Effects of hypoxia on the behavior and physiology of juvenile stage temperate reef fishes (genus: Sebastes)

"A thesis presented to the faculty of Moss Landing Marine Laboratories." ABSTRACT: The progression of climate change is predicted to cause large-scale changes to ocean chemistry (i.e., shifts in temperatures, salinity, ocean acidification, etc.) within the California Current. Forecasts fro...

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Bibliographic Details
Main Author: Evan Gilman Mattiasen
Other Authors: Scott Hamilton, Cheryl Logan, Susan Sogard
Format: Master Thesis
Language:English
Published: Moss Landing Marine Laboratories 2018
Subjects:
Physiological effect
Sebastes
Hypoxia (Water)
Ocean acidification
Online Access:https://hdl.handle.net/20.500.12680/3484zp117
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spelling ftcalifstateuniv:oai:scholarworks:3484zp117 2024-09-30T14:40:51+00:00 Effects of hypoxia on the behavior and physiology of juvenile stage temperate reef fishes (genus: Sebastes) Evan Gilman Mattiasen Scott Hamilton Cheryl Logan Susan Sogard 2018 https://hdl.handle.net/20.500.12680/3484zp117 English eng Moss Landing Marine Laboratories California State University, Monterey Bay http://hdl.handle.net/20.500.12680/3484zp117 http://rightsstatements.org/vocab/InC/1.0/?creator Copyright by Evan Gilman Mattiasen 2018 Physiological effect Sebastes Hypoxia (Water) Masters Thesis 2018 ftcalifstateuniv https://doi.org/20.500.12680/3484zp117 2024-09-10T17:06:14Z "A thesis presented to the faculty of Moss Landing Marine Laboratories." ABSTRACT: The progression of climate change is predicted to cause large-scale changes to ocean chemistry (i.e., shifts in temperatures, salinity, ocean acidification, etc.) within the California Current. Forecasts from climate models and oceanographic observations indicate an increase in the frequency and duration of hypoxic events in the coastal zone, which have the potential to affect marine biodiversity and fisheries. Many studies have shown that exposure to extreme low dissolved oxygen (pO2) conditions can have deleterious effects on fish in early life stages, such as inhibition to growth and locomotion. Rockfish (Sebastes spp.) are a diverse group of species composed of fishes with varying life history characteristics. This study aims to determine how exposure of two species of young-of-the-year (YOY) juvenile rockfishes will perform under chronic exposure to varying dissolved oxygen levels. Copper rockfish (Sebastes caurinus) and blue rockfish (Sebastes mystinus) are two closely related species that differ in early life history traits. Copper rockfish have a short pelagic duration that begins with parturition in the spring and ends with recruitment to the kelp forest canopy after 1-2 months. Blue rockfish have a longer pelagic duration that begins in the winter and ends with recruitment to the benthic kelp forest habitat after 3-6 months. I compared how behavior and physiology were affected under chronic exposure to low pO2 at four treatment levels (ambient = 9.0 mg O2 L-1, moderate = 6.0 mg O2 L-1, low = 4.0 mg O2 L-1, hypoxic = 2.0 mg O2 L-1). Behavioral tests were aimed at identifying changes in exploratory behavior (i.e., escape response trial), predator detection through olfactory perception (i.e., olfactory choice test), and changes in turning preference (i.e., behavioral lateralization). Physiological tests focused on determining changes in hypoxia tolerance (critical oxygen tension, pCrit), the capacity for aerobic activity ... Master Thesis Ocean acidification Scholarworks from California State University
institution Open Polar
collection Scholarworks from California State University
op_collection_id ftcalifstateuniv
language English
topic Physiological effect
Sebastes
Hypoxia (Water)
spellingShingle Physiological effect
Sebastes
Hypoxia (Water)
Evan Gilman Mattiasen
Effects of hypoxia on the behavior and physiology of juvenile stage temperate reef fishes (genus: Sebastes)
topic_facet Physiological effect
Sebastes
Hypoxia (Water)
description "A thesis presented to the faculty of Moss Landing Marine Laboratories." ABSTRACT: The progression of climate change is predicted to cause large-scale changes to ocean chemistry (i.e., shifts in temperatures, salinity, ocean acidification, etc.) within the California Current. Forecasts from climate models and oceanographic observations indicate an increase in the frequency and duration of hypoxic events in the coastal zone, which have the potential to affect marine biodiversity and fisheries. Many studies have shown that exposure to extreme low dissolved oxygen (pO2) conditions can have deleterious effects on fish in early life stages, such as inhibition to growth and locomotion. Rockfish (Sebastes spp.) are a diverse group of species composed of fishes with varying life history characteristics. This study aims to determine how exposure of two species of young-of-the-year (YOY) juvenile rockfishes will perform under chronic exposure to varying dissolved oxygen levels. Copper rockfish (Sebastes caurinus) and blue rockfish (Sebastes mystinus) are two closely related species that differ in early life history traits. Copper rockfish have a short pelagic duration that begins with parturition in the spring and ends with recruitment to the kelp forest canopy after 1-2 months. Blue rockfish have a longer pelagic duration that begins in the winter and ends with recruitment to the benthic kelp forest habitat after 3-6 months. I compared how behavior and physiology were affected under chronic exposure to low pO2 at four treatment levels (ambient = 9.0 mg O2 L-1, moderate = 6.0 mg O2 L-1, low = 4.0 mg O2 L-1, hypoxic = 2.0 mg O2 L-1). Behavioral tests were aimed at identifying changes in exploratory behavior (i.e., escape response trial), predator detection through olfactory perception (i.e., olfactory choice test), and changes in turning preference (i.e., behavioral lateralization). Physiological tests focused on determining changes in hypoxia tolerance (critical oxygen tension, pCrit), the capacity for aerobic activity ...
author2 Scott Hamilton
Cheryl Logan
Susan Sogard
format Master Thesis
author Evan Gilman Mattiasen
author_facet Evan Gilman Mattiasen
author_sort Evan Gilman Mattiasen
title Effects of hypoxia on the behavior and physiology of juvenile stage temperate reef fishes (genus: Sebastes)
title_short Effects of hypoxia on the behavior and physiology of juvenile stage temperate reef fishes (genus: Sebastes)
title_full Effects of hypoxia on the behavior and physiology of juvenile stage temperate reef fishes (genus: Sebastes)
title_fullStr Effects of hypoxia on the behavior and physiology of juvenile stage temperate reef fishes (genus: Sebastes)
title_full_unstemmed Effects of hypoxia on the behavior and physiology of juvenile stage temperate reef fishes (genus: Sebastes)
title_sort effects of hypoxia on the behavior and physiology of juvenile stage temperate reef fishes (genus: sebastes)
publisher Moss Landing Marine Laboratories
publishDate 2018
url https://hdl.handle.net/20.500.12680/3484zp117
genre Ocean acidification
genre_facet Ocean acidification
op_relation http://hdl.handle.net/20.500.12680/3484zp117
op_rights http://rightsstatements.org/vocab/InC/1.0/?creator
Copyright by Evan Gilman Mattiasen 2018
op_doi https://doi.org/20.500.12680/3484zp117
_version_ 1811643321548800000

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