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Maize root architecture and biomass productivity after application of organic and inorganic additives in contaminated soil

Głąb Tomasz, Jarosz Renata, Gondek Krzysztof, Mierzwa-Hersztek Monika

Ecological Chemistry and Engineering. S

2024

Vol. 31, nr 1

75--87

Both inorganic and organic soil amendments serve as pivotal tools for augmenting crop yield and optimising fertilisation efficacy, while enhancing soil physical and biological characteristics, bolstering carbon sequestration, and remedying soil degradation caused by pollutants and salinity. This study was carried out with the specific objective of discerning the impact of various zeolite composites and their mixtures with lignite or leonardite on maize biomass output. To achieve this aim, the following treatments were applied in a controlled pot experiment: zeolite/carbon and zeolite/vermiculite composites mixed with lignite or leonardite, and a control treatment devoid of any amendments. Subsequent analysis encompassed the root morphometric parameters and maize aboveground production. The lowest productivity was characterised for maize without any fertilisers and amendments. The highest aboveground biomass of maize straw was obtained when only mineral fertilisation was applied. Both aboveground and root biomass were at the same level, notwithstanding the soil amendments, zeolite composites or organic amendments. Root morphological parameters, including root dry matter, root length, root surface area, and volume, were influenced by the addition of zeolite/carbon and zeolite/vermiculite composites with organic component. Our research shows the beneficial effect of the applied additives on some morphological properties of the roots. Zeolite/vermiculite composite application increased root surface area and root volume.

Effect of soil application of zeolite-carbon composite, leonardite and lignite on the microorganisms

Wolny-Koładka Katarzyna, Marcińska-Mazur Lidia, Jarosz Renata, Juda Michał, Lošák Tomáš, Mierzwa-Hersztek Monika

Ecological Chemistry and Engineering. S

2022

Vol. 29, nr 4

553--563

The aim of the study was to evaluate the effect of mineral-organic mixture on changes in the abundance of selected soil microorganisms. The experiment contained: soil with NPK (nitrogen, potassium, phosphorus) + 3 % or 6 % lignite (MF+CW3 %, MF+CW6 %) and 3 % zeolite-carbon composite (NaX-C); soil with NPK + 3 % or 6 % leonardite (MF+CL3 %, MF+CL6 %) and 3 % NaX-C; soil without fertilisation (C); soil fertilised with mineral NPK fertilisers (MF). Plants participating in the experiment were spring wheat and spring oilseed rape. The presence of the selected microorganisms was determined: Azotobacter spp., actinomycetes, ammonifiers, bacteria and mold fungi. Using Koch’s serial dilution method, the abundance of selected soil microorganisms was performed. The conducted research allows to conclude that the abundance of detected microorganisms depended on both the applied fertilisation and the plant grown. For the spring oilseed rape, the highest abundance of microorganisms was determined in treatments where fertilisation with lignite mixtures was applied, while for spring wheat, with leonardite mixtures. Increasing (from 3 % to 6 %) the share of lignite and leonardite in fertiliser mixtures did not translate into a proportional growth in the abundance of microorganisms, so such a treatment has no economic justification. Given their alkaline pH, the mixtures used can be a substitute for calcium fertilisers to improve soil properties and, consequently, protect soil organic matter from degradation.