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Eric J. Armstrong
Researcher at University of California, Berkeley
Publications - 19
Citations - 583
Eric J. Armstrong is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Biology & Coral. The author has an hindex of 5, co-authored 11 publications receiving 406 citations. Previous affiliations of Eric J. Armstrong include San Francisco State University & Michigan State University.
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Multiple Stressors in a Changing World: The Need for an Improved Perspective on Physiological Responses to the Dynamic Marine Environment
TL;DR: The find that multi-stressor experiments have rarely incorporated naturalistic physicochemical variation into their designs, and the importance of doing so to make ecologically relevant inferences about physiological responses to global change is emphasized.
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Genomics Are Transforming Our Understanding of Responses to Climate Change
TL;DR: The potential for genomics-enabled approaches to aid in understanding the responses of populations to climate change is examined and examples in which these tools have been applied to understand physiological adaptation or migration are highlighted.
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High Heat Tolerance Is Negatively Correlated with Heat Tolerance Plasticity in Nudibranch Mollusks.
TL;DR: It is concluded that warm adaptation in intertidal nudibranchs constrains plastic responses to acute thermal challenge and that southern warm-adapted species are likely most vulnerable to future warming.
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Symbiont photosynthesis in giant clams is promoted by V-type H+-ATPase from host cells.
Eric J. Armstrong,Eric J. Armstrong,Jinae N. Roa,Jonathon H. Stillman,Jonathon H. Stillman,Martin Tresguerres +5 more
TL;DR: VHA activity in the siphonal mantle confers strong energetic benefits to the host clam through increased supply of Ci to algal symbionts and subsequent photosynthetic activity, suggesting VHA as a common exaptation for carbon concentration in marine photosymbioses.
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Elevated temperature, but not acidification, reduces fertilization success in the small giant clam, Tridacna maxima
Eric J. Armstrong,Eric J. Armstrong,Vaimiti Dubousquet,Suzanne C. Mills,Jonathon H. Stillman,Jonathon H. Stillman +5 more
TL;DR: Results indicate that although fertilization in T. maxima is resilient to lowered pH, it is strongly inhibited by elevated temperature and may be at risk of low reproductive success over the coming century as a result of rising ocean temperature.