Si fertigation attenuates water stress in forages by modifying carbon stoichiometry, favouring physiological aspects

Rocha, Juan Ricardo; Prado, Renato de Mello; Teixeira, Gelza Carliane Marques; Filho, Antônio Santana Batista de Oliveira

doi:10.1111/jac.12479

Cited by 20 publications

(21 citation statements)

References 57 publications

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“…In grasses, the element concentrates mostly in leaf cell walls 11 , which may improve nutrient use e ciency, thus favoring biomass production. Previous reports show this effect for sugarcane 43 and Brachiaria 'Mavuno' 29 . However, con rmation of this hypothesis depends on speci c studies on the cell walls of U. brizantha cv.…”

Section: Silicon Improves the Performance Of Forage Plants Without Nutritional De Ciencymentioning

confidence: 63%

“…Notwithstanding, studies evaluating the effect of Si on the mitigation of abiotic stresses in forage plants are still limited. One study indicates a positive effect of this element on the alleviation of water de cit damage in Brachiaria 'Mavuno' 29 . Another study addresses nutritional de ciency in Panicum maximum and in the hybrid Ipyporã (B. ruziziensis × B. brizantha) 30 .…”

Section: Introductionmentioning

confidence: 99%

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Silicon Mitigates Nutritional Stress of Nitrogen, Phosphorus, and Calcium Deficiency in Two Forages Plants

Araújo

Teixeira

Prado

et al. 2021

Preprint

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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 experiments were carried out with two forage species (Urochloa brizantha cv. Marandu and Megathyrsus maximum cv. Massai). Was used nutrient solution under balanced nutrition conditions and nutritional stress due to the lack of N, P and Ca combined with the -Si and +Si. The deficiencies of N, P and Ca in both forages cultivation caused damage to physiological and nutritional variables, hence decreasing the plant dry matter. However, in both species forages the addition of Si to the nutrient solution decreased the extravasation of cellular electrolytes and increased the content of phenolic compounds, the green color index, the quantum efficiency of photosystem II, the efficiencies of use of N, P and Ca and the production of shoot dry mass. The beneficial effects of Si were evidenced in stressed and non-stressed plants. The research emphasized the advantage of using Si for the growth of U. brizantha and M. maximum under N, P and Ca deficiency, contributing to their sustainable cultivation.

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Section: Silicon Improves the Performance Of Forage Plants Without Nutritional De Ciencymentioning

confidence: 63%

Section: Introductionmentioning

confidence: 99%

Silicon Mitigates Nutritional Stress of Nitrogen, Phosphorus, and Calcium Deficiency in Two Forages Plants

Araújo

Teixeira

Prado

et al. 2021

Preprint

Self Cite

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“…The source of Si was sodium silicate and potassium stabilized with sorbitol (113.4 g L −1 de Si and 18.9 g L −1 of K 2 O), in the concentration of 2.5 mmol L −1 , as indicated by Birchall 43 , simulating a 5 mm irrigation depth every five days. The study of Rocha et al 25 on Brachiaria was used as a reference; Si was applied immediately after the first cycle of forage for a period of 40 days.…”

Section: Methodsmentioning

confidence: 99%

“…Total microporosity was considered as equivalent to 100% of soil water retention capacity; however, the water condition was considered as 70% of this value, as it corresponds to the usual demand for most crops. The water deficit condition was achieved by maintaining the water level at 40% of the soil water retention capacity, determined on study of Rocha et al 25 . Previous studies suggest that the best benefit of Si occurs in plants with a water level close to 40% and at a water level close to 70% it is sufficient to achieve maximum forage dry mass production.…”

Section: Methodsmentioning

confidence: 99%

“…Studies have suggested that Si reduces water stress due to less water loss by cuticular transpiration 23 , but the cuticular transpiration rate is very low compared to stomatal transpiration 24 , suggesting that Si also affects other mechanisms that need to be better investigated. Recent research has indicated that Si absorption improves its physiological aspects mainly by modifying elemental stoichiometry and could minimize damage from water deficit 25 – 27 . However, most studies on stoichiometric homeostasis focus mainly on N and P, studies on the Si are incipient 28 , 29 .…”

Section: Introductionmentioning

confidence: 99%

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New outcomes on how silicon enables the cultivation of Panicum maximum in soil with water restriction

Rocha

Prado

Píccolo

2022

Sci Rep

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Climate change increases the occurrence of droughts, decreasing the production of tropical forages through the induction of physiological stress. Si is expected to broaden the limit from physiological stress of forages grown under water restriction, which may come from an improvement in the stoichiometric homeostasis of Si with N and C, favoring physiological aspects. This study assessed whether Si supply via fertigation improves physiological aspects and the water content in the plant by means of an antioxidant defense system and changes in the C:N:Si stoichiometry during the regrowth of two cultivars of Panicum maximum grown under two soil water regimes (70 and 40% of the soil’s water retention capacity). The forages studied are sensitive to water deficit without silicon supply. The application of Si via fertigation attenuated the water deficit, favoring plant growth by stabilizing the stoichiometric homeostasis C:N and C:Si, which are responsible for increasing the plant capacity of converting accumulated C in dry mass, favoring the water content of the plant tissue and the photosynthetic efficiency. This study highlights the importance of the physiological function of Si, and effects on the stoichiometry of C and N, which are neglected in most research on forages grown under water restriction.

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Introduction to Plant Nutrition

Prado

de²

2021

Mineral Nutrition of Tropical Plants

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Si fertigation attenuates water stress in forages by modifying carbon stoichiometry, favouring physiological aspects

Cited by 20 publications

References 57 publications

Silicon Mitigates Nutritional Stress of Nitrogen, Phosphorus, and Calcium Deficiency in Two Forages Plants

Silicon Mitigates Nutritional Stress of Nitrogen, Phosphorus, and Calcium Deficiency in Two Forages Plants

New outcomes on how silicon enables the cultivation of Panicum maximum in soil with water restriction

Introduction to Plant Nutrition

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