Table_1_Ocean Acidification and Ocean Warming Effects on Pacific Herring (Clupea pallasi) Early Life Stages.docx

Increasing green house gas emissions are expected to raise surface seawater temperatures and lead to locally intensified ocean acidity in the U.S. Pacific Northwest. Pacific herring (Clupea pallasi) are ecologically and economically important forage fish species native to this region. While the impa...

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Bibliographic Details
Main Authors: Cristina Villalobos, Brooke A. Love, M. Brady Olson
Format: Dataset
Language:unknown
Published: 2020
Subjects:
Oceanography
Marine Biology
Marine Geoscience
Biological Oceanography
Chemical Oceanography
Physical Oceanography
Marine Engineering
Pacific herring
ocean acidification
ocean warming
early life
teleost
Pacific
Ocean acidification
Online Access:https://doi.org/10.3389/fmars.2020.597899.s001
https://figshare.com/articles/dataset/Table_1_Ocean_Acidification_and_Ocean_Warming_Effects_on_Pacific_Herring_Clupea_pallasi_Early_Life_Stages_docx/13378457
Description
Summary:Increasing green house gas emissions are expected to raise surface seawater temperatures and lead to locally intensified ocean acidity in the U.S. Pacific Northwest. Pacific herring (Clupea pallasi) are ecologically and economically important forage fish species native to this region. While the impacts of ocean acidification and ocean warming on organism physiology have been extensively studied, less is known on how concurrent climate change stressors will affect marine fish. Therefore, our study focused on the combined effects of ocean acidification and warming on Pacific herring early life history stages. Pacific herring embryos were incubated under a factorial design of two temperature (10°C or 16°C) and two pCO 2 (600 μatm or 1200 μatm) treatments from fertilization until hatch (6 to 15 days depending on temperature). Elevated pCO 2 was associated with a small increase in embryo mortality. Elevated temperature, as a single stressor, generated greater embryo mortality and embryo heart rates, larger yolk areas upon hatch, lower hatching success, and shorter larval lengths; compared with the same parameters measured under ambient temperature. The interaction of elevated temperature and pCO 2 was associated with greater embryo heart rates and yolk areas compared to ambient conditions. This study suggests that while temperature is the primary global change stressor affecting Pacific herring embryology, interaction effects with pCO 2 could introduce additional physiological challenges.

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