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Characterization of plant antioxidative system in response to abiotic stresses: a focus on heavy metal toxicity
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Resumo(s)
During their life span, plants can be subjected to a number of abiotic stresses, like drought,
temperature (both high and low), radiation, salinity, soil pH, heavy metals, lack of essential
nutrients, air pollutants, etc. When affected by one, or a combination of abiotic stresses, a
response is induced by changes in the plant metabolism, growth and general development.
Reactive Oxygen Species (ROS) are a natural consequence of the aerobic metabolism, and
plants have mechanisms to deal with them in normal conditions, controlling the formation and
removal rates. Under stress conditions, cell homeostasis is disrupted and ROS production can
increase a lot putting a heavy burden on the those antioxidative mechanisms, some of which
are activated in order to eliminate the excess ROS (Mittler et al., 2004).
Trace element contamination cause abiotic stress in plants and it can affect crop production
and quality. Certain metals, like copper, are essential for plants, but at high concentrations
(depending on plant species) can be considered toxic. Other elements like cadmium and
arsenic (a metalloid), while not essential elements for plants, are widespread pollutants that
are present in nature due to both natural and manmade activities.
Plants have developed different strategies to cope with these stresses. Some use an
avoidance strategy to reduce trace element assimilation while others use internal defence
mechanisms to cope with the increasing levels of the toxic species. Phytotoxic amounts of
trace elements are known to affect several physiological processes and can cause oxidative
stress. Plants have developed several trace element defence mechanisms, that allow them to
grow despite the presence of variable concentrations of trace elements, but the threshold
concentrations as well as the different response mechanisms strongly depend on plant
species and on the type of metal. Metal toxicity can cause a redox imbalance and induce the
increase of ROS concentration, activating the antioxidant defence mechanisms of plants
(Sharma & Dietz, 2009). These mechanisms are very dependent on the metal and the plant
but usually include the involvement of the ascorbate-glutathione cycle enzymes which is a
major antioxidative defence mechanism, and of other antioxidant enzymes like catalase,
peroxidases, and superoxide dismutase. Other non-enzymatic substances with reported
antioxidant properties can also be involved in plant defence mechanisms, like ascorbate,
glutathione, alkaloids, phenolic compounds, non-proteic amino-acids and carotenoids
Descrição
Palavras-chave
plant abiotic stress heavy metal toxicity
Contexto Educativo
Citação
Mourato, Miguel; Reis, Rafaela; Martins, Maria Luísa Louro - Characterization of plant antioxidative system in response to abiotic stresses: a focus on heavy metal toxicity. In Montanaro, G,; Dichio, B. - Advances in selected plant physiology aspects. InTech, April 2012. ISBN 978-953-51-0557. 388 p.