de espécies. A diversidade e a equitabilidade foram, no geral, altas em ambos locais de coleta. Na estação Cabeço, os valores de diversidade específica situaram-se entre o mínimo de 0,76 bits.cél-1 e máximo de 4,27 bits.cél-1 e a equitabilidade oscilou entre 0,16 e 0,84. Na Enseada, registraram-se mínimo de diversidade específica de 2,91 bits.cél-1 e máximo de 3,87 bits.cél-1, e equitabilidade com valores mínimo e máximo de 0,64 e 0,84, respectivamente. A análise de agrupamento mostrou a formação de três associações distintas de espécies, com espécies do Cabeço e da Enseada em grupos separados, evidenciando a diferença entre as comunidades dos dois locais estudados. Em cada estação, não houve diferença significativa entre as amostras dos diferentes horários. A área estudada está caracterizada por uma composição florística típica de ambiente estável, águas transparentes e oligotróficas.