Influence of polymer modification of complex fertilizer on the efficiency of phosphorus and potassium use by winter wheat on the southern chernozem

Bamatov, Ibragim M.; Vasilyeva, Nadezda; Vladimirov, A. A.; Vasiliev, T. A.; Perevertin, K. A.

doi:10.19047/0136-1694-2022-113-90-109

Cited by 5 publications

(1 citation statement)

References 4 publications

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“…The interaction of applied cultures and applied applications is becoming a subject of study in various disciplines. Currently, there are several concepts for conceptualizing mixed farming systems at farm and area scales [10][11][12]. However, in spite of this application, which is well established for the systems in search of fundamentals, there are still few studies on the cooperation of farms in crop production and agriculture.…”

Section: Introductionmentioning

confidence: 99%

Mitigating climate impact through stabilized fertilizers: enhancing agricultural sustainability

Arsanov,

Tokaeva,

Bamatov

2024

E3S Web Conf.

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The recognition by the global scientific community that anthropogenic activities are responsible for the negative impact of climate change has led to the emergence of numerous theses and projects aimed at mitigating humanity's adverse effects on the environment. The biosphere's inherent characteristic of movement plays a significant role in the dispersion of pollutants, rendering the notion of a national ecosystem obsolete. In light of this understanding, this project focuses on the reduction of negative climate factors through the application of stabilized fertilizers with controlled nutrient release. The primary objective is to minimize the detrimental consequences of human activities on the Earth by implementing sustainable strategies. Conventional fertilizers often result in rapid nutrient release, leading to inefficiencies and environmental repercussions. This approach optimizes nutrient utilization, mitigates nutrient losses through leaching and volatilization, and reduces environmental contamination. Slow-release fertilizers, coated products, and nutrient-specific delivery systems are potential avenues for achieving this goal. Furthermore, by reducing nutrient runoff, these fertilizers contribute to preserving water quality and safeguarding aquatic ecosystems.

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Section: Introductionmentioning

confidence: 99%

Mitigating climate impact through stabilized fertilizers: enhancing agricultural sustainability

Arsanov,

Tokaeva,

Bamatov

2024

E3S Web Conf.

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Effect of slow-release mineral fertilizer on the intensity of phosphorus and potassium mobilization in soil

Vasilyeva,

Abasov,

Vladimirov

et al. 2024

DSB

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The search for new technologies for effective regulation of yield and soil fertility is an urgent task. The use of slow-release fertilizers can simultaneously solve both problems – reducing fertilizer rates and increasing the mobilization of soil nutrients. In this paper, the mechanism of slow-release fertilizer effect on the mobilization rate of soil nutrients was investigated using mathematical modeling on the data of field trials with winter wheat. It is shown that in the plots with the slowest dissolving fertilizer (azofoska with 20% content of polyvinyl alcohol), the highest efficiency of azofoska was achieved (an increase in yield of 1.3 t/ha and an increase in mobile forms of phosphorus in the soil of 2.5 mg/100 g soil, potassium – 8.8 mg/100 g soil and nitrate nitrogen – 4.7 mg/100 g soil). The results of phosphorus modeling quantitatively confirmed the assumption that the low rate of dissolution of fertilizer enhances the mobilization of nutrients from soil due to the absence of an excess of plant available nutrients. We provide estimates of the polymer added efficiency for a series of polymer-modified fertilizer. It is shown that this form of fertilizer can be applied to effectively reduce the amount of fertilizer required for the planned harvest, simultaneously with the possibility of bringing the soil to a higher level of effective fertility in major nutrient elements.

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Polymers usage in new plant nutrition system organization

Bamatov

2023

Vestnik of the Russian agricultural science

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The agricultural sector is constantly looking for new technologies (methods) to increase the efficiency of inputs (agrochemicals) and minimize possible anthropogenic impact on the environment. Accordingly, producers are proposing the use of controlled or slow-release fertilizers (technologies) to optimize the delivery of nutrients (using a polymer) to plants or chemicals to more effectively control weeds, pests and diseases (herbicides, insecticides and fungicides). This article considers the possibility of introducing innovative farming systems, where, in addition, agrarian producers, in addition to the goal of increasing yields, must maintain and increase soil fertility, including replenishment of nutrient reserves in the soil.

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Influence of polymer modification of complex fertilizer on the efficiency of phosphorus and potassium use by winter wheat on the southern chernozem

Cited by 5 publications

References 4 publications

Mitigating climate impact through stabilized fertilizers: enhancing agricultural sustainability

Mitigating climate impact through stabilized fertilizers: enhancing agricultural sustainability

Effect of slow-release mineral fertilizer on the intensity of phosphorus and potassium mobilization in soil

Polymers usage in new plant nutrition system organization

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