Abstract
The abundance and distribution of intertidal canopy-forming macroalgae are threatened by the increase in sea surface temperature and in the frequency and intensity of heatwaves caused by global warming. This study evaluated the physiological response of predominant intertidal macroalgae in the NW Iberian Peninsula (Bifurcaria bifurcata, Cystoseira tamariscifolia and Codium tomentosum) to increased seawater temperature during immersion and increased air temperatures during consecutive emersion cycles. We combined field mensuration and laboratory experiments in which we measured mortality, growth, maximum quantum yield and C:N content of the macroalgae. Air temperature was a critical factor in determining physiological responses and survivorship of all species, whereas high seawater temperature had sublethal effects. Cystoseira tamariscifolia suffered the greatest decreases in Fv/Fm, growth and the highest mortality under higher air temperatures, whereas C. tomentosum was the most resistant and resilient species. Two consecutive cycles of emersion under atmospheric heatwaves caused cumulative stress in all three macroalgae, affecting the physiological performance and increasing the mortality. The potential expansion of the warm-temperate species B. bifurcata, C. tamariscifolia and C. tomentosum in the NW Iberian Peninsula in response to increasing seawater temperature may be affected by the impact of increased air temperature, especially in a region where the incidence of atmospheric heatwaves is expected to increase.
Highlights
The abundance and distribution of intertidal canopy-forming macroalgae are threatened by the increase in sea surface temperature and in the frequency and intensity of heatwaves caused by global warming
The day of the field measurements the average seawater temperature was 18.18 ± 0.61 °C, the average amount of light measured on bare rock was 2956 ± 516 μmol photon m−2 s−1 and the air temperature reached a maximum of 38 °C (Supplementary Fig. S1)
Temperature below the canopies did not differ between the macroalgae (GLM for temperature: χ2 = 0.15, df = 2, p = 0.928, n = 3), whereas humidity was significantly higher below C. tomentosum (GLM for humidity: χ2 = 37.49, df = 2, p < 0.001, n = 3) (Supplementary Fig. S2)
Summary
The abundance and distribution of intertidal canopy-forming macroalgae are threatened by the increase in sea surface temperature and in the frequency and intensity of heatwaves caused by global warming. Lamouroux showed reduced resilience after repeated exposure to atmospheric heatwaves on e mersion[25,26] These two types of warming are, important drivers in the global distribution of intertidal canopy-forming macroalgae, leading to species decline and range shifts[27,28,29,30] with further consequences on the structure and functioning of communities and entire ecosystems[16,31,32,33]. Such changes have altered the structure of benthic invertebrate assemblages and shortened the length of the food c hain[36]
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