(2023) Algal proliferation risk assessment using Vine Copula-based coupling methods in the South-to-North Water Diversion Project of China. Frontiers in Ecology and Evolution, 11. pp. 1-15.
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Abstract
The Middle Route of the South-to-North Water Diversion Project of China (MRSNWDPC), i.e., the longest inter-basin water diversion project (1,432 km) in the world, has delivered more than 60 billion m3 of water resources to North China and benefiting more than 100 million people since December 2014. However, the abnormal algal proliferation in the main canal under low nutrient
background has seriously threatened the water quality safety of this mega project. In this research, 3 years of monitoring data matrix, including water temperature
(WT), flow discharge (Q), flow velocity (V), dissolved oxygen (DO), and the algal cell density (ACD), from the main canal of the MRSNWDPC were analyzed. The nonlinear relationships were determined based on multiple regression models, and a composite risk analysis model was constructed by Latin hypercube sampling (LHS) method coupled with Vine Copula function. The impacts of different hydrological and environmental factors on algal proliferation were comprehensively analyzed by Bayesian theory. The results showed that the WT gradually decreased from upstream to downstream, with a narrow range of 16.6–17.4°C, and the annual average concentrations of DO showed a gradual
increase from upstream to downstream. The flow velocity of MRSNWDPC had a tendency to increase year by year, and the maximum flow velocity exceeds 0.8 m/s upstream, midstream and downstream by 2018. The ACD accumulated along the main canal, and the annual average ACDs of downstream were the
highest, ranging from 366.17 to 462.95 × 104 cells/L. The joint early-warning method considering both water temperature and flow velocity conditions is an effective way for algal proliferation risk warning management. When water
temperatures of the upstream, midstream, and downstream were below 26, 26, and 23°C, respectively, the algal proliferation risk can be controlled under 50% by the flow velocity at 0.3 m/s; otherwise, the flow velocity needs to be regulated higher than 0.8 m/s. In order to keep the midstream and downstream avoid abnormal algal proliferation events (ACD ≥ 500 × 104 cells/L), the corresponding ACDs of the upstream and midstream need to be controlled lower than 319 × 104 cells/L and 470 × 104 cells/L, respectively. This study provides a scientific reference for the long-distance water diversion project’s algal control and environmental
protection. The proposed coupling Vine Copula models can also be widely applied to multivariate risk analysis fields.
Item Type: | Article |
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Identifier: | 10.3389/fevo.2023.1193163 |
Keywords: | algal proliferation, risk analysis, Vine Copula, Latin hypercube sampling, the South-to-North Water Diversion Project of China |
Subjects: | Computing |
Depositing User: | Kourosh Behzadian |
Date Deposited: | 25 Sep 2023 10:09 |
Last Modified: | 26 Aug 2024 10:21 |
URI: | https://repository.uwl.ac.uk/id/eprint/10169 |
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