Application of carboxymethyl cellulose sodium (CMCNa) in maize–wheat cropping system (MWCS) in coastal saline-alkali soil

Sodium carboxymethyl cellulose (CMCNa) application has been a promising approach to improve soil quality. The purpose of this study was to explore the effects of CMC-Na on soil infiltration, evaporation, water-salt distribution, crop growth, water use efficiency and net profit (Net) in a coastal sal...

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Published inThe Science of the total environment Vol. 912; p. 169214
Main Authors Li, Ge, Shan, Yuyang, Nie, Weibo, Sun, Yan, Su, Lijun, Mu, Weiyi, Qu, Zhi, Yang, Ting, Wang, Quanjiu
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 20.02.2024
Subjects
aboveground biomass
Carboxymethyl cellulose sodium
carboxymethylcellulose
Coastal saline-alkali soil
corn
environment
evaporation
field experimentation
infiltration rate
Maize–wheat cropping system
Net profit
soil quality
soil salinity
soil water storage
water use efficiency
wheat
Carboxymethyl cellulose sodium
Coastal saline-alkali soil
Maize–wheat cropping system
Net profit
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Abstract Sodium carboxymethyl cellulose (CMCNa) application has been a promising approach to improve soil quality. The purpose of this study was to explore the effects of CMC-Na on soil infiltration, evaporation, water-salt distribution, crop growth, water use efficiency and net profit (Net) in a coastal saline-alkali soil maize–wheat cropping system (MWCS). Five CMC-Na application amounts (0, 0.1, 0.2, 0.4 and 0.6 g kg−1) were designed for the soil column experiment indoor, and five CMC-Na application amounts were used in 2019–2020 field experiment (CK: 0, C10: 10 kg ha−1, C20: 10 kg ha−1, C30: 10 kg ha−1 and C50: 10 kg ha−1), No treatment will be applied in 2021. The results showed that (1) CMC-Na treatment reduced soil cumulative infiltration, infiltration rate, daily evaporation, and cumulative evaporation. (2) After the application of CMCNa, the average soil water storage (SWS) in the 0–60 cm soil layer increased, and soil salinity (SSC) decreased in most treatments. (3) In the 2019–2020, the maize aboveground biomass (B), yield (Y) and water use efficiency (WUE) were the highest under the C20 and C30 treatments, which were 15.24 and 15.32 t ha−1, 5.67 and 5.49 t ha−1 and 1.74 and 1.52 kg ha−1 mm−1, respectively, and the wheat under C30 treatment is the highest, which were 10.98 t ha−1, 5.27 t ha−1 and 1.78 kg ha−1 mm−1. (4) A dose of 25.5 kg ha−1 and 38.9 kg ha−1 was recommended as the most optimal CMC-Na application for maize and wheat in coastal saline alkali soil, respectively. [Display omitted] •CMC-Na prevents soil water from infiltrating and reduces soil evaporation.•CMC-Na increased soil water storage and reduced soil salinity.•Excessive CMC-Na has negative impact on crops growth in saline-alkali soil.•25.5 kg ha−1 was recommended as an appropriate CMC-Na strategy for maize.•38.9 kg ha−1 was recommended as an appropriate CMC-Na strategy for wheat.
AbstractList Sodium carboxymethyl cellulose (CMCNa) application has been a promising approach to improve soil quality. The purpose of this study was to explore the effects of CMC-Na on soil infiltration, evaporation, water-salt distribution, crop growth, water use efficiency and net profit (Net) in a coastal saline-alkali soil maize-wheat cropping system (MWCS). Five CMC-Na application amounts (0, 0.1, 0.2, 0.4 and 0.6 g kg ) were designed for the soil column experiment indoor, and five CMC-Na application amounts were used in 2019-2020 field experiment (CK: 0, C10: 10 kg ha , C20: 10 kg ha , C30: 10 kg ha and C50: 10 kg ha ), No treatment will be applied in 2021. The results showed that (1) CMC-Na treatment reduced soil cumulative infiltration, infiltration rate, daily evaporation, and cumulative evaporation. (2) After the application of CMCNa, the average soil water storage (SWS) in the 0-60 cm soil layer increased, and soil salinity (SSC) decreased in most treatments. (3) In the 2019-2020, the maize aboveground biomass (B), yield (Y) and water use efficiency (WUE) were the highest under the C20 and C30 treatments, which were 15.24 and 15.32 t ha , 5.67 and 5.49 t ha and 1.74 and 1.52 kg ha  mm , respectively, and the wheat under C30 treatment is the highest, which were 10.98 t ha , 5.27 t ha and 1.78 kg ha  mm . (4) A dose of 25.5 kg ha and 38.9 kg ha was recommended as the most optimal CMC-Na application for maize and wheat in coastal saline alkali soil, respectively.
Sodium carboxymethyl cellulose (CMCNa) application has been a promising approach to improve soil quality. The purpose of this study was to explore the effects of CMC-Na on soil infiltration, evaporation, water-salt distribution, crop growth, water use efficiency and net profit (Net) in a coastal saline-alkali soil maize–wheat cropping system (MWCS). Five CMC-Na application amounts (0, 0.1, 0.2, 0.4 and 0.6 g kg−1) were designed for the soil column experiment indoor, and five CMC-Na application amounts were used in 2019–2020 field experiment (CK: 0, C10: 10 kg ha−1, C20: 10 kg ha−1, C30: 10 kg ha−1 and C50: 10 kg ha−1), No treatment will be applied in 2021. The results showed that (1) CMC-Na treatment reduced soil cumulative infiltration, infiltration rate, daily evaporation, and cumulative evaporation. (2) After the application of CMCNa, the average soil water storage (SWS) in the 0–60 cm soil layer increased, and soil salinity (SSC) decreased in most treatments. (3) In the 2019–2020, the maize aboveground biomass (B), yield (Y) and water use efficiency (WUE) were the highest under the C20 and C30 treatments, which were 15.24 and 15.32 t ha−1, 5.67 and 5.49 t ha−1 and 1.74 and 1.52 kg ha−1 mm−1, respectively, and the wheat under C30 treatment is the highest, which were 10.98 t ha−1, 5.27 t ha−1 and 1.78 kg ha−1 mm−1. (4) A dose of 25.5 kg ha−1 and 38.9 kg ha−1 was recommended as the most optimal CMC-Na application for maize and wheat in coastal saline alkali soil, respectively. [Display omitted] •CMC-Na prevents soil water from infiltrating and reduces soil evaporation.•CMC-Na increased soil water storage and reduced soil salinity.•Excessive CMC-Na has negative impact on crops growth in saline-alkali soil.•25.5 kg ha−1 was recommended as an appropriate CMC-Na strategy for maize.•38.9 kg ha−1 was recommended as an appropriate CMC-Na strategy for wheat.
Sodium carboxymethyl cellulose (CMCNa) application has been a promising approach to improve soil quality. The purpose of this study was to explore the effects of CMC-Na on soil infiltration, evaporation, water-salt distribution, crop growth, water use efficiency and net profit (Net) in a coastal saline-alkali soil maize–wheat cropping system (MWCS). Five CMC-Na application amounts (0, 0.1, 0.2, 0.4 and 0.6 g kg⁻¹) were designed for the soil column experiment indoor, and five CMC-Na application amounts were used in 2019–2020 field experiment (CK: 0, C10: 10 kg ha⁻¹, C20: 10 kg ha⁻¹, C30: 10 kg ha⁻¹ and C50: 10 kg ha⁻¹), No treatment will be applied in 2021. The results showed that (1) CMC-Na treatment reduced soil cumulative infiltration, infiltration rate, daily evaporation, and cumulative evaporation. (2) After the application of CMCNa, the average soil water storage (SWS) in the 0–60 cm soil layer increased, and soil salinity (SSC) decreased in most treatments. (3) In the 2019–2020, the maize aboveground biomass (B), yield (Y) and water use efficiency (WUE) were the highest under the C20 and C30 treatments, which were 15.24 and 15.32 t ha⁻¹, 5.67 and 5.49 t ha⁻¹ and 1.74 and 1.52 kg ha⁻¹ mm⁻¹, respectively, and the wheat under C30 treatment is the highest, which were 10.98 t ha⁻¹, 5.27 t ha⁻¹ and 1.78 kg ha⁻¹ mm⁻¹. (4) A dose of 25.5 kg ha⁻¹ and 38.9 kg ha⁻¹ was recommended as the most optimal CMC-Na application for maize and wheat in coastal saline alkali soil, respectively.
Sodium carboxymethyl cellulose (CMCNa) application has been a promising approach to improve soil quality. The purpose of this study was to explore the effects of CMC-Na on soil infiltration, evaporation, water-salt distribution, crop growth, water use efficiency and net profit (Net) in a coastal saline-alkali soil maize-wheat cropping system (MWCS). Five CMC-Na application amounts (0, 0.1, 0.2, 0.4 and 0.6 g kg-1) were designed for the soil column experiment indoor, and five CMC-Na application amounts were used in 2019-2020 field experiment (CK: 0, C10: 10 kg ha-1, C20: 10 kg ha-1, C30: 10 kg ha-1 and C50: 10 kg ha-1), No treatment will be applied in 2021. The results showed that (1) CMC-Na treatment reduced soil cumulative infiltration, infiltration rate, daily evaporation, and cumulative evaporation. (2) After the application of CMCNa, the average soil water storage (SWS) in the 0-60 cm soil layer increased, and soil salinity (SSC) decreased in most treatments. (3) In the 2019-2020, the maize aboveground biomass (B), yield (Y) and water use efficiency (WUE) were the highest under the C20 and C30 treatments, which were 15.24 and 15.32 t ha-1, 5.67 and 5.49 t ha-1 and 1.74 and 1.52 kg ha-1 mm-1, respectively, and the wheat under C30 treatment is the highest, which were 10.98 t ha-1, 5.27 t ha-1 and 1.78 kg ha-1 mm-1. (4) A dose of 25.5 kg ha-1 and 38.9 kg ha-1 was recommended as the most optimal CMC-Na application for maize and wheat in coastal saline alkali soil, respectively.Sodium carboxymethyl cellulose (CMCNa) application has been a promising approach to improve soil quality. The purpose of this study was to explore the effects of CMC-Na on soil infiltration, evaporation, water-salt distribution, crop growth, water use efficiency and net profit (Net) in a coastal saline-alkali soil maize-wheat cropping system (MWCS). Five CMC-Na application amounts (0, 0.1, 0.2, 0.4 and 0.6 g kg-1) were designed for the soil column experiment indoor, and five CMC-Na application amounts were used in 2019-2020 field experiment (CK: 0, C10: 10 kg ha-1, C20: 10 kg ha-1, C30: 10 kg ha-1 and C50: 10 kg ha-1), No treatment will be applied in 2021. The results showed that (1) CMC-Na treatment reduced soil cumulative infiltration, infiltration rate, daily evaporation, and cumulative evaporation. (2) After the application of CMCNa, the average soil water storage (SWS) in the 0-60 cm soil layer increased, and soil salinity (SSC) decreased in most treatments. (3) In the 2019-2020, the maize aboveground biomass (B), yield (Y) and water use efficiency (WUE) were the highest under the C20 and C30 treatments, which were 15.24 and 15.32 t ha-1, 5.67 and 5.49 t ha-1 and 1.74 and 1.52 kg ha-1 mm-1, respectively, and the wheat under C30 treatment is the highest, which were 10.98 t ha-1, 5.27 t ha-1 and 1.78 kg ha-1 mm-1. (4) A dose of 25.5 kg ha-1 and 38.9 kg ha-1 was recommended as the most optimal CMC-Na application for maize and wheat in coastal saline alkali soil, respectively.
ArticleNumber 169214
Author Li, Ge
Shan, Yuyang
Nie, Weibo
Wang, Quanjiu
Su, Lijun
Qu, Zhi
Mu, Weiyi
Yang, Ting
Sun, Yan
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  surname: Li
  fullname: Li, Ge
  organization: State Key Lab. of Eco-hydraulics in Northwest Arid Region, Xi'an University of Technology, Xi'an 710048, China
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  givenname: Yuyang
  surname: Shan
  fullname: Shan, Yuyang
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  organization: State Key Lab. of Eco-hydraulics in Northwest Arid Region, Xi'an University of Technology, Xi'an 710048, China
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  givenname: Weibo
  surname: Nie
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Keywords Carboxymethyl cellulose sodium
Coastal saline-alkali soil
Maize–wheat cropping system
Net profit
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  ident: 10.1016/j.scitotenv.2023.169214_bb0135
  article-title: Optimizing the maize irrigation strategy and yield prediction under future climate scenarios in the Yellow River Delta
  publication-title: AGRONOMY-BASEL
  doi: 10.3390/agronomy13040960
– volume: 142
  start-page: 147
  year: 2019
  ident: 10.1016/j.scitotenv.2023.169214_bb0090
  article-title: Maize (Zea mays) growth and nutrient uptake following integrated improvement of vermicompost and humic acid fertilizer on coastal saline soil
  publication-title: Appl. Soil Ecol.
  doi: 10.1016/j.apsoil.2019.04.024
– volume: 2019
  start-page: 1
  year: 2019
  ident: 10.1016/j.scitotenv.2023.169214_bb0115
  article-title: Comparison of the effects of polyacrylamide and sodium carboxymethylcellulose application on soil water infiltration in Sandy loam soils
  publication-title: Adv. Polym. Technol.
  doi: 10.1155/2019/6869454
– volume: 21
  start-page: 260
  year: 2012
  ident: 10.1016/j.scitotenv.2023.169214_bb0160
  article-title: The effects of gypsum on the transfer of phosphorus and other nutrients through clay soil monoliths
  publication-title: Agric. Food Sci.
  doi: 10.23986/afsci.4855
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Snippet Sodium carboxymethyl cellulose (CMCNa) application has been a promising approach to improve soil quality. The purpose of this study was to explore the effects...
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SubjectTerms aboveground biomass
Carboxymethyl cellulose sodium
carboxymethylcellulose
Coastal saline-alkali soil
corn
environment
evaporation
field experimentation
infiltration rate
Maize–wheat cropping system
Net profit
soil quality
soil salinity
soil water storage
water use efficiency
wheat
Title Application of carboxymethyl cellulose sodium (CMCNa) in maize–wheat cropping system (MWCS) in coastal saline-alkali soil
URI https://dx.doi.org/10.1016/j.scitotenv.2023.169214
https://www.ncbi.nlm.nih.gov/pubmed/38092203
https://www.proquest.com/docview/2902962054
https://www.proquest.com/docview/3040389450
Volume 912
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