Gastrulation and hatch as critical thermal windows for salmonid embryo development
Gastrulation and hatch as critical thermal windows for salmonid embryo development
Climate change and impoundment increase river temperatures, shifting the bioclimatic envelope in which freshwater biota have evolved and increasing salmonid egg mortality. To mitigate this, conservation flows from reservoirs are often implemented to maintain favourable water temperatures downstream from impoundments throughout salmonid embryo development. However, as water to maintain conservation flows becomes scarcer, there is a need to understand the requirements of salmonid embryos and balance these with anthropogenic demands. This study combines a laboratory-based and a modelling approach to test the effect of different temperatures on the survival from fertilisation to hatch of a model salmonid species. Further, the effect of dropping temperatures from high to optimal conditions at hatch—a perceived period of greater sensitivity to high temperatures—is tested. The study shows embryo mortality increases with temperature and is greatest during gastrulation and hatch. Also, embryos that experienced high temperatures during gastrulation had high mortality rates at hatch, even when hatch conditions were optimal. This indicates sublethal developmental abnormalities caused by high temperatures during gastrulation increase mortality at hatch. Therefore, to maintain high rates of salmonid embryo survival, cold water resources from reservoirs ideally will target both gastrulation and hatch developmental stages.
46-53
Bloomer, Jack
057c99b4-b7fb-425a-9f1a-4c49f80789d8
Anderson, James J.
65d5fd47-90ba-4982-ad6b-f503bc16c070
Sear, David
ccd892ab-a93d-4073-a11c-b8bca42ecfd3
Greene, Sheila
a6e59e31-9c77-4331-bec4-1ecfbd8da369
Gantner, Drew
08e98493-b583-4fce-b291-09f473e83f8c
Hanson, Charles
2d284388-fbca-4119-9649-42e9ef100c3b
Bloomer, Jack
057c99b4-b7fb-425a-9f1a-4c49f80789d8
Anderson, James J.
65d5fd47-90ba-4982-ad6b-f503bc16c070
Sear, David
ccd892ab-a93d-4073-a11c-b8bca42ecfd3
Greene, Sheila
a6e59e31-9c77-4331-bec4-1ecfbd8da369
Gantner, Drew
08e98493-b583-4fce-b291-09f473e83f8c
Hanson, Charles
2d284388-fbca-4119-9649-42e9ef100c3b
Bloomer, Jack, Anderson, James J., Sear, David, Greene, Sheila, Gantner, Drew and Hanson, Charles
(2023)
Gastrulation and hatch as critical thermal windows for salmonid embryo development.
River Research and Applications, 39 (1), .
(doi:10.1002/rra.4066).
Abstract
Climate change and impoundment increase river temperatures, shifting the bioclimatic envelope in which freshwater biota have evolved and increasing salmonid egg mortality. To mitigate this, conservation flows from reservoirs are often implemented to maintain favourable water temperatures downstream from impoundments throughout salmonid embryo development. However, as water to maintain conservation flows becomes scarcer, there is a need to understand the requirements of salmonid embryos and balance these with anthropogenic demands. This study combines a laboratory-based and a modelling approach to test the effect of different temperatures on the survival from fertilisation to hatch of a model salmonid species. Further, the effect of dropping temperatures from high to optimal conditions at hatch—a perceived period of greater sensitivity to high temperatures—is tested. The study shows embryo mortality increases with temperature and is greatest during gastrulation and hatch. Also, embryos that experienced high temperatures during gastrulation had high mortality rates at hatch, even when hatch conditions were optimal. This indicates sublethal developmental abnormalities caused by high temperatures during gastrulation increase mortality at hatch. Therefore, to maintain high rates of salmonid embryo survival, cold water resources from reservoirs ideally will target both gastrulation and hatch developmental stages.
Text
River Research Apps - 2022 - Bloomer - Gastrulation and hatch as critical thermal windows for salmonid embryo development
- Version of Record
More information
Accepted/In Press date: 3 October 2022
e-pub ahead of print date: 20 October 2023
Identifiers
Local EPrints ID: 490375
URI: http://eprints.soton.ac.uk/id/eprint/490375
ISSN: 1535-1459
PURE UUID: d8007a9d-4e01-4d0e-88d0-67b129723916
Catalogue record
Date deposited: 24 May 2024 16:32
Last modified: 25 May 2024 01:34
Export record
Altmetrics
Contributors
Author:
Jack Bloomer
Author:
James J. Anderson
Author:
Sheila Greene
Author:
Drew Gantner
Author:
Charles Hanson
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics
