2018
DOI: 10.3354/meps12552
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Ocean warming has greater and more consistent negative effects than ocean acidification on the growth and health of subtropical macroalgae

Abstract: Macroalgae are the major habitat-forming organisms in many coastal temperate and subtropical marine systems. Although climate change has been identified as a major threat to the persistence of macroalgal beds, the combined effects of ocean warming and ocean acidification on algal performance are poorly understood. Here we investigate the effects of increased temperature and acidification on the growth, calcification and nutritional content of 6 common subtropical macroalgae; Sargassum linearifolium, Ulva sp., … Show more

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Cited by 37 publications
(20 citation statements)
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References 105 publications
(133 reference statements)
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“…Brazilian seagrass communities are being affected by eutrophication, increased storm frequency, and sediment shifts associated with climate change (Short et al, 2006). Increased temperatures negatively affect growth and calcification of subtropical macroalgae, posing a great threat to macroalgal populations (Koch et al, 2013;Graba-Landry et al, 2018). But compelling evidence suggests that jellyfish abundances fluctuate with climatic cycles (Condon et al, 2013), with the majority of the temperate species studied increasing their abundance in warm temperatures due to increased asexual reproduction (Purcell, 2005;Purcell et al, 2007).…”
Section: Discussionmentioning
confidence: 99%
“…Brazilian seagrass communities are being affected by eutrophication, increased storm frequency, and sediment shifts associated with climate change (Short et al, 2006). Increased temperatures negatively affect growth and calcification of subtropical macroalgae, posing a great threat to macroalgal populations (Koch et al, 2013;Graba-Landry et al, 2018). But compelling evidence suggests that jellyfish abundances fluctuate with climatic cycles (Condon et al, 2013), with the majority of the temperate species studied increasing their abundance in warm temperatures due to increased asexual reproduction (Purcell, 2005;Purcell et al, 2007).…”
Section: Discussionmentioning
confidence: 99%
“…(Diaz-Pulido et al, 2011;Gordillo et al, 2016;Xu et al, 2017), but their responses also depend on other factors such as developmental stages or carbon uptake mechanisms (e.g. passive CO 2 uptake without carbon-concentrating mechanism (CCM), or with CCM combined to high or low affinity for Dissolved Inorganic Carbon (DIC)) (Britton et al, 2016;Cornwall et al, 2017;Graba-Landry et al, 2018). Moreover, as observed in C 3 -terrestrial plants, an increase in CO 2 would likely affect the production of allelochemicals in macroalgae (e.g.…”
Section: Introductionmentioning
confidence: 99%
“…Prior studies have looked at the effects of temperature, light, or inorganic carbon concentration on photosynthetic rates at different pH values, but not all in combination (Beer and Eshel 1983;Beer et al 1990;Drechsler and Beer 1991;Henley 1992;Xu and Gao 2012;Rautenberger et al 2015;Gao et al 2016;Young and Gobler 2016;Ober and Thornber 2017;Graba-Landry et al 2018;Legrand et al 2018). Here, we synthesize these data to model primary production simultaneously over the ranges of 5 C to 30 C, sub-saturating (50 μmol photons m −2 s −1 ) and saturating (400 μmol photons m −2 s −1 ) photon flux densities, and 180 to 1600 μatm pCO 2 (pH range 7.5 to 8.3) to compare their relative magnitudes of influence.…”
Section: Resultsmentioning
confidence: 99%
“…On the left side of Eq. (1), values for net photosynthesis [ C i ( P net )] at a given temperature, light intensity and p CO 2 come from established relationships among these parameters reported in papers by Beer and Eshel (1983), Beer et al (1990), Drechsler and Beer (1991), Henley et al (1992), Xu and Gao (2012), Olischläger et al (2013), Rautenberger et al (2015), Gao et al (2016), Graba‐Landry et al (2018) ( see model parameterization below). The expression on the right side of the equation shows the three DIC uptake mechanisms that, summed together, must account for the observed photosynthetic rate at a specified combination of environmental parameters.…”
Section: Methodsmentioning
confidence: 98%
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