| Title | Impact of smart combinations of graphene oxide and micro/nanosized sulfur particles on soil health and plant biomass accumulation |
| Publication Type | Journal Article |
| Year of Publication | 2022 |
| Authors | Hammerschmiedt T., Holatko J., Huska D., Kintl A., Skarpa P., Bytesnikova Z., Pekarkova J., Kucerik J., Mustafa A., Radziemska M., Malicek O., Vankova L., Brtnicky M. |
| Journal | Chemical and Biological Technologies in Agriculture |
| Volume | 9 |
| Pagination | 13 |
| Date Published | Aug |
| Type of Article | Article |
| Accession Number | WOS:000838087400001 |
| Keywords | ABUNDANCE, Agriculture, amendments, availability, Bacteria, community, containing fertilizers, elemental sulfur, Graphene oxide, micronized elemental sulfur, OXIDATION, release, respiration, soil, Soil enzyme activities, sulfate |
| Abstract | Background: Elemental sulfur (S-0) is a cost-efficient fertilizer and the least rapidly utilizable source of S for soil microorganisms and plants. Its bacterial-mediated oxidation to sulfates is dependent on particle size. Finely formulated (micronized, nanosized) S-0 exerts enhanced oxidation rate and benefit due to nutrient availability and crop nutrition efficiency. Graphene oxide (GO) affects soil properties both negatively and positively. A pot experiment was carried out with lettuce using soil supplemented with S-0 in different composition, applied alone or in combination with GO. The following variants were tested: control, GO, micro-S-0, micro-S-0 + GO, nano-S-0, nano-S-0 + GO. Results: Nanosized S-0 improved most of enzyme activities (dehydrogenase, arylsulfatase, N-acetyl-beta-D-glucosaminidase, beta-glucosidase, phosphatase). However, respirations induced by D-glucose, protocatechuic acid, L-arginine were decreased. GO mitigated negative to neutral effect of micro-S-0 in the soil pH, dehydrogenase and urease activity. Furthermore, micro-S-0 positively affected basal respiration and respirations induced by D-trehalose and N-acetyl-beta-D-glucosamine. Nano-S-0 + GO improved plant biomass yield and enzyme activities. However, nano-S-0 + GO significantly decreased all substate-induced respirations. Conclusions: The benefit of soil treatment with nano-/micro-sized S-0 and its combination with GO on soil biological parameters was partially demonstrated. |
| Alternate Journal | Chem. Biol. Technol. Agric. |
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- Impact of smart combinations of graphene oxide and micro/nanosized sulfur particles on soil health and plant biomass accumulation
Impact of smart combinations of graphene oxide and micro/nanosized sulfur particles on soil health and plant biomass accumulation
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Hammerschmiedt, Tereza Holatko, Jiri Huska, Dalibor Kintl, Antonin Skarpa, Petr Bytesnikova, Zuzana Pekarkova, Jana Kucerik, Jiri Mustafa, Adnan Radziemska, Maja Malicek, Ondrej Vankova, Lenka Brtnicky, Martin
projects of Technology Agency of the Czech Republic [TJ04000519, TH04030142]; Ministry of Agriculture of the Czech Republic [MZE-RO1218, MZE-RO1722]; Ministry of Education, Youth and Sports of the Czech Republic [FCH-S-22-8001]; ERDF "Multidisciplinary research to increase application potential of nanomaterials in agricultural practice" [CZ.02.1.01/0.0/0.0/16_ 025/0007314]
The work was supported by the projects of Technology Agency of the Czech Republic TJ04000519 and TH04030142, by the Ministry of Agriculture of the Czech Republic, institutional support MZE-RO1218, MZE-RO1722 and by Ministry of Education, Youth and Sports of the Czech Republic, grant number FCH-S-22-8001 and by ERDF "Multidisciplinary research to increase application potential of nanomaterials in agricultural practice" (No. CZ.02.1.01/0.0/0.0/16_ 025/0007314).
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Mustafa, A; Brtnicky, M (corresponding author), Mendel Univ Brno, Fac AgriSci, Dept Agrochem Soil Sci Microbiol & Plant Nutr, Zemedelska 1, Brno 61300, Czech Republic.; Mustafa, A; Brtnicky, M (corresponding author), Brno Univ Technol, Fac Chem, Inst Chem & Technol Environm Protect, Purkynova 118, Brno 61200, Czech Republic.; Mustafa, A (corresponding author), Charles Univ Prague, Fac Sci, Inst Environm Studies, Benatska 2, Prague 12800, Czech Republic.
adnanmustafa780@gmail.com; martin.brtnicky@seznam.cz
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