The effects of in-vitro pH decrease on the gametogenesis of the red tree coral, Primnoa pacifica

Primnoa pacifica is the most ecologically important coral species in the North Pacific Ocean and provides important habitat for commercially important fish and invertebrates. Ocean acidification (OA) is more rapidly increasing in high-latitude seas because anthropogenic CO2 uptake is greater in thes...

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Veröffentlicht in:	PloS one 2019-04, Vol.14 (4), p.e0203976
Hauptverfasser:	Rossin, Ashley M, Waller, Rhian G, Stone, Robert P
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Sprache:	eng
Schlagworte:	Acidification Alkalinity Animal reproduction Animals Anthozoa - cytology Anthozoa - metabolism Anthropogenic factors Calcification Carbon dioxide Carbon Dioxide - metabolism Cold water Coral reefs Ecosystems Fecundity Female Females Fish Fisheries Gametes Gametogenesis Hydrogen-Ion Concentration Invertebrates Larval development Lipids Male Males Ocean acidification Oceans Oocytes Oocytes - cytology Oocytes - metabolism Oogenesis Organisms pH effects Physiological aspects Physiology Predictive control Primnoa pacifica Soft corals Solubility Spawning Sperm Spermatocytes - cytology Spermatocytes - metabolism Spermatogenesis Water acidification
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description	Primnoa pacifica is the most ecologically important coral species in the North Pacific Ocean and provides important habitat for commercially important fish and invertebrates. Ocean acidification (OA) is more rapidly increasing in high-latitude seas because anthropogenic CO2 uptake is greater in these regions. This is due to the solubility of CO2 in cold water and the reduced buffering capacity and low alkalinity of colder waters. Primnoa pacifica colonies were cultured for six to nine months in either pH 7.55 (predicted Year 2100 pH levels) or pH 7.75 (Control). Oocyte development and fecundity in females, and spermatocyst stages in males were measured to assess the effects of pH on gametogenesis. Oocyte diameters were 13.6% smaller and fecundities were 30.9% lower in the Year 2100 samples. A higher proportion of vitellogenic oocytes (65%) were also reabsorbed (oosorption) in the Year 2100 treatment. Lower pH appeared to advance the process of spermatogenesis with a higher percentage of later stage sperm compared to Control. There was a laboratory effect observed in all measurement types, however this only significantly affected the analyses of spermatogenesis. Based on the negative effect of acidification on oogenesis and increased rate of oosorption, successful spawning could be unlikely in an acidified ocean. If female gametes were spawned, they are likely to be insufficiently equipped to develop normally, based on the decreased overall size and therefore subsequent limited amount of lipids necessary for successful larval development.
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Ocean acidification (OA) is more rapidly increasing in high-latitude seas because anthropogenic CO2 uptake is greater in these regions. This is due to the solubility of CO2 in cold water and the reduced buffering capacity and low alkalinity of colder waters. Primnoa pacifica colonies were cultured for six to nine months in either pH 7.55 (predicted Year 2100 pH levels) or pH 7.75 (Control). Oocyte development and fecundity in females, and spermatocyst stages in males were measured to assess the effects of pH on gametogenesis. Oocyte diameters were 13.6% smaller and fecundities were 30.9% lower in the Year 2100 samples. A higher proportion of vitellogenic oocytes (65%) were also reabsorbed (oosorption) in the Year 2100 treatment. Lower pH appeared to advance the process of spermatogenesis with a higher percentage of later stage sperm compared to Control. There was a laboratory effect observed in all measurement types, however this only significantly affected the analyses of spermatogenesis. Based on the negative effect of acidification on oogenesis and increased rate of oosorption, successful spawning could be unlikely in an acidified ocean. 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subjects	Acidification Alkalinity Animal reproduction Animals Anthozoa - cytology Anthozoa - metabolism Anthropogenic factors Calcification Carbon dioxide Carbon Dioxide - metabolism Cold water Coral reefs Ecosystems Fecundity Female Females Fish Fisheries Gametes Gametogenesis Hydrogen-Ion Concentration Invertebrates Larval development Lipids Male Males Ocean acidification Oceans Oocytes Oocytes - cytology Oocytes - metabolism Oogenesis Organisms pH effects Physiological aspects Physiology Predictive control Primnoa pacifica Soft corals Solubility Spawning Sperm Spermatocytes - cytology Spermatocytes - metabolism Spermatogenesis Water acidification
title	The effects of in-vitro pH decrease on the gametogenesis of the red tree coral, Primnoa pacifica
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