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Patogeni in zaščitni učinki gliv v čebelarstvu
ID Palovšnik, Katja (Author), ID Humar, Miha (Mentor) More about this mentor... This link opens in a new window

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Abstract
Čebele na Zemlji imajo ključno vlogo pri ohranjanju ekološkega ravnovesja in biotske raznovrstnosti v naravi. Poleg krčenja habitata in propadanja rastlinskih vrst, ki jim predstavljajo vir hrane, njihovo število zmanjšujejo tudi virusne, bakterijske in glivne okužbe. Mikotoksine, ki jih proizvajajo plesni in povzročajo obolenja, čebele zaužijejo skupaj s cvetnim prahom. Poapnela in okamnela zalega sta dve izmed glivnih bolezni, ki škodijo čebelam in lahko povzročita propad čebelje družine. Kot naravna obramba pred glivnim obolenjem je znan simbiotski odnos z mikrobom Bombella apis, ki z izločanjem protiglivnih metabolitov ščiti zalego. Ker so sintetična fitofarmacevtska sredstva zaradi nespecifičnega delovanja lahko škodljiva za čebele in sčasoma zaradi razvoja toleranc tudi neučinkovita, se pojavlja vedno večja potreba po alternativnih rešitvah za zaščito čebel pred patogeni. Glive Fomes fomentarius, Ganoderma applanatum in Trametes versicolor so kot dodatek v prehrani čebel v dosedanjih raziskavah zmanjšale število okužb z virusom deformiranih kril (DWV) in virusom jezera Sinai (LSV). Entomopatogene glive poleg biokontrole proti pršici Varroa destructor povzročijo tudi povečan imunski odziv, ki čebeli pomaga pri obrambi. Za povečanje termotolerance pri entomopatogeni glivi Metarhizium so uporabili metodo usmerjene evolucije. Izvedena raziskava nam odpira nove možnosti uporabe biotehnologije v iskanju okolju prijaznejše zaščite teh pomembnih opraševalcev.

Language:Slovenian
Keywords:Apis mellifera, glive, naravna fitofarmacevtska sredstva, biotehnologija
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:BF - Biotechnical Faculty
Year:2022
PID:20.500.12556/RUL-140101 This link opens in a new window
COBISS.SI-ID:125331459 This link opens in a new window
Publication date in RUL:11.09.2022
Views:611
Downloads:77
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Secondary language

Language:English
Title:Pathogenic and protective effect of fungi in apiculture
Abstract:
Bees play a key role on Earth in maintaining ecological balance and biodiversity. In addition to habitat shrinkage and the decline of plant species that provide their food source, bees are also being reduced in number by viral, bacterial and fungal infestations. Mycotoxins, which are produced by molds and cause disease, are ingested by bees along with pollen. Chalkbrood and stonebrood diseases are two fungal diseases that can lead to the collapse of the bee family. A symbiotic relationship with the microbe Bombella apis is known to provide natural protection against fungal diseases, protecting brood by secreting antifungal metabolites. Because phytopharmaceuticals can be harmful to bees due to their nonspecific effects and eventually become ineffective due to the development of tolerances, there is an increasing need for alternative solutions to protect bees from pathogens. The fungi Fomes fomentarius, Ganoderma applanatum in Trametes versicolor have been used as bee nutritional supplements and have been shown to reduce Deformed Wing Virus (DWV) and Lake Sinai Virus (LSV) infections in previous studies. In addition to biocontrol against the mite Varroa destructor, entomopathogenic fungi also cause an enhanced immune response that helps the bee defend itself. The directed evolution method was used to increase the thermotolerance of the entomopathogenic fungus Metarhizium. The research conducted opens new possibilities for the use of biotechnology in the search for more environmentally friendly protection of these important pollinators.

Keywords:Apis mellifera, fungi, natural phytopharmaceuticals, biotechnology

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