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Influence of bioeffector RhizoVital on the soil phosphorus availability and P uptake by maize
Beneš, Zdeněk ; Kulhánek, Martin (advisor) ; Černý, Jindřich (referee)
Phosphorus is likely to become, in the near future, a critical element in plant nutrition. The main reasons are primarily limited resources of P for fertilizer production. Therefore, it is necessary to look for a long term solution. One option is to use P -containing waste, such as sewage sludge, digestate or ashes. Another option arises from the fact that approximately 90 % of P in soil is found in non-bioavailable forms. Therefore, mobilization of these forms could secure enough P for plat growth in the long term horizon. So-called bioeffectors are developed for this purpose; to promote the accessibility of nutrients for plants. It is evident, however, that the application of bioeffectors alone could lead to a gradual outflow of the most P from the soil. Therefore the most favourable appears application of bioeffectors in combination with various phosphatic fertilizers or wastes. Especially rock phosphates, ash and digestate contain significant amounts of non-bioavailable P-forms. That implies that the joint application of these fertilizers and bioeffectors should lead to more efficient utilization of P, and thus reduce the input of fertilizers into the soil.
The aim was to verify influence of a combination of 3 bioeffectors (effective microorganisms: Bacillus amyloliquefaciens, strains FZB42 and FZB45, and the combination of FZB42 strain with Paenibacillus mucilaginosus strain JX - 1) in combination with rock phosphate, sewage sludge, torrefied sewage sludge, separated digestate, straw and wood ash on increase of aboveground biomass of maize and on the content and uptake of phosphorus and other selected nutrients.
The evaluated alternatives of fertilization regardless of applied bioeffectors suggest that the greatest effect on the yield of above-ground biomass showed sewage sludge, wood ashes, and especially straw ashes. These fertilizers significantly increased the content and uptake of S as well. In other monitored parameters it was not possible to clearly identify the tendencies.
The application of bioeffectors alone or in combination with the above mentioned materials did not bring the positive effect on the monitored parameters. On the contrary, the combination of Paenibacillus strains FZB42 mucilaginosus showed in many cases significantly negative impact.
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Influence of bioeffector Trianum on the soil phosphorus availability and P uptake by maize
Vukliševič, Zdeněk ; Kulhánek, Martin (advisor) ; Sedlář, Ondřej (referee)
Phosphorus is likely to become, in the near future, a critical element in plant nutrition. The main reason is primarily limited resources of P for fertilizer production. Therefore, it is necessary to look for a long term solution. One option is to use P -containing waste, such as sewage sludge, digestate or ashes. Another option arises from the fact that approximately 90% of P in soil is found in non-bioavailable forms. Mobilization of these forms could secure enough P for plat growth in the long term horizon. So-called bioeffectors are developed for this purpose; to promote the accessibility of nutrients for plants. However, it is evident, that the application of bioeffectors alone could lead to a gradual outflow of P from soils. Therefore most favourable appears application of bioeffectors in combination with various phosphatic fertilizers or waste materials. Especially rock phosphates, ash and digestate contain significant amounts of less bioavailable P forms. The joint application of these fertilizers and bioeffectors should lead to more efficient utilization of P, and thus reduce the input of fertilizer into the soil.
The aim of this study was to verify influence of bioeffector Trianum (Trichoderma harzianum, strain OMG 08) to yield of above-ground biomass, plant height and consumption of P by maize plants from the low P soils. Our aim was also to verify mobilization of P from less available forms in different fertilizers through due to the bioeffector influence and impact assessment to consumption of other limiting nutrients (sulfur and zinc) by maize plants.
Along with the unfertilized control variant the bioeffectors were also applied in combination with following fertilizers: straw ash, wood ash, sewage sludge, torrefied sewage sludge, solid fraction of the digestate, minced phosphate). As an additional control bioeffector was selected a biological fertilizer OD containing microorganism Penicillium bilalii.
The evaluated results did not shown any significant influence of bioeffector to yield of above-ground biomass, plant height or phosphorus mobilization. Statistically significant effects were obtained only by combinations of fertilizers and bioeffector in the case of uptake and content of sulfur. Statistically significant differences were proved within studied variants of fertilization without regards to bioeffector applied.
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