Ocean acidification decreases grazing pressure but alters morphological structure in a dominant coastal seaweed

Kinnby, Alexandra; White, Joel C. B.; Toth, Gunilla B.; Pavia, Henrik

doi:10.1371/journal.pone.0245017

Cited by 20 publications

(16 citation statements)

References 63 publications

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“…Susceptibility to grazing in F. vesiculosus and other fucoids can be affected by the morphology (e.g., toughness) and/or nutrient content (e.g., nitrogen content) of the thallus, as well as the presence of chemical defense compounds (e.g., phlorotannins). Changes in tissue toughness in F. vesiculosus were found by Rothäusler et al (2017) in response to reduced salinity and warming, as well as by Kinnby et al (2021) who found that seaweeds became more fragile under elevated pCO 2 . However, none of these previous studies found a correlation between tissue toughness and susceptibility to grazing (Rothäusler et al, 2017;Kinnby et al, 2021).…”

Section: Discussionmentioning

confidence: 77%

“…Changes in tissue toughness in F. vesiculosus were found by Rothäusler et al (2017) in response to reduced salinity and warming, as well as by Kinnby et al (2021) who found that seaweeds became more fragile under elevated pCO 2 . However, none of these previous studies found a correlation between tissue toughness and susceptibility to grazing (Rothäusler et al, 2017;Kinnby et al, 2021). Raddatz et al (2017) found a weak negative correlation between susceptibility to grazing and C:N ratio in F. vesiculosus, however, this was not related to changes in climate variables (pCO 2 or temperature).…”

Section: Discussionmentioning

confidence: 77%

“…Values are averages ± SD for ambient levels as well as the average ± SD across all the manipulated treatments, n = 4,120 for temperature and salinity, n = 30 for pCO 2 and pH NBS . (Kinnby et al, 2021). The pCO 2 was monitored using a LI-850 CO 2 /H 2 O gas analyzer (Li-Cor).…”

Section: Sampling and Experimental Set-upmentioning

confidence: 99%

“…It provides habitat and food for invertebrates, fish, and other algal species in rocky intertidal areas in both sheltered and exposed rocky shorelines (Bergström et al, 2005;Forslund and Kautsky, 2013). Evidence from previous studies show that changes to a single environmental factor can have negative (reduced salinity, Nygård and Dring, 2008;Connan and Stengel, 2011a;increased temperature, Mensch et al, 2016) or positive (reduced salinity, Rugiu et al, 2018;Kinnby et al, 2021) effect on growth. Changes to multiple climate factors can cause tissue necrosis (reduced salinity and increased temperature, Takolander et al, 2017), reduce growth (reduced salinity and increased temperature, Rugiu et al, 2018) or mitigate the effects of changes to a single variable (increased temperature and elevated pCO 2 , Mensch et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

“…Phlorotannins are a group of polyphenolic metabolites that can occur in high concentrations in brown seaweeds, especially in fucoids. These compounds have several functions, including UV protection and chemical defense against grazers (Pavia et al, 1997;Toth and Pavia, 2007), and have been experimentally shown in F. vesiculosus to decrease when exposed to lower salinity (Connan and Stengel, 2011b;Kinnby et al, 2020) and elevated pCO 2 (Kinnby et al, 2021). Climate change induced alterations in chemical defenses and overall biochemical composition of seaweed biomass can have consequences for ecological interactions such as grazing pressure on the seaweeds.…”

Section: Introductionmentioning

confidence: 99%

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Climate Change Increases Susceptibility to Grazers in a Foundation Seaweed

2021

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Climate change leads to multiple effects caused by simultaneous shifts in several physical factors which will interact with species and ecosystems in complex ways. In marine systems the effects of climate change include altered salinity, increased temperature, and elevated pCO2 which are currently affecting and will continue to affect marine species and ecosystems. Seaweeds are primary producers and foundation species in coastal ecosystems, which are particularly vulnerable to climate change. The brown seaweed Fucus vesiculosus (bladderwrack) is an important foundation species in nearshore ecosystems throughout its natural range in the North Atlantic Ocean and the Baltic Sea. This study investigates how individual and interactive effects of temperature, salinity, and pCO2 affect F. vesiculosus, using a fully crossed experimental design. We assessed the effects on F. vesiculosus in terms of growth, biochemical composition (phlorotannin content, C:N ratio, and ∂13C), and susceptibility to the specialized grazer Littorina obtusata. We observed that elevated pCO2 had a positive effect on seaweed growth in ambient temperature, but not in elevated temperature, while growth increased in low salinity at ambient but not high temperature, regardless of pCO2-level. In parallel to the statistically significant, but relatively small, positive effects on F. vesiculosus growth, we found that the seaweeds became much more susceptible to grazing in elevated pCO2 and reduced salinity, regardless of temperature. Furthermore, the ability of the seaweeds to induce chemical defenses (phlorotannins) was strongly reduced by all the climate stressors. Seaweeds exposed to ambient conditions more than doubled their phlorotannin content in the presence of grazers, while seaweeds exposed to any single or combined stress conditions showed only minor increases in phlorotannin content, or none at all. Despite the minor positive effects on seaweed growth, the results of this study imply that climate change can strongly affect the ability of fucoid seaweeds to induce chemical defenses and increase their susceptibility to grazers. This will likely lead to widespread consequences under future climate conditions, considering the important role of F. vesiculosus and other fucoids in many coastal ecosystems.

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