The Fate and Impact of Internal Waves in Nearshore Ecosystems

Internal waves are widespread features of global oceans that play critical roles in mixing and thermohaline circulation. Similarly to surface waves, internal waves can travel long distances, ultimately breaking along continental margins. These breaking waves can transport deep ocean water and associ...

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Veröffentlicht in:	Annual review of marine science 2018-01, Vol.10 (1), p.421-441
1. Verfasser:	Woodson, C.B
Format:	Artikel
Sprache:	eng
Schlagworte:	Biological fertilization Breaking waves Climate Change Continental margins Ecosystem Ecosystem assessment ecosystem effects Ecosystems Environmental changes Environmental impact exposure Fertilization Hydrodynamics Internal waves Larvae Marine ecosystems Mineral nutrients multiple stressors nearshore Nutrients Oceans Oceans and Seas Offshore Physics Seawater - chemistry Surface waves Thermohaline circulation Turbulence Water Movements
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container_title	Annual review of marine science
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creator	Woodson, C.B
description	Internal waves are widespread features of global oceans that play critical roles in mixing and thermohaline circulation. Similarly to surface waves, internal waves can travel long distances, ultimately breaking along continental margins. These breaking waves can transport deep ocean water and associated constituents (nutrients, larvae, and acidic low-oxygen waters) onto the shelf and locally enhance turbulence and mixing, with important effects on nearshore ecosystems. We are only beginning to understand the role internal waves play in shaping nearshore ecosystems. Here, I review the physics of internal waves in shallow waters and identify two commonalities among internal waves in the nearshore: exposure to deep offshore waters and enhanced turbulence and mixing. I relate these phenomena to important ecosystem processes ranging from extreme events to fertilization success to draw general conclusions about the influence of internal waves on ecosystems and the effects of internal waves in a changing climate.
doi_str_mv	10.1146/annurev-marine-121916-063619
format	Article
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source	Annual Reviews Complete A-Z List; MEDLINE
subjects	Biological fertilization Breaking waves Climate Change Continental margins Ecosystem Ecosystem assessment ecosystem effects Ecosystems Environmental changes Environmental impact exposure Fertilization Hydrodynamics Internal waves Larvae Marine ecosystems Mineral nutrients multiple stressors nearshore Nutrients Oceans Oceans and Seas Offshore Physics Seawater - chemistry Surface waves Thermohaline circulation Turbulence Water Movements
title	The Fate and Impact of Internal Waves in Nearshore Ecosystems
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