Copper as a Complex Indicator of the Status of the Marine Environment Concerning Climate Change-Reference-Cited by-同舟云学术

Copper as a Complex Indicator of the Status of the Marine Environment Concerning Climate Change

Published:2024-08-27 Issue:17 Volume:16 Page:2411
ISSN:2073-4441
Container-title:Water
language:en
Short-container-title:Water

Author:

Zalewska Tamara¹,Danowska Beata¹,Wilman Bartłomiej¹,Saniewski Michał¹^ORCID,Iwaniak Michał¹,Bork-Zalewska Jaśmina²,Marciniewicz-Mykieta Małgorzata³

Affiliation:

1. Institute of Meteorology and Water Management—National Research Institute, Waszyngtona 42, 81-342 Gdynia, Poland

2. Faculty of Medicine, Medical University of Gdańsk, M. Skłodowskiej-Curie 3a, 80-210 Gdańsk, Poland

3. Chief Inspectorate of Environmental Protection, AL. Jerozolimskie 92, 00-807 Warszawa, Poland

Abstract

Studies covering key elements of the marine ecosystem based on current and long-term data have made it possible to assess both the current situation in terms of copper concentrations in commercially used fish and benthic plants and in surface bottom sediments, as well as enabled the analysis of the temporal variability of copper levels in relation to changes in its inflow to the southern Baltic Sea. By applying the threshold values, determining the boundary between good and not good status of the marine environment, set in this study, it was found that good environmental status has been achieved in the case of Cu in seawater and plants and has not been achieved in the case of sediments and fish for consumption. The study showed that climate change, the main feature of which is an increase in seawater temperature, significantly impacts the distribution and levels of copper in individual elements of the marine environment. It influences the vegetative season length and bioaccumulation efficiency and is of key importance for copper toxicity.

Publisher

MDPI AG

Link

https://www.mdpi.com/2073-4441/16/17/2411/pdf

Reference54 articles.

1. Distribution of the Elements in Some Major Units of the Earth’s Crust;Turekian;Geol. Soc. Am. Bull.,1961

2. Gauss, M., Gusev, A., Aas, W., Shatalov, V., Ilyin, I., Rozovskaya, O., Klein, H., Nyiri, A., and Vulyh, N. (2024, August 20). Atmospheric Supply of Nitrogen, Copper, HCB, BDE-99, SCCP and PFOS to the Baltic Sea in 2019, EMEP MSC-W TECHNICAL REPORT 1/2021, ISSN 1504-6206, 2021 Oslo. Available online: https://emep.int/publ/helcom/2021/MSCW_technical_1_2021.pdf.

3. (2024, August 20). Inputs of Hazardous Substances to the Baltic Sea (PLC-8). Baltic Sea Environment Proceedings N°196. HELCOM 2024. Available online: https://helcom.fi/wp-content/uploads/2021/09/Inputs-of-hazardous-substances-to-the-Baltic-Sea.pdf.

4. Comprehensive Assessment of Copper’s Effect on Marine Organisms under Ocean Acidification and Warming in the 21st Century;Cui;Sci. Total Environ.,2024

5. Ecological and Health Risk Assessments and Water Quality Criteria of Heavy Metals in the Haihe River;Cui;Environ. Pollut.,2021