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Oxygen bioavailability is declining in aquatic systems worldwide as a result of climate change and other anthropogenic stressors. For aquatic organisms, the consequences are poorly known but are likely to reflect both direct effects of declining oxygen bioavailability and interactions between oxygen and other stressors, including two—warming and acidification— that have received substantial attention in recent decades and that typically accompany oxygen changes. Drawing on the collected papers in this symposium volume (“An Oxygen Perspective on Climate Change”), we outline the causes and consequences of declining oxygen bioavailability. First, we discuss the scope of natural and predicted anthropogenic changes in aquatic oxygen levels. Although modern organisms are the result of long evolutionary histories during which they were exposed to natural oxygen regimes, anthropogenic change is now exposing them to more extreme conditions and novel combinations of low oxygen with other stressors. Second, we identify behavioral and physiological mechanisms that underlie the interactive effects of oxygen with other stressors, and we assess the range of potential organismal responses to oxygen limitation that occur across levels of biological organization and over multiple timescales. We argue that metabolism and energetics provide a powerful and unifying framework for understanding organism-oxygen interactions. Third,we conclude by outlining a set of approaches for maximizing the effectiveness of future work, including focusing on long-term experiments using biologically realistic variation in experimental factors and taking truly cross disciplinary and integrative approaches to understanding and predicting future effects. 

Synopsis How stable genotypes interact with their environment to generate phenotypic variation that can be acted upon by evolutionary and ecological forces is a central focus of research across many scientific disciplines represented within SICB. The Building Bridges Symposium brought together scientists using a variety of organisms, methods, and levels of biological organization to study the emergent properties of genomes. Workshops associated with the Symposium aimed to identify the leading edges and major barriers to research in this field, and to recommend future directions that might accelerate the pace of progress. The papers included in this Symposium volume draw attention to the strength of using comparative approaches in non-model organisms to study the many aspects of genotype–environment interaction that drive phenotype variation. These contributions and the concluding white paper also illustrate the need for novel conceptual frameworks that can bridge and accommodate data and conclusions from the broad range of study systems employed by comparative and integrative biologists to address genome-to-phenome questions. 

Synopsis The 2020 SICB Society-wide Symposium “Building Bridges from Genome to Phenome: Molecules, Methods and Models” brought together a diverse group of scientists to discuss recent progress in linking phenotype plasticity to changes at the level of the genome, epigenome, and proteome, while exploring the boundaries between variation and speciation. In a follow-up workshop, participants were asked to assess strengths and weaknesses of current approaches, to identify common barriers inhibiting their progress, and to outline the resources needed to overcome those barriers. Discussion groups generally recognized the absence of any overarching theoretical framework underlying current genome to phenome research and, therefore, called for a new emphasis on the development of conceptual models as well as the interdisciplinary collaborations needed to create and test those models. Participants also recognized a critical need for new and improved molecular and bioinformatic approaches to assist in describing function/phenotypes across phylogeny. Additionally, like all scientific endeavors, progress in genome to phenome research will be enhanced by improvements in science education and communication both within and among working groups.