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Advances in Metabolomics Research in Environmental Stress Response in Plants
as micronutrients that are required for survival of plants. Apart from these
elements, heavy metals such as cadmium (Cd), chromium (Cr), aluminum
(Al), lead (Pb) and mercury (Hg) are also present in soil and are taken up
by the plants. Excess accumulation of these heavy metals in plant tissues
can lead to severe toxicity and thus their translocation from soil is tightly
regulated by the plants (Farias et al., 2013; Fidalgo et al., 2013). Higher
deposition of these toxic elements in cells might lead to reduction in biomass
and chlorophyll degradation, inhibition in the uptake of water and nutrients,
hampering growth and photosynthesis, and enhancing senescence which
eventually leads to plant death. Along with hampering the growth and devel
opment of plants, heavy metal also negatively affects the health of human
and animals. Plants growing in the contaminated metal sites uptake higher
amount of toxic metals in their tissues that ultimately enters the food chain
and eventually make humans prone to various diseases that includes various
types of cancer and dermatitis (McLaughlinetal, 1999).
To combat heavy metal stress, plants need to stabilize their protein
structure, synchronize multi-dimensional physiological and biochemical
processes, and also alter their metabolome accordingly for developing metal
stress tolerance. Jahangir et al. (2008) showed that on being exposed to heavy
metals, the level of glucosinolates and hydroxycinnamic acid was induced in
the leaves and roots of canola plants as revealed through NMR. Similar studies
were also performed in leaves and roots of Cr and Mo stressed sunflower and
soybean plants, respectively (Ibarra et al., 2019; Xu et al., 2018). The level
of fatty acid was found to be enhanced in the tissues of Cr-stressed sunflower
plants, whereas the level of other metabolites, i.e., citric acid, gluconic acid,
L-nicotine, and flavonoids/isoflavone was found to be enhanced in Mo
stressed soybean plants. In another study, Manivasagaperumal et al. (2011)
showed that the level of carbohydrate was significantly induced in the beans
treated with higher concentration of Cu and Zn. Along with above-mentioned
metabolites, the level of other metabolites such as α-tocopherol, glutathione,
proline, histidine, and phenolics was also found to be enhanced in plants in
response to heavy metal stress (Collin et al., 2008; Singh et al., 2015; Sharma
& Dietz, 2006; Kerkeb & Kramer, 2003; Diaz et al., 2001).
14.7 CONCLUSION
In this chapter, the metabolomics approach adopted by the research
community in ameliorating the negative effects of abiotic stress (drought,