OCES Departmental Seminar: Adaptation, phenotypic plasticity and the brain in a changing world

3:30pm - 4:30pm
2303 (Lift 17-18)

Anthropogenic activities are causing the global climate to change at an unprecedented rate. A plethora of studies have now shown that such rapid changes in the environment, including thermal anomalies and acidification of aquatic ecosystems can have severe consequences on the ecology as well as crucial behaviours of aquatic organisms. Over the past years we have been investigating the impacts of environmental change on marine fishes in particular on the brain, through experiments, unique field collections, molecular work and computational analyses to understand the neuromolecular responses. Through transgenerational exposure to elevated CO2 we deciphered short-term, developmental effects as well as the influence of parental effects on the brain. Furthermore, collections in the wild at CO2 seeps allowed to understand the common and variable responses among species and revealed different levels of plasticity and adaptive potentials owing to evolutionary rates. Lastly, we find that climate change-stressors also alter crucial cooperative behaviors in fish, such as cleaning interactions, and we exhibit the changes to underlying molecular mechanisms in different brain regions revealing a major influence on mutualism maintenance with potential large-scale effects on the coral reef ecosystems.

講者/ 表演者:
Celia Schunter
HKU

Dr Celia Schunter, coming from a land-locked place, was always fascinated by the marine world. Early in her career, she started combining the study of marine organisms with genetic and molecular tools and used functional genomics to understand the effects of ocean acidification on marine organisms within and across generations. Currently, she is an Assistant Professor at the Swire Institute of Marine Science at the University of Hong Kong, where her laboratory continues to explore the impacts of climate change on behaviour and population dynamics of marine organisms, including the underlying molecular mechanisms of adaptation.

語言
英文
更多資訊

Meeting ID: 967 6348 0623
Passcode: 887900

link:
https://hkust.zoom.us/j/96763480623?pwd=Nk5qQ00zS3NIc0R1clg1cldPNmlQdz09

主辦單位
Department of Ocean Science
聯絡方法

Julian Mak at jclmak@ust.hk

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