Sea urchin fertilization in a warm, acidified and high pCO2 ocean across a range of sperm densities

Abstract Marine invertebrate gametes are being spawned into an ocean simultaneously warming, acidifying and increasing in pCO2. Decreased pH/increased pCO2 narcotizes sperm indicating that acidification may impair fertilization, exacerbating problems of sperm limitation, with dire implications for m...

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Published in:Marine Environmental Research
Language:English
Published: Elsevier 2011
Subjects:
Climate change
Ocean warming
Ocean acidification
Sperm concentration
Sea urchin
Fertilization
pH/pCO2
Paulina
Online Access:http://hdl.handle.net/2262/50412
https://doi.org/10.1016/j.marenvres.2009.10.014
id fttrinitycoll:oai:tara.tcd.ie:2262/50412
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spelling fttrinitycoll:oai:tara.tcd.ie:2262/50412 2023-05-15T17:51:47+02:00 Sea urchin fertilization in a warm, acidified and high pCO2 ocean across a range of sperm densities 2011-02-10T02:49:27Z http://hdl.handle.net/2262/50412 https://doi.org/10.1016/j.marenvres.2009.10.014 en eng Elsevier 01411136 (ISSN) S0141-1136(09)00140-8 (PII) S0141-1136(09)00140-8 (publisherID) http://hdl.handle.net/2262/50412 Marine Environmental Research 69 4 234 doi:10.1016/j.marenvres.2009.10.014 2009 12 months Climate change Ocean warming Ocean acidification Sperm concentration Sea urchin Fertilization pH/pCO2 2011 fttrinitycoll https://doi.org/10.1016/j.marenvres.2009.10.014 2020-02-16T13:51:11Z Abstract Marine invertebrate gametes are being spawned into an ocean simultaneously warming, acidifying and increasing in pCO2. Decreased pH/increased pCO2 narcotizes sperm indicating that acidification may impair fertilization, exacerbating problems of sperm limitation, with dire implications for marine life. In contrast, increased temperature may have a stimulatory effect, enhancing fertilization. We investigated effects of ocean change on sea urchin fertilization across a range of sperm densities. We address two predictions: 1) low pH/increased pCO2 reduces fertilization at low sperm density and 2) increased temperature enhances fertilization, buffering negative effects of acidification and increased pCO2. Neither prediction was supported. Fertilization was only affected by sperm density. Increased acidification and pCO2 did not reduce fertilization even at low sperm density and increased temperature did not enhance fertilization. It is important to identify where vulnerabilities lie across life histories and our results indicate that sea urchin fertilization is robust to climate change stressors. However, developmental stages may be vulnerable to ocean change. correspondence: Corresponding author. (Byrne, Maria) mbyrne@anatomy.usyd.edu.au (Byrne, Maria) sdworjanyn@nmsc.edu.au (Dworjanyn, Symon A.) adavis@uow.edu.au (Davis, Andrew R.) Anatomy and Histology--> , Bosch Institute--> , F13--> , University of Sydney--> , NSW 2006--> - AUSTRALIA (Byrne, Maria) AUSTRALIA (Byrne, Maria) Anatomy and Histology--> , Bosch Institute--> , F13--> , University of Sydney--> , NSW 2006--> - AUSTRALIA (Soars, Natalie) Anatomy and Histology--> , Bosch Institute--> , F13--> , University of Sydney--> , NSW 2006--> - AUSTRALIA (Selvakumaraswamy, Paulina) National Marine Science Centre, The University of New England and Southern Cross University - PO Box J321--> , Coffs Harbour--> , NSW 2450--> - AUSTRALIA (Dworjanyn, Symon A.) Institute for Conservation Biology, University of Wollongong - NSW 2522--> - AUSTRALIA (Davis, Andrew R.) AUSTRALIA Received: 2009-07-28 Revised: 2009-10-08 Accepted: 2009-10-12 Other/Unknown Material Ocean acidification The University of Dublin, Trinity College: TARA (Trinity's Access to Research Archive) Paulina ENVELOPE(-60.783,-60.783,-62.467,-62.467) Marine Environmental Research 69 4 234 239
institution Open Polar
collection The University of Dublin, Trinity College: TARA (Trinity's Access to Research Archive)
op_collection_id fttrinitycoll
language English
topic Climate change
Ocean warming
Ocean acidification
Sperm concentration
Sea urchin
Fertilization
pH/pCO2
spellingShingle Climate change
Ocean warming
Ocean acidification
Sperm concentration
Sea urchin
Fertilization
pH/pCO2
Sea urchin fertilization in a warm, acidified and high pCO2 ocean across a range of sperm densities
topic_facet Climate change
Ocean warming
Ocean acidification
Sperm concentration
Sea urchin
Fertilization
pH/pCO2
description Abstract Marine invertebrate gametes are being spawned into an ocean simultaneously warming, acidifying and increasing in pCO2. Decreased pH/increased pCO2 narcotizes sperm indicating that acidification may impair fertilization, exacerbating problems of sperm limitation, with dire implications for marine life. In contrast, increased temperature may have a stimulatory effect, enhancing fertilization. We investigated effects of ocean change on sea urchin fertilization across a range of sperm densities. We address two predictions: 1) low pH/increased pCO2 reduces fertilization at low sperm density and 2) increased temperature enhances fertilization, buffering negative effects of acidification and increased pCO2. Neither prediction was supported. Fertilization was only affected by sperm density. Increased acidification and pCO2 did not reduce fertilization even at low sperm density and increased temperature did not enhance fertilization. It is important to identify where vulnerabilities lie across life histories and our results indicate that sea urchin fertilization is robust to climate change stressors. However, developmental stages may be vulnerable to ocean change. correspondence: Corresponding author. (Byrne, Maria) mbyrne@anatomy.usyd.edu.au (Byrne, Maria) sdworjanyn@nmsc.edu.au (Dworjanyn, Symon A.) adavis@uow.edu.au (Davis, Andrew R.) Anatomy and Histology--> , Bosch Institute--> , F13--> , University of Sydney--> , NSW 2006--> - AUSTRALIA (Byrne, Maria) AUSTRALIA (Byrne, Maria) Anatomy and Histology--> , Bosch Institute--> , F13--> , University of Sydney--> , NSW 2006--> - AUSTRALIA (Soars, Natalie) Anatomy and Histology--> , Bosch Institute--> , F13--> , University of Sydney--> , NSW 2006--> - AUSTRALIA (Selvakumaraswamy, Paulina) National Marine Science Centre, The University of New England and Southern Cross University - PO Box J321--> , Coffs Harbour--> , NSW 2450--> - AUSTRALIA (Dworjanyn, Symon A.) Institute for Conservation Biology, University of Wollongong - NSW 2522--> - AUSTRALIA (Davis, Andrew R.) AUSTRALIA Received: 2009-07-28 Revised: 2009-10-08 Accepted: 2009-10-12
title Sea urchin fertilization in a warm, acidified and high pCO2 ocean across a range of sperm densities
title_short Sea urchin fertilization in a warm, acidified and high pCO2 ocean across a range of sperm densities
title_full Sea urchin fertilization in a warm, acidified and high pCO2 ocean across a range of sperm densities
title_fullStr Sea urchin fertilization in a warm, acidified and high pCO2 ocean across a range of sperm densities
title_full_unstemmed Sea urchin fertilization in a warm, acidified and high pCO2 ocean across a range of sperm densities
title_sort sea urchin fertilization in a warm, acidified and high pco2 ocean across a range of sperm densities
publisher Elsevier
publishDate 2011
url http://hdl.handle.net/2262/50412
https://doi.org/10.1016/j.marenvres.2009.10.014
long_lat ENVELOPE(-60.783,-60.783,-62.467,-62.467)
geographic Paulina
geographic_facet Paulina
genre Ocean acidification
genre_facet Ocean acidification
op_relation 01411136 (ISSN)
S0141-1136(09)00140-8 (PII)
S0141-1136(09)00140-8 (publisherID)
http://hdl.handle.net/2262/50412
Marine Environmental Research
69
4
234
doi:10.1016/j.marenvres.2009.10.014
op_rights 2009
12 months
op_doi https://doi.org/10.1016/j.marenvres.2009.10.014
container_title Marine Environmental Research
container_volume 69
container_issue 4
container_start_page 234
op_container_end_page 239
_version_ 1766159031508926464

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