Metrika

  • citati u SCIndeksu: 0
  • citati u CrossRef-u:0
  • citati u Google Scholaru:[]
  • posete u poslednjih 30 dana:3
  • preuzimanja u poslednjih 30 dana:1

Sadržaj

članak: 6 od 30  
Back povratak na rezultate
Ratarstvo i povrtarstvo
2017, vol. 54, br. 3, str. 117-123
Stimulacija zemljišne mikrobiološke aktivnosti sa klinoptilolitom - uticaj na rast biljke
Karličić Veraa, Živanović Ivab, Matijašević Dankaa, Raičević Veraa, Nikšić Miomira ORCID, Rac Vladislava ORCID, Simić Aleksandara ORCID
aUniverzitet u Beogradu, Poljoprivredni fakultet
bNorwegian University of Life Sciences, Department of Plant and Environmental Sciences, Oslo, Norway

e-adresaalsimic@agrif.bg.ac.rs
Sažetak
Zeoliti mogu ublažiti otpuštanje amonijaka u prirodu preko uzimanja jona iz izvora kao što su stajnjak i đubriva bogata amonijakom. Ova sposobnost može unaprediti đubrenje azotom preko zeolitom usvojenih amonijum jona koji bi tako postali dostupni za usvajanje biljkama. Cilj ovih ispitivanja je bio procena uticaja zeolita (klinoptilolita) i zeolita obogaćenog amonijakom na rast i prinos crvene deteline (Trifolium pratense L.), kao i na njihovu ulogu u mikrobiološkoj dinamici zemljišta. Biljke sejane u sudovima su košene četiri puta i meren je prinos suve materije (SM) svakog otkosa. Broj bakterija, plesni, amonifikatora, Azotobacter sp. i aktinomiceta je utvrđen na početku ogleda i nakon svakog košenja. U istraživanja su uključena dva kontrolna tretmana (zemljište bez đubriva i zemljište sa dodatim mineralnim đubrivom - KAN). Primena klinoptilolita obogaćenog sa amonijakom je pozitivno i značajno uticala na mikrobiološku aktivnost i povećala je prinos (od 4,9 g po sudu kod tretmana sa klinoptilolitom obogaćenim amonijakom do 4,3 g po sudu u zemljištu sa zemljištem i zeolitom zajedno). Naša istraživanja sugerišu da se može preporučiti dodavanje klinoptilolita organskim đubrivima (stajnjaku, kompostu). Ključna dobit od primene klinoptilolita bi se ogledala u povećanju zastupljenosti mikrobioloških zajednica i njihove aktivnosti.
Reference

Abdi, Gh., Khosh-Khui, M., Eshghi, S. (2006) Effects of Natural Zeolite on Growth and Flowering of Strawberry (Fragariaxananassa Duch.). International Journal of Agricultural Research, 1(4): 384-389

Ando, H., Mihara, C., Kakuda, K., Wada, G. (1996) The fate of ammonium nitrogen applied to flooded rice as affected by zeolite addition. Soil Science and Plant Nutrition, 42(3): 531-538

Andronikashvili, T., Urushadze, T., Eprikashvili, L., Gamisonia, M., Nakaidze, E. (2008) Towards the biological activity of the natural zeolite: Clinoptilolite: Containing Tuff. Bulletin of the Georgian National Academy of Sciences, 2, 99-107

Bagherifam, S., Lakzian, A., Fotovat, A., Khorasani, R., Akbarzadeh, S., Motadaien, A. (2014) Immobilization of arsenic in a calcareous soil using an iron-, manganese- and aluminium-modified zeolite. Journal of Environmental Science and Technology, 16, 39-54

Burriesci, N., Valente, S., Zipelli, C., Bart, J.C.J. (1984) Studies on zeolites in agriculture. Effect on crop growth of Prunus persica and Vifis vinifera. Zeolites, 4(4): 373-376

Churkina, G. (2012) The taxonomic composition of soil microorganisms in the ecosystems of southern chernozems of Northern Kazakhstan. Applied Technologies and Innovations, 8(3): 13-19

de Campos, B.A.C., Polidoro, J.C., de Melo, M.M.B., Pereira, E.I., de Oliveira, C.R., Ramesh, K. (2016) Enhancing Nutrient Use Efficiency Using Zeolites Minerals-A Review. Advances in Chemical Engineering and Science, 06(04): 295-204

Egner, H., Riehm, H., Doming, W.R. (1960) Untersuchungen über die chemische Bodenanalyse als grundlage für die Beurteilung des Nährstoffzustandes der Boden II: Chemische Extraktionsmethoden zur Phosphor und Kaliumbestimmung Kungl. Lantbrukshagskolons Annaler, 26:199-215

Garg, N., Geetanjali (2007) Symbiotic nitrogen fixation in legume nodules: process and signaling. A review. Agronomy for Sustainable Development, 27(1): 59-68

1

Gholamhoseini, M., Ghalavand, A., Khodaei-Joghan, A., Dolatabadian, A., Zakikhani, H., Farmanbar, E. (2013) Zeolite-amended cattle manure effects on sunflower yield, seed quality, water use efficiency and nutrient leaching. Soil and Tillage Research, 126: 193-202

1

Glick, B.R. (2012) Plant Growth-Promoting Bacteria: Mechanisms and Applications. Scientifica, 2012: 1-15

Gu, Y., Wang, P., Kong, C.H. (2009) Urease, invertase, dehydrogenase and polyphenoloxidase activities in paddy soil influenced by allelopathic rice variety. European Journal of Soil Biology, 45(5-6): 436-441

1

Hartmann, A., Schmid, M., Tuinen, D.van, Berg, G. (2009) Plant-driven selection of microbes. Plant and Soil, 321(1-2): 235-257

3

Hejduk, S., Knot, P. (2010) Effect of provenance and ploidity of red clover varieties on productivity, persistence and growth pattern in mixture with grasses. Plant Soil Environment, 56, 3, 111-119

Järvan, M., Edesi, L., Adamson, A., Võsa, T. (2018) Soil microbial communities and dehydrogenase activity depending on farming systems. Plant, Soil and Environment, 60(No. 10): 459-463

Krogstad, T., Øgaard, A.F., Kristoffersen, A.Ø. (2008) New Recommendations for Grass and Cereals in Norwegian Agriculture. NJF Report, 42-46; 4

Leggo, P.J., Ledésert, B., Christie, G. (2006) The role of clinoptilolite in organo-zeolitic-soil systems used for phytoremediation. Science of the total environment, 363(1-3): 1-10

Lopičić, Z., Mihajlović, M., Stojanović, M., Petrović, M., Milojković, J., Lačnjevac, Č., Radulović, D. (2013) NH4+-zeolite/raw phosphate composite as a natural fertilizer and soil remediation amendment. u: The 1st International Congress on Soil Science and XIII National Congress in Soil Science, Belgrade, Serbia, pp. 163-174

1

Malekian, R., Abedi-Koupai, J., Eslamian, S.S., Mousavi, S.F., Abbaspour, K.C., Afyuni, M. (2011) Ion-exchange process for ammonium removal and release using natural Iranian zeolite. Applied Clay Science, 51(3): 323-329

1

Mandić, V., Tomić, Z., Krnjaja, V., Bijelić, Z., Žujović, M., Simić, A., Prodanović, S. (2011) Effect of acid stress on germination and early seedling growth of red clover. Biotechnology in Animal Husbandry, vol. 27, br. 3, str. 1295-1303

Milovanović, J., Simić, A., Rakić, V., Grbić, A.S., Krogstad, T., Rajić, N. (2013) Zeolite as a binding agent for ammonia ions and as a soil additive: Ammonia adsorption by the zeolite. u: The 5th Serbian-Croatian-Slovenian Symposium on Zeolites, Zlatibor, Proceedings of, Part I, pp. 88-91

Mühlbachová, G., Šimon, T. (2018) Effects of zeolite amendment on microbial biomass and respiratory activity in heavy metal contaminated soils. Plant, Soil and Environment, 49(No. 12): 536-541

1

Nguyen, M.L., Tanner, C.C. (1998) Ammonium removal from wastewaters using natural New Zealand zeolites. New Zealand Journal of Agricultural Research, 41(3): 427-446

Palanivell, P., Ahmed, O.H., Susilawati, K., Majid, N.M. (2015) Mitigating ammonia volatilization from urea in waterlogged condition using clinoptilolite zeolite. International Journal of Agriculture and Biology, 149-155; 17

Ramesh, K., Reddy, D.D. (2011) Zeolites and Their Potential Uses in Agriculture. Elsevier BV, str. 219-241

Rodionov, Y. V., Lebedeva, N. V., Kondratieva, E. N. (1986) Ammonia inhibition of nitrogenase activity in purple and green bacteria. Archives of Microbiology, 143(4): 345-347

Simić, A., Milovanović, J., Alibegović-Grbić, S., Raičević, S., Rakić, V., Krogstad, T., Rajić, N. (2013) Zeolite as a binding agent for ammonia ions and as a soil additive: Effect on grass growth and quality. u: 5th Serbian-Croatian-Slovenian Symposium on Zeolites, Zlatibor, II, pp. 96-99

Trinchera, A., Rivera, C.M., Rinaldi, S., Salerno, A., Rea, E., Sequi, P. (2010) Granular Size Effect of Clinoptilolite on Maize Seedlings Growth~!2009-01-27~!2009-08-26~!2010-07-06~!. Open Agriculture Journal, 4(1): 23-30

USDA (1993) Soil survey manual: Soil conservation service. u: U.S. Department of Agriculture Handbook 18

2

Vasiljević, S., Mihailović, V., Katić, S., Mikić, A., Karagić, Đ. (2010) Potencijal rodnosti sorti crvene deteline (Trifolium pratense L.). Ratarstvo i povrtarstvo, vol. 47, br. 1, str. 217-223

Wang, Y., Krogstad, T., Clarke, J.L., Hallama, M., Øgaard, A.F., Eich-Greatorex, S., Kandeler, E., Clarke, N. (2016) Rhizosphere Organic Anions Play a Minor Role in Improving Crop Species' Ability to Take Up Residual Phosphorus (P) in Agricultural Soils Low in P Availability. Frontiers in Plant Science, 7:

Wolińska, A., Stępniewska, Z. (2012) Dehydrogenase activity in the soil environment. u: Canuto R.A. [ur.] Dehydrogenases, (pp. 183- 210). CC BY 3.0 license. © The Author(s)

World Reference Base for Soil Resources (WRB) (2014) International soil classification system for naming soils and creating legends for soil maps. Rome, Italy: Food and Agriculture Organization of the United Nations, http://www.fao.org/3/a-i3794e.pdf

Zaman, M., Nguyen, M.L. (2010) Effect of lime or zeolite on N2O and N2 emissions from a pastoral soil treated with urine or nitrate-N fertilizer under field conditions. Agriculture, Ecosystems & Environment, 136(3-4): 254-261
   

O članku

jezik rada: engleski
vrsta rada: izvorni naučni članak
DOI: 10.5937/ratpov54-14870
objavljen u SCIndeksu: 08.01.2018.
metod recenzije: dvostruko anoniman
Creative Commons License 4.0

Povezani članci

Veterinarski glasnik (2006)
Poboljšanje kvaliteta ribnjačke vode primenom prirodnih zeolita i dinamika adsorpcije hidroloških toksikanata
Obradović Saša, i dr.

Zaštita materijala (2016)
Uticaj Fe(III)- modifikovanog klinoptilolita na izluživanje fosfora iz različitih vrsta zemljišta
Pavlović Jelena, i dr.

Zaštita materijala (2020)
Imobilizacija teških metalnih jona Zn2+, Ni2+, Pb2+ i Cu2+ u strukturi materijala na bazi cementa
Mijatović Nevenka, i dr.

prikaži sve [11]