Ineffective artificial mouth-breaching practices and altered hydrology confound eutrophic symptoms in a temporarily closed estuary

IF 1.8 4区环境科学与生态学 Q2 FISHERIES

Marine and Freshwater Research Pub Date : 2023-12-14 DOI:10.1071/mf23053

Marelé Nel, Janine B. Adams, Lucienne R. D. Human, Monique Nunes, Lara Van Niekerk, Daniel A. Lemley

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引用次数: 0

Abstract

Context

Artificial breaching of intermittently closed estuaries has become more frequent in the face of global-change pressures.

Aims

This study aimed to determine whether the ecological health of the Great Brak Estuary has been affected by the prolonged loss of marine connectivity arising from below-average inflow and failed breaching attempts.

Methods

We characterised primary eutrophic symptoms (inorganic nutrients, dissolved oxygen, microalgae) typical of the various mouth states, i.e. open, closed and semi-closed.

Key results

Initially, low inflow and closed mouth conditions facilitated the widespread occurrence of macroalgal blooms (Cladophora glomerata). Phytoplankton bloom conditions (>20 μg Chl-a L⁻¹) ensued only in response to favourable hydrodynamic conditions (e.g. increased water residency, halocline formation) and increased nutrient availability from fluvial sources and macroalgal dieback. These blooms occurred in brackish conditions and comprised numerous taxa, including Cyclotella atomus var. marina, Cryptomonas sp. and Prorocentrum cordatum. Widespread hypoxia (<2 mg L⁻¹) occurred during the semi-closed mouth phase because of the reduced flushing potential associated with the preceding high flow conditions.

Conclusions

Global-change pressures and ineffective breaching practices will promote eutrophic conditions in intermittently closed estuaries in the future.

Implications

Allocating sufficient environmental flows is key to preventing ecosystem degradation.

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无效的人工清口做法和水文变化混淆了一个临时封闭河口的富营养化症状

背景面对全球变化的压力，间歇性封闭河口的人工破口变得越来越频繁。目的本研究旨在确定大布拉克河口的生态健康是否受到因流入量低于平均水平和突破尝试失败而导致的海洋连通性长期丧失的影响。方法我们描述了不同河口状态（即开放、封闭和半封闭）下典型的初级富营养化症状（无机营养物、溶解氧、微藻）。主要结果最初，低流入量和封闭的河口条件有利于大型藻类（团藻）大量繁殖。浮游植物大量繁殖（20 μg Chl-a L-1）只是在有利的水动力条件（如水体停留时间增加、卤跃层形成）、河水营养物质供应增加以及大型藻类衰退的情况下才出现的。这些水华发生在咸水条件下，由许多分类群组成，包括 Cyclotella atomus var.由于之前的大流量条件导致冲刷潜力降低，在半闭口阶段出现了大面积缺氧（<2 mg L-1）。结论全球变化的压力和无效的破口措施将在未来加剧间歇性封闭河口的富营养化状况。意义分配足够的环境流量是防止生态系统退化的关键。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Marine and Freshwater Research 环境科学-海洋学

CiteScore

4.60

自引率

5.60%

发文量

审稿时长

3.8 months

期刊介绍： Marine and Freshwater Research is an international and interdisciplinary journal publishing contributions on all aquatic environments. The journal’s content addresses broad conceptual questions and investigations about the ecology and management of aquatic environments. Environments range from groundwaters, wetlands and streams to estuaries, rocky shores, reefs and the open ocean. Subject areas include, but are not limited to: aquatic ecosystem processes, such as nutrient cycling; biology; ecology; biogeochemistry; biogeography and phylogeography; hydrology; limnology; oceanography; toxicology; conservation and management; and ecosystem services. Contributions that are interdisciplinary and of wide interest and consider the social-ecological and institutional issues associated with managing marine and freshwater ecosystems are welcomed. Marine and Freshwater Research is a valuable resource for researchers in industry and academia, resource managers, environmental consultants, students and amateurs who are interested in any aspect of the aquatic sciences. Marine and Freshwater Research is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.