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Early development of congeneric sea urchins (Heliocidaris) with contrasting life history modes in a warming and high CO2 ocean
Hardy, N.A.; Byrne, M. (2014). Early development of congeneric sea urchins (Heliocidaris) with contrasting life history modes in a warming and high CO2 ocean. Mar. Environ. Res. 102: 78-87. https://dx.doi.org/10.1016/j.marenvres.2014.07.007
In: Marine Environmental Research. Applied Science Publishers: Barking. ISSN 0141-1136; e-ISSN 1879-0291, more
Also appears in:
Kennedy, R.; Allcock, L.; Firth, L.; Power, A.M. (Ed.) (2014). Managing biodiversity in a changing ocean: Proceedings of the 48th European Marine Biology Symposium (EMBS), Galway, Ireland, 19-23 August 2013. European Marine Biology Symposia, 48. Marine Environmental Research, 102(Suppl.). 130 pp., more
Peer reviewed article  

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Keywords
    Heliocidaris L. Agassiz & Desor, 1846 [WoRMS]
    Marine/Coastal
Author keywords
    Climate change; Ocean warming; Ocean acidification; Life history; Stress tolerance; Embryo; Larva; Echinoid

Authors  Top 
  • Hardy, N.A.
  • Byrne, M.

Abstract
    The impacts of ocean change stressors – warming and acidification – on marine invertebrate development have emerged as a significant impact of global change. We investigated the response of early development to the larval stage in sympatric, congeneric sea urchins, Heliocidaris tuberculata and Heliocidaris erythrogramma with contrasting modes of development to ocean warming and acidification. Effects of these stressors were assessed by quantifying the percentage of normal development during the first 24 h post fertilization, in cross-factorial experiments that included three temperature treatments (control: 20 °C; +4: 24 °C; +6: 26 °C) and four pHNIST levels (control: 8.2; -0.4: 7.8; -0.6: 7.6; -0.8: 0.4). The experimental treatments were designed in context with present day and near-future (~2100) conditions for the southeast Australia global warming hotspot. Temperature was the most important factor affecting development of both species causing faster progression through developmental stages as well as a decrease in the percentage of normal development. H. erythrogramma embryos were less tolerant of increased temperature than those of H. tuberculata. Acidification impaired development to the larval stage in H. tuberculata, but this was not the case for H. erythrogramma. Thus, outcomes for the planktonic life phase of the two Heliocidaris species in response to ocean warming and acidification will differ. As shown for these species, single-stressor temperature or acidification studies can be misleading with respect to determining species' vulnerability and responses to global change.

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