Physiological responses of the beet crop under agricultural environment and saline stress

Oliveira, Francisco Rafael de; Sousa, Geocleber Gomes de; Sousa, José Thomas Machado de; Leite, Kelly Nascimento; Guilherme, José Marcelo da Silva; Nogueira, Rafaella da Silva

doi:10.4136/ambi-agua.2868

Cited by 2 publications

(6 citation statements)

References 26 publications

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“…These same authors found no mitigating effect on photosynthesis at 45 days after sowing. However, a similar trend for sugar beet was reported by [9], when using 100% phosphate fertilization in a saline environment.…”

Section: Leaf Gas Exchangesupporting

confidence: 83%

“…Comparing phosphate fertilization in the presence of Trichoderma and water with a higher salinity (6.2 dS m −1 ), there was a statistical difference between the doses of 25% of the phosphorus recommendation and those of 50% and 100%, with the highest values of transpiration in the presence of the microorganism. When the concentration of salts in the soil rises, the osmotic potential decreases, causing the plants to strategically reduce the loss of water to the environment by reducing the leaf area, as the rate of transpiration is greater than absorption [9].…”

Section: Leaf Gas Exchangementioning

confidence: 99%

“…Salt stress favors a reduction in leaf area due to its deleterious effects. Therefore, with a reduced leaf area, there is a reduction in the photosynthesizing area and consequently in stomatal conductance; [9,39], evaluating the effect of salt stress on sugar beet crops, concluded that increasing the electrical conductivity of the water also reduced stomatal conductance.…”

Section: Leaf Gas Exchangementioning

confidence: 99%

“…In studies with beet irrigated with saline water, Ref. [3] concluded that increasing the concentration of salts in the irrigation water negatively affected the number of leaves, tuberous root length and productivity [9], as well as the physiological responses of the beet.…”

Section: Introductionmentioning

confidence: 99%

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Brackish Water, Phosphate Fertilization and Trichoderma in the Agronomic Performance of Beet Crops

Barbosa,

Silva,

Sousa

et al. 2024

Agronomy

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The study hypothesis proposes that the use of Trichoderma, associated with fertilization with 100% of the recommended phosphorus, may mitigate saline stress and maximize the productivity and quality of the tuberous root. This study aims to evaluate the mitigating effects of phosphate fertilization and Trichoderma harzianum in beet plants under salt stress, by measuring the initial growth, leaf gas exchange, productivity and quality of the beet. The experimental design used was entirely randomized, in a 3 × 2 × 2 factorial scheme, referring to three doses of phosphate fertilization (25%, 50% and 100%), with and without the use of Trichoderma-based inoculation, and two levels of electrical conductivity of the irrigation water (0.5 and 6.2 dS m−1). Salt stress negatively affected the leaf area of the beet. The shoots’ dry mass was reduced as the electrical conductivity of the irrigation water increased, especially in the treatment with the 25% P2O5 dose. Salt stress reduced photosynthesis to a greater extent at the 25% P2O5 dose and in the absence of Trichoderma harzianum. Increasing the electrical conductivity of the irrigation water reduced transpiration and increased leaf temperature at the 25% P2O5 dose and in the presence of Trichoderma harzianum. The 25% P2O5 dose increased the stomatal conductance of the beet. The higher electrical conductivity of the irrigation water negatively affected water use efficiency, most significantly at the 25% P2O5 dose. Our data showed that the doses of 50% and 100% P2O5 were more efficient at increasing the productivity and quality of the beet, with the tuberous root diameter being higher under the lower electrical conductivity of the water and the absence of Trichoderma harzianum. The pH was high under the lowest electrical conductivity of the water, with a dose of 25% P2O5 and the absence of Trichoderma harzianum.

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Section: Leaf Gas Exchangesupporting

confidence: 83%

Section: Leaf Gas Exchangementioning

confidence: 99%

Section: Leaf Gas Exchangementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Brackish Water, Phosphate Fertilization and Trichoderma in the Agronomic Performance of Beet Crops

Barbosa,

Silva,

Sousa

et al. 2024

Agronomy

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“…Under saline conditions, increasing water use efficiency is a strategy employed by moderately tolerant crops to mitigate high salt concentrations in the plant area (Fernandes et al, 2016;Oliveira et al, 2022). Likewise, Sousa et al (2022) also observed reductions in WUE with increasing irrigation water salinity under 50 and 100% ETc in zucchini crop.…”

Section: Discussionmentioning

confidence: 99%

The impact of saline and water stress on the agronomic performance of beet crops

Ribeiro,

Sousa,

Barbosa

et al. 2024

Braz. J. Biol.

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Excessive salts in irrigation water and water stress have a negative impact on the productive yield of agricultural crops. In this regard, the objective was to evaluate the effect of combined saline and water stress on the agronomic performance of the beet crop. The experiment was conducted in a greenhouse located at the Universidade da Integração Internacional da Lusofonia Afro-Brasileira, in Redenção, Ceará. The experimental design used was completely randomized with split-plots arrangement. The main plots were formed by the electrical conductivities of the irrigation water (0.8, 1.5, 3.0, 4.5, and 6.0 dS m-1), while the irrigation depths of 50 and 100% of the crop evapotranspiration (ETc) were the subplots, with 6 replications. Saline stress negatively affected growth, biomass, tuber root length, and productivity, while increasing the soluble solids of the beet crop. Excessive salts in the irrigation water caused reductions in physiological indices of the beet crop, although with less severity under the 100% ETc.

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Physiological responses of the beet crop under agricultural environment and saline stress

Cited by 2 publications

References 26 publications

Brackish Water, Phosphate Fertilization and Trichoderma in the Agronomic Performance of Beet Crops

Brackish Water, Phosphate Fertilization and Trichoderma in the Agronomic Performance of Beet Crops

The impact of saline and water stress on the agronomic performance of beet crops

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