Nitrogen and Phosphorus Discharges from Cargo Ships’ Black and Grey Waters—A Case Study of a Baltic Sea Port

Author:

Lappalainen Suvi-Tuuli1ORCID,Tapaninen Ulla1ORCID,Kotta Jonne12

Affiliation:

1. Estonian Maritime Academy, Tallinn University of Technology, Kopli 101, 11712 Tallinn, Estonia

2. Estonian Marine Institute, University of Tartu, Mäealuse 14, 12618 Tallinn, Estonia

Abstract

Shipping is a vital component of global trade. However, shipping activities have negative environmental impacts, including emissions to air and water. The Baltic Sea is severely affected by eutrophication, mainly due to nutrient inputs, especially nitrogen and phosphorus. Understanding the contributions of various nutrient sources is essential for informed environmental regulation. The aim of this research is to quantify the nutrient content of black and grey water discharged from cargo ships in the Baltic Sea in order to assess their contribution to the total nutrient load. Specifically, this research examines the nitrogen and phosphorus loadings from ships calling the port of HaminaKotka and addresses key questions regarding nutrient generation, discharge proportions, emission shares by ship type, and their importance compared to other sources. Using a methodology based on ship data and nutrient production estimates, this study found that 2545 cargo ships generated a total of 781 kg of nitrogen and 134 kg of phosphorus in their effluents during their voyages to the port in 2021. However, only a small fraction (0.5%) of the cargo ships discharged their wastewater at port reception facilities. This study concludes that nutrient discharges from cargo ships’ wastewaters are relatively small, contributing less than 0.06% phosphorus and 0.01% nitrogen to the total load in the area. This result indicates that the impact of cargo ships’ wastewater on the eutrophication of the Baltic Sea is smaller than previously thought. The methodology used in this study can be applied in other ports and regions to assess nutrient discharges from cargo ships’ wastewaters on a wider scale. Further research is recommended to assess the effectiveness of on-board treatment systems, the impact of other contaminants in wastewater, and the development of port reception facilities to facilitate proper wastewater management in the maritime trade.

Funder

INTERREG Central Baltic Sea Region project “Sustainable Flow”

Publisher

MDPI AG

Reference31 articles.

1. United Nations (2021). Review of Maritime Transport 2021, UN. eISSN: 2225-3459.

2. A review on the environmental impacts of shipping on aquatic and nearshore ecosystems;Brutemark;Sci. Total Environ.,2019

3. Madjidian, J. (2024, April 30). Clean Baltic Sea Shipping; ResearchGate; 2013. Available online: https://www.researchgate.net/publication/291338320_Clean_Baltic_Sea_Shipping.

4. Helsinki Commission (HELCOM) (2009). Reinforcing Oil Spill Response Capacity in the Baltic, Baltic Marine Environment Protection Commission.

5. Save the Baltic Sea;Conley;Nature,2012

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