An effective process-based modeling approach for predicting hypoxia and blue tide in Tokyo Bay

IF 1.9 3区 工程技术 Q3 ENGINEERING, CIVIL
Kangnian Wang, Yoshiyuki Nakamura, J. Sasaki, Tetsunori Inoue, Hiroto Higa, Takayuki Suzuki, Muhammad Ali Hafeez
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引用次数: 2

Abstract

ABSTRACT Hypoxia and blue tide are the most significant environmental issues in Tokyo Bay as they have been damaging fisheries for a long time. Although studies on modeling these two associated phenomena have been conducted for decades, the scarcity of relevant observational datasets has greatly hindered the progress, and no study has successfully reproduced the entire processes of blue tide or predicted the time and place of its outbreak. To address the problems from limited data, this study proposed a relatively conventional benthic flux model and developed a novel method that converts the total organic carbon content into the fluxes of sediment oxygen consumption and sulfide release to represent the spatial differences in benthic fluxes. A pelagic sulfur model with only three key chemical reactions of blue tide that includes the disproportionation of elemental sulfur was proposed. The method significantly improved the results of dissolved oxygen in bottom water, as seen by the root mean square error decreasing by 15.9% and 18.9% in two simulations with largely different forcings. The sulfur model also accurately predicted the outbreaks of blue tides in each simulation, which is significant to the stakeholders as it facilitates the forecast of blue tides in Tokyo Bay.
一种有效的基于过程的东京湾缺氧和赤潮预测建模方法
摘要缺氧和赤潮是东京湾最严重的环境问题,因为它们长期以来一直在破坏渔业。尽管对这两种相关现象建模的研究已经进行了几十年,但相关观测数据集的稀缺极大地阻碍了这一进展,也没有任何研究成功再现了蓝潮的整个过程或预测了其爆发的时间和地点。为了解决数据有限的问题,本研究提出了一个相对传统的海底通量模型,并开发了一种新的方法,将总有机碳含量转换为沉积物耗氧量和硫化物释放通量,以表示海底通量的空间差异。提出了一个只有三个蓝潮关键化学反应的远洋硫模型,其中包括元素硫的歧化。该方法显著改善了底层水中溶解氧的结果,在两次不同强迫的模拟中,均方根误差分别降低了15.9%和18.9%。硫模型还在每次模拟中准确预测了赤潮的爆发,这对利益相关者来说意义重大,因为它有助于预测东京湾的赤潮。
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来源期刊
Coastal Engineering Journal
Coastal Engineering Journal 工程技术-工程:大洋
CiteScore
4.60
自引率
8.30%
发文量
0
审稿时长
7.5 months
期刊介绍: Coastal Engineering Journal is a peer-reviewed medium for the publication of research achievements and engineering practices in the fields of coastal, harbor and offshore engineering. The CEJ editors welcome original papers and comprehensive reviews on waves and currents, sediment motion and morphodynamics, as well as on structures and facilities. Reports on conceptual developments and predictive methods of environmental processes are also published. Topics also include hard and soft technologies related to coastal zone development, shore protection, and prevention or mitigation of coastal disasters. The journal is intended to cover not only fundamental studies on analytical models, numerical computation and laboratory experiments, but also results of field measurements and case studies of real projects.
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