GR Semicolon EN

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dc.contributor.author
Mourouzidou, Snezhana
en
dc.date.accessioned
2024-05-01T08:13:18Z
dc.date.available
2024-05-01T08:13:18Z
dc.date.issued
2024-05-01
dc.identifier.uri
https://repository.ihu.edu.gr//xmlui/handle/11544/30388
dc.rights
Default License
dc.subject
PGPR
en
dc.subject
AMF
en
dc.subject
Hydroponics
en
dc.subject
Aquaponics
en
dc.subject
Beneficial microorganisms
en
dc.subject
Biological control agents
en
dc.title
Introducing Power of Plant Growth Promoting Microorgan-isms in Soilless Systems: A prom-ising alternative for Sustainable Agriculture
en
heal.type
masterThesis
en_US
heal.creatorID.dhareID
smourouzidou@ihu.edu.gr
heal.dateAvailable
2024-05-14
heal.language
en
en_US
heal.access
free
en_US
heal.license
http://creativecommons.org/licenses/by-nc/4.0
en_US
heal.recordProvider
School of Economics, Business Administration & Legal Studies, MSc in Sustainable Agriculture and Business
en_US
heal.publicationDate
2023-03-29
heal.abstract
Soilless systems, such as hydroponics and aquaponics, are gaining popularity as a sustainable alternative to traditional soil-based agriculture, aiming at maximizing plant productivity while minimizing resource use. Nonetheless, the absence of a soil matrix poses challenges that require precise management of nutrients, effective control of salinity stress, and proactive strategies to master disease management. Plant growth-promoting microorganisms (PGPM) have emerged as a promising solution to overcome these issues. Research demonstrated that Bacillus, Pseudomonas, and Azospirillum are the most extensively studied genera for their effectiveness as growth promoters, inducing changes in root architecture morphology. Furthermore, PGPM inoculation, either alone or in synergy, can reverse the effects of nutrient deficiency and salt stress. The genera Pseudomonas and Trichoderma were recognized for their solid antagonistic traits, which make them highly effective biocontrol agents in hydroponic systems. The latest findings indicate their ability to significantly reduce disease severity index (DSI) through mycoparasitism, antibiosis, and induced systemic resistance. In aquaponic systems, the inoculation with Bacillus subtilis and Azospirillum brasilense demonstrated increased dissolved oxygen, improving water quality parameters and benefiting plant and fish growth and metabolism. This review also establishes the interaction variability between PGPM and growing media, implying the specificity for determining inoculation strategies to maximize the productivity of soilless cultivation systems. These findings suggest that using PGPM in soil-free settings could significantly contribute to sustainable crop production, addressing the challenges of nutrient management, disease control, and salinity issues
en
heal.advisorName
Monokrousos, Nikolaos
en
heal.committeeMemberName
Ntinas, Georgios
en
heal.committeeMemberName
Tsampalla, Aphroditi
en
heal.committeeMemberName
Monokrousos, Nikolaos
en
heal.academicPublisher
IHU
en
heal.academicPublisherID
ihu
en_US
heal.academicPublisherDhareID
IHU
en_US


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