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标题：Legacy of Rice Roots as Encoded in Distinctive Microsites of Oxides, Silicates, and Organic Matter
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作者：Angelika Kölbl ; Steffen A. Schweizer ; Carsten W. Mueller 等
期刊名称：Soil Systems
电子版ISSN：2571-8789
出版年度：2017
卷号：1
期号：1
页码：2-16
DOI：10.3390/soils1010002
出版社：MDPI AG
摘要：Rice (Oryza sativa) is usually grown under flooded conditions, leading to anoxic periods in the soil. Rice plants transport oxygen via aerenchyma from the atmosphere to the roots. Driven by O2 release into the rhizosphere, radial gradients of ferric Fe and co-precipitated organic substances are formed. Our study aimed at elucidating the composition and spatial extension of those gradients. Air-dried soil aggregates from a paddy field were embedded in epoxy resin, cut, and polished to produce cross sections. Reflected-light microscopy was used to identify root channels. With nano-scale secondary ion mass spectrometry (NanoSIMS), we investigated transects from root channels into the soil matrix and detected 12C−, 16O−, 12C14N−, 28Si−, 27Al16O−, and 56Fe16O− to distinguish between embedding resin, organic matter, oxides, and silicates. Image analyses reveal high occurrences of 56Fe16O− within and in close proximity of oxide-encrusted root cells, followed by a thin layer with high occurrences of 27Al16O− and 12C14N−. In two of the three transects, 28Si− only occurs at distances larger than approximately 10 µm from the root surface. Thus, we can distinguish distinct zones: the inner zone is composed of oxide encrusted root cells and their fragments. A thin intermediate zone may occur around some roots and comprises (hydr)oxides and organic matter. This can be distinguished from a silicate-dominated outer zone, which reflects the transition from the rhizosphere to the bulk soil.
关键词：paddy soil; iron plaque; NanoSIMS; image analysis; reflectance light microscopy; scanning electron microscopy; rhizosphere paddy soil ; iron plaque ; NanoSIMS ; image analysis ; reflectance light microscopy ; scanning electron microscopy ; rhizosphere