Comparison of extractive chemical signatures among branch, knot and bark wood fractions from forestry and agroforestry walnut trees (Juglans regia × J. nigra) by NIR spectroscopy and LC-MS analyses

IF 1.5 4区农林科学 Q2 FORESTRY

Iforest - Biogeosciences and Forestry Pub Date : 2022-02-28 DOI:10.3832/ifor3973-014

L. Heim, R. Dodeler, L. Brancheriau, R. Marchal, N. Boutahar, S. Lotte, S. Dumarçay, P. Gérardin, K. Candelier

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引用次数: 2

Abstract

Walnut agroforestry systems require regular tree pruning, generating a large volume of biomass residues which are mainly valorized as wood-energy, Ramial Chipped Wood (RCW) or animal litter. However, walnut is recognized as a rich source of different chemical compounds, which could be recovered as valuable chemicals. This study aims to improve the knowledge on the composition of the water and ethanol extractive contents of wood, knot and bark fractions from walnut branches, harvested in agroforestry (AF) and traditional forestry control (FC) systems. LC-MS analyses were carried out to identify the chemical composition of extracts. Additionally, all samples were analyzed by near-in-frared (NIR) spectroscopy with the aim of developing a fast tool to distinguish walnut branches, knots and bark wood fractions from trees grown under agroforestry and plantation management. Extractive contents and chemical composition of AF and FC wood samples were slightly different among branch, knot and bark. Despite these small chemical differences, PLS-DA models based on NIRS measurements can distinguishing among wood samples from walnut trees grown under different silvicultural regimes. In addition, in the both forestry systems, branch and knot extractive contents were significantly lower than those of bark specimens. Principal Component Analyses (PCA) based on NIR-spectrometry of raw samples revealed that the chemical composition of branch and knot woods are similar to each other and are very different compared to those of bark samples. This study provides new knowledge on branch woods from agroforestry systems, which are still very under-studied at present.

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用近红外光谱和LC-MS分析比较林业和农林业核桃树(Juglans regia × J. nigra)枝、节和树皮部分的提取化学特征

核桃农林复合系统需要定期修剪树木，产生大量的生物质残留物，这些残留物主要作为木材能源、Ramial Chipped Wood (RCW)或动物垃圾。然而，核桃被认为是不同化合物的丰富来源，这些化合物可以作为有价值的化学品回收利用。本研究旨在提高对农林业(AF)和传统林业控制(FC)系统中收获的核桃枝的木材、节和树皮组分的水和乙醇提取物成分的认识。采用液相色谱-质谱法对提取物进行化学成分鉴定。此外，所有样品都通过近红外(NIR)光谱分析，目的是开发一种快速工具来区分农林业和人工林管理下生长的核桃枝、节和树皮木材组分。AF和FC木材样品的提取物含量和化学成分在树枝、结和树皮之间略有差异。尽管存在这些微小的化学差异，基于近红外测量的PLS-DA模型可以区分不同造林制度下生长的核桃树的木材样本。此外，在两种森林系统中，树枝和结的提取物含量均显著低于树皮标本。基于nir光谱分析的主成分分析(PCA)表明，枝结木和结木的化学成分相似，但与树皮样品的化学成分差异很大。本研究为农林业系统中枝材的研究提供了新的认识，目前对枝材的研究还很不足。

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来源期刊

Iforest - Biogeosciences and Forestry FORESTRY-

CiteScore

3.30

自引率

0.00%

发文量

审稿时长

6 months

期刊介绍： The journal encompasses a broad range of research aspects concerning forest science: forest ecology, biodiversity/genetics and ecophysiology, silviculture, forest inventory and planning, forest protection and monitoring, forest harvesting, landscape ecology, forest history, wood technology.