Effects of fine root length density and root biomass on soil preferential flow in forest ecosystems

Aim of study: The study was conducted to characterize the impacts of plant roots systems (e.g., root length density and root biomass) on soil preferential flow in forest ecosystems. Area of study: The study was carried out in Jiufeng National Forest Park, Beijing, China. Material and methods: The...
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Gespeichert in:

Autor*in:	Yinghu Zhang [verfasserIn] Jianzhi Niu [verfasserIn] Xinxiao Yu [verfasserIn] Weili Zhu [verfasserIn] Xiaoqing Du [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2015

Schlagwörter:	soil preferential flow preferential pathways soil matrix root length density root biomass

Übergeordnetes Werk:	In: Forest Systems - Instituto Nacional de Investigación y Tecnología Agraria y Alimentaria, 2010, 24(2015), 01, p e012
Übergeordnetes Werk:	volume:24 ; year:2015 ; number:01, p e012

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc Journal toc

DOI / URN:	10.5424/fs/2015241-06048

Katalog-ID:	DOAJ050359975

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callnumber-first	S - Agriculture
author	Yinghu Zhang
spellingShingle	Yinghu Zhang misc SD1-669.5 misc soil preferential flow misc preferential pathways misc soil matrix misc root length density misc root biomass misc Forestry Effects of fine root length density and root biomass on soil preferential flow in forest ecosystems
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topic_title	SD1-669.5 Effects of fine root length density and root biomass on soil preferential flow in forest ecosystems soil preferential flow preferential pathways soil matrix root length density root biomass
topic	misc SD1-669.5 misc soil preferential flow misc preferential pathways misc soil matrix misc root length density misc root biomass misc Forestry
topic_unstemmed	misc SD1-669.5 misc soil preferential flow misc preferential pathways misc soil matrix misc root length density misc root biomass misc Forestry
topic_browse	misc SD1-669.5 misc soil preferential flow misc preferential pathways misc soil matrix misc root length density misc root biomass misc Forestry
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title	Effects of fine root length density and root biomass on soil preferential flow in forest ecosystems
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title_full	Effects of fine root length density and root biomass on soil preferential flow in forest ecosystems
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journal	Forest Systems
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author_browse	Yinghu Zhang Jianzhi Niu Xinxiao Yu Weili Zhu Xiaoqing Du
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title_sort	effects of fine root length density and root biomass on soil preferential flow in forest ecosystems
callnumber	SD1-669.5
title_auth	Effects of fine root length density and root biomass on soil preferential flow in forest ecosystems
abstract	Aim of study: The study was conducted to characterize the impacts of plant roots systems (e.g., root length density and root biomass) on soil preferential flow in forest ecosystems. Area of study: The study was carried out in Jiufeng National Forest Park, Beijing, China. Material and methods: The flow patterns were measured by field dye tracing experiments. Different species (Sophora japonica Linn,Platycladus orientalis Franco, Quercus dentata Thunb)were quantified in two replicates, and 12 soil depth were applied. Plant roots were sampled in the sieving methods. Root length density and root biomass were measured by WinRHIZO. Dye coverage was implied in the image analysis, and maximum depth of dye infiltration by direct measurement. Main results: Root length density and root biomass decreased with the increasing distance from soil surface, and root length density was 81.6% higher in preferential pathways than in soil matrix, and 66.7% for root biomass with respect to all experimental plots. Plant roots were densely distributed in the upper soil layers. Dye coverage was almost 100% in the upper 5-10 cm, but then decreased rapidly with soil depth. Root length density and root biomass were different from species: Platycladus orientalis Franco < Quercus dentata Thunb < Sophora japonica Linn. Research highlights: The results indicated that fine roots systems had strong effects on soil preferential flow, particularly root channels enhancing nutrition transport across soil profiles in forest dynamics.
abstractGer	Aim of study: The study was conducted to characterize the impacts of plant roots systems (e.g., root length density and root biomass) on soil preferential flow in forest ecosystems. Area of study: The study was carried out in Jiufeng National Forest Park, Beijing, China. Material and methods: The flow patterns were measured by field dye tracing experiments. Different species (Sophora japonica Linn,Platycladus orientalis Franco, Quercus dentata Thunb)were quantified in two replicates, and 12 soil depth were applied. Plant roots were sampled in the sieving methods. Root length density and root biomass were measured by WinRHIZO. Dye coverage was implied in the image analysis, and maximum depth of dye infiltration by direct measurement. Main results: Root length density and root biomass decreased with the increasing distance from soil surface, and root length density was 81.6% higher in preferential pathways than in soil matrix, and 66.7% for root biomass with respect to all experimental plots. Plant roots were densely distributed in the upper soil layers. Dye coverage was almost 100% in the upper 5-10 cm, but then decreased rapidly with soil depth. Root length density and root biomass were different from species: Platycladus orientalis Franco < Quercus dentata Thunb < Sophora japonica Linn. Research highlights: The results indicated that fine roots systems had strong effects on soil preferential flow, particularly root channels enhancing nutrition transport across soil profiles in forest dynamics.
abstract_unstemmed	Aim of study: The study was conducted to characterize the impacts of plant roots systems (e.g., root length density and root biomass) on soil preferential flow in forest ecosystems. Area of study: The study was carried out in Jiufeng National Forest Park, Beijing, China. Material and methods: The flow patterns were measured by field dye tracing experiments. Different species (Sophora japonica Linn,Platycladus orientalis Franco, Quercus dentata Thunb)were quantified in two replicates, and 12 soil depth were applied. Plant roots were sampled in the sieving methods. Root length density and root biomass were measured by WinRHIZO. Dye coverage was implied in the image analysis, and maximum depth of dye infiltration by direct measurement. Main results: Root length density and root biomass decreased with the increasing distance from soil surface, and root length density was 81.6% higher in preferential pathways than in soil matrix, and 66.7% for root biomass with respect to all experimental plots. Plant roots were densely distributed in the upper soil layers. Dye coverage was almost 100% in the upper 5-10 cm, but then decreased rapidly with soil depth. Root length density and root biomass were different from species: Platycladus orientalis Franco < Quercus dentata Thunb < Sophora japonica Linn. Research highlights: The results indicated that fine roots systems had strong effects on soil preferential flow, particularly root channels enhancing nutrition transport across soil profiles in forest dynamics.
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title_short	Effects of fine root length density and root biomass on soil preferential flow in forest ecosystems
url	https://doi.org/10.5424/fs/2015241-06048 https://doaj.org/article/675f8d24b65b4dd49c5855edd454a9ed http://revistas.inia.es/index.php/fs/article/view/6048/2308 https://doaj.org/toc/2171-5068 https://doaj.org/toc/2171-9845
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author2	Jianzhi Niu Xinxiao Yu Weili Zhu Xiaoqing Du
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up_date	2024-07-03T14:25:18.367Z
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Effects of fine root length density and root biomass on soil preferential flow in forest ecosystems

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