Table S6. Two-way ANOVA outputs testing for a consistent effect of mixing tank for the pH 7.8 treatments for all main physiological variables presented in Fig. 3 from Common reef-building coral in the Northern Red Sea resistant to elevated temperature and acidification.

Coral reefs are currently experiencing substantial ecological impoverishment as a result of anthropogenic stressors and the majority of reefs are facing immediate risk. Increasing ocean surface temperatures induce frequent coral mass bleaching events—the breakdown of the nutritional photo-symbiosis...

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Main Authors: Thomas Krueger, Noa Horwitz, Julia Bodin, Maria-Evangelia Giovani, Stéphane Escrig, Anders Meibom, Maoz Fine
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2017
Subjects:
Physiology
Environmental Science
Ecology
global climate change
coral bleaching
Stylophora pistillata
Symbiodinium
NanoSIMS
coral refugia
ocean acidification
Ocean acidification
Online Access:https://doi.org/10.6084/m9.figshare.4884368.v2
https://figshare.com/articles/journal_contribution/Table_S6_Two-way_ANOVA_outputs_testing_for_a_consistent_effect_of_mixing_tank_for_the_pH_7_8_treatments_for_all_main_physiological_variables_presented_in_Fig_3_from_Common_reef-building_coral_in_the_Northern_Red_Sea_resistant_to_elevated_temperature_and_a/4884368
id ftroysocietyfig:oai:figshare.com:article/4884368
record_format openpolar
spelling ftroysocietyfig:oai:figshare.com:article/4884368 2023-05-15T17:51:38+02:00 Table S6. Two-way ANOVA outputs testing for a consistent effect of mixing tank for the pH 7.8 treatments for all main physiological variables presented in Fig. 3 from Common reef-building coral in the Northern Red Sea resistant to elevated temperature and acidification. Thomas Krueger Noa Horwitz Julia Bodin Maria-Evangelia Giovani Stéphane Escrig Anders Meibom Maoz Fine 2017-04-24T11:10:06Z https://doi.org/10.6084/m9.figshare.4884368.v2 https://figshare.com/articles/journal_contribution/Table_S6_Two-way_ANOVA_outputs_testing_for_a_consistent_effect_of_mixing_tank_for_the_pH_7_8_treatments_for_all_main_physiological_variables_presented_in_Fig_3_from_Common_reef-building_coral_in_the_Northern_Red_Sea_resistant_to_elevated_temperature_and_a/4884368 unknown doi:10.6084/m9.figshare.4884368.v2 https://figshare.com/articles/journal_contribution/Table_S6_Two-way_ANOVA_outputs_testing_for_a_consistent_effect_of_mixing_tank_for_the_pH_7_8_treatments_for_all_main_physiological_variables_presented_in_Fig_3_from_Common_reef-building_coral_in_the_Northern_Red_Sea_resistant_to_elevated_temperature_and_a/4884368 CC BY 4.0 CC-BY Physiology Environmental Science Ecology global climate change coral bleaching Stylophora pistillata Symbiodinium NanoSIMS coral refugia ocean acidification Text Journal contribution 2017 ftroysocietyfig https://doi.org/10.6084/m9.figshare.4884368.v2 2022-01-01T19:18:49Z Coral reefs are currently experiencing substantial ecological impoverishment as a result of anthropogenic stressors and the majority of reefs are facing immediate risk. Increasing ocean surface temperatures induce frequent coral mass bleaching events—the breakdown of the nutritional photo-symbiosis with intracellular algae (genus: Symbiodinium ). Here, we report that Stylophora pistillata from a highly diverse reef in the Gulf of Aqaba showed no signs of bleaching despite spending 1.5 months at 1–2°C above their long-term summer maximum (amounting to 11 degree heating weeks) and a seawater pH of 7.8. Instead, their symbiotic dinoflagellates exhibited improved photochemistry, higher pigmentation and a doubling in net oxygen production, leading to a 51% increase in primary productivity. Nanoscale secondary ion mass spectrometry imaging revealed subtle cellular-level shifts in carbon and nitrogen metabolism under elevated temperatures, but overall host and symbiont biomass proxies were not significantly affected. Now living well below their thermal threshold in the Gulf of Aqaba, these corals have been evolutionary selected for heat tolerance during their migration through the warm Southern Red Sea after the last ice age. This may allow them to withstand future warming for a longer period of time, provided that successful environmental conservation measures are enacted across national boundaries in the region. Other Non-Article Part of Journal/Newspaper Ocean acidification The Royal Society: Figshare
institution Open Polar
collection The Royal Society: Figshare
op_collection_id ftroysocietyfig
language unknown
topic Physiology
Environmental Science
Ecology
global climate change
coral bleaching
Stylophora pistillata
Symbiodinium
NanoSIMS
coral refugia
ocean acidification
spellingShingle Physiology
Environmental Science
Ecology
global climate change
coral bleaching
Stylophora pistillata
Symbiodinium
NanoSIMS
coral refugia
ocean acidification
Thomas Krueger
Noa Horwitz
Julia Bodin
Maria-Evangelia Giovani
Stéphane Escrig
Anders Meibom
Maoz Fine
Table S6. Two-way ANOVA outputs testing for a consistent effect of mixing tank for the pH 7.8 treatments for all main physiological variables presented in Fig. 3 from Common reef-building coral in the Northern Red Sea resistant to elevated temperature and acidification.
topic_facet Physiology
Environmental Science
Ecology
global climate change
coral bleaching
Stylophora pistillata
Symbiodinium
NanoSIMS
coral refugia
ocean acidification
description Coral reefs are currently experiencing substantial ecological impoverishment as a result of anthropogenic stressors and the majority of reefs are facing immediate risk. Increasing ocean surface temperatures induce frequent coral mass bleaching events—the breakdown of the nutritional photo-symbiosis with intracellular algae (genus: Symbiodinium ). Here, we report that Stylophora pistillata from a highly diverse reef in the Gulf of Aqaba showed no signs of bleaching despite spending 1.5 months at 1–2°C above their long-term summer maximum (amounting to 11 degree heating weeks) and a seawater pH of 7.8. Instead, their symbiotic dinoflagellates exhibited improved photochemistry, higher pigmentation and a doubling in net oxygen production, leading to a 51% increase in primary productivity. Nanoscale secondary ion mass spectrometry imaging revealed subtle cellular-level shifts in carbon and nitrogen metabolism under elevated temperatures, but overall host and symbiont biomass proxies were not significantly affected. Now living well below their thermal threshold in the Gulf of Aqaba, these corals have been evolutionary selected for heat tolerance during their migration through the warm Southern Red Sea after the last ice age. This may allow them to withstand future warming for a longer period of time, provided that successful environmental conservation measures are enacted across national boundaries in the region.
format Other Non-Article Part of Journal/Newspaper
author Thomas Krueger
Noa Horwitz
Julia Bodin
Maria-Evangelia Giovani
Stéphane Escrig
Anders Meibom
Maoz Fine
author_facet Thomas Krueger
Noa Horwitz
Julia Bodin
Maria-Evangelia Giovani
Stéphane Escrig
Anders Meibom
Maoz Fine
author_sort Thomas Krueger
title Table S6. Two-way ANOVA outputs testing for a consistent effect of mixing tank for the pH 7.8 treatments for all main physiological variables presented in Fig. 3 from Common reef-building coral in the Northern Red Sea resistant to elevated temperature and acidification.
title_short Table S6. Two-way ANOVA outputs testing for a consistent effect of mixing tank for the pH 7.8 treatments for all main physiological variables presented in Fig. 3 from Common reef-building coral in the Northern Red Sea resistant to elevated temperature and acidification.
title_full Table S6. Two-way ANOVA outputs testing for a consistent effect of mixing tank for the pH 7.8 treatments for all main physiological variables presented in Fig. 3 from Common reef-building coral in the Northern Red Sea resistant to elevated temperature and acidification.
title_fullStr Table S6. Two-way ANOVA outputs testing for a consistent effect of mixing tank for the pH 7.8 treatments for all main physiological variables presented in Fig. 3 from Common reef-building coral in the Northern Red Sea resistant to elevated temperature and acidification.
title_full_unstemmed Table S6. Two-way ANOVA outputs testing for a consistent effect of mixing tank for the pH 7.8 treatments for all main physiological variables presented in Fig. 3 from Common reef-building coral in the Northern Red Sea resistant to elevated temperature and acidification.
title_sort table s6. two-way anova outputs testing for a consistent effect of mixing tank for the ph 7.8 treatments for all main physiological variables presented in fig. 3 from common reef-building coral in the northern red sea resistant to elevated temperature and acidification.
publishDate 2017
url https://doi.org/10.6084/m9.figshare.4884368.v2
https://figshare.com/articles/journal_contribution/Table_S6_Two-way_ANOVA_outputs_testing_for_a_consistent_effect_of_mixing_tank_for_the_pH_7_8_treatments_for_all_main_physiological_variables_presented_in_Fig_3_from_Common_reef-building_coral_in_the_Northern_Red_Sea_resistant_to_elevated_temperature_and_a/4884368
genre Ocean acidification
genre_facet Ocean acidification
op_relation doi:10.6084/m9.figshare.4884368.v2
https://figshare.com/articles/journal_contribution/Table_S6_Two-way_ANOVA_outputs_testing_for_a_consistent_effect_of_mixing_tank_for_the_pH_7_8_treatments_for_all_main_physiological_variables_presented_in_Fig_3_from_Common_reef-building_coral_in_the_Northern_Red_Sea_resistant_to_elevated_temperature_and_a/4884368
op_rights CC BY 4.0
op_rightsnorm CC-BY
op_doi https://doi.org/10.6084/m9.figshare.4884368.v2
_version_ 1766158842246201344

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