News

Canadian Journal of Zoology publishes perspective on experimental OA research by DMS faculty

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15 April 2019. Today, the Canadian Journal of Zoology published a perspective on the progress and challenges of experimental ocean acidification research, written by Hannes last year as an extension of keynote lectures on this topic given at the Annual meeting of the Canadian Zoological Society (St. John’s, NL, Canada) and the Gordon Research Symposium (Waterville Valley, NH). The perspective takes stock of the progress achieved in the field over past two decades in four key areas, hoping to inspire particularly new researchers to the field to build on this foundation.

Abstract: Experimental studies assessing the potential impacts of ocean acidification on marine organisms have rapidly expanded and produced a wealth of empirical data over the past decade. This perspective examines four key areas of transfor- mative developments in experimental approaches: (1) methodological advances; (2) advances in elucidating physiological and molecular mechanisms behind observed CO2 effects; (3) recognition of short-term CO2 variability as a likely modifier of species sensitivities (Ocean Variability Hypothesis); and (4) consensus on the multistressor nature of marine climate change where effect interactions are still challenging to anticipate. No single experiment allows predicting the fate of future populations. But sustaining the accumulation of empirical evidence is critical for more robust estimates of species reaction norms and thus for enabling better modeling approaches. Moreover, advanced experimental approaches are needed to address knowledge gaps including changes in species interactions and intraspecific variability in sensitivity and its importance for the adaptation potential of marine organisms to a high CO2 world.
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Illustration of the Ocean Variability Hypothesis positing that the CO2 sensitivity of marine organisms is related to the magnitude of short-term CO2 fluctuations in their habitat (e.g., from nearshore to open ocean) and length of their early life stage durations. It suggests that the most CO2 tolerant marine organisms are those that develop fast and (or) in habitats with large contemporary CO2 fluctuations, whereas the potentially most vulnerable species are those that develop slowly in relatively stable open-ocean habitats.

New publication of mercury levels in aquatic wildlife and the atmosphere

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17 April 2019. Rob Mason was a co-author of a recent publication in Science of the Total Environment (How closely do mercury trends in fish and other aquatic wildlife track those in the atmosphere? – Implications for evaluating the effectiveness of the Minamata Convention) that provided a review of the potential timescale and magnitude of response of fish in different ecosystems to changes in inputs of mercury to the atmosphere from anthropogenic activities. The paper is a synthesis of information gathered for the 2018 Global Mercury Assessment Report, published by the United Nations Environmental Program as part of the activities of the Minamata Convention on Mercury, a globally binding treaty that has been initiated to reduce anthropogenic mercury emissions to the biosphere.

    • Wang, F., Outridge, P.M., Feng, X., Meng, B., Heimbürger-Boavida, L.-E., and Mason, R.P. (2019)

How closely do mercury trends in fish and other aquatic wildlife track those in the atmosphere? – Implications for evaluating the effectiveness of the Minamata Convention
Science of The Total Environment 674:58-70