Evaluation and Comparative Analysis of Meteorological Data, Moisture Content, and Rice Panicle Threshability

Szalóki, Tímea; Székely, Árpád; F, Tóth; Tarnawa, Ákos; Valkovszki, Noémi Júlia; Jancsó, Mihály

doi:10.3390/agronomy12030744

Cited by 3 publications

(5 citation statements)

References 31 publications

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“…No significant differences were recognized among the varieties in aerobic conditions. In one case, however, we found a significant difference between two tested varieties ('M 488' and 'Nembo') in flooded conditions on soil treated with Humin Power G soil conditioner (SZALÓKI et al, 2022).…”

Section: Genetical Variation In As Accumulationmentioning

confidence: 60%

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Strategies for Reducing Arsenic Content in Rice: A review

Szalóki

Székely

Valkovszki

et al. 2023

JCEGI

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Arsenic (As) is one of the most toxic metalloid that can enter the food chain through ingestion of As contaminated water or food, posing a serious threat to human health. Among cereals, rice could contain the highest amount of As because of the special growing conditions. Therefore, the importance of the reduction of As concentration in rice is essential. Many studies have been conducted to understand the mechanism of arsenic uptake, accumulation and translocation. The interactions between As and plants are influenced by soil type and other factors such as pH, mineral contents and redox status of the soil, As speciation, and microbial activity. Different nutrients including phosphates, iron, silicon and sulfur effectively regulate the uptake and accumulation of As in different parts of plants. Genetic variation has also effect on As accumulation of rice grain. Water management practices can help to decrease As content of rice plants due to changing the redox status of the soil. Phosphate and silicon transporters can be used by As to enter the rice root cells, therefore detoxification mechanisms of As in rice greatly depend on the activity of these transporters. In this review, we covered the main factors that affect the uptake, accumulation, and translocation of As in different plant organs in rice. We investigated the different soil factors and plant cell transporters needed to understand the mechanisms. This study may be useful for further research to develop strategies that inhibit As entry and transport in plant cells and contribute to safe food production.

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Section: Genetical Variation In As Accumulationmentioning

confidence: 60%

“…In our previous greenhouse pot experiment, the As concentration of the above-ground biomass was significantly higher in flooded than in aerobic conditions, as Figure 1. shows (SZALÓKI et al, 2022).…”

Section: Water Managementmentioning

confidence: 97%

Strategies for Reducing Arsenic Content in Rice: A review

Szalóki

Székely

Valkovszki

et al. 2023

JCEGI

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“…In our previous study, we examined the As content of shoots of four rice varieties in different irrigation systems (flooded and aerobic). No significant differences were found among the varieties in aerobic conditions [33].…”

Section: Introductionmentioning

confidence: 73%

“…We found that the As concentration of the straw was significantly higher with flooded irrigation than with aerobic irrigation. However, due to the relatively low As concentration in the soil (10.6 mg kg −1 ), no phytotoxic effects on the plants were observed [33]. Several researchers have also reported that aerobic water management practices significantly decreased the total As concentration of rice straw as well as grain compared to anaerobic systems [32,[49][50][51].…”

Section: Water Management Practices and As Uptakementioning

confidence: 99%

The Reaction of Rice Growth to the Arsenic Contamination under Various Irrigation Methods

Szalóki,

Székely,

Valkovszki

et al. 2024

Plants

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Several studies have explored how arsenic (As) is absorbed and transported in plants, but less attention has been paid to its impact on rice growth and yield in relation to water management. We aimed to assess how arsenic affects plant development under different irrigation methods. The growth and yield parameters of four rice varieties (‘M 488’, ‘Janka’, ‘Szellő’, and ‘Nembo’) in two greenhouse experiments were analyzed in 2021 and 2022 under different irrigation methods (flooded (F), intermittent (I), and aerobic (A)). Three different As concentrations were set up in the soil: 43 mg kg−1, 24 mg kg−1, and 4 mg kg−1. Our results showed that the high As treatment caused severe damage to the plants including leaf yellowing as well as reduced growth and decreased yield parameters. Alternative water management practices such as I and A irrigation could reduce the negative effects of As. At the high level of As stress (43 mg kg−1), the I irrigation had the most favorable effect on the yield of 'Janka’ among the tested cultivars compared to the F irrigation (in F: 1.64 ± 1.13 g; in I: 5.45 ± 3.69 g). However, the use of fully aerobic conditions increased the likelihood of drought stress.

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“…In the first article, Szalóki et al [21] determined the threshability of four local temperate japonica rice varieties during the ripening phase over three consecutive years with the application of an improved threshing meter. In this context, harvesting and threshing are crucial processes that influence the quality, quantity, and economic efficiency of rice production.…”

Section: Evolution Of Compounds and Characteristics Of Crops During R...mentioning

confidence: 99%

Evolution of Compounds and Characteristics of Crops during Ripening and after Harvest

González-de-Peredo,

Fernández Barbero

2023

Agronomy

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Evaluation and Comparative Analysis of Meteorological Data, Moisture Content, and Rice Panicle Threshability

Cited by 3 publications

References 31 publications

Strategies for Reducing Arsenic Content in Rice: A review

Strategies for Reducing Arsenic Content in Rice: A review

The Reaction of Rice Growth to the Arsenic Contamination under Various Irrigation Methods

Evolution of Compounds and Characteristics of Crops during Ripening and after Harvest

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