Please use this identifier to cite or link to this item: http://cris.utm.md/handle/5014/1870
Title: The cell wall components and theoretical ethanol potential of silybum marianum stem
Authors: ABABII, Alexei 
DOROFTEI, Veaceslav 
ŢIŢEI, Victor 
COZARI, Serghei 
ANDREOIU, Andreea Cristina 
GADIBADI, Mihail 
GARȘTEA, Nina 
CEREMPEI, Valerian 
MAZĂRE, Veaceslav 
Keywords: cell wall components;Silybum marianum;theoretical ethanol potential
Issue Date: 2022
Source: ABABII, Alexei, DOROFTEI, Veaceslav, ŢIŢEI, Victor, COZARI, Sergiu, ANDREOIU, Andreea Cristina, GADIBADI, Mihail, GARŞTEA, Nina, CEREMPEI, Valerian, MAZĂRE, Veaceslav. The cell wall components and theoretical ethanol potential of silybum marianum stem. In: Biology and sustainable development, Ed. 20, 24-25 noiembrie 2022, Bacău. Bacău, Romania: 2022, Ediția 20, R, pp. 86-87.
Project: 20.80009.5107.02 Mobilizarea resurselor genetice vegetale, ameliorarea soiurilor de plante, valorificarea lor ca culturi furajere, melifere și energetice în circuitul bioeconomic 
Journal: Biology and sustainable development
Abstract: 
Cellulosic ethanol produced from plant mass is currently a topic of great interest for researchers. Silybum marianum, Asteraceae family, is a species of thistle, a very large and conspicuous annual or biennial plant, growing up to 2.5 m tall, native to the Mediterranean region, parts of Asia and Russia. Milk thistle is an adaptive crop with low requirements, known particularly as medicinal plant; its seeds contain approximately 4–6% silymarin. The main objective of this research was to evaluate cell wall components and the theoretical ethanol potential of Silybum marianum stem dry mass collected after seed production in an experimental field of the National Botanical Garden (Institute), Chişinău, Republic of Moldova. The cell wall components have been determined by NIRS technique PERTEN DA 7200 of the Research and Development Institute for Grassland Braşov, Romania. It has been determined that harvested Silybum marianum stems contained 850 g/kg dry matter. The comparative analysis of cell wall components revealed that Silybum marianum substrate contained 459g/kg cellulose, 296 g/kg hemicellulose and 108 g/kg acid detergent lignin, but corn stalks substrate respectively 417 g/kg cellulose, 250 g/kg hemicellulose and 82 g/kg acid detergent lignin. The estimated theoretical ethanol yield from cell wall carbohydrates averaged 536 L/t in Silybum marianum substrate, as compared with 485 L/t in corn substrate.
URI: https://ibn.idsi.md/vizualizare_articol/169774
http://cris.utm.md/handle/5014/1870
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