Copepods are key components of aquatic habitats across the globe. Understanding how
they respond to warming is important for predicting the effects of climate change on aquatic …

A formidable challenge for global change biologists is to predict how natural populations will
respond to the emergence of conditions not observed at present, termed novel climates …

Coastal-estuarine habitats are rapidly changing due to global climate change, with impacts
influenced by the variability of carbonate chemistry conditions. However, our understanding …

Variation in environmental conditions across a species' range can alter their responses to
environmental change through local adaptation and acclimation. Evolutionary responses …

Our understanding of how increasing atmospheric CO2 and climate change influences the
marine CO2 system and in turn ecosystems has increasingly focused on perturbations to …

Calcifying marine organisms, including the eastern oyster (Crassostrea virginica), are
vulnerable to ocean acidification (OA) because it is more difficult to precipitate calcium …

Environmental fluctuation forms a framework of variability within which species have
evolved. Environmental fluctuation includes predictability, such as diel cycles of aquatic …

A large body of evidence is documenting the impact of reduced pH on marine species and
ecosystems. This information is used to infer the present and future impacts of ocean …

Kelps are recognized for providing many ecosystem services in coastal areas and
considered in ocean acidification (OA) mitigation. However, assessing OA modification …

Temporal and spatial environmental variability are wide spread and life evolved adapting to
constantly ever changing conditions (Desmond, 2021). In marine and freshwater productive …