Evaluating low oxygen and pH variation and its effects on invertebrate early life stages on upwelling margins /

Along upwelling margins, pH and oxygen vary on multiple temporal and spatial scales, and in many places levels are decreasing with climate change. Continuous monitoring in nearshore settings along an upwelling-influenced margin revealed strong, semidiurnal fluctuations, week-long reduction events, a...

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Bibliographic Details
Main Author: Frieder, Christina A.
Format: Doctoral or Postdoctoral Thesis
Language:unknown
Published: eScholarship, University of California 2013
Subjects:
UCSD Oceanography. (Discipline) Dissertations
Academic
Ocean acidification
Online Access:http://www.escholarship.org/uc/item/74m0h54p
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spelling ftcdlib:qt74m0h54p 2023-05-15T17:51:11+02:00 Evaluating low oxygen and pH variation and its effects on invertebrate early life stages on upwelling margins / Frieder, Christina A. 1 PDF (1 online resource xxi, 182 pages) 2013-01-01 application/pdf http://www.escholarship.org/uc/item/74m0h54p http://n2t.net/ark:/20775/bb1298416w unknown eScholarship, University of California http://www.escholarship.org/uc/item/74m0h54p qt74m0h54p http://n2t.net/ark:/20775/bb1298416w public Frieder, Christina A.(2013). Evaluating low oxygen and pH variation and its effects on invertebrate early life stages on upwelling margins /. UC San Diego: Retrieved from: http://www.escholarship.org/uc/item/74m0h54p UCSD Oceanography. (Discipline) Dissertations Academic dissertation 2013 ftcdlib 2016-04-02T19:04:53Z Along upwelling margins, pH and oxygen vary on multiple temporal and spatial scales, and in many places levels are decreasing with climate change. Continuous monitoring in nearshore settings along an upwelling-influenced margin revealed strong, semidiurnal fluctuations, week-long reduction events, and a tight positive correlation between oxygen and pH. Laboratory experiments were conducted to assess implications of pH and oxygen changes for invertebrate gamete and larval performance. At levels reflecting nearshore conditions, there were effects of low pH on fertilization success in echinoids and larval development and size of two Mytilus mussel species, but there was no apparent effect of low oxygen alone or in combination with pH. Fertilization experiments indicated that pH variability present within the habitat of Strongylocentrotus franciscanus could hinder fertilization success when timing of spawning coincides with low pH conditions. The incorporation of semidiurnal pH fluctuations, the dominant scale of observed temporal variability, into laboratory experiments alleviated negative effects of reduced pH in both Mytilus species studied. Furthermore, at lower pH, high variance in echinoid sperm performance and in larval size of Mytilus spp. suggests the raw material exists for evolutionary adaptation to reduced pH. Population variance in combination with temporal and spatial variation in pH may be increasingly important in future, low-pH oceans. Additionally, the observation of species-specific responses to pH among congeneric echinoids and mytilid mussels implies that we cannot assume similar sensitivity to reduced pH based on taxonomic relatedness. Further understanding of responses to ocean acidification may be aided by knowledge of larval pH-exposure history. The development of a larval-based geochemical proxy revealed that U/Ca in larval shells reflected differing pH exposures of mussel larvae. Application to outplanted larvae developing along the San Diego coastline demonstrated that higher U/Ca in larval shells can reflect upwelling and exposure to low pH. Notably, present-day pH conditions are at times low enough to elicit significant effects on fertilization in S. franciscanus, on larval development of Mytilus spp., and on the geochemical composition of larval shells. These effects could influence the sustainability and persistence of these commercially harvested species as ocean acidification intensifies along upwelling margins Doctoral or Postdoctoral Thesis Ocean acidification University of California: eScholarship
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language unknown
topic UCSD Oceanography. (Discipline) Dissertations
Academic
spellingShingle UCSD Oceanography. (Discipline) Dissertations
Academic
Frieder, Christina A.
Evaluating low oxygen and pH variation and its effects on invertebrate early life stages on upwelling margins /
topic_facet UCSD Oceanography. (Discipline) Dissertations
Academic
description Along upwelling margins, pH and oxygen vary on multiple temporal and spatial scales, and in many places levels are decreasing with climate change. Continuous monitoring in nearshore settings along an upwelling-influenced margin revealed strong, semidiurnal fluctuations, week-long reduction events, and a tight positive correlation between oxygen and pH. Laboratory experiments were conducted to assess implications of pH and oxygen changes for invertebrate gamete and larval performance. At levels reflecting nearshore conditions, there were effects of low pH on fertilization success in echinoids and larval development and size of two Mytilus mussel species, but there was no apparent effect of low oxygen alone or in combination with pH. Fertilization experiments indicated that pH variability present within the habitat of Strongylocentrotus franciscanus could hinder fertilization success when timing of spawning coincides with low pH conditions. The incorporation of semidiurnal pH fluctuations, the dominant scale of observed temporal variability, into laboratory experiments alleviated negative effects of reduced pH in both Mytilus species studied. Furthermore, at lower pH, high variance in echinoid sperm performance and in larval size of Mytilus spp. suggests the raw material exists for evolutionary adaptation to reduced pH. Population variance in combination with temporal and spatial variation in pH may be increasingly important in future, low-pH oceans. Additionally, the observation of species-specific responses to pH among congeneric echinoids and mytilid mussels implies that we cannot assume similar sensitivity to reduced pH based on taxonomic relatedness. Further understanding of responses to ocean acidification may be aided by knowledge of larval pH-exposure history. The development of a larval-based geochemical proxy revealed that U/Ca in larval shells reflected differing pH exposures of mussel larvae. Application to outplanted larvae developing along the San Diego coastline demonstrated that higher U/Ca in larval shells can reflect upwelling and exposure to low pH. Notably, present-day pH conditions are at times low enough to elicit significant effects on fertilization in S. franciscanus, on larval development of Mytilus spp., and on the geochemical composition of larval shells. These effects could influence the sustainability and persistence of these commercially harvested species as ocean acidification intensifies along upwelling margins
format Doctoral or Postdoctoral Thesis
author Frieder, Christina A.
author_facet Frieder, Christina A.
author_sort Frieder, Christina A.
title Evaluating low oxygen and pH variation and its effects on invertebrate early life stages on upwelling margins /
title_short Evaluating low oxygen and pH variation and its effects on invertebrate early life stages on upwelling margins /
title_full Evaluating low oxygen and pH variation and its effects on invertebrate early life stages on upwelling margins /
title_fullStr Evaluating low oxygen and pH variation and its effects on invertebrate early life stages on upwelling margins /
title_full_unstemmed Evaluating low oxygen and pH variation and its effects on invertebrate early life stages on upwelling margins /
title_sort evaluating low oxygen and ph variation and its effects on invertebrate early life stages on upwelling margins /
publisher eScholarship, University of California
publishDate 2013
url http://www.escholarship.org/uc/item/74m0h54p
http://n2t.net/ark:/20775/bb1298416w
op_coverage 1 PDF (1 online resource xxi, 182 pages)
genre Ocean acidification
genre_facet Ocean acidification
op_source Frieder, Christina A.(2013). Evaluating low oxygen and pH variation and its effects on invertebrate early life stages on upwelling margins /. UC San Diego: Retrieved from: http://www.escholarship.org/uc/item/74m0h54p
op_relation http://www.escholarship.org/uc/item/74m0h54p
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op_rights public
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