Promising soybean breeding lines of the northern ecotype for developing forage crops

Fadeev, A; Fadeeva, M. F.; Nikiforova, I. I.; Ivanova, I.

doi:10.30766/2072-9081.2022.23.2.203-210

Аграрная наука Евро-Северо-Востока

2022

DOI: 10.30766/2072-9081.2022.23.2.203-210

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Promising soybean breeding lines of the northern ecotype for developing forage crops

A Fadeev

M. F. Fadeeva

I. I. Nikiforova

et al.

Abstract: The article presents the results of comparative assessment of soybean breeding lines of the northern ecotype for selection of the most promising ones for developing forage varieties suited for cultivation in mixed crops. The studies were carried out in 2018-2021 in the conditions of the Chuvash Republic on gray forest heavy loamy soil. The experiment included four soybean lines in comparison with the SibNIIK 315 standard recommended for growing in the Volga-Vyatka region. The crops were evaluated according to … Show more

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2024

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Intelligent Field Sensor Station for Monitoring Agrophysical Parameters and Phenotyping in Precision Agriculture System

Vasilyev,

Limonov,

Mishin

2024

S-h. maš. tehnol.

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Current trends in agriculture highlight the widespread adoption of information technology and Internet of Things (IoT) sensor networks for monitoring agrophysical soil parameters and phenotyping objects. This approach enables precise, real-time data analysis, optimizing agricultural processes and supporting the development of adaptive management systems. The integration of information technology with the monitoring of agrophysical parameters and phenotyping objects underscores the strategic importance of this approach, especially in the context of climate variability and the growing need to enhance production sustainability. (Research purpose) To develop an intelligent field sensor station for precision farming that ensures high-accuracy, real-time monitoring of agrophysical parameters and plant phenotyping using an Internet of Things sensor network. (Materials and methods) Existing methods for monitoring agrophysical parameters and phenotyping objects were analyzed. Based on these methods, a design for an intelligent field sensor station was developed, and suitable sensors were selected. (Results and discussion) The intelligent field sensor station successfully demonstrated its efficiency, confirming both its functionality and reliability in simultaneous data collection. The data collected on soil agrophysical parameters, meteorological conditions and plant phenotyping provide extensive knowledge for precision farming and optimizing agricultural processes. (Conclusions) Light gray forest soil with high porosity and neutral pH level provided favorable conditions for crops. Preliminary chemical analysis of the soil revealed moderate levels of organic matter, mobile phosphorus, and potassium, indicating a potentially fertile site. Meteorological data playeda key role in agrometeorological analysis, significantly impacting agricultural processes. The developed station introduces an innovative approach to monitoring agricultural parameters, offering promising prospects for modern agriculture.

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Intelligent Field Sensor Station for Monitoring Agrophysical Parameters and Phenotyping in Precision Agriculture System

Vasilyev,

Limonov,

Mishin

2024

S-h. maš. tehnol.

View full text Add to dashboard Cite

show abstract

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Promising soybean breeding lines of the northern ecotype for developing forage crops

Cited by 1 publication

References 7 publications

Intelligent Field Sensor Station for Monitoring Agrophysical Parameters and Phenotyping in Precision Agriculture System

Intelligent Field Sensor Station for Monitoring Agrophysical Parameters and Phenotyping in Precision Agriculture System

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