CONICET | Buscador de Institutos y Recursos Humanos

Over the last two decades, an increasing interest has arisen in the responses of primary producers to global-change drivers and, more recently, in the need to consider how those various drivers may interact. To understand how Corallina officinalis (hereafter Corallina) can be affected by future changing conditions, we investigated the short-term direct effects of co-occurring increased nutrient loads, solar radiation, and lower pH, assessing how these clustered drivers affected Corallinas overall physiological performance in a harsh Patagonian coastal environment. To describe the seasonal trend of the physiological parameters in the field, we sampled subtidal Corallina to determine their net oxygen production (NOP), pigments, and carbonate content (CC). Furthermore, we conducted seasonal 10-day experiments, simulating the conditions predicted for the year 2100 by the IPCC (RCP 8.5)manipulating pH, nutrients, and irradiancealong with the current conditions. The pigments and carotenoids/chlorophyll-a ratio were, in general, constant in the field over the seasons, but the NOP and CC dropped in spring, when the carotenoids peaked. After the experiment, the highest carotenoid/chlorophyll-a ratio was registered in summer under both the current and the predicted conditions and in winter under the predicted condition. This lower physiological status was also reflected in almost all other variables. Thus, Corallina may display an acclimatization strategy to cope with high ultraviolet-radiation levels by adjusting its pigment composition to avoid photoinhibition. An understanding of how Corallina, as a habitat-forming species, will respond to future global change may provide clues about the extent of effects on the ecosystem functions and services.

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