Ocean acidification affects marine chemical communication by changing structure and function of peptide signalling molecules

Roggatz, Christina C.; Lorch, Mark; Hardege, Jörg D.; Benoit, David M.

doi:10.1111/gcb.13354

All Outputs (3)

Short-term effects of CO₂-induced low pH exposure on target gene expression in Platynereis dumerilii (2016)
Journal Article
Wäge, J., Rohr, S., Hardege, J. D., & Rotchell, J. M. (2016). Short-term effects of CO₂-induced low pH exposure on target gene expression in Platynereis dumerilii. Journal of Marine Biology and Oceanography, 5(2), https://doi.org/10.4172/2324-8661.1000155

Objective: Increasing atmospheric CO₂ concentration are causing changes to the seawater carbonate chemistry, lowering the pH and we study potential impacts of these changes at the molecular level in a non-calcifying, marine polychaete species Platyne... Read More about Short-term effects of CO₂-induced low pH exposure on target gene expression in Platynereis dumerilii.

Electro-oxidation of Ni42 steel: A highly active bifunctional electrocatalyst (2016)
Journal Article
Schäfer, H., Chevrier, D. M., Zhang, P., Stangl, J., Müller-Buschbaum, K., Hardege, J. D., Kuepper, K., Wollschläger, J., Krupp, U., Dühnen, S., Steinhart, M., Walder, L., Sadaf, S., & Schmidt, M. (2016). Electro-oxidation of Ni42 steel: A highly active bifunctional electrocatalyst. Advanced Functional Materials, 26(35), 6402-6417. https://doi.org/10.1002/adfm.201601581

Janus type water‐splitting catalysts have attracted highest attention as a tool of choice for solar to fuel conversion. AISI Ni42 steel is upon harsh anodization converted into a bifunctional electrocatalyst. Oxygen evolution reaction (OER) and hydro... Read More about Electro-oxidation of Ni42 steel: A highly active bifunctional electrocatalyst.

Ocean acidification affects marine chemical communication by changing structure and function of peptide signalling molecules (2016)
Journal Article
Roggatz, C. C., Lorch, M., Hardege, J. D., & Benoit, D. M. (2016). Ocean acidification affects marine chemical communication by changing structure and function of peptide signalling molecules. Global change biology, 22(12), 3914-3926. https://doi.org/10.1111/gcb.13354

Ocean acidification is a global challenge that faces marine organisms in the near future with a predicted rapid drop in pH of up to 0.4 units by the end of this century. Effects of the change in ocean carbon chemistry and pH on the development, growt... Read More about Ocean acidification affects marine chemical communication by changing structure and function of peptide signalling molecules.