Carbonate cementing minerals in rhizoliths from Badain Jaran Desert: Implication for pedo-diagenesis and environment of dune soil

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Qingfeng Sun
  • Kazem Zamanian
  • Arnaud Huguet
  • Guido L.B. Wiesenberg
  • Tianlei Zhao
  • Ziqiang Lei

Research Organisations

External Research Organisations

  • Northwest Normal University
  • Nanjing Institute of Geology and Palaeontology Chinese Academy of Sciences
  • Universite Paris 6
  • Universität Zürich (UZH)
  • CAS Key Laboratory of Crust-Mantle Materials and Environments
View graph of relations

Details

Original languageEnglish
Article number100647
JournalRhizosphere
Volume25
Early online date15 Dec 2022
Publication statusPublished - Mar 2023

Abstract

Pedogenic carbonates are a good proxy of soil formation and functioning because the morphology of minerals is directly related with the processes of dissolution–precipitation. Carbonate rhizolith is one type of pedogenetic carbonate forming in modern soils of dunes and loess. The calcite micro-morphology with the sedimentary hydrogeochemical conditions prevailing during their formation remains open. Electron microscopy with an X-ray energy dispersive spectrometer and X-ray diffraction were used to investigate in detail the micro-morphology of carbonate cements of the rhizoliths and obtain paleoenvironmental information in the dune soil of Badain Jaran Desert in Northwest China. Two types of carbonates rhizoliths, primary rhizoliths (PR) and reworked rhizoliths (RR), were found. The PRs are present in situ within dune soils. The RRs are being eroded out from soil, potentially dislocated or transferred, and weathered at the soil surface. PRs displayed homogeneous micritic mass of calcite crystals, with pores, cavities and voids among the mass. RRs displayed various morphologies of calcite crystals (polyhedral, euhedral rhombic, tooth-like, prismatic and pillar), rosettes, short rods, and calcified fungal hyphae. The diagenesis differences at soil depth and surface affected the crystal morphologies. The homogeneous micritic mass of calcite crystals of the PRs were formed during the early diagenesis, preferentially in wet soils with semi-closed and semi-redox conditions. In contrast, the cementing minerals of the RRs became bigger and clearer in the late diagenesis than during early diagenesis due to recrystallization in open, dry and oxidative conditions at the soil surface. Therefore, the cement crystal morphologies of the rhizoliths can reflect the local environmental and climatic conditions. These objects can be used as environmental and pedo-diagenesis proxies in dune soil or sediments, recording the associated conditions of moisture, temperature, wind, erosion, weathering, solar radiation at the soil surface or at depth. Therefore, assessing the micromorphology of pedogenic carbonates has important implications for soil ecology and evolution as well as plant root physiology in deserts.

Keywords

    Crystal morphology, Energy dispersive X-ray spectroscopy, Scanning electron microscopy, Soil diagenesis environment, X-ray diffraction

ASJC Scopus subject areas

Cite this

Carbonate cementing minerals in rhizoliths from Badain Jaran Desert: Implication for pedo-diagenesis and environment of dune soil. / Sun, Qingfeng; Zamanian, Kazem; Huguet, Arnaud et al.
In: Rhizosphere, Vol. 25, 100647, 03.2023.

Research output: Contribution to journalArticleResearchpeer review

Sun Q, Zamanian K, Huguet A, Wiesenberg GLB, Zhao T, Lei Z. Carbonate cementing minerals in rhizoliths from Badain Jaran Desert: Implication for pedo-diagenesis and environment of dune soil. Rhizosphere. 2023 Mar;25:100647. Epub 2022 Dec 15. doi: 10.1016/j.rhisph.2022.100647
Download
@article{c862b58c0ddc4dafb44d7856892ac536,
title = "Carbonate cementing minerals in rhizoliths from Badain Jaran Desert: Implication for pedo-diagenesis and environment of dune soil",
abstract = "Pedogenic carbonates are a good proxy of soil formation and functioning because the morphology of minerals is directly related with the processes of dissolution–precipitation. Carbonate rhizolith is one type of pedogenetic carbonate forming in modern soils of dunes and loess. The calcite micro-morphology with the sedimentary hydrogeochemical conditions prevailing during their formation remains open. Electron microscopy with an X-ray energy dispersive spectrometer and X-ray diffraction were used to investigate in detail the micro-morphology of carbonate cements of the rhizoliths and obtain paleoenvironmental information in the dune soil of Badain Jaran Desert in Northwest China. Two types of carbonates rhizoliths, primary rhizoliths (PR) and reworked rhizoliths (RR), were found. The PRs are present in situ within dune soils. The RRs are being eroded out from soil, potentially dislocated or transferred, and weathered at the soil surface. PRs displayed homogeneous micritic mass of calcite crystals, with pores, cavities and voids among the mass. RRs displayed various morphologies of calcite crystals (polyhedral, euhedral rhombic, tooth-like, prismatic and pillar), rosettes, short rods, and calcified fungal hyphae. The diagenesis differences at soil depth and surface affected the crystal morphologies. The homogeneous micritic mass of calcite crystals of the PRs were formed during the early diagenesis, preferentially in wet soils with semi-closed and semi-redox conditions. In contrast, the cementing minerals of the RRs became bigger and clearer in the late diagenesis than during early diagenesis due to recrystallization in open, dry and oxidative conditions at the soil surface. Therefore, the cement crystal morphologies of the rhizoliths can reflect the local environmental and climatic conditions. These objects can be used as environmental and pedo-diagenesis proxies in dune soil or sediments, recording the associated conditions of moisture, temperature, wind, erosion, weathering, solar radiation at the soil surface or at depth. Therefore, assessing the micromorphology of pedogenic carbonates has important implications for soil ecology and evolution as well as plant root physiology in deserts.",
keywords = "Crystal morphology, Energy dispersive X-ray spectroscopy, Scanning electron microscopy, Soil diagenesis environment, X-ray diffraction",
author = "Qingfeng Sun and Kazem Zamanian and Arnaud Huguet and Wiesenberg, {Guido L.B.} and Tianlei Zhao and Ziqiang Lei",
note = "Funding Information: We acknowledge Prof. Zhoulun Li, the two anonymous reviewers and the Editor-in-chief for their comments. We also acknowledge Prof. Gentao Zhou, Prof. Hong Wang and Dr. Zhen Liu for their suggestions on prior versions of this article. Funding for this work was supported by Sino-German Scientists Cooperation and Exchanges (M-0069, Sino-German Scientific Centre, National Natural Science Foundation of China ) and State Key Laboratory of Palaeobiology and Stratigraphy ( Nanjing Institute of Geology and Palaeontology, CAS, China . # 223125 ). ",
year = "2023",
month = mar,
doi = "10.1016/j.rhisph.2022.100647",
language = "English",
volume = "25",

}

Download

TY - JOUR

T1 - Carbonate cementing minerals in rhizoliths from Badain Jaran Desert

T2 - Implication for pedo-diagenesis and environment of dune soil

AU - Sun, Qingfeng

AU - Zamanian, Kazem

AU - Huguet, Arnaud

AU - Wiesenberg, Guido L.B.

AU - Zhao, Tianlei

AU - Lei, Ziqiang

N1 - Funding Information: We acknowledge Prof. Zhoulun Li, the two anonymous reviewers and the Editor-in-chief for their comments. We also acknowledge Prof. Gentao Zhou, Prof. Hong Wang and Dr. Zhen Liu for their suggestions on prior versions of this article. Funding for this work was supported by Sino-German Scientists Cooperation and Exchanges (M-0069, Sino-German Scientific Centre, National Natural Science Foundation of China ) and State Key Laboratory of Palaeobiology and Stratigraphy ( Nanjing Institute of Geology and Palaeontology, CAS, China . # 223125 ).

PY - 2023/3

Y1 - 2023/3

N2 - Pedogenic carbonates are a good proxy of soil formation and functioning because the morphology of minerals is directly related with the processes of dissolution–precipitation. Carbonate rhizolith is one type of pedogenetic carbonate forming in modern soils of dunes and loess. The calcite micro-morphology with the sedimentary hydrogeochemical conditions prevailing during their formation remains open. Electron microscopy with an X-ray energy dispersive spectrometer and X-ray diffraction were used to investigate in detail the micro-morphology of carbonate cements of the rhizoliths and obtain paleoenvironmental information in the dune soil of Badain Jaran Desert in Northwest China. Two types of carbonates rhizoliths, primary rhizoliths (PR) and reworked rhizoliths (RR), were found. The PRs are present in situ within dune soils. The RRs are being eroded out from soil, potentially dislocated or transferred, and weathered at the soil surface. PRs displayed homogeneous micritic mass of calcite crystals, with pores, cavities and voids among the mass. RRs displayed various morphologies of calcite crystals (polyhedral, euhedral rhombic, tooth-like, prismatic and pillar), rosettes, short rods, and calcified fungal hyphae. The diagenesis differences at soil depth and surface affected the crystal morphologies. The homogeneous micritic mass of calcite crystals of the PRs were formed during the early diagenesis, preferentially in wet soils with semi-closed and semi-redox conditions. In contrast, the cementing minerals of the RRs became bigger and clearer in the late diagenesis than during early diagenesis due to recrystallization in open, dry and oxidative conditions at the soil surface. Therefore, the cement crystal morphologies of the rhizoliths can reflect the local environmental and climatic conditions. These objects can be used as environmental and pedo-diagenesis proxies in dune soil or sediments, recording the associated conditions of moisture, temperature, wind, erosion, weathering, solar radiation at the soil surface or at depth. Therefore, assessing the micromorphology of pedogenic carbonates has important implications for soil ecology and evolution as well as plant root physiology in deserts.

AB - Pedogenic carbonates are a good proxy of soil formation and functioning because the morphology of minerals is directly related with the processes of dissolution–precipitation. Carbonate rhizolith is one type of pedogenetic carbonate forming in modern soils of dunes and loess. The calcite micro-morphology with the sedimentary hydrogeochemical conditions prevailing during their formation remains open. Electron microscopy with an X-ray energy dispersive spectrometer and X-ray diffraction were used to investigate in detail the micro-morphology of carbonate cements of the rhizoliths and obtain paleoenvironmental information in the dune soil of Badain Jaran Desert in Northwest China. Two types of carbonates rhizoliths, primary rhizoliths (PR) and reworked rhizoliths (RR), were found. The PRs are present in situ within dune soils. The RRs are being eroded out from soil, potentially dislocated or transferred, and weathered at the soil surface. PRs displayed homogeneous micritic mass of calcite crystals, with pores, cavities and voids among the mass. RRs displayed various morphologies of calcite crystals (polyhedral, euhedral rhombic, tooth-like, prismatic and pillar), rosettes, short rods, and calcified fungal hyphae. The diagenesis differences at soil depth and surface affected the crystal morphologies. The homogeneous micritic mass of calcite crystals of the PRs were formed during the early diagenesis, preferentially in wet soils with semi-closed and semi-redox conditions. In contrast, the cementing minerals of the RRs became bigger and clearer in the late diagenesis than during early diagenesis due to recrystallization in open, dry and oxidative conditions at the soil surface. Therefore, the cement crystal morphologies of the rhizoliths can reflect the local environmental and climatic conditions. These objects can be used as environmental and pedo-diagenesis proxies in dune soil or sediments, recording the associated conditions of moisture, temperature, wind, erosion, weathering, solar radiation at the soil surface or at depth. Therefore, assessing the micromorphology of pedogenic carbonates has important implications for soil ecology and evolution as well as plant root physiology in deserts.

KW - Crystal morphology

KW - Energy dispersive X-ray spectroscopy

KW - Scanning electron microscopy

KW - Soil diagenesis environment

KW - X-ray diffraction

UR - http://www.scopus.com/inward/record.url?scp=85145191351&partnerID=8YFLogxK

U2 - 10.1016/j.rhisph.2022.100647

DO - 10.1016/j.rhisph.2022.100647

M3 - Article

AN - SCOPUS:85145191351

VL - 25

JO - Rhizosphere

JF - Rhizosphere

M1 - 100647

ER -

By the same author(s)