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Selenium Supplementation Affects Physiological and Biochemical Processes to Improve Fodder Yield and Quality of Maize ( Zea mays L.) under Water Deficit Conditions

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ABSTRACT

Climate change is one of the most complex challenges that pose serious threats to livelihoods of poor people who rely heavily on agriculture and livestock particularly in climate-sensitive developing countries of the world. The negative effects of water scarcity, due to climate change, are not limited to productivity food crops but have far-reaching consequences on livestock feed production systems. Selenium (Se) is considered essential for animal health and has also been reported to counteract various abiotic stresses in plants, however, understanding of Se regulated mechanisms for improving nutritional status of fodder crops remains elusive. We report the effects of exogenous selenium supply on physiological and biochemical processes that may influence green fodder yield and quality of maize (Zea mays L.) under drought stress conditions. The plants were grown in lysimeter tanks under natural conditions and were subjected to normal (100% field capacity) and water stress (60% field capacity) conditions. Foliar spray of Se was carried out before the start of tasseling stage (65 days after sowing) and was repeated after 1 week, whereas, water spray was used as a control. Drought stress markedly reduced the water status, pigments and green fodder yield and resulted in low forage quality in water stressed maize plants. Nevertheless, exogenous Se application at 40 mg L-1 resulted in less negative leaf water potential (41%) and enhanced relative water contents (30%), total chlorophyll (53%), carotenoid contents (60%), accumulation of total free amino acids (40%) and activities of superoxide dismutase (53%), catalase (30%), peroxidase (27%), and ascorbate peroxidase (27%) with respect to control under water deficit conditions. Consequently, Se regulated processes improved fodder yield (15%) and increased crude protein (47%), fiber (10%), nitrogen free extract (10%) and Se content (36%) but did not affect crude ash content in water stressed maize plants. We propose that Se foliar spray (40 mg L-1) is a handy, feasible and cost-effective approach to improve maize fodder yield and quality in arid and semi-arid regions of the world facing acute shortage of water.

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Effect of Se foliar spray on fodder quality, (A) crude protein (CP) (B) crude fiber (CF) (C) crude ash (CA) (D) moisture contents (MC) (E) nitrogen free extract (NFE) of Zea mays exposed to drought stress. Values represent mean ± SE. Different letters represent significant differences at P ≤ 0.05, after applying post hoc Tukey’s test.
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Figure 4: Effect of Se foliar spray on fodder quality, (A) crude protein (CP) (B) crude fiber (CF) (C) crude ash (CA) (D) moisture contents (MC) (E) nitrogen free extract (NFE) of Zea mays exposed to drought stress. Values represent mean ± SE. Different letters represent significant differences at P ≤ 0.05, after applying post hoc Tukey’s test.

Mentions: A marked reduction of 47, 16, 23, 38, and 15% was recorded in CP, CF, CA, MC, and NFE, respectively under water deficit conditions. However, foliar Se spray significantly enhanced the quality attributes of fodder maize and increased CP, CF, MC, and NFE by 47% (Figure 4A), 10% (Figure 4B), 15% (Figure 4D), and 10% (Figure 4E), respectively but did not significantly affect CA contents (Figure 4C). The interactive effects (Se × D) were also found to be non-significant for fodder quality attributes (Table 3).


Selenium Supplementation Affects Physiological and Biochemical Processes to Improve Fodder Yield and Quality of Maize ( Zea mays L.) under Water Deficit Conditions
Effect of Se foliar spray on fodder quality, (A) crude protein (CP) (B) crude fiber (CF) (C) crude ash (CA) (D) moisture contents (MC) (E) nitrogen free extract (NFE) of Zea mays exposed to drought stress. Values represent mean ± SE. Different letters represent significant differences at P ≤ 0.05, after applying post hoc Tukey’s test.
© Copyright Policy
Related In: Results  -  Collection

License
Show All Figures
getmorefigures.php?uid=PMC5037271&req=5

Figure 4: Effect of Se foliar spray on fodder quality, (A) crude protein (CP) (B) crude fiber (CF) (C) crude ash (CA) (D) moisture contents (MC) (E) nitrogen free extract (NFE) of Zea mays exposed to drought stress. Values represent mean ± SE. Different letters represent significant differences at P ≤ 0.05, after applying post hoc Tukey’s test.
Mentions: A marked reduction of 47, 16, 23, 38, and 15% was recorded in CP, CF, CA, MC, and NFE, respectively under water deficit conditions. However, foliar Se spray significantly enhanced the quality attributes of fodder maize and increased CP, CF, MC, and NFE by 47% (Figure 4A), 10% (Figure 4B), 15% (Figure 4D), and 10% (Figure 4E), respectively but did not significantly affect CA contents (Figure 4C). The interactive effects (Se × D) were also found to be non-significant for fodder quality attributes (Table 3).

View Article: PubMed Central - PubMed

ABSTRACT

Climate change is one of the most complex challenges that pose serious threats to livelihoods of poor people who rely heavily on agriculture and livestock particularly in climate-sensitive developing countries of the world. The negative effects of water scarcity, due to climate change, are not limited to productivity food crops but have far-reaching consequences on livestock feed production systems. Selenium (Se) is considered essential for animal health and has also been reported to counteract various abiotic stresses in plants, however, understanding of Se regulated mechanisms for improving nutritional status of fodder crops remains elusive. We report the effects of exogenous selenium supply on physiological and biochemical processes that may influence green fodder yield and quality of maize (Zea mays L.) under drought stress conditions. The plants were grown in lysimeter tanks under natural conditions and were subjected to normal (100% field capacity) and water stress (60% field capacity) conditions. Foliar spray of Se was carried out before the start of tasseling stage (65 days after sowing) and was repeated after 1 week, whereas, water spray was used as a control. Drought stress markedly reduced the water status, pigments and green fodder yield and resulted in low forage quality in water stressed maize plants. Nevertheless, exogenous Se application at 40 mg L-1 resulted in less negative leaf water potential (41%) and enhanced relative water contents (30%), total chlorophyll (53%), carotenoid contents (60%), accumulation of total free amino acids (40%) and activities of superoxide dismutase (53%), catalase (30%), peroxidase (27%), and ascorbate peroxidase (27%) with respect to control under water deficit conditions. Consequently, Se regulated processes improved fodder yield (15%) and increased crude protein (47%), fiber (10%), nitrogen free extract (10%) and Se content (36%) but did not affect crude ash content in water stressed maize plants. We propose that Se foliar spray (40 mg L-1) is a handy, feasible and cost-effective approach to improve maize fodder yield and quality in arid and semi-arid regions of the world facing acute shortage of water.

No MeSH data available.


Related in: MedlinePlus