Dynamic response in the larval geoduck (Panopea generosa) proteome to elevated pCO(2)

Pacific geoducks (Panopea generosa) are clams found along the northeast Pacific coast where they are important components of coastal and estuarine ecosystems and a major aquaculture product. The Pacific coastline, however, is also experiencing rapidly changing ocean habitat, including significant re...

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Bibliographic Details
Published in:Ecology and Evolution
Main Authors: Timmins‐Schiffman, Emma, Guzmán, José M., Elliott Thompson, Rhonda, Vadopalas, Brent, Eudeline, Benoit, Roberts, Steven B.
Format: Text
Language:English
Published: John Wiley and Sons Inc. 2019
Subjects:
Original Research
Pacific
Ocean acidification
Online Access:http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6972802/
http://www.ncbi.nlm.nih.gov/pubmed/31988722
https://doi.org/10.1002/ece3.5885
Description
Summary:Pacific geoducks (Panopea generosa) are clams found along the northeast Pacific coast where they are important components of coastal and estuarine ecosystems and a major aquaculture product. The Pacific coastline, however, is also experiencing rapidly changing ocean habitat, including significant reductions in pH. To better understand the physiological impact of ocean acidification on geoduck clams, we characterized for the first time the proteomic profile of this bivalve during larval development and compared it to that of larvae exposed to low pH conditions. Geoduck larvae were reared at pH 7.5 (ambient) or pH 7.1 in a commercial shellfish hatchery from day 6 to day 19 postfertilization and sampled at six time points for an in‐depth proteomics analysis using high‐resolution data‐dependent analysis. Larvae reared at low pH were smaller than those reared at ambient pH, especially in the prodissoconch II phase of development, and displayed a delay in their competency for settlement. Proteomic profiles revealed that metabolic, cell cycle, and protein turnover pathways differed between the two pH and suggested that differing phenotypic outcomes between pH 7.5 and 7.1 are likely due to environmental disruptions to the timing of physiological events. In summary, ocean acidification results in elevated energetic demand on geoduck larvae, resulting in delayed development and disruptions to normal molecular developmental pathways, such as carbohydrate metabolism, cell growth, and protein synthesis.

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