Soybean

Today, soybean fields have increased by up to one-third in the last three years. This is due to the growing demand and the increasing industrial application and processing of this crop.

Implementation of advanced technologies into soybean cultivation methods is one of the main trends in global agriculture. The increase in soybean yields shows one of the highest and most stable profitability results in agriculture.

Soybean

Today, soybean fields have increased by up to one-third in the last three years. This is due to the growing demand and the increasing industrial application and processing of this crop.

Implementation of advanced technologies into soybean cultivation methods is one of the main trends in global agriculture. The increase in soybean yields shows one of the highest and most stable profitability results in agriculture.

Together with the country’s leading research institutes, Fly&See has worked out a whole range of services to improve the yield and biological protection of soybean:

  • Defining the need of the crops in NPK fertilisers;
  • Point introduction of fungicides in the centers of diseases and pests;
  • Introduction entomophages for plant protection (trichogrammae and habrobracon);
  • Introduction of herbicides into pockets of cereal germination and root weeds;
  • Creation of digital field maps to monitor soybean growth and forecast yields;
  • Monitoring of corn fields for early detection of pests and diseases;
  • Desiccation;
  • Improved pollination quality: ultra-low volume crop spraying with micro-fertilisers and growth stimulants.

Stages of work to increase soybeans yield using drones:

1 fase
Autumn/winter:
  • Identification of soybeans varieties for sowing;
  • Selection of areas and geography of crops;
  • Calculation and preliminary order for the production of entomophages in the required volume together with the All-Russian Research Institute of Biological Plant Protection.
2 fase
Spring:
  • Crop control;
  • Determination of sunflower demand for growth stimulants and NPK fertilisers and their application;
  • Improving the pollination quality;
  • Drawing up a scheme for arranging pheromone traps;
  • Monitoring the start of the mass flight.
3 fase
End of May/summer:
  • Introduction of Chrysopidae for biological plant protection;
  • Monitoring of flight;
  • First introduction of trichogrammae;
  • Monitoring of fields to control the centres of diseases and pests;
  • The second introduction of trichogramma and further monitoring, in case there are caterpillars of 3-4 generations – introduction of habrobracon.

Examples of effective use of drones to increase soybean yields

Soybean varietal plots

Treatment: two time introduction of trichogramma in the dosage of 3 gr per hectare and one time introduction of habrobracon in the dosage of 1000 species per hectare.

As a result of the treatment of soybeans, there are practically no pest egg clutches left.

Description:
  • Fields location: central Krasnodar territory
  • Date of treatment: 15th and 22nd June 2019
  • Treatment area: 116 hectares
  • Crop: Soybean
  • Dosage calculation: 3 gr per 1 hectare
  • Application efficiency: 90%
Soja

Tratamento: aplicação dupla de Trichogramma em uma dose de 3 gramas por hectare.

Eficiência de aplicação: o rendimento nos campos de soja precoce foi de 37 a 41 quintais por hectare. Em 124 hectares de soja tardia, o rendimento foi de 45 quintais por hectare, com um rendimento médio de soja desta categoria no Território de Krasnodar de 22 quintais por hectare.

Descrição
  • Localização dos campos: centro do Território de Krasnodar
  • Data de tratamento: 8 e 17 de junho de 2019
  • Área de tratamento: 624 ha
  • Cultura: soja
  • Cálculo da dose: 3 gramas por 1 ha
  • Eficiência de aplicação: 90%

Stages of working with us:

Stage 1

Research

Research and monitoring of fields to assess the volume and scheme of processing

Stage 2

Coordination

Request for entomophages introduction, agreement on the contract, terms of cooperation and payment schedule

Stage 3

Selection

Selection and provision of pheromone traps according to crop types and pests

Stage 4

Definition

Joint definition of time and standard for entomophage introduction

Stage 5

Growing

Entomophage growing and quality control testing in vitro

Stage 6

Introduction

Entomophages introduction with the help of drone aircrafts according to the planned schedule

Stage 7

Assessment

Assessment of entomophage application efficiency and crop conservation

Do you need a consultation?

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Contacts

  • Out telephone number: 8 (800) 500-19-15
  • Email:flyseeagro@gmail.com
  • Our address:suites 722, 724, 726,
    Kommunarov Str. 268, City of Krasnodar
  • Working hours: Monday – Friday,
    9:00 a.m. to 6:00 p.m.
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