Analysis of soil chronosequence studies using reflectance spectroscopy

Chronosequences are effective tools for studying soil genesis and can be used to evaluate the rate and direction of soil changes. Traditional methods for determining soil pedogenic properties are expensive and time consuming. Soil reflectance spectroscopy is a rapid and inexpensive technique that ca...
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Autor*in:	Zheng, Guanghui [verfasserIn] Jiao, Caixia Zhou, Shenglu Shang, Gang

Format:	Artikel
Sprache:	Englisch

Erschienen:	2016

Rechteinformationen:	Nutzungsrecht: © 2016 Informa UK Limited, trading as Taylor & Francis Group 2016

Übergeordnetes Werk:	Enthalten in: International journal of remote sensing - London [u.a.] : Taylor & Francis, 1980, 37(2016), 8, Seite 1881
Übergeordnetes Werk:	volume:37 ; year:2016 ; number:8 ; pages:1881

Links:	Volltext Link aufrufen

DOI / URN:	10.1080/01431161.2016.1163751

Katalog-ID:	OLC197535897X

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title_sort	analysis of soil chronosequence studies using reflectance spectroscopy
title_auth	Analysis of soil chronosequence studies using reflectance spectroscopy
abstract	Chronosequences are effective tools for studying soil genesis and can be used to evaluate the rate and direction of soil changes. Traditional methods for determining soil pedogenic properties are expensive and time consuming. Soil reflectance spectroscopy is a rapid and inexpensive technique that can analyse many soil constituents simultaneously. However, it remains unclear whether this new technique can be used in chronosequence studies to examine and interpret pedogenic processes. The objectives of this study are to summarize the progress made in the study of soil chronosequences and the research on soil reflectance spectroscopy over the past few decades, and to discuss the feasibility of soil spectroscopy in chronosequence studies. This study has reviewed the changes over time of five soil pedogenic properties of a chronosequence, i.e. soil organic matter, iron oxide, clay minerals, particle size distribution, and calcium carbonate. These properties can be quantitatively estimated using soil spectroscopy, although not all of them have spectral features. These changing properties serve as a bridge linking soil pedogenic processes and reflectance spectroscopy, which makes it possible to analyse chronosequences using spectroscopy. This application will provide a new method for studying soil genesis.
abstractGer	Chronosequences are effective tools for studying soil genesis and can be used to evaluate the rate and direction of soil changes. Traditional methods for determining soil pedogenic properties are expensive and time consuming. Soil reflectance spectroscopy is a rapid and inexpensive technique that can analyse many soil constituents simultaneously. However, it remains unclear whether this new technique can be used in chronosequence studies to examine and interpret pedogenic processes. The objectives of this study are to summarize the progress made in the study of soil chronosequences and the research on soil reflectance spectroscopy over the past few decades, and to discuss the feasibility of soil spectroscopy in chronosequence studies. This study has reviewed the changes over time of five soil pedogenic properties of a chronosequence, i.e. soil organic matter, iron oxide, clay minerals, particle size distribution, and calcium carbonate. These properties can be quantitatively estimated using soil spectroscopy, although not all of them have spectral features. These changing properties serve as a bridge linking soil pedogenic processes and reflectance spectroscopy, which makes it possible to analyse chronosequences using spectroscopy. This application will provide a new method for studying soil genesis.
abstract_unstemmed	Chronosequences are effective tools for studying soil genesis and can be used to evaluate the rate and direction of soil changes. Traditional methods for determining soil pedogenic properties are expensive and time consuming. Soil reflectance spectroscopy is a rapid and inexpensive technique that can analyse many soil constituents simultaneously. However, it remains unclear whether this new technique can be used in chronosequence studies to examine and interpret pedogenic processes. The objectives of this study are to summarize the progress made in the study of soil chronosequences and the research on soil reflectance spectroscopy over the past few decades, and to discuss the feasibility of soil spectroscopy in chronosequence studies. This study has reviewed the changes over time of five soil pedogenic properties of a chronosequence, i.e. soil organic matter, iron oxide, clay minerals, particle size distribution, and calcium carbonate. These properties can be quantitatively estimated using soil spectroscopy, although not all of them have spectral features. These changing properties serve as a bridge linking soil pedogenic processes and reflectance spectroscopy, which makes it possible to analyse chronosequences using spectroscopy. This application will provide a new method for studying soil genesis.
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container_issue	8
title_short	Analysis of soil chronosequence studies using reflectance spectroscopy
url	http://dx.doi.org/10.1080/01431161.2016.1163751 http://www.tandfonline.com/doi/abs/10.1080/01431161.2016.1163751
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author2	Jiao, Caixia Zhou, Shenglu Shang, Gang
author2Str	Jiao, Caixia Zhou, Shenglu Shang, Gang
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doi_str	10.1080/01431161.2016.1163751
up_date	2024-07-04T06:21:28.035Z
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