Title Melioracijski učinci lebdećeg biopepela u Cd kontaminiranom tlu
Title (english) Amelioration effects of fly bioash on Cd-contaminated soil
Author Ivan Barić
Mentor Gabrijel Ondrašek (mentor)
Committee member Gabrijel Ondrašek (predsjednik povjerenstva)
Committee member Marina Bubalo Kovačić (član povjerenstva)
Committee member Vedran Rubinić (član povjerenstva)
Granter University of Zagreb Faculty of Agriculture (Department of Soil Amelioration) Zagreb
Defense date and country 2022-09-30, Croatia
Scientific / art field, discipline and subdiscipline BIOTECHNICAL SCIENCES Agronomy
Abstract Veliki problem za okoliš predstavlja kontaminacija tla teškim metalima budući da može uzrokovati kontaminaciju hrane, odnosno razne zdravstvene probleme kod ljudi. Kontaminirana tla metalima zahtijevaju posebne pristupe gospodarenja, poput kemijskih melioracija raznim anorganskim materijalima (kondicionerima) kojim se smanjuje mobilnost i biopristupačnost metala. U radu je istražen utjecaj niže (1% m/m) i više (4% m/m) doze lebdećeg biopepela iz kogeneracijskog postrojenja u kontaminiranom tlu na kemizam metala, te vegetacijske parametre i mineralni sastav test kulture (Cannabis sativa, L.) u kontroliranim uvjetima. Pretpostavka je bila da će zbog jako alkalne reakcije dodatak lebdećeg biopepela u tlo kontaminirano Cd znatno izmijeniti kemijske mehanizme u tlu, a time i uvjete rasta i razvoja test kulture. Aplikacija niže doze biopepela nije značajnije utjecala na određene vegetacijske parametre (visina stabljike, broj listova, masa lista u svježem stanju, masa stabljike), dok je aplikacije više doze biopepela imala negativan utjecaj na navedene parametre u odnosu na kontrolnu varijantu. Aplikacija lebdećeg biopepela je u korijenu test kulture smanjila akumulaciju Cd za 54%, Cu za 28% i Zn za 52%, u listu koncentraciju Cd za 64%, Pb za 19% i Zn za 29%, te u stabljici koncentraciju Cd za 73% i Zn za 45% u odnosu na kontrolu. Aplikacija više doze lebdećeg biopepela u tlu je povećala pH reakciju na 7,44 (sa 6,5 kod kontrole) i električnu vodljivost na 17,3 dS/m (sa 9,51 dS/m kod kontrole). Koncentracija teških metala uslijed aplikacije biopepela se nije značajnije mijenjala u testiranom tlu. Primjena lebdećeg biopepela ima veliki potencijal u gospodarenju tlima kontaminiranim teškim metalima, te su nužna dugoročnija istraživanja da bi se utvrdio utjecaj lebdećeg biopepela na test kulture i ostale čimbenike okoliša.
Abstract (english) Metal contamination of soil is a major environmental issue, as it can cause contamination of food and various health problems for humans. Metal-contaminated soils require specific management approaches, such as chemical remediation with various inorganic materials (conditioners) that reduce the mobility and bioavailability of metals. The study was performed to investigate the impact of lower (1% m/m) and higher (4% m/m) doses of flyash from a biomass cogeneration plant facility in contaminated soils on: i) the chemistry of metals as well as ii) vegetation parameters and iii) mineral composition of the test crop (Cannabis sativa, L.) under controlled conditions. The assumption was that the addition of flyash to Cd-contaminated soil will significantly change the chemical mechanisms in the soil and thus the growth and development conditions of the test crop due to a strong alkaline reaction. The application of a lower bioash dose had no significant influence on certain vegetation parameters (stem height, number of leaves, fresh leaf mass, stem mass), while the application of a higher dose of bioash had a negative influence on the mentioned parameters compared to the control variant. The application of fly ash in the roots of the test crop reduced the accumulation of Cd by 54%, Cu by 28% and Zn by 52%, in the leaf the concentration of Cd by 64%, Pb by 19% and Zn by 29% and in the stem the concentration of Cd by 73% and Zn by 45% compared to the control. Application of a higher bioash dose in the soil increased the pH to 7.44 (from 6.5 in the control) and the electrical conductivity to 17.3 dS/m (from 9.51 dS/m in the control). The heavy metal concentration in the tested soils did not change significantly with the application of bioash. The application of bioash has great potential in the management of soils contaminated with heavy metals, thus longer-term studies are needed to determine the influence of bioash on the test crop and other environmental factors.
Keywords
industrijska konoplja
kontaminacija tla
biopepeo
Keywords (english)
industrial hemp
soil contamination
bioash
Language croatian
URN:NBN urn:nbn:hr:204:560192
Study programme Title: Agricultural Engineering Study programme type: university Study level: graduate Academic / professional title: magistar/ magistra inženjer/inženjerka poljoprivredne tehnike (magistar/ magistra inženjer/inženjerka poljoprivredne tehnike)
Type of resource Text
File origin Born digital
Access conditions Access restricted to students and staff of home institution
Terms of use
Created on 2022-11-09 12:22:45