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Ibodullayev M. X., Norqulov J. F., Yo‘lliyev Sh. R., Xonto‘rayev S. O’Bog'liq ilmiy axborot 7 son 2024 1 removedAgricultural Applications.
Allelopathic Effects on Other Plants: Allelopathy is the study of how
Russian Knapweed's production of allelochemicals might impede the growth of nearby plants. It can be
advantageous to use these allelopathic qualities in weed control techniques.
Acroptilon repens chemicals can increase crop yields by reducing competition for nutrients, water, and
light by inhibiting the growth of weeds.
On desirable crops, however, caution must be exercised to prevent allelopathic effects, as
overstimulation may impede growth. Compounds with insecticidal and herbicidal effects can be discovered
in certain Acroptilon repens plants.
Russian knapweed extracts or essential oils could be used as natural substitutes for manufactured
chemical pesticides [14].
These substances can be used to agricultural fields to manage weed species and insect pests,
decreasing the need for traditional pesticides and their negative effects on the environment. Possibility of
Biocontrol for Pathogens and Pests: Against agricultural pests and infections, Acroptilon repens and the
microbiota it is associated with may have biocontrol potential.
Certain Russian knapweed-associated microbes may have antagonistic effects on plant diseases,
providing crops with naturally occurring protection.
Additionally, by limiting the availability of host plants or changing pest behavior, Russian Knapweed's
allelopathic actions might indirectly lower pest populations.
Impact on Soil Microbiota and Nutrient Cycling: Acroptilon repens has the ability to affect the
processes involved in the soil microbiota and nutrient cycling.
The release of organic compounds into the soil by decomposing plant debris and root exudates affects
the makeup and activity of soil microbial populations.
By improving soil organic matter decomposition or modifying nutrient availability in the soil through
allelopathic interactions, Russian knapweed may also have an impact on nutrient cycling. In agricultural
settings where Russian knapweed is present, controlling soil health and fertility requires an understanding of
these consequences.
Although chemicals derived from Acroptilon repens have potential advantages in agriculture, their use
needs to be carefully controlled to prevent unforeseen repercussions [15].
To reduce hazards and maximize effectiveness, integrated pest management (IPM) techniques that
incorporate a variety of tactics—such as chemical, biological, and cultural control methods—are advised. To
create safe and long-lasting procedures for using Acroptilon repens chemicals in crop production systems,
more research is required to understand the precise mechanisms underpinning these applications.
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