Hindcasting estuary ecological states using sediment cores, modelled historic nutrient loads, and a Bayesian network

Hale, Rachel; Zeldis, John; Dudley, Bruce D.; Haddadchi, Arman; Plew, David; Shankar, Ude; Swales, Andrew; Roberts, Keryn; O’Connell-Milne, Sorrel; Verburg, Piet

doi:10.3389/fmars.2024.1374869

Front. Mar. Sci.

2024

DOI: 10.3389/fmars.2024.1374869

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Hindcasting estuary ecological states using sediment cores, modelled historic nutrient loads, and a Bayesian network

Rachel Hale,

John Zeldis,

Bruce D. Dudley

et al.

Abstract: Estuaries are impacted by catchment land use changes, driving degradation associated with eutrophication and alterations in sediment dynamics. Estuarine ecological monitoring has typically covered only recent periods, so magnitudes and trajectories of degradation are often poorly described. Here, we develop a multi-method approach to hindcast historic estuary condition. We determined geochemical properties in dated sediment cores from two sites in the eutrophic New River Estuary (NRE), Aotearoa New Zealand. Mu… Show more

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Cited by 2 publications

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Science of The Total Environment

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Addition of mussel shells enhance marine benthic biodiversity in two degraded coastal soft sediment ecosystems

Benjamin,

Hale,

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et al. 2024

Science of The Total Environment

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Bayesian network analysis enhancing alternative design schemes of large-scale offshore systems

Li,

Wang,

Liu

et al. 2024

Front. Mar. Sci.

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The design for large-scale offshore systems like renewable energy systems as well as ship structures represents the key factor for the investigation and application of such devices. The existing guide for design schemes of offshore systems cannot cover novel large-scale design demand for recent offshore systems, as a result of the fast-growing scale of offshore systems but the late update of guides. To this end, this paper proposes a novel risk estimation approach of alternative design schemes for large-scale offshore systems as a basis to support the design scheme determinations. Initially, the risks of design schemes are analyzed by fault tree analysis. Subsequently, Bayesian networks and fuzzy sets are employed to calculate the reliability of alternative designs that comply with, or deviate from, the existing guides. The risk level of alternative designs is assessed to ensure the better performance of alternative design schemes in terms of safety. The Bayesian network approach proposed also accretions the weak links in the alternative designs. The results of this paper contribute to enhancing the survivability of offshore systems, such as renewable energy systems as well as ship structures.

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Hindcasting estuary ecological states using sediment cores, modelled historic nutrient loads, and a Bayesian network

Cited by 2 publications

References 70 publications

Addition of mussel shells enhance marine benthic biodiversity in two degraded coastal soft sediment ecosystems

Addition of mussel shells enhance marine benthic biodiversity in two degraded coastal soft sediment ecosystems

Bayesian network analysis enhancing alternative design schemes of large-scale offshore systems

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