2021
DOI: 10.21203/rs.3.rs-1132722/v1
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Silicon Mitigates Nutritional Stress of Nitrogen, Phosphorus, and Calcium Deficiency in Two Forages Plants

Abstract: Forages are one of the most cultivated crops in the world. However nutritional deficiency is common, specifically in N, P and Ca in many forages growing regions. Silicon (Si) can attenuate the stress caused by nutritional deficiency, but studies on the effects of Si supply on in forages plants are still scarce. This research was carried out to evaluate whether the Si supply can mitigate the effects of N, P and Ca deficiencies of two forages and the physiological and nutritional mechanisms involved. Two experim… Show more

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Cited by 2 publications
(4 citation statements)
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“…The role played by silicon as a facilitator of the balance of mineral nutrients in the plant and a mediator of morphological and biochemical changes [103,104] may explain the increase in plant growth even without nutritional stress. Furthermore, high levels of Si in the shoots, such as those found in this study, favor the expression of the bene ts of Si to plants, with recent studies reporting production gains due to stoichiometric balance and e ciency in the use of macronutrients such as N and P in different species cultivated without stress, such as forage plants cultivated in a hydroponic system [36,44] , sugarcane [105,37] , and sorghum [106] .…”
Section: Discussionmentioning
confidence: 60%
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“…The role played by silicon as a facilitator of the balance of mineral nutrients in the plant and a mediator of morphological and biochemical changes [103,104] may explain the increase in plant growth even without nutritional stress. Furthermore, high levels of Si in the shoots, such as those found in this study, favor the expression of the bene ts of Si to plants, with recent studies reporting production gains due to stoichiometric balance and e ciency in the use of macronutrients such as N and P in different species cultivated without stress, such as forage plants cultivated in a hydroponic system [36,44] , sugarcane [105,37] , and sorghum [106] .…”
Section: Discussionmentioning
confidence: 60%
“…Therefore, P de ciency in relation to P-su cient plants reduced nutritional homeostasis and the use e ciency of C and N, affecting forage plant growth in both cycles and in the two soils studied, with a decrease in dry matter production dries of 50 and 31% in plants grown in Oxisol and Entisol, respectively. These losses have been commonly reported in Poaceae cultivated under low levels of P [79,44] , limiting the productive capacity of pastures in tropical soils [4,3] .…”
Section: Discussionmentioning
confidence: 99%
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“…Further, it decreases the extravasation of cellular based electrolytes. Ability of a plant to uptake N, P and S nutrient in deficient soils enhanced the yield of Urochloa brizantha and Megathyrus maximum which revealed Si can be used to amendment under nutrient deficient soil [268]. In maize, soil application or foliar spray of Si alleviate the K deficiency and enhanced growth and yield.…”
Section: Significances Of Silicon In the Uptake Of Nutrientsmentioning
confidence: 99%