Carbon sequestration and mineralization in soil aggregates under long-term conservation tillage in the North China Plain

•C sequestration and mineralization showed negative correlations at 0–10 cm layer.•Macro-aggregates (>2 mm) were the main carriers of SOC sequestration.•No-till improved C stock in macro-aggregates due to less mineralization.•Straw returning increased C concentration due to low mineralization quo...

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Published inCatena (Giessen) Vol. 188; p. 104428
Main Authors Kan, Zheng-Rong, Ma, Shou-Tian, Liu, Qiu-Yue, Liu, Bing-Yang, Virk, Ahmad Latif, Qi, Jian-Ying, Zhao, Xin, Lal, Rattan, Zhang, Hai-Lin
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.05.2020
Subjects
Carbon mineralization
Carbon sequestration
China
climate change
Conservation tillage
conventional tillage
field experimentation
mineralization
no-tillage
particulate organic carbon
risk
rotary tillage
soil aggregates
soil degradation
Soil macro-aggregate
soil organic carbon
soil sampling
straw
Straw incorporation
China
CPM
CTS
POC
Soil macro-aggregate
SM0.25-2
Cm
NTS
Co
Carbon sequestration
RTS
Micro0.053-0.25
TPM
Carbon mineralization
CT
Conservation tillage
Straw incorporation
LM>2
SC<0.053
Online AccessGet full text
ISSN0341-8162
1872-6887
DOI10.1016/j.catena.2019.104428

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Abstract •C sequestration and mineralization showed negative correlations at 0–10 cm layer.•Macro-aggregates (>2 mm) were the main carriers of SOC sequestration.•No-till improved C stock in macro-aggregates due to less mineralization.•Straw returning increased C concentration due to low mineralization quotient. Understanding the process of soil organic carbon (SOC) sequestration and mineralization in aggregates is pertinent to mitigate climate change and minimize risks of soil degradation. Thus, soil samples were obtained after a 10-year field experiment to identify the influences of tillage on aggregate-associated SOC sequestration and mineralization in the North China Plain (NCP). Four tillage practices investigated were as follows: no-till with straw retention (NTS, conservation tillage), rotary tillage with straw incorporation (RTS), conventional tillage with straw incorporation (CTS), and conventional tillage with straw removal (CT). Significantly negative correlations were observed between SOC concentration and potentially mineralized carbon in aggregates under different treatments for the 0–10 cm soil layer. The large macro-aggregates (>2 mm) with the highest proportion of size distribution represented the major pool of SOC stock (47.3–51.2%) and mineralization amount (38.2–43.6%) in the 0–30 cm layer, followed by that in the small macro-aggregates (0.25–2 mm), regardless of tillage practices. However, the mineralization quotient (mineralization per unit SOC concentration) of macro-aggregates (>0.25 mm) was lower than that for the other size classes. The NTS enhanced the macro-aggregate formation in the 0–20 cm layer and associated SOC concentration in the 0–10 cm layer. Furthermore, NTS decreased total potential mineralization in the 0–30 cm layer compared with the other tillage practices, attributed to decrease in the large macro-aggregates (30.0–51.4%) with low particulate organic carbon (POC) concentration. The NTS with low straw inputs had higher incremental efficiency with straw incorporation than that in the RTS and CTS by 45.0% and 13.5%, respectively (P < 0.05). Overall, the higher proportion of macro-aggregates recorded under NTS decreased carbon mineralization, and consequently, increased incremental efficiency with straw incorporation, and improved SOC sequestration in the surface soil layer in the NCP.
AbstractList Understanding the process of soil organic carbon (SOC) sequestration and mineralization in aggregates is pertinent to mitigate climate change and minimize risks of soil degradation. Thus, soil samples were obtained after a 10-year field experiment to identify the influences of tillage on aggregate-associated SOC sequestration and mineralization in the North China Plain (NCP). Four tillage practices investigated were as follows: no-till with straw retention (NTS, conservation tillage), rotary tillage with straw incorporation (RTS), conventional tillage with straw incorporation (CTS), and conventional tillage with straw removal (CT). Significantly negative correlations were observed between SOC concentration and potentially mineralized carbon in aggregates under different treatments for the 0–10 cm soil layer. The large macro-aggregates (>2 mm) with the highest proportion of size distribution represented the major pool of SOC stock (47.3–51.2%) and mineralization amount (38.2–43.6%) in the 0–30 cm layer, followed by that in the small macro-aggregates (0.25–2 mm), regardless of tillage practices. However, the mineralization quotient (mineralization per unit SOC concentration) of macro-aggregates (>0.25 mm) was lower than that for the other size classes. The NTS enhanced the macro-aggregate formation in the 0–20 cm layer and associated SOC concentration in the 0–10 cm layer. Furthermore, NTS decreased total potential mineralization in the 0–30 cm layer compared with the other tillage practices, attributed to decrease in the large macro-aggregates (30.0–51.4%) with low particulate organic carbon (POC) concentration. The NTS with low straw inputs had higher incremental efficiency with straw incorporation than that in the RTS and CTS by 45.0% and 13.5%, respectively (P < 0.05). Overall, the higher proportion of macro-aggregates recorded under NTS decreased carbon mineralization, and consequently, increased incremental efficiency with straw incorporation, and improved SOC sequestration in the surface soil layer in the NCP.
•C sequestration and mineralization showed negative correlations at 0–10 cm layer.•Macro-aggregates (>2 mm) were the main carriers of SOC sequestration.•No-till improved C stock in macro-aggregates due to less mineralization.•Straw returning increased C concentration due to low mineralization quotient. Understanding the process of soil organic carbon (SOC) sequestration and mineralization in aggregates is pertinent to mitigate climate change and minimize risks of soil degradation. Thus, soil samples were obtained after a 10-year field experiment to identify the influences of tillage on aggregate-associated SOC sequestration and mineralization in the North China Plain (NCP). Four tillage practices investigated were as follows: no-till with straw retention (NTS, conservation tillage), rotary tillage with straw incorporation (RTS), conventional tillage with straw incorporation (CTS), and conventional tillage with straw removal (CT). Significantly negative correlations were observed between SOC concentration and potentially mineralized carbon in aggregates under different treatments for the 0–10 cm soil layer. The large macro-aggregates (>2 mm) with the highest proportion of size distribution represented the major pool of SOC stock (47.3–51.2%) and mineralization amount (38.2–43.6%) in the 0–30 cm layer, followed by that in the small macro-aggregates (0.25–2 mm), regardless of tillage practices. However, the mineralization quotient (mineralization per unit SOC concentration) of macro-aggregates (>0.25 mm) was lower than that for the other size classes. The NTS enhanced the macro-aggregate formation in the 0–20 cm layer and associated SOC concentration in the 0–10 cm layer. Furthermore, NTS decreased total potential mineralization in the 0–30 cm layer compared with the other tillage practices, attributed to decrease in the large macro-aggregates (30.0–51.4%) with low particulate organic carbon (POC) concentration. The NTS with low straw inputs had higher incremental efficiency with straw incorporation than that in the RTS and CTS by 45.0% and 13.5%, respectively (P < 0.05). Overall, the higher proportion of macro-aggregates recorded under NTS decreased carbon mineralization, and consequently, increased incremental efficiency with straw incorporation, and improved SOC sequestration in the surface soil layer in the NCP.
ArticleNumber 104428
Author Ma, Shou-Tian
Liu, Qiu-Yue
Liu, Bing-Yang
Zhang, Hai-Lin
Zhao, Xin
Qi, Jian-Ying
Lal, Rattan
Kan, Zheng-Rong
Virk, Ahmad Latif
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  givenname: Zheng-Rong
  surname: Kan
  fullname: Kan, Zheng-Rong
  organization: College of Agronomy and Biotechnology, China Agricultural University, Key Laboratory of Farming System, Ministry of Agriculture and Rural Affairs of China, Beijing 100193, PR China
– sequence: 2
  givenname: Shou-Tian
  surname: Ma
  fullname: Ma, Shou-Tian
  organization: College of Agronomy and Biotechnology, China Agricultural University, Key Laboratory of Farming System, Ministry of Agriculture and Rural Affairs of China, Beijing 100193, PR China
– sequence: 3
  givenname: Qiu-Yue
  surname: Liu
  fullname: Liu, Qiu-Yue
  organization: College of Agronomy and Biotechnology, China Agricultural University, Key Laboratory of Farming System, Ministry of Agriculture and Rural Affairs of China, Beijing 100193, PR China
– sequence: 4
  givenname: Bing-Yang
  surname: Liu
  fullname: Liu, Bing-Yang
  organization: College of Agronomy and Biotechnology, China Agricultural University, Key Laboratory of Farming System, Ministry of Agriculture and Rural Affairs of China, Beijing 100193, PR China
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  givenname: Ahmad Latif
  surname: Virk
  fullname: Virk, Ahmad Latif
  organization: College of Agronomy and Biotechnology, China Agricultural University, Key Laboratory of Farming System, Ministry of Agriculture and Rural Affairs of China, Beijing 100193, PR China
– sequence: 6
  givenname: Jian-Ying
  surname: Qi
  fullname: Qi, Jian-Ying
  organization: College of Agronomy and Biotechnology, China Agricultural University, Key Laboratory of Farming System, Ministry of Agriculture and Rural Affairs of China, Beijing 100193, PR China
– sequence: 7
  givenname: Xin
  surname: Zhao
  fullname: Zhao, Xin
  organization: College of Agronomy and Biotechnology, China Agricultural University, Key Laboratory of Farming System, Ministry of Agriculture and Rural Affairs of China, Beijing 100193, PR China
– sequence: 8
  givenname: Rattan
  surname: Lal
  fullname: Lal, Rattan
  organization: Carbon Management and Sequestration Center, School of Environment and Natural Resources, The Ohio State University, Columbus, OH 43210, USA
– sequence: 9
  givenname: Hai-Lin
  orcidid: 0000-0002-7426-2885
  surname: Zhang
  fullname: Zhang, Hai-Lin
  email: hailin@cau.edu.cn
  organization: College of Agronomy and Biotechnology, China Agricultural University, Key Laboratory of Farming System, Ministry of Agriculture and Rural Affairs of China, Beijing 100193, PR China
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Keywords CPM
CTS
POC
Soil macro-aggregate
SM0.25-2
Cm
NTS
Co
Carbon sequestration
RTS
Micro0.053-0.25
TPM
Carbon mineralization
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Snippet •C sequestration and mineralization showed negative correlations at 0–10 cm layer.•Macro-aggregates (>2 mm) were the main carriers of SOC...
Understanding the process of soil organic carbon (SOC) sequestration and mineralization in aggregates is pertinent to mitigate climate change and minimize...
SourceID proquest
crossref
elsevier
SourceType Aggregation Database
Enrichment Source
Index Database
Publisher
StartPage 104428
SubjectTerms Carbon mineralization
Carbon sequestration
China
climate change
Conservation tillage
conventional tillage
field experimentation
mineralization
no-tillage
particulate organic carbon
risk
rotary tillage
soil aggregates
soil degradation
Soil macro-aggregate
soil organic carbon
soil sampling
straw
Straw incorporation
Title Carbon sequestration and mineralization in soil aggregates under long-term conservation tillage in the North China Plain
URI https://dx.doi.org/10.1016/j.catena.2019.104428
https://www.proquest.com/docview/2388746924
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