Shelterbelts increased soil inorganic carbon but decreased nitrate nitrogen, total phosphorus, and bulk density relative to neighbor farmlands depending on tree growth, geoclimate, and soil microbes in the Northeast China Plain

•Shelterbelts decreased bulk density and total P and increased soil inorganic C in the 0–40 cm soil layer.•Shelterbelts decreased NO3−-N compared with that in farmlands, which was more evident in deep soils.•NO3−-N decrease in shelterbelt soil was due to decreasing nitrification and increasing ECM f...

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Published inCatena (Giessen) Vol. 231; p. 107344
Main Authors Zhu, Meina, Cheng, Guanchao, Zhang, Xu, Guo, Yufeng, Wu, Yan, Wang, Qiong, Wang, Huimei, Wang, Wenjie
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2023
Subjects
1-m soil profiles
ammonium nitrogen
bulk density
catenas
China
Climate
denitrification
ectomycorrhizae
electrical conductivity
forests
glomalin
Microbial function
Multiple soil properties
nitrate nitrogen
nitrification
Poplar afforestation
Populus
porosity
shelterbelts
soil
soil inorganic carbon
soil organic carbon
specific gravity
total nitrogen
total phosphorus
tree growth
water content
China
Microbial function
Climate
Poplar afforestation
1-m soil profiles
Multiple soil properties
Online AccessGet full text
ISSN0341-8162
DOI10.1016/j.catena.2023.107344

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Abstract •Shelterbelts decreased bulk density and total P and increased soil inorganic C in the 0–40 cm soil layer.•Shelterbelts decreased NO3−-N compared with that in farmlands, which was more evident in deep soils.•NO3−-N decrease in shelterbelt soil was due to decreasing nitrification and increasing ECM fungi.•Poplar directly affects soil properties, and indirect effects via microbes should be considered.•This data support a holistic evaluation of multiple soil properties of shelterbelt afforestation in degraded black soils. Black soils constitute the food basket of many countries, and the improvement of their properties has received increasing attention. We collected 750 samples at 0 to 1 m depth from poplar shelterbelts and farmlands of 15 regions within the NE China Plain. We measured soil organic carbon (SOC), inorganic carbon (SIC), nitrate nitrogen (NO3−-N), total N, available N, ammonia N (NH4+-N), total phosphorus (TP), available P, bulk density (BD), porosity, specific gravity, electrical conductivity (EC), water content (WC), pH, total Glomalin-related soil protein (TG) and easily extracted glomalin (EEG), soil microbial characteristics, and forest characteristics. The results showed that: 1) Pooled data collected from poplar shelterbelts decreased BD, TP and NO3−-N by 7%, 11% and 7%, and increased SIC by 16% (p < 0.05), respectively, in the 0–40 cm soil layer, and sharper NO3−-N decreases have been observed in the 40–100 cm soil layer soils. 2) Compared to farmlands, poplar shelterbelts decreased microbial α-diversity, and the undefined saprotroph-fungi abundance and microbial nitrification and denitrification by 9.25% to 11.67%, but increased ectomycorrhizal fungi dominance, complexity, and stability of microbial network compared with farmlands. 3) The partial least squares path model revealed that NO3−-N, TP, and BD changes were achieved by the direct effects of poplar growth and indirectly through soil microbial modification. At the same time, geo-climatic differences contributed to SIC changes. Poplar shelterbelts significantly affected soil properties in moist and warm areas, and the effects of shelterbelts on soil properties were more evident in the 0–40 cm layer than in the 40–100 cm layer. Our results highlight that, besides windbreaking functions, poplar shelterbelt's benefits for crop productivity should also include their effects on multiple soil properties into l m deep soils, soil microbial alteration, and associated with geoclimatic conditions.
AbstractList •Shelterbelts decreased bulk density and total P and increased soil inorganic C in the 0–40 cm soil layer.•Shelterbelts decreased NO3−-N compared with that in farmlands, which was more evident in deep soils.•NO3−-N decrease in shelterbelt soil was due to decreasing nitrification and increasing ECM fungi.•Poplar directly affects soil properties, and indirect effects via microbes should be considered.•This data support a holistic evaluation of multiple soil properties of shelterbelt afforestation in degraded black soils. Black soils constitute the food basket of many countries, and the improvement of their properties has received increasing attention. We collected 750 samples at 0 to 1 m depth from poplar shelterbelts and farmlands of 15 regions within the NE China Plain. We measured soil organic carbon (SOC), inorganic carbon (SIC), nitrate nitrogen (NO3−-N), total N, available N, ammonia N (NH4+-N), total phosphorus (TP), available P, bulk density (BD), porosity, specific gravity, electrical conductivity (EC), water content (WC), pH, total Glomalin-related soil protein (TG) and easily extracted glomalin (EEG), soil microbial characteristics, and forest characteristics. The results showed that: 1) Pooled data collected from poplar shelterbelts decreased BD, TP and NO3−-N by 7%, 11% and 7%, and increased SIC by 16% (p < 0.05), respectively, in the 0–40 cm soil layer, and sharper NO3−-N decreases have been observed in the 40–100 cm soil layer soils. 2) Compared to farmlands, poplar shelterbelts decreased microbial α-diversity, and the undefined saprotroph-fungi abundance and microbial nitrification and denitrification by 9.25% to 11.67%, but increased ectomycorrhizal fungi dominance, complexity, and stability of microbial network compared with farmlands. 3) The partial least squares path model revealed that NO3−-N, TP, and BD changes were achieved by the direct effects of poplar growth and indirectly through soil microbial modification. At the same time, geo-climatic differences contributed to SIC changes. Poplar shelterbelts significantly affected soil properties in moist and warm areas, and the effects of shelterbelts on soil properties were more evident in the 0–40 cm layer than in the 40–100 cm layer. Our results highlight that, besides windbreaking functions, poplar shelterbelt's benefits for crop productivity should also include their effects on multiple soil properties into l m deep soils, soil microbial alteration, and associated with geoclimatic conditions.
Black soils constitute the food basket of many countries, and the improvement of their properties has received increasing attention. We collected 750 samples at 0 to 1 m depth from poplar shelterbelts and farmlands of 15 regions within the NE China Plain. We measured soil organic carbon (SOC), inorganic carbon (SIC), nitrate nitrogen (NO₃⁻-N), total N, available N, ammonia N (NH₄⁺-N), total phosphorus (TP), available P, bulk density (BD), porosity, specific gravity, electrical conductivity (EC), water content (WC), pH, total Glomalin-related soil protein (TG) and easily extracted glomalin (EEG), soil microbial characteristics, and forest characteristics. The results showed that: 1) Pooled data collected from poplar shelterbelts decreased BD, TP and NO₃⁻-N by 7%, 11% and 7%, and increased SIC by 16% (p < 0.05), respectively, in the 0–40 cm soil layer, and sharper NO₃⁻-N decreases have been observed in the 40–100 cm soil layer soils. 2) Compared to farmlands, poplar shelterbelts decreased microbial α-diversity, and the undefined saprotroph-fungi abundance and microbial nitrification and denitrification by 9.25% to 11.67%, but increased ectomycorrhizal fungi dominance, complexity, and stability of microbial network compared with farmlands. 3) The partial least squares path model revealed that NO₃⁻-N, TP, and BD changes were achieved by the direct effects of poplar growth and indirectly through soil microbial modification. At the same time, geo-climatic differences contributed to SIC changes. Poplar shelterbelts significantly affected soil properties in moist and warm areas, and the effects of shelterbelts on soil properties were more evident in the 0–40 cm layer than in the 40–100 cm layer. Our results highlight that, besides windbreaking functions, poplar shelterbelt's benefits for crop productivity should also include their effects on multiple soil properties into l m deep soils, soil microbial alteration, and associated with geoclimatic conditions.
ArticleNumber 107344
Author Wang, Huimei
Wu, Yan
Cheng, Guanchao
Zhang, Xu
Wang, Qiong
Zhu, Meina
Guo, Yufeng
Wang, Wenjie
Author_xml – sequence: 1
  givenname: Meina
  surname: Zhu
  fullname: Zhu, Meina
  organization: Key Laboratory of Forest Plant Ecology (MOE), College of Chemistry, Chemistry Engineering and Resource Utilization, Northeast Forestry University, Harbin 150040, Heilongjiang, China
– sequence: 2
  givenname: Guanchao
  surname: Cheng
  fullname: Cheng, Guanchao
  organization: Key Laboratory of Forest Plant Ecology (MOE), College of Chemistry, Chemistry Engineering and Resource Utilization, Northeast Forestry University, Harbin 150040, Heilongjiang, China
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  givenname: Xu
  surname: Zhang
  fullname: Zhang, Xu
  organization: Key Laboratory of Forest Plant Ecology (MOE), College of Chemistry, Chemistry Engineering and Resource Utilization, Northeast Forestry University, Harbin 150040, Heilongjiang, China
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  givenname: Yufeng
  surname: Guo
  fullname: Guo, Yufeng
  organization: Key Laboratory of Forest Plant Ecology (MOE), College of Chemistry, Chemistry Engineering and Resource Utilization, Northeast Forestry University, Harbin 150040, Heilongjiang, China
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  givenname: Yan
  surname: Wu
  fullname: Wu, Yan
  organization: College of Biological Sciences, Guizhou Education University, Guiyang 550018, China
– sequence: 6
  givenname: Qiong
  surname: Wang
  fullname: Wang, Qiong
  organization: College of Forestry, Jiangxi Agricultural University, Nanchang 330045, China
– sequence: 7
  givenname: Huimei
  surname: Wang
  fullname: Wang, Huimei
  email: whm0709@163.com
  organization: State Key Laboratory of Subtropical Silviculture, College of Forestry and Biotechnology, Zhejiang Agriculture and Forestry University, Hangzhou 311300, Zhejiang, China
– sequence: 8
  givenname: Wenjie
  orcidid: 0000-0003-0465-686X
  surname: Wang
  fullname: Wang, Wenjie
  email: wjwang225@hotmail.com, wangwenjie@iga.ac.cn, wjwang225@zafu.edu.cn
  organization: State Key Laboratory of Subtropical Silviculture, College of Forestry and Biotechnology, Zhejiang Agriculture and Forestry University, Hangzhou 311300, Zhejiang, China
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Keywords Microbial function
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Poplar afforestation
1-m soil profiles
Multiple soil properties
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Snippet •Shelterbelts decreased bulk density and total P and increased soil inorganic C in the 0–40 cm soil layer.•Shelterbelts decreased NO3−-N compared with that in...
Black soils constitute the food basket of many countries, and the improvement of their properties has received increasing attention. We collected 750 samples...
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StartPage 107344
SubjectTerms 1-m soil profiles
ammonium nitrogen
bulk density
catenas
China
Climate
denitrification
ectomycorrhizae
electrical conductivity
forests
glomalin
Microbial function
Multiple soil properties
nitrate nitrogen
nitrification
Poplar afforestation
Populus
porosity
shelterbelts
soil
soil inorganic carbon
soil organic carbon
specific gravity
total nitrogen
total phosphorus
tree growth
water content
Title Shelterbelts increased soil inorganic carbon but decreased nitrate nitrogen, total phosphorus, and bulk density relative to neighbor farmlands depending on tree growth, geoclimate, and soil microbes in the Northeast China Plain
URI https://dx.doi.org/10.1016/j.catena.2023.107344
https://www.proquest.com/docview/3200283402
Volume 231
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