期刊
MATERIALS
卷 15, 期 11, 页码 -出版社
MDPI
DOI: 10.3390/ma15114033
关键词
environmental stress; chemical elements; FAAS; hygroscopicity; dynamic vapor sorption; equilibrium moisture content; sorption hysteresis; GDW model; multi-factor ANOVA
类别
资金
- Ministry of Science and Higher Education [005/RID/2018/19]
This study investigated the sensitivity of Tilia cordata Mill. trees to environmental stress, as well as the properties necessary to control their growth and utilization. The results showed that growth conditions affected the range of chemical components and elements in the bark, and also influenced the hygroscopic properties of the wood and bark.
Tilia cordata Mill. is a favourite tree used in urban spaces. For this reason, it is important to know its sensitivity to environmental stress, which is particularly burdensome for vegetation in urban spaces. The aim of the study was to investigate the properties necessary to control the growth of these trees and their subsequent use, i.e., chemical properties (percentage contents of cellulose, holocellulose, lignin, pentosans and substances soluble in NaOH and EtOH) as well as the chemical elements (K, Na, Mg, Ca and Fe, Zn, Cu, Pb, Cd, B, Ni, Cr, Al, As and Hg) and selected hygroscopic properties (hysteresis and sorption isotherms). Trees of Tilia cordata Mill. growing in environments exposed to environmental stress of varying severity were examined. Regardless of the growth conditions, in terms of its chemical composition, bark differs significantly from wood, showing twice the contents of soluble substances in NaOH and lignin and half the content of polysaccharides. Growth conditions clearly affect the range of selected chemical components in bark, e.g., substances soluble in ethanol, cellulose, or lignin. The main inorganic elements in bark and wood are Na, K, Ca, Mg and Zn. In bark, a relationship was found between the content of most chemical elements and differing environmental growth conditions. It was shown that environmental stress influenced the hygroscopic properties of wood and bark, which are a consequence of the percentage of chemical components.
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