Instituto Universitario de Bio-Organica Antonio Gonzalez (IUBO), Universidad de La Laguna, 38206 Canary Islands, Spain.
Departmento de Geografia e Historia, Universidad de La Laguna, 38200 Canary Islands, Spain.
Molecules. 2021 Mar 24;26(7):1830. doi: 10.3390/molecules26071830.
This paper reports on a series of heating experiments that focus on -alkanes extracted from leaf, bark, and xylem tissues of the plant. These lipid biomarkers were analysed for their compound-specific hydrogen isotopic composition (δH) under limited oxygen conditions at 150, 250, 350, and 450 °C. Our results reveal isotopic variations in wax lipids of different plant organs during short-term low-temperature combustion. We conclude that, in the absence of a detailed characterisation of the depositional environment in advance of sampling, δH values in archaeological or otherwise highly anthropogenic environments should be interpreted cautiously. In addition, we observed that variation in δH of leaves is minimal at temperatures ≤ 350 °C, highlighting the potential for δH in thermally altered combustion substrates to yield palaeoclimate information, which could allow researchers to investigate links between archaeological and climatic records at a high spatial and temporal resolution.
本文报告了一系列加热实验,重点关注从植物的叶、树皮和木质部组织中提取的正烷烃。在 150、250、350 和 450°C 下,在有限的氧气条件下分析了这些脂质生物标志物的化合物特异性氢同位素组成 (δH)。我们的结果揭示了不同植物器官蜡质脂质在短期低温燃烧过程中的同位素变化。我们得出结论,在采样前没有对沉积环境进行详细特征描述的情况下,在考古学或其他高度人为的环境中,δH 值应该谨慎解释。此外,我们观察到,在温度≤350°C 时,叶片 δH 的变化最小,这突出了热改性燃烧底物中 δH 的变化可能提供古气候信息的潜力,这可以使研究人员以高时空分辨率研究考古学和气候记录之间的联系。