Water Stress Alters Morphophysiological, Grain Quality and Vegetation Indices of Soybean Cultivars

Tavares, Cássio Jardim; Ribeiro, Walter Quadros; Ramos, Maria Lucrécia Gerosa; Pereira, Lucas Felisberto; Casari, Raphael Augusto das Chagas Noqueli; Pereira, André Ferreira; Sousa, Carlos Antônio Ferreira de; Silva, Anderson Rodrigo da; Neto, S. P. da Silva; Mertz-Henning, L. M.

doi:10.3390/plants11040559

Cited by 20 publications

(14 citation statements)

References 57 publications

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“…Seed oil content decreased under water stress in brown-seeded families. Previous studies found a negative correlation between oil and protein content in soybean seeds under water stress conditions that can also be explained by the competition of synthesis pathways by carbon skeletons, changes in accumulation, and the distribution of nutrients [21]. Similarly, in this study, the amount of fiber and fiber components such as ADF, NDF, CEL, HCEL, and lignin in seeds increased due to water stress, but it was more in brown-seeded genotypes.…”

Section: Association Of Brown Seed Color With the Amount Of Protein F...supporting

confidence: 71%

“…In the present study, in most families with brown seeds, water stress increased the amount of protein and amino acids more than the yellowseeded ones. Foroud et al [25] and Tavares et al [21] also observed an increasing amount and quality of protein under water deficit conditions in other oil seed crops such as soybean. When plants are stressed, they usually accumulate protein and amino acids.…”

Section: Association Of Brown Seed Color With the Amount Of Protein F...mentioning

confidence: 92%

“…The initial objective of this study was to investigate the effect of water stress conditions and seed coat color on seed yield and quality traits. In general, water stress causes a decrease in seed yield, associated with reduced assimilate synthesis required for seed filling [21]. Flax families and parents with brown seed coats had higher seed yield stability than yellow seed ones under water stress conditions, probably due to a higher amount of secondary metabolites such as lignans and tannins [22].…”

Section: Association Of Brown Seed Color With the Amount Of Protein F...mentioning

confidence: 99%

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Water Stress and Seed Color Interacting to Impact Seed and Oil Yield, Protein, Mucilage, and Secoisolariciresinol Diglucoside Content in Cultivated Flax (Linum usitatissimum L.)

Zare

Mirlohi

Sabzalian

et al. 2023

Plants

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Flaxseed (Linum usitatissimum L.) is a plant with a wide range of medicinal, health, nutritional, and industrial uses. This study assessed the genetic potential of yellow and brown seeds in thirty F4 families under different water conditions concerning seed yield, oil, protein, fiber, mucilage, and lignans content. Water stress negatively affected seed and oil yield, while it positively affected mucilage, protein, lignans, and fiber content. The total mean comparison showed that under normal moisture conditions, seed yield (209.87 g/m2) and most quality traits, including oil (30.97%), secoisolariciresinol diglucoside (13.89 mg/g), amino acids such as arginine (1.17%) and histidine (1.95%), and mucilage (9.57 g/100 g) were higher in yellow-seeded genotypes than the brown ones ((188.78 g/m2), (30.10%), (11.66 mg/g), (0.62%), (1.87%), and (9.35 g/100 g), respectively). Under water stress conditions, brown-seeded genotypes had a higher amount of fiber (16.74%), seed yield (140.04 g/m2), protein (239.02 mg. g−1), methionine (5.04%), and secondary metabolites such as secoisolariciresinol diglucoside (17.09 mg/g), while their amounts in families with yellow seeds were 14.79%, 117.33 g/m2, 217.12 mg. g−1, 4.34%, and 13.98 mg/g, respectively. Based on the intended food goals, different seed color genotypes may be appropriate for cultivation under different moisture environments.

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Section: Association Of Brown Seed Color With the Amount Of Protein F...supporting

confidence: 71%

Section: Association Of Brown Seed Color With the Amount Of Protein F...mentioning

confidence: 92%

Section: Association Of Brown Seed Color With the Amount Of Protein F...mentioning

confidence: 99%

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Water Stress and Seed Color Interacting to Impact Seed and Oil Yield, Protein, Mucilage, and Secoisolariciresinol Diglucoside Content in Cultivated Flax (Linum usitatissimum L.)

Zare

Mirlohi

Sabzalian

et al. 2023

Plants

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“…Soybean culture is sensitive to water deficit, especially during the period of vegetative growth and development [37][38][39]; thus, it is possible to have a significant reduction in the leaf surface and even the abortion of flowers [40][41][42], a lower assimilation of nutrients [43], a smaller number of pods [7,40], as well as a 14-32% reduction in grain size (as observed by Souza et al in 1997) [44], all of which led to a decrease in yield, as also revealed by the data obtained by Van Heerden and Krüger in 2002 [45]. Excess soil water is equally harmful, limiting the yield potential, as observed by Santos and Carlesso in 1998 [46] and Lobato et al in 2008 [47], who carried out various experiments.…”

Section: Discussionmentioning

confidence: 99%

The Impact of Foliar Fertilization on the Physiological Parameters, Yield, and Quality Indices of the Soybean Crop

Bărdaş¹,

Rusu

Russu³

et al. 2023

Agronomy

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Presented research was carried out in 2021 and 2022 on the Felix soybean variety at the Agricultural Research and Development Station Turda, located in the Transylvanian Plain, Romania. In this experiment, complex fertilizer NPK 20:20:0 was applied as a basic fertilizer in a dose of 200 kg ha−1 at the sowing stage, to which foliar fertilizer Agro Argentum Forte treatment was added in different doses and at different application stages. The main purpose of the study was to identify the suitable stages of foliar application in soybean cultivation for effective vegetative development, yield, and quality purposes. The impacts of the fertilization system and the climatic conditions on the physiological parameters, assimilation, yield, and quality were evaluated. Technology showed that the physiological parameters were positively influenced, following the foliar fertilization with Agro Argentum Forte, with average assimilation values recorded above 23.0 μmol CO2 m−2s−1 in the year 2021 and 22.4 μmol CO2 m−2s−1 in the year 2022. Soybean crop was influenced by climatic conditions and the application of foliar fertilizers in different phases of growth and development, obtaining higher yields, as well as higher protein and oil content. The soybean yield and quality indices (protein, oil, and mass of a thousand seeds) were higher in 2021 than in 2022 for the variants treated with foliar fertilizers compared to the control, resulting in an improvement in seed quality in 2021 with a yield of 3560 kg ha−1, while 2022 saw a lower yield of 1805 kg ha−1. The application of basic mineral fertilizers in combination with foliar fertilization had a significantly positive impact on the quality indicators of soybean seeds. The highest yields were achieved when the foliar treatment was applied in the early pod formation stage.

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“…Most VIs are ratios or linear combinations of spectral reflectance in two or more wavelength bands [ 39 ] that can be obtained from HSI [ 37 , 40 ]. Consisting of a straightforward transformation of spectral bands, VIs are estimated without bias or presumptions about land cover class, soil type, or climate conditions—enabling the observations of seasonal and long-term changes in a vegetation’s structural, phenological, and biophysical characteristics [ 41 , 42 , 43 ]. VIs have proven to be a valuable tool for monitoring plant health and productivity, and they are widely applied in fields such as agriculture, forestry, and ecology.…”

Section: Introductionmentioning

confidence: 99%

Optimal-Band Analysis for Chlorophyll Quantification in Rice Leaves Using a Custom Hyperspectral Imaging System

Pengphorm,

Thongrom,

Daengngam

et al. 2024

Plants

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Hyperspectral imaging (HSI) is a promising tool in chlorophyll quantification, providing a non-invasive method to collect important information for effective crop management. HSI contributes to food security solutions by optimising crop yields. In this study, we presented a custom HSI system specifically designed to provide a quantitative analysis of leaf chlorophyll content (LCC). To ensure precise estimation, significant wavelengths were identified using optimal-band analysis. Our research was centred on two sets of 120 leaf samples sourced from Thailand’s unique Chaew Khing rice variant. The samples were subjected to (i) an analytical LCC assessment and (ii) HSI imaging for spectral reflectance data capture. A linear regression comparison of these datasets revealed that the green (575 ± 2 nm) and near-infrared (788 ± 2 nm) bands were the most outstanding performers. Notably, the green normalised difference vegetation index (GNDVI) was the most reliable during cross-validation (R2=0.78 and RMSE = 2.4 µg∙cm−2), outperforming other examined vegetable indices (VIs), such as the simple ratio (RED/GREEN) and the chlorophyll index. The potential development of a streamlined sensor dependent only on these two wavelengths is a significant outcome of identifying these two optimal bands. This innovation can be seamlessly integrated into farming landscapes or attached to UAVs, allowing real-time monitoring and rapid, targeted N management interventions.

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Water Stress Alters Morphophysiological, Grain Quality and Vegetation Indices of Soybean Cultivars

Cited by 20 publications

References 57 publications

Water Stress and Seed Color Interacting to Impact Seed and Oil Yield, Protein, Mucilage, and Secoisolariciresinol Diglucoside Content in Cultivated Flax (Linum usitatissimum L.)

Water Stress and Seed Color Interacting to Impact Seed and Oil Yield, Protein, Mucilage, and Secoisolariciresinol Diglucoside Content in Cultivated Flax (Linum usitatissimum L.)

The Impact of Foliar Fertilization on the Physiological Parameters, Yield, and Quality Indices of the Soybean Crop

Optimal-Band Analysis for Chlorophyll Quantification in Rice Leaves Using a Custom Hyperspectral Imaging System

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