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Near-future ocean warming and acidification alter foraging behaviour, locomotion, and metabolic rate in a keystone marine mollusc ArchiMer
Horwitz, Rael; Norin, Tommy; Watson, Sue-ann; Pistevos, Jennifer C. A.; Beldade, Ricardo; Hacquart, Simon; Gattuso, Jean-pierre; Rodolfo-metalpa, Riccardo; Vidal-dupiol, Jeremie; Killen, Shaun S.; Mills, Suzanne C..
Environmentally-induced changes in fitness are mediated by direct effects on physiology and behaviour, which are tightly linked. We investigated how predicted ocean warming (OW) and acidification (OA) affect key ecological behaviours (locomotion speed and foraging success) and metabolic rate of a keystone marine mollusc, the sea hare Stylocheilus striatus, a specialist grazer of the toxic cyanobacterium Lyngbya majuscula. We acclimated sea hares to OW and/or OA across three developmental stages (metamorphic, juvenile, and adult) or as adults only, and compare these to sea hares maintained under current-day conditions. Generally, locomotion speed and time to locate food were reduced ~1.5- to 2-fold when the stressors (OW or OA) were experienced in...
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Ano: 2020 URL: https://archimer.ifremer.fr/doc/00618/72974/72049.pdf
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Responses of Two Scleractinian Corals to Cobalt Pollution and Ocean Acidification ArchiMer
Biscere, Tom; Rodolfo-metalpa, Riccardo; Lorrain, Anne; Chauvaud, Laurent; Thebault, Julien; Clavier, Jacques; Houlbreque, Fanny.
The effects of ocean acidification alone or in combination with warming on coral metabolism have been extensively investigated, whereas none of these studies consider that most coral reefs near shore are already impacted by other natural anthropogenic inputs such as metal pollution. It is likely that projected ocean acidification levels will aggravate coral reef health. We first investigated how ocean acidification interacts with one near shore locally abundant metal on the physiology of two major reef-building corals: Stylophora pistillata and Acropora muricata. Two pH levels (pH(T) 8.02; pCO(2) 366 mu atm and pH(T) 7.75; pCO(2) 1140 mu atm) and two cobalt concentrations (natural, 0.03 mu g L-1 and polluted, 0.2 mu g L-1) were tested during five weeks in...
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Ano: 2015 URL: https://archimer.ifremer.fr/doc/00266/37758/35807.pdf
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Greater Mitochondrial Energy Production Provides Resistance to Ocean Acidification in “Winning” Hermatypic Corals ArchiMer
Agostini, Sylvain; Houlbrèque, Fanny; Biscéré, Tom; Harvey, Ben P.; Heitzman, Joshua M.; Takimoto, Risa; Yamazaki, Wataru; Milazzo, Marco; Rodolfo-metalpa, Riccardo.
Coral communities around the world are projected to be negatively affected by ocean acidification. Not all coral species will respond in the same manner to rising CO2 levels. Evidence from naturally acidified areas such as CO2 seeps have shown that although a few species are resistant to elevated CO2, most lack sufficient resistance resulting in their decline. This has led to the simple grouping of coral species into “winners” and “losers,” but the physiological traits supporting this ecological assessment are yet to be fully understood. Here using CO2 seeps, in two biogeographically distinct regions, we investigated whether physiological traits related to energy production [mitochondrial electron transport systems (ETSAs) activities] and biomass (protein...
Tipo: Text Palavras-chave: Ocean acidification; Hermatypic corals; Mitochondrial electron transport activity; Biomass; Resistance.
Ano: 2021 URL: https://archimer.ifremer.fr/doc/00677/78925/81293.pdf
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The Bouraké semi- enclosed lagoon (New Caledonia). A natural laboratory to study the life-long adaptation of a coral reef ecosystem to climate change-like conditions ArchiMer
Maggioni, Federica; Pujo-pay, Mireille; Aucan, Jérôme; Cerrano, Carlo; Calcinai, Barbara; Payri, Claude; Benzoni, Francesca; Letourneur, Yves; Rodolfo-metalpa, Riccardo.
According to current experimental evidence, coral reefs could disappear within the century if CO2 emissions remain unabated. However, recent discoveries of diverse and high cover reefs that already thrive under extreme conditions seem to contradict these projections. Volcanic CO2 vents, semi-enclosed lagoons and mangrove estuaries are unique study sites where one or more ecologically relevant parameters for life in the oceans are close or even worse than currently projected for the year 2100. These natural analogues of future conditions hold new hope for the future of coral reefs and provide unique natural laboratories to explore how reef species could keep pace with climate change. To achieve this, it is essential to characterize their environment as a...
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Ano: 2021 URL: https://archimer.ifremer.fr/doc/00693/80480/83620.pdf
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