Macroalgae support productive and diverse communities in marine habitats worldwide, but are threatened by changes to ocean conditions and altered interactions with marine herbivores. To better understand how non-calcifying macroalgae can persist in a changing ocean, we investigated the effects of co-occurring warming and ocean acidification on six species of temperate macroalgae, and subsequent change in palatability to a common gastropod herbivore. Algal growth was unaffected by moderate temperate increases of 2 °C, but five of the six species displayed reduced growth at increases of 4 °C. Lowered pH affected the growth of two species, with no interactions between temperature and pH evident. Changes to temperature and pH environment had li...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are foundation species in many hard-bottom ecosystems acting a...
There has been a significant increase in the literature regarding the effects of warming and acidifi...
Ocean acidification and eutrophication have direct, positive effects on the growth of many marine ma...
The impacts of climatic change on organisms depend on the interaction of multiple stressors and how ...
Ocean acidification and eutrophication have direct, positive effects on the growth of many marine ma...
Macroalgae are the major habitat-forming organisms in many coastal temperate and subtropical marine ...
Macroalgae are the major habitat-forming organisms in many coastal temperate and subtropical marine ...
Global climate change is threatening the structure, function, and health of ecosystems. While factor...
While ocean acidification has different effects on herbivores and autotrophs, how acidification may ...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are foundation species in many hard-bottom ecosystems acting a...
There has been a significant increase in the literature regarding the effects of warming and acidifi...
Ocean acidification and eutrophication have direct, positive effects on the growth of many marine ma...
The impacts of climatic change on organisms depend on the interaction of multiple stressors and how ...
Ocean acidification and eutrophication have direct, positive effects on the growth of many marine ma...
Macroalgae are the major habitat-forming organisms in many coastal temperate and subtropical marine ...
Macroalgae are the major habitat-forming organisms in many coastal temperate and subtropical marine ...
Global climate change is threatening the structure, function, and health of ecosystems. While factor...
While ocean acidification has different effects on herbivores and autotrophs, how acidification may ...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are expected to be adversely impacted by ocean acidification a...
International audienceCoralline algae are foundation species in many hard-bottom ecosystems acting a...
There has been a significant increase in the literature regarding the effects of warming and acidifi...