Assessing the impact of nutrient loads on eutrophication in the semi-enclosed Izmir Bay combining observations and coupled hydrodynamic-ecosystem modelling


OZGE YELEKCI
VALERIA IBELLO
https://orcid.org/0000-0002-1067-0425
BETTINA A. FACH
https://orcid.org/0000-0003-4688-1918
FILIZ KUCUKSEZGIN
https://orcid.org/0000-0001-9030-5227
CAGLAR YUMRUKTEPE
ERDEM SAYIN
https://orcid.org/0000-0001-9683-7662
BARIS SALIHOGLU
https://orcid.org/0000-0002-7510-7713
SULEYMAN TUGRUL
https://orcid.org/0000-0002-3234-0961
Resumen

Intense human activities may strongly affect coastal environments threatening natural, societal and economic resources. In order to propose adequate measures to preserve coastal marine areas, a thorough understanding of their physical and biogeochemical features is required. This study focuses on one such coastal area, Izmir Bay located in the Eastern Mediterranean Sea. Izmir Bay is a highly populated area subject to many human induced stressors such as pollution and eutrophication, that has been suffering high nutrient loads for decades. Despite the construction of the Çiğli waste water treatment plant in 2000-2001 to reduce eutrophication, such pressures continue to occur. To study the current physical and biogeochemical dynamics of Izmir Bay and their spatial and temporal variability, a three-dimensional coupled hydrodynamic-ecosystem model (Delft3D modelling suite’s FLOW and ECO modules) is implemented. Using the model, the effect of excessive inorganic nutrient loading on the marine ecosystem as the main cause of this eutrophication is explored in an effort to advise on mitigation efforts for the Bay focusing on eliminating eutrophication. Results of different model scenarios show that the Inner and Middle Bay are nitrogen-limited while the Outer Bay is phosphorus-limited. Inner regions are more sensitive to variations in inorganic nitrogen input due to the low (<16) N/P ratio of nutrients in seawater. An increase in inorganic nitrogen triggers eutrophication events with primary production as an immediate response. Conversely, the Outer Bay ecosystem with N/P ratios above 16 is more sensitive to phosphate inputs, of which an increase causes a considerable enhancement in algal production. This study shows the vulnerability of Izmir Bay to anthropogenic nutrient input and model simulations indicate that management plans should consider reducing DIN discharges both in the inner-middle zones of Izmir Bay as well as inputs from the Gediz River. Additionally, phosphate inputs should be reduced to avoid an overall increase of algal production in the Outer Bay, the larger part of Izmir Bay.

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Biografía del autor/a
OZGE YELEKCI, CNRS, Laboratoire d’Océanographie et du Climat, Expérimentation Et Approche Numériques (LOCEAN), Université Pierre et Marie Curie, Paris, France
Oceanography
VALERIA IBELLO, Institute of Marine Sciences, Middle East Technical University, 33731 Erdemli-Mersin, Turkey

Oceanography Department

Lecturer

BETTINA A. FACH, Institute of Marine Sciences, Middle East Technical University, 33731 Erdemli-Mersin, Turkey

Oceanography Department

Associate Professor

FILIZ KUCUKSEZGIN, Dokuz Eylül University, Institute of Marine Sciences and Technology, Baku Bulvari No: 10 Inciralti, 35340 Izmir, Turkey
Professor
BARIS SALIHOGLU, Institute of Marine Sciences, Middle East Technical University, 33731 Erdemli-Mersin, Turkey

Oceanography Department

Professor

SULEYMAN TUGRUL, Institute of Marine Sciences, Middle East Technical University, 33731 Erdemli-Mersin, Turkey

Oceanography Department

Professor

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