Your search keyword '"MOLECULAR crystals"' showing total 2 results

1. Molecular and crystal structures of cellulose in severely deteriorated archaeological wood.

Author

Guo, Juan, Chen, Jiabao, Meng, Qiulu, Ploszczanski, Leon, Liu, Jian'an, Luo, Rupeng, Jin, Tao, Siedlaczek, Philipp, Lichtenegger, Helga C., Yin, Yafang, and Rennhofer, Harald

Subjects

MOLECULAR crystals, WOOD, MOLECULAR structure, CELLULOSE, CRYSTAL structure

Abstract

Preservation and conservation of archaeological wooden artifacts is extremely challenging due to a lack of knowledge about the hierarchical structure of preserved cellulose. Herein we report on the comparative analysis of eight archaeological and four recent wood samples from three archaeological sites in China by a variety of methods, including micro-morphology, Fourier Transform Infrared Spectrum, X-ray scattering, chromatographic analysis of wood sugars, and solid state 13C CP/MAS NMR. Results show that deterioration on the microscale is clearly related to a fragmentation of both the cellulose crystallite structure and the cellulose microfibrils. Slightly deteriorated archaeological wood features cellulose crystallites and microfibrils, comparable to non-degraded recent wood, whereas severely deteriorated wood shows higher porosity of the wood cell wall, fragmented cellulose aggregates instead of fibrils and nearly no crystallinity. Alterations in molecular structures resulted in advanced degradation of both amorphous and crystalline cellulose domains. Only a small amount of cellulose was preserved. The data allows to assume highly fragmented but still partially crystalline cellulose lamellas. [ABSTRACT FROM AUTHOR]

Published

2022

2. Optical properties and molecular compositions of dissolved organic matter in multiple runoff components during rainfalls on the karst hillslope.

Author

Zhang, Yuheng, Liu, Chun, Fu, Zhiyong, Chen, Hongsong, He, Chunhuan, Wang, Kelin, and Li, Ping

Subjects

*DISSOLVED organic matter, *SHRUBLANDS, *RAINFALL, *RUNOFF, *KARST, *OPTICAL properties, *MOLECULAR crystals, *LAND cover

Abstract

• DOM molecular compositions in multi-interface runoffs were quantified by FT-ICR MS. • Soil-epikarst structures controlled the DOM quantity and molecular compositions. • High microbially-derived carbon was detected in epikarst flow. • Flow rate and discharge effected DOM quantity and quality during runoff process. • Soil thicknesses affected runoff DOM dynamics by impacting hydrological processes. Understanding the chemical composition, origin, and molecular structure of dissolved organic matter (DOM) in multi-interface runoff is essential for comprehending the fate of laterally transported DOM in complex soil-epikarst systems of karst hillslopes. Limited information, however, is available for the optical properties and molecular compositions of the transported OM in multiple runoff components on the karst hillslope in relation to land-uses and soil thicknesses. In this study, we conducted a study to observe the changes in the quantity and quality of DOM in multiple interface flow (surface, subsurface, and epikarst) during natural rainfall events in 2022 in karst hillslopes that are covered by different land uses (cropland and shrubland) and soil thicknesses (with mean depths of 66.0 cm for deeper soil and 35.4 cm for shallower soil) in the karst region of southwest China. chemcial compositions of runoff DOM were determined by optical analysis and microbial compositions in runoff were inferred with high-throughput sequencing. The results showed that the soil-epikarst structure was controlling the runoff DOM quantity and quality during rainfall events. A decrease in the aromaticity, humification, unsaturation, and oxidation degree and an increase in carbohydrate, aminosugars, protein, and lipid compounds were found from surface to epikarst flow, indicating that plant-and soil-derived carbon decreased, while the microbially-derived carbon increased. The results were further comfirmed by the higher bacterial richness and diversity, along with fungal diversity in the epikarst flow compared to other runoff components. The bio-labile protein materials (C2) were the most important component of runoff DOM output in karst hillslopes. In surface and subsurface flow, rainfall amount, runoff rate, and discharge significantly affected the DOM concentration and quality during rainfalls, indicating that the dynamics of DOM in runoff from karst hillslopes were predominantly influenced by hydrological processes. Furthermore, the runoff DOM quality in cropland was dominated by lower unsaturation and oxidation degrees and higher protein component, compared to those in shrubland. The compositions of DOM in runoff from hillslope plots with thicker soils were primarily characterized by microbially-derived materials. Our findings were conducive to understanding the mechanism governing the migration of DOM quality and quantity in discharge during multi-interface hydrological processes on karst hillslopes. [ABSTRACT FROM AUTHOR]

Published

2024