Differences in ion regulation in the sea urchins Lytechinus variegatus and Arbacia lixula (Echinodermata: Echinoidea)

Denilton  Vidolin; Ivonete A.  Santos-Gouvea; Carolina A.  Freire

doi:10.1017/S0025315407054124

Abstract

The regular sea urchin Lytechinus variegatus, a species previously reported from areas of reduced salinities, and Arbacia lixula, a species unreported from diluted waters, were submitted to seawater dilution or seawater dilution in magnesium-supplemented waters. Seawater (35 psu) was either proportionally diluted with filtered dechlorinated tap water (30 psu, 25 psu), or diluted and supplemented with magnesium as MgCl2 (30+Mg, 25+Mg), up to full-strength seawater Mg2+ levels (35 psu, ~54 mM Mg2+). Magnesium supplementation was intended to verify the interfering effect of magnesium on osmo-ionic concentrations of the coelomic fluid (CF) of two ecologically distinct species of sea urchins. After 6 h in control (35 psu) or experimental seawater, CF samples were withdrawn by puncturing through the peristomial membrane. Coelomic fluid osmolality ([Osm]), and concentrations of ([Na+]), ([Cl-]), ([Mg2+]) and ([K+]) were measured for both species. Under all conditions, L. variegatus displayed higher CF osmolality, [Na+], and [K+] values than the water (and A. lixula). Comparatively, L. variegatus is designated as a‘hyper-conformer’, while A. lixula is an ‘iso-conformer’. The CF [Mg2+] showed no evidence of being controlled by either species. Mg2+ supplementation in diluted seawater affected Mg2+ and Cl- levels only. Na+ appears to be taken up actively by L. variegatus, rendering its CF mostly hyper-ionic for Na+ (and hyperosmotic) relative to external seawater. The different gradients observed with the different ions suggest selective permeabilities or ion regulation by L. variegatus.

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Catarino, Ana I. Bauwens, Mathieu and Dubois, Philippe 2012. Acid–base balance and metabolic response of the sea urchin Paracentrotus lividus to different seawater pH and temperatures. Environmental Science and Pollution Research, Vol. 19, Issue. 6, p. 2344.

Ventura, Carlos R. R. Borges, Michela Campos, Lúcia S. Costa-Lotufo, Leticia V. Freire, Carolina A. Hadel, Valéria F. Manso, Cynthia L. C. Silva, José R. M. C. Tavares, Yara and Tiago, Cláudio G. 2013. Echinoderm Research and Diversity in Latin America. p. 301.

Calosi, P. Rastrick, S.P.S. Graziano, M. Thomas, S.C. Baggini, C. Carter, H.A. Hall-Spencer, J.M. Milazzo, M. and Spicer, J.I. 2013. Distribution of sea urchins living near shallow water CO2 vents is dependent upon species acid–base and ion-regulatory abilities. Marine Pollution Bulletin, Vol. 73, Issue. 2, p. 470.

Russell, Michael P. 2013. Vol. 66, Issue. , p. 171.

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Santos, Ivonete A. Castellano, Giovanna C. and Freire, Carolina A. 2013. Direct relationship between osmotic and ionic conforming behavior and tissue water regulatory capacity in echinoids. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, Vol. 164, Issue. 3, p. 466.

Fang, Jinghui Zhang, Jihong Liu, Yi Jiang, Zengjie Mao, Yuze and Fang, Jianguang 2015. Effects of temperature and salinity on mortality and metabolism of Ophiopholis mirabilis. Marine Biology Research, Vol. 11, Issue. 2, p. 157.

Hermes Y. de DIOS, Homer B. SOTTO, Filipin T. DY, Danilo and S. ILANO, Anthony 2015. Response of <i>Acanthaster planci</i> (Echinodermata: Asteroidea) to hypersaline solution: Its potential application to population control. Galaxea, Journal of Coral Reef Studies, Vol. 17, Issue. 1, p. 23.

Castellano, Giovanna Carstens Lopes, Elinia Medeiros Ventura, Carlos Renato Rezende and Freire, Carolina Arruda 2017. Early time course of variation in coelomic fluid ionic concentrations in sea urchins abruptly exposed to hypo‐ and hyper‐osmotic salinity challenges: Role of size and cross‐section area of test holes. Journal of Experimental Zoology Part A: Ecological and Integrative Physiology, Vol. 327, Issue. 9, p. 542.

Rocha, RM Castellano, GC and Freire, CA 2017. Physiological tolerance as a tool to support invasion risk assessment of tropical ascidians. Marine Ecology Progress Series, Vol. 577, Issue. , p. 105.

Amri, Sandra Bensouilah, Mourad and Ouali, Kheireddine 2017. Variation of the Condition Index and Sex-ratio of the Sea Urchin Paracentrotus lividus in the Southeast Mediterranean. Journal of Biological Sciences, Vol. 17, Issue. 2, p. 76.

Castellano, Giovanna C. Santos, Ivonete Aparecida and Freire, Carolina A. 2018. Maintenance of ionic gradients and tissue hydration in the intertidal sea cucumberHolothuria griseaunder hypo- and hyper-salinity challenges. Journal of the Marine Biological Association of the United Kingdom, Vol. 98, Issue. 2, p. 325.

Guscelli, Ella Spicer, John I. and Calosi, Piero 2019. The importance of inter‐individual variation in predicting species' responses to global change drivers. Ecology and Evolution, Vol. 9, Issue. 8, p. 4327.

Tian, Yi Shang, Yanpeng Guo, Ran Ding, Jun Li, Xiaoyu and Chang, Yaqing 2020. miR-10 involved in salinity-induced stress responses and targets TBC1D5 in the sea cucumber, Apostichopus japonicas. Comparative Biochemistry and Physiology Part B: Biochemistry and Molecular Biology, Vol. 242, Issue. , p. 110406.

Suckling, Coleen C. and Richard, Joëlle 2020. Short-Term Exposure to Storm-Like Scenario Microplastic and Salinity Conditions Does not Impact Adult Sea Urchin (Arbacia punctulata) Physiology. Archives of Environmental Contamination and Toxicology, Vol. 78, Issue. 3, p. 495.

Queiroz, Vinicius Muxel, Sandra M. Inguglia, Luigi Chiaramonte, Marco and Custódio, Márcio R. 2021. Comparative study of coelomocytes from Arbacia lixula and Lythechinus variegatus: Cell characterization and in vivo evidence of the physiological function of vibratile cells. Fish & Shellfish Immunology, Vol. 110, Issue. , p. 1.

Ouchene, Hanan Hafidi, Najat Elouizgani, Hassan and Hermas, Jamila 2022. Physiological Indices and Feeding Behavior in the Paracentrotus lividus Populations from the South Coast of Morocco. Thalassas: An International Journal of Marine Sciences, Vol. 38, Issue. 1, p. 283.

Abdul Jaleel, K.U. Parameswaran, Usha V. Gopal, Aiswarya Manokaran, Seerangan and Joydas, Thadickal V. 2022. Ecology and Biodiversity of Benthos. p. 287.

Sælen, Gunnar Braga, Juan Carlos and Sola, Fernando 2022. Oyster shells, bulk carbonate sediment, and meteoric calcite cement as recorders of oceanic and radiogenic 87Sr/86Sr in mixed heterozoan carbonates and terrigenous sediment. Journal of Sedimentary Research, Vol. 92, Issue. 1, p. 50.

Tian, Yi Gou, Yuqing Wei, Xing Siqi, Gao Guo, Ran Jiang, Yanan and Chang, Yaqing 2023. Salinity stress alters the expression patterns of novel miR‐2008 and its target gene PLEKHA3 in the sea cucumber Apostichopus japonicus. Journal of the World Aquaculture Society, Vol. 54, Issue. 4, p. 1054.

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Differences in ion regulation in the sea urchins Lytechinus variegatus and Arbacia lixula (Echinodermata: Echinoidea)

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Differences in ion regulation in the sea urchins Lytechinus variegatus and Arbacia lixula (Echinodermata: Echinoidea)

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