Petroleum hydrocarbons in Brazilian Northeast continental shelf waters: baseline values Br

Authors

  • Eliete Zanardi-Lamardo
  • Carlos A.F Schettini

DOI:

https://doi.org/10.1590/2675-2824070.21078ezl

Keywords:

Chrysene, Carmópolis oil, Chlorophyll, Dissolved oxygen, Turbidity

Abstract

Water quality on the continental shelf off the eastern Brazilian Northeast region was investigated in two oceanographic campaigns during winter and summer, when vertical profiles of salinity, temperature, turbidity, chlorophyll and dissolved oxygen were recorded. Dissolved / dispersed petroleum hydrocarbons (DDPH) were also analyzed in sub-superficial water samples using fixed wavelength fluorescence spectroscopy methods. Shelf waters are dominated by Tropical Waters, with high salinity (> 36.5 g kg-1) and temperature (> 26 °C) and little continental influence. Turbidity was higher during winter, which may be due to the higher continental contribution and/or higher wave action. Chlorophyll was mostly < 1 µg L-1 and dissolved oxygen saturation was predominantly high (> 90%), but innermost costal stations were influenced by the Capibaribe estuary. Median DDPH concentrations were as low as 0.07 and 0.04 µg L-1 Carmópolis oil equivalents during winter and summer respectively, and 0.02 µg L-1 chrysene equivalent for both periods. An exception was observed off Suape Harbor (0.35 µg L-1 Carmópolis oil equiv. and 0.13 µg L-1 chysene equiv.), suggesting navigation activities as the main local source. The overall DDPH median of 0.06 μg L-1 Carmópolis oil equivalents and 0.02 μg L-1 chrysene equivalents are proposed as the baseline concentration for non-polluted coastal water for the tropical western Atlantic Ocean margin.

References

Arruda-Santos, RH; Schettini, CAF; Yogui, GT; Maciel, DC; Zanardi-Lamardo, E. 2018. Sources and distribution or aromatic hydrocarbons in a tropical marine protected area estuary under influence of sugarcane cultivation. Sci Total Environ. 624: 935-944.

Barcellos, RL; Melo, MCSS; Sial, AN; Manso, VAV. 2020. Sedimentary organic matter characterization on a tropical continental shelf in Northeastern Brazi. Int J Geosci. 11(6):101166

Bícego, MC; Zanardi-Lamardo, E; Taniguchi, S; Weber, RR. 2002. Natural levels of dissolved / dispersed petroleum hydrocarbons in the South West Atlantic. Mar Pollut Bull. 44: 1166-1169.

Bícego, MC; Zanardi-Lamardo, E; Taniguchi, S; Martins, CC; Silva, DAM; Sasaki, ST; Albergaria-Barbosa, ACR; Paolo, FS; Weber, RR; Montone, RC. 2009. Results from a 15-year study on hydrocarbon concentrations in water and sediment from Admiralty Bay, King George Island, Antarctica. Antarct Sci. 21: 209-220.

Boehm, P.D. 2005. Polycyclic Aromatic Hydrocarbons (PAHs). In: Morrison, R.D., Murphy, B.L. (Eds.), Environmental Forensics. Burlington, Academic Press, p. 313-337.

Boonyatumanond, R; Wattayakorn, G; Togo, A; Takada, H. 2006. Distribution and origins of polycyclic aromatic hydrocarbons (PAHs) in riverine, estuarine, and marine sediments in Thailand. Mar Pollut Bull. 52: 942-956.

Cavalcante, RM; Sousa, FW; Nascimento, RF; Silveira, ER; Freire, GSS. 2009. The impact of urbanization on tropical mangroves (Fortaleza, Brazil): evidence from PAH distribution in sediments. J Environ Manage. 91: 328-335.

Chen, CF; Chen, CW; Dong, CD; Kao, CM. 2013. Assessment of toxicity of polycyclic aromatic hydrocarbons in sediments of Kaohsiung Harbor, Taiwan. Sci Total Environ. 463-464: 1174-1181.

Dissanayake, A; Piggott, C; Baldwin, C; Sloman, KA. 2010. Elucidating cellular and behavioural effects of contaminant impact (polycyclic aromatic hydrocarbons, PAHs) in both laboratory exposed and field-collected shore crabs, Carcinusmaenas (Crustacea: Decapoda). Mar Environ Res. 70: 368-373.

Dominguez, EC; Schettini, CAF; Truccolo, EC; Oliveria Filho, JC. 2017. Hydrography and currents on the Pernambuco Continental Shelf. Brazilian Journal of Water Resources. 22, e43.

Ehrhardt, M. 1983. Determination of dissolved/dispersed hydrocarbons, in: Grasshoff, K., Ehrhardt, M., Kremling, K. (Eds.), Methods of seawater analysis, 2 ed. Verlag Chemie Weinheim, New York, pp. 190-281.

Ehrhardt, M; Petrick, G. 1989. Relative concentrations of dissolved/dispersed fossil fuel residues in Mediterranean surface waters as measured by UV fluorescence. Mar Pollut Bull. 20: 560-565.

IOC, 1984. Manual for Monitoring Oil and Dissolved/dispersed Petroleum Hydrocarbons in Marine Waters and on Beaches. Intergovernmental Oceanographic Commission, Manual and Guides 13. 35 pp.

Knap, AH; Burns, KA; Dawson, R; Ehrhardt, M; Palmork, KH. 1986. Dissolved/dispersed hydrocarbons, tarballs and the surface microlayer: Experiences from an IOC/UNEP Workshop in Bermuda, December, 1984. Mar Pollut Bull. 17: 313-319.

Law, RJ; Marchand, M; Dahlmann, G; Fileman, TW. 1987. Results of two bilateral comparisons of the determination of hydrocarbon concentrations in coastal seawater by fluorescence spectroscopy. Mar Pollut Bull. 18: 486-489.

Lemos, RTO; Carvalho, PSM; Zanardi-Lamardo, E. 2014. Petroleum hydrocarbons in water from a Brazilian tropical estuary facing industrial and port development. Mar Pollut Bull. 82: 183-188.

Li, Y; Zhao, Y; Peng, S; Zhou, Q; Ma, LQ. 2010. Temporal and spatial trends of total petroleum hydrocarbons in the seawater of Bohai Bay, China from 1996 to 2005. Mar Pollut Bull. 60: 238-243

Lourenço, RA; Combi, T; Alexandre, MR; Sasaki, ST; ZanardiLamardo, E; Yogui, GT. 2020. Mysterious oil spill along Brazil’s northeast and southeast seaboard (2019-2020): Trying to find answers and filling data gaps. Mar Pollut Bull. 156: 111219.

Maciel, DC; Souza JRB; Taniguchi, S; Bícego, MC; Zanardi-Lamardo, E. 2015a. Sources and distribution of polycyclic aromatic hydrocarbons in an urbanized tropical estuary and adjacent shelf, Northeast of Brazil. Mar Pollut Bull. 101: 429-433.

Maciel, DC; Costa, BVM; Santos, LPS; Souza, JRB; Zanardi-Lamardo, E. 2015b. Avaliação da toxicidade dos sedimentos do Sistema Estuarino do Capibaribe (Pernambuco, Brasil) utilizando o copépodo bentônico Tisbe biminiensis Volkmann Rocco (1973).Tropic Oceanogr. (Online) 43: 26-37.

Maciel, DC; Souza, JRB; Taniguchi, S; Bicego, MC; Schettini, CAF; Zanardi-Lamardo, E. 2016. Hydrocarbons in sediments along a tropical estuary-shelf transition area: sources and spatial distribution. Mar Pollut Bull. 113: 566-571.

Magi, E; Bianco, R; Ianni, C; Di Carro, M. 2002. Distribution of polycyclic aromatic hydrocarbons in the sediments of the Adriatic Sea. Environ Pollut. 119: 91-98.

Martins, CC; Bícego, MC; Mahiques, MM; Figueira, RL; Tessler, MG; Montone, RC. 2011. Polycyclic aromatic hydrocarbons (PAHs) in a large South American industrial zone area (Santos Estuary, Southeastern Brazil): sources and depositional history. Mar Pollut Bull. 63: 5-12.

Medeiros, PM; Bicego, MC; Castelao, RM; Del Rosso, C; Fillmann, G; Zamboni, AJ. 2005. Natural and anthropogenic hydrocarbon inputs to sediments of Patos Lagoon Estuary, Brazil. Environ Int. 31: 77-87.

Meire, RO; Azeredo, A; Torres, JPM. 2007. Aspectos ecotoxicológicos de hidrocarbonetos policíclicos aromáticos. Oecologia brasiliensis. 11: 188-201.

Mrdakovic, M; Ilijin, L; Vlahovic, M; Matic, D; Gavrilovic, A; Mrkonja; A, Peric-Mataruga, V. 2016. Acetylcholinesterase (AChE) and heat shock proteins (Hsp70) of gypsy moth (Lymantria dispar L.) larvae in response to long-term fluoranthene exposure. Chemosphere. 159: 565-569.

Quevauviller, PH; Cofino, W; Vijverberg, A; Wells, DE; Griepink, B. 1992. Quality assurance in marine monitoring. EUR Report, 14297 EN, European Commission, Brussels. Proceedings of the workshop held in Noordwijkerhout. 21-23, p 43.

Rahmanpoor, S; Ghafourian, H; Hashtroudi, SM; Bastami, KD. 2014. Distribution and sources of polycyclic aromatic hydrocarbons in surface sediments of the Hormuz strait, Persian Gulf. Mar Pollut Bull. 78: 224-229.

Schettini, CAF; Paiva, BP; Batista, RAL; Oliveira Filho, JC; Truccolo, EC. 2016a. Observation of na estuarine turbidity maximum in the highly impacted Capibaribe Estuary, Brazil. Braz J Oceanogr. 64:185-190.

Schettini, CAF; Miranda, JB; Valle-Levinson, A; Truccolo, EC. 2016b. The circulation of the lower Capibaribe estuary (Brazil) and its implications for the transport of scalars. Braz J Oceanogr. 64: 263-276.

Schettini, CAF; Domingues, EC; Truccolo, EC; Oliveira Filho, JC; Mazzini, PLF. 2017. Seasonal variability of water masses and currents at the eastern Brazilian continental shelf (7.5-9° S). Reg Stud Mar Sci. 16: 131-144.

Silva, DAM; Bícego, MC. 2010. Polycyclic aromatic hydrocarbons and petroleum biomarkers in São Sebastião Channel, Brazil: assessment of petroleum contamination. Mar Environ Res. 68(5): 277-286.

Silva, TF; Azevedo, DA; Aquino Neto, FR. 2007. Distribution of polycyclic aromatic hydrocarbons in surface sediments and waters from Guanabara Bay, Rio de Janeiro, Brazil. J Braz Chem Soc. 18: 628-637.

Torreiro-Melo, AGAG; Silva, JS; Bianchini, A; Zanardi-Lamardo, E; Carvalho, PSM. 2015. Bioconcentration of phenanthrene and metabolites in bile and behavioral alterations in the tropical estuarine guppy Poecilia vivipara. Chemosphere. 132: 17-23.

UNESCO 1981. Background papers and supporting data on the Pratical Salinity Scale 1978. UNESCO Techn. Papers Mar. Sci. 37, UNESCO, Paris, p. 144.

Venturini, M; Tommasi, LR. 2004. Polycyclic aromatic hydrocarbons and changes in the trophic structure and polychaete assemblages in sediments of Todos os Santos Bay, Northeastern Brazil. Mar Pollut Bull. 48: 97-107.

Wagener, ALR; Carreira, RS; Hamacher, C; Scofield, AL; Farias, CO; Cordeiro, LGMS; Luz, LG; Baêta, AP; Kalas, FA. 2011. Hydrocarbon composition and distribution in a coastal region under influence of oil production in northeast Brazil. Mar Pollut Bull. 62: 1877-1882.

Zaghden, H; Kallel, M; Elleuch, B; Oudot, J; Saliot, A. 2007. Sources and distribution of aliphatic and polyaromatic hydrocarbons in sediments of Sfax, Tunisia, Mediterranean Sea. Mar Chem. 105: 70-89

Zanardi, E; Bícego, MC; Weber, RR. 1999a. Dissolved/Dispersed Petroleum Aromatic Hydrocarbons in the São Sebastião Channel, São Paulo, Brazil.Mar Pollut Bull. 38: 410-413.

Zanardi, E; Bícego, MC; Miranda, LB; Weber, RR. 1999b. Distribution and origin of hydrocarbons in water and sediment in São Sebastião, SP, Brazil. Mar Pollut Bull. 38: 261-267.

Zanardi-Lamardo, E; Schettini, CAF; Vieira-Campos, AA; Cabral, CB; Silva, MS. 2018. Intratidal variability and transpor of petroleum aromatic hydrocarbons in an anthropized tropical estuarine system: the Suape estuary (8.4S 35W). Braz J Oceanogr. 66: 47-57.

Downloads

Published

29.06.2022

How to Cite

Petroleum hydrocarbons in Brazilian Northeast continental shelf waters: baseline values Br. (2022). Ocean and Coastal Research, 70. https://doi.org/10.1590/2675-2824070.21078ezl