Belay Berza Beyene scite author profile

Belay Berza Beyene

3Publications

0Citation Statements Received

68Citation Statements Given

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Debre Markos University

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Diverse arbuscular mycorrhizal fungi species associated with indigenous trees in a natural forest

Beyene

Kebede

Pagano

et al. 2023

Preprint

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In terrestrial ecosystems, arbuscular mycorrhizal fungi (AMF) helps land plants in nutrient uptake and protect them against abiotic and abiotic stresses. It is important to study the AMF-plant relationship to fully realize the beneficial potential to support establishment, growth and maintenance of mycorrhizal plants in different ecosystems. Therefore, the objective of this study was to determine the diversity, abundance and population densities of AMF and quantify root colonization of the indigenous trees in Munessa forest. To this end, composite soil samples and fine roots were collected from seven dominant indigenous trees within 10 m x10 m plots in the forest. AMF spores were extracted for taxonomic identification and root colonization with AMF structures was determined for each trees. A total of 39 AMF species (morphotypes) belonging to 10 genera were recovered. Glomus was the most dominant genus followed by Acaulospora. The highest genus richness was recorded from Croton macrostachyus (9). Mean AMF spore density was significantly different (p < 0.05) among indigenous trees, ranging from 860 spores/100 g of dry soil under Albizia shimperiana to 2830 spores/100 g of dry soil under Pouteria adolfiifriedericii. The highest root hyphal colonization was observed in Millettia ferruginea (71%) and Podocarpus falcatus (64%), respectively. Albizia shimperiana was the least colonized tree (44%). AMF spore density was positively correlated with soil available phosphorus (p < 0.05). Extensive studies are required to select AMF inocula for plant growth promotion and recruitment of tree seedlings for plantation and, restoration of forest vegetation and rehabilitation of degraded and dry lands.

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Diverse arbuscular mycorrhizal fungi species associate with indigenous trees in a natural forest

Kebede

Pagano

Beyene

et al. 2023

Preprint

View full text Add to dashboard Cite

In terrestrial ecosystems, arbuscular mycorrhizal fungi (AMF)-land plant symbiosis helps plant for nutrient uptake and, protection from abiotic and abiotic stresses. It is important to study the AMF-plant relationship to fully realize the potential to exploit for plant growth, maintenance and establishment in different ecosystem. Therefore, the objective of this study was to determine the diversity, abundance and population densities of AMF and quantify root colonization of the indigenous trees in Munessa forest. To this end, composite fine roots and soil samples were collected from seven dominant indigenous trees within 10 m x10 m plots in the forest. AMF spores were extracted for taxonomic identification and AMF root colonization was determined. A total of 39 AMF morphotypes belonging to 7 genera were recovered. Of which, Glomus was the most dominant genus followed by Acaulospora, Glomus rubiforme was the most dominant species followed by Acaulospora myriocarpa. The highest genus and species richness was recorded from Croton macrostachyus and Millettia ferruginea in this study. Mean AMF spore density was significantly different (p < 0.05) among indigenous trees, ranging from 859.6 spores/100g of dry soil under Albizia shimperiana to2829.52 spores/100g of dry soil under Pouteria adolfiifriedericii. The highest hyphal and vesicular colonizations were observed in Millettia ferruginea (71%) and Celtis Africana (36.37%) respectively. Albizia shimperiana was the least colonized tree by all AMF structures. AMF spore density was positively correlated with soil available phosphorus (p < 0.05). Extensive studies are required to select AMF for growth promotion and recruitment of tree seedlings for plantation and, restoration of forest vegetation and rehabilitation of degraded lands.

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Inoculation of rose (Rosa rubiginosa L., eglantine or the briar rose) flower root stocks with consortia of endophytic bacteria and arbuscular mycorrhizal fungi improves its establishment and success rate under greenhouse conditions

Beyene

Tuji

2023

Rhizosphere

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