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Rising tide of ocean acidification

Year 2024, Volume: 7 Issue: 4, 605 - 613, 31.12.2024
https://doi.org/10.35208/ert.1407588

Abstract

This comprehensive review explores the escalating environmental crisis of ocean acidification, primarily driven by anthropogenic carbon dioxide molecules (CO2) emissions. In this study, we employed a systematic methodology to collect and analyze literature relevant to ocean acidification. Our research involved an exhaustive search of databases such as PubMed, Web of Science, Google Scholar, and Mendeley to gather pertinent studies published up until 2024. In addition, we consulted secondary sources, including expert panel reports, to enhance the depth of our analysis. Socio-economic ramifications are profound, particularly for fisheries, tourism, and coastal communities that rely heavily on marine resources. This research underscores the potential for substantial exacerbates in these sectors, emphasizing the need for targeted policies and management strategies to mitigate the adverse effects of ocean acidification. By addressing these critical areas, the study informs stakeholders and supports the development of adaptive measures that can sustain local economies and preserve biodiversity in affected regions. The economic consequences could be substantial, exacerbating global social and economic disparities. Speculative considerations highlight the potential for significant global impacts and the urgent need for proactive, coordinated action. This review emphasizes the importance of continued research and monitoring to develop effective mitigation and adaptation strategies, underscoring the critical role of global cooperation and innovation in environmental management. This review aims to serve as a call to action, highlighting the urgency to preserve marine ecosystems and their services to humanity in the face of this growing environmental challenge.

Thanks

GÜÇAMER

References

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Year 2024, Volume: 7 Issue: 4, 605 - 613, 31.12.2024
https://doi.org/10.35208/ert.1407588

Abstract

References

  • E. Harrould-Kolieb, and T. Stephens, “Ocean acidification,” Oxford University Press, 2023. [CrossRef]
  • B. Figuerola, A. M. Hancock, N. Bax, V. J. Cummings, R. Downey, H. J. Griffiths, … J. S. Stark, “A review and meta-analysis of potential ımpacts of ocean acidification on marine calcifiers from the Southern Ocean,” Frontiers in Marine Science, Vol. 8, Article 584445, 2021. [CrossRef]
  • E. Şeren, and A. Celekli, “Biodiversity loss: A global ıssue threatening ecological balance,” ICHEAS 7th International Conference on Health, Engineering, and Applied Sciences, pp. 83–98, 2024.
  • J. A. Godbold, and P. Calosi, “Ocean acidification and climate change: Advances in ecology and evolution,” Philosophical Transactions of the Royal Society B: Biological Sciences, Vol. 368(1627), Article 0448, 2013. [CrossRef]
  • J. A. Kleypas, “Impacts of ocean acidification on marine biodiversity,” Biodiversity and Climate Change: Transforming the Biosphere, Vol. 160, pp. 185–195, 2019. [CrossRef]
  • E. H. Buck, and P. Folger, “Ocean acidification,” Poisoning and Acidification of the Earth’s Oceans, 2012. https://ocean.si.edu/ocean-life/invertebrates/ocean-acidification Accessed on Oct 30, 2024.
  • K. Gao, E. W. Helbling, D. P. Häder, and D. A. Hutchins, “Responses of marine primary producers to interactions between ocean acidification, solar radiation, and warming,” Marine Ecology Progress Series, Vol. 470, pp. 167–189, 2012. [CrossRef]
  • M. Borowitz, “US National Oceanic and Atmospheric Administration,” Open Space, pp. 1950–2011, 2018.
  • P. Lemonnier, and E. A. Ainsworth, “Crop responses to rising atmospheric [CO2 ] and global climate change,” Food Security and Climate Change, pp. 51–69, 2018. [CrossRef]
  • A. Çelekli, and Ö. E. Zariç, “Hydrobiology and ecology in the context of climate change: the future of aquatic ecosystems,” in 6th International Eurasian Conference on Biological and Chemical Sciences, pp. 539–545, 2023.
  • A. Çelekli, and Ö. E. Zariç, “From emissions to environmental ımpact: Understanding the carbon footprint,” International Journal of Environment and Geoinformatics, Vol. 10(4), pp. 146–156. [CrossRef]
  • A. Çelekli, S. Yaygır, and Ö. E. Zariç, “A review of climate change-induced migration,” Acta Biologica Turcica, Vol. 36(2), pp. 1–3, 2023.
  • Ö. E. Zariç, and A. Çelekli, “Artificial wetlands in the fight against global warming: Reducing carbon footprint and enhancing biodiversity,” 11th International Ecology Symposium (Ecology 2024), pp. 111118, 2024.
  • A. Çelekli, and Ö. E. Zariç, “Using Geographic Information Systems to Analyze the Sustainability of Wetlands under Climate Change in Nurdağı, Gaziantep (Türkiye),” 5th International Conference on Engineering and Applied Natural Sciences (ICEANS), pp. 12631272, 2024.
  • C. S. Wong, and R. Matear, “The storage of anthropogenic carbon dioxide in the ocean,” Energy Conversion and Management, Vol. 34(9–11), pp. 873–880, 1993. [CrossRef]
  • L. M. Parker, P. M. Ross, W. A. O’Connor, H. O. Pörtner, E. Scanes, and J. M. Wright, “Predicting the response of molluscs to the impact of ocean acidification,” Biology, Vol. 2(2), pp. 651–692, 2013. [CrossRef]
  • M. Tweedie, D. Sun, D. R. Gajula, B. Ward, and P. D. Maguire, “The analysis of dissolved inorganic carbon in liquid using a microfluidic conductivity sensor with membrane separation of CO2,” Microfluidics and Nanofluidics, Vol. 24(5), Article 37, 2020. [CrossRef]
  • R. Licker, B. Ekwurzel, S. C. Doney, S. R. Cooley, I. D. Lima, R. Heede, and P. C. Frumhoff, “Attributing ocean acidification to major carbon producers,” Environmental Research Letters, Vol. 14(12), Article 124060, 2019. [CrossRef]
  • A. Çelekli, İ. Yeşildağ, S. Yaygır, and Ö. E. Zariç, “Effects of urbanization on bioclimatic comfort conditions,” Acta Biologica Turcica, Vol. 36(4), pp. 1–9, 2023.
  • R. A. Feely, S. R. Alin, J. Newton, C. L. Sabine, M. Warner, A. Devol, … and C. Maloy, “The combined effects of ocean acidification, mixing, and respiration on pH and carbonate saturation in an urbanized estuary,” Estuarine, Coastal and Shelf Science, Vol. 88(4), pp. 442–449, 2010. [CrossRef]
  • E. Benhelal, E. Shamsaei, and M. I. Rashid, “Challenges against CO2 abatement strategies in cement industry: A review,” Journal of Environmental Sciences (China), Vol. 104, pp. 84–101, 2021. [CrossRef]
  • P. J. A. Withers, and P. M. Haygarth, “Agriculture, phosphorus and eutrophication: A European perspective,” Soil Use and Management, Vol. 23(Suppl 1), pp. 1–4, 2007. [CrossRef]
  • Y. Li, J. Shang, C. Zhang, W. Zhang, L. Niu, L. Wang, and H. Zhang, “The role of freshwater eutrophication in greenhouse gas emissions: A review,” Science of the Total Environment, Vol. 768, Article 144582, 2021. [CrossRef]
  • P. Smith, J. I. House, M. Bustamante, J. Sobocká, R. Harper, G. Pan, … and T. A. M. Pugh, “Global change pressures on soils from land use and management,” Global Change Biology, Vol. 22(3), pp. 1008–1028, 2016. [CrossRef]
  • J. S. C. Wiskerke, “Assessing the environmental impact of agriculture,” in 6th International Eurasian Conference on Biological and Chemical Sciences, pp. 0–320, 2020.
  • S. N. Longphuirt, D. Stengel, C. O. Dowd, and E. Mcgovern, “Ocean Acidification : An Emerging Threat to our Marine Environment SeaChange,” Corrosion, Vol. 6(6), pp. 1–98, 2010.
  • H. S. Findlay, H. L. Wood, M. A. Kendall, S. Widdicombe, J. I. Spicer, and R. J. Twitchett, “Comparing the impact of high CO2on calcium carbonate structures in different marine organisms,” Marine Biology Research, Vol. 7(6), pp. 565–575, 2011. [CrossRef]
  • M. Byrne, “Impact of ocean warming and ocean acidification on marine invertebrate life history stages: Vulnerabilities and potential for persistence in a changing ocean,” Oceanography and Marine Biology: An Annual Review, Vol. 49, pp. 1–42, 2011. [CrossRef]
  • I. L. Cripps, P. L. Munday, and M. I. McCormick, “Ocean acidification affects prey detection by a predatory reef fish,” PLoS One, Vol. 6(7), Article e22736, 2011. [CrossRef]
  • L. C. Hofmann, and K. Bischof, “Ocean acidification effects on calcifying macroalgae,” Aquatic Biology, Vol. 22, pp. 261–279, 2014. [CrossRef]
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There are 79 citations in total.

Details

Primary Language English
Subjects Conservation and Biodiversity
Journal Section Review
Authors

Abuzer Çelekli 0000-0002-2448-4957

Özgür Eren Zariç 0000-0001-5293-871X

Publication Date December 31, 2024
Submission Date December 20, 2023
Acceptance Date April 28, 2024
Published in Issue Year 2024 Volume: 7 Issue: 4

Cite

APA Çelekli, A., & Zariç, Ö. E. (2024). Rising tide of ocean acidification. Environmental Research and Technology, 7(4), 605-613. https://doi.org/10.35208/ert.1407588
AMA Çelekli A, Zariç ÖE. Rising tide of ocean acidification. ERT. December 2024;7(4):605-613. doi:10.35208/ert.1407588
Chicago Çelekli, Abuzer, and Özgür Eren Zariç. “Rising Tide of Ocean Acidification”. Environmental Research and Technology 7, no. 4 (December 2024): 605-13. https://doi.org/10.35208/ert.1407588.
EndNote Çelekli A, Zariç ÖE (December 1, 2024) Rising tide of ocean acidification. Environmental Research and Technology 7 4 605–613.
IEEE A. Çelekli and Ö. E. Zariç, “Rising tide of ocean acidification”, ERT, vol. 7, no. 4, pp. 605–613, 2024, doi: 10.35208/ert.1407588.
ISNAD Çelekli, Abuzer - Zariç, Özgür Eren. “Rising Tide of Ocean Acidification”. Environmental Research and Technology 7/4 (December 2024), 605-613. https://doi.org/10.35208/ert.1407588.
JAMA Çelekli A, Zariç ÖE. Rising tide of ocean acidification. ERT. 2024;7:605–613.
MLA Çelekli, Abuzer and Özgür Eren Zariç. “Rising Tide of Ocean Acidification”. Environmental Research and Technology, vol. 7, no. 4, 2024, pp. 605-13, doi:10.35208/ert.1407588.
Vancouver Çelekli A, Zariç ÖE. Rising tide of ocean acidification. ERT. 2024;7(4):605-13.