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Seaweed responses to environmental stress: reactive oxygen and antioxidative strategies
Bischof, K.; Rautenberger, R. (2012). Seaweed responses to environmental stress: reactive oxygen and antioxidative strategies, in: Wiencke, C. et al. (Ed.) Seaweed biology: Novel insights into ecophysiology, ecology and utilization. Ecological Studies, 219: pp. 109-132
In: Wiencke, C.; Bischof, K. (Ed.) (2012). Seaweed biology: Novel insights into ecophysiology, ecology and utilization. Ecological Studies, 219. Springer-Verlag: Berlin, Heidelberg. ISBN 978-3-642-28450-2. xiii, 510 pp. https://dx.doi.org/10.1007/978-3-642-28451-9, more
In: Heldmaier, G. et al. (Ed.) Ecological Studies. Springer: Heidelberg; Berlin. ISSN 0070-8356; e-ISSN 2196-971X, more
Peer reviewed article  

Keyword
    Marine/Coastal

Authors  Top 
  • Bischof, K.
  • Rautenberger, R.

Abstract
    Oxygen radicals are inevitably produced in the metabolism. In plants, as seaweeds, a major source for oxygen radical formation is photosynthesis, in particular pseudo-cyclic electron transport, also referred to as Mehler reaction. The related transfer of electrons to molecular oxygen yields the aggressive superoxide radical, which may react further to even more reactive oxygen species (ROS). This process is typically enhanced under environmental conditions resulting in restricted electron flow in photosynthesis, such as under light, temperature, salt stress, malnutrition, etc. In particular, seaweeds populating the intertidal and shallow subtidal are exposed to large amplitudes of variation of environmental conditions and may thus rely on strategies to either suppress the generation of oxygen radicals or scavenge them as fast as possible. One important process to scavenge the superoxide radical is its cleavage by superoxide dismutase (SOD), a central enzyme involved in stress response of photosynthetic and non-photosynthetic organisms. This chapter summarizes some common features of generation and scavenging of photosynthetically formed ROS in seaweeds under environmental constraints with emphasis on the spatial and temporal variability of SOD activity.

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