Effects of tillage and plastic mulch on soil water, growth and yield of spring-sown maize

▶ No-tillage combined with crop residue mulching was not recommended for spring maize cultivation in the study area. ▶ Ridges covered by plastic film combined with bare furrow may not sustain maize productivity in the long run. ▶ Ridges covered by plastic film combined with furrow mulched by crop re...

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Published inSoil & tillage research Vol. 112; no. 1; pp. 92 - 97
Main Authors Zhang, Shulan, Li, Pingru, Yang, Xueyun, Wang, Zhaohui, Chen, Xinping
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.03.2011
[Amsterdam]: Elsevier Science
Elsevier
Subjects
Agronomy. Soil science and plant productions
Biological and medical sciences
Biomass accumulation
biomass production
conventional tillage
corn
crop residues
Cropping systems. Cultivation. Soil tillage
Fertility
field experimentation
Fundamental and applied biological sciences. Psychology
furrows
General agronomy. Plant production
grain yield
growing season
harvest date
irrigation
Leaf area index
Loess Plateau
mulching
no-tillage
plastic film mulches
plateaus
seed development
soil fertility
Soil science
Soil tillage
soil water
Soil water storage
sowing date
stubble tillage
sustainable agriculture
temperate zones
Tillage. Tending. Growth control
water resources
Water use efficiency
water utilization
Zea mays
China, People's Rep
Biomass accumulation
Soil water storage
Water use efficiency
Loess Plateau
Leaf area index
Monocotyledones
Growth
Biomass
Cereal crop
Water storage
Gramineae
Spring(season)
Angiospermae
Plateaus
Loess
Soil tillage
Zea mays
Soil moisture
Sowing date
Plastic mulching
Sowing
Soils
Spermatophyta
Yield
Biological accumulation
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Abstract ▶ No-tillage combined with crop residue mulching was not recommended for spring maize cultivation in the study area. ▶ Ridges covered by plastic film combined with bare furrow may not sustain maize productivity in the long run. ▶ Ridges covered by plastic film combined with furrow mulched by crop residue could be a suitable measure for sustaining maize productivity and maintaining soil fertility. The large dryland area of the Loess Plateau is subject of developing strategies for a sustainable crop production, e.g. by modifications of field management affecting soil water status and crop productivity. A three-year field experiment was conducted to investigate the effects of field management practices on soil water, maize development and yield on the Loess Plateau of China. The field management practices included traditional tillage (CK), no-till with crop residue mulch (SM), alternating ridges mulched with plastic film and bare furrows (PM) and alternating ridges mulched with plastic film and furrows mulched with crop residue (PSM). The soil water storage was higher under SM than the other treatments, except in the first half of the first maize growing season. Higher soil water stimulated maize growth, as indicated by a higher leaf area index and greater biomass accumulation, and thus the highest grain yield (7251 kg ha −1) and water use efficiency (2.41 kg m −3) in the first experimental season was recorded in SM plots. Maize growth and grain yield did not benefit in the other two seasons. Although soil water storage was similar between PM or PSM and CK treatments at sowing and harvest time, consistently better maize development and higher grain yield were observed through three seasons in PM and PSM plots. Under the PM and PSM treatments grain yield was 8–24% and 13–24% higher, respectively, than under the CK treatment, indicating that utilization of water and other resources was better under these treatments. However, significant soil water depletion in deeper (>100 cm) soil layers was detected at harvest time under PM compared with CK, implying that higher yields might not be sustained in the long run. In conclusion, crop residue mulching combined with no-tillage is not recommended for spring-sown maize system under these temperate climate conditions. Instead, use of ridges mulched with plastic film combined with crop residues in furrows may be an efficient measure to increase crop yield and maintain or improve soil fertility.
AbstractList The large dryland area of the Loess Plateau is subject of developing strategies for a sustainable crop production, e.g. by modifications of field management affecting soil water status and crop productivity. A three-year field experiment was conducted to investigate the effects of field management practices on soil water, maize development and yield on the Loess Plateau of China. The field management practices included traditional tillage (CK), no-till with crop residue mulch (SM), alternating ridges mulched with plastic film and bare furrows (PM) and alternating ridges mulched with plastic film and furrows mulched with crop residue (PSM). The soil water storage was higher under SM than the other treatments, except in the first half of the first maize growing season. Higher soil water stimulated maize growth, as indicated by a higher leaf area index and greater biomass accumulation, and thus the highest grain yield (7251kgha⁻¹) and water use efficiency (2.41kgm⁻³) in the first experimental season was recorded in SM plots. Maize growth and grain yield did not benefit in the other two seasons. Although soil water storage was similar between PM or PSM and CK treatments at sowing and harvest time, consistently better maize development and higher grain yield were observed through three seasons in PM and PSM plots. Under the PM and PSM treatments grain yield was 8-24% and 13-24% higher, respectively, than under the CK treatment, indicating that utilization of water and other resources was better under these treatments. However, significant soil water depletion in deeper (>100cm) soil layers was detected at harvest time under PM compared with CK, implying that higher yields might not be sustained in the long run. In conclusion, crop residue mulching combined with no-tillage is not recommended for spring-sown maize system under these temperate climate conditions. Instead, use of ridges mulched with plastic film combined with crop residues in furrows may be an efficient measure to increase crop yield and maintain or improve soil fertility.
▶ No-tillage combined with crop residue mulching was not recommended for spring maize cultivation in the study area. ▶ Ridges covered by plastic film combined with bare furrow may not sustain maize productivity in the long run. ▶ Ridges covered by plastic film combined with furrow mulched by crop residue could be a suitable measure for sustaining maize productivity and maintaining soil fertility. The large dryland area of the Loess Plateau is subject of developing strategies for a sustainable crop production, e.g. by modifications of field management affecting soil water status and crop productivity. A three-year field experiment was conducted to investigate the effects of field management practices on soil water, maize development and yield on the Loess Plateau of China. The field management practices included traditional tillage (CK), no-till with crop residue mulch (SM), alternating ridges mulched with plastic film and bare furrows (PM) and alternating ridges mulched with plastic film and furrows mulched with crop residue (PSM). The soil water storage was higher under SM than the other treatments, except in the first half of the first maize growing season. Higher soil water stimulated maize growth, as indicated by a higher leaf area index and greater biomass accumulation, and thus the highest grain yield (7251 kg ha −1) and water use efficiency (2.41 kg m −3) in the first experimental season was recorded in SM plots. Maize growth and grain yield did not benefit in the other two seasons. Although soil water storage was similar between PM or PSM and CK treatments at sowing and harvest time, consistently better maize development and higher grain yield were observed through three seasons in PM and PSM plots. Under the PM and PSM treatments grain yield was 8–24% and 13–24% higher, respectively, than under the CK treatment, indicating that utilization of water and other resources was better under these treatments. However, significant soil water depletion in deeper (>100 cm) soil layers was detected at harvest time under PM compared with CK, implying that higher yields might not be sustained in the long run. In conclusion, crop residue mulching combined with no-tillage is not recommended for spring-sown maize system under these temperate climate conditions. Instead, use of ridges mulched with plastic film combined with crop residues in furrows may be an efficient measure to increase crop yield and maintain or improve soil fertility.
The large dryland area of the Loess Plateau is subject of developing strategies for a sustainable crop production, e.g. by modifications of field management affecting soil water status and crop productivity. A three-year field experiment was conducted to investigate the effects of field management practices on soil water, maize development and yield on the Loess Plateau of China. The field management practices included traditional tillage (CK), no-till with crop residue mulch (SM), alternating ridges mulched with plastic film and bare furrows (PM) and alternating ridges mulched with plastic film and furrows mulched with crop residue (PSM). The soil water storage was higher under SM than the other treatments, except in the first half of the first maize growing season. Higher soil water stimulated maize growth, as indicated by a higher leaf area index and greater biomass accumulation, and thus the highest grain yield (7251 kg ha super(-1)) and water use efficiency (2.41 kg m super(-3)) in the first experimental season was recorded in SM plots. Maize growth and grain yield did not benefit in the other two seasons. Although soil water storage was similar between PM or PSM and CK treatments at sowing and harvest time, consistently better maize development and higher grain yield were observed through three seasons in PM and PSM plots. Under the PM and PSM treatments grain yield was 8-24% and 13-24% higher, respectively, than under the CK treatment, indicating that utilization of water and other resources was better under these treatments. However, significant soil water depletion in deeper (>100 cm) soil layers was detected at harvest time under PM compared with CK, implying that higher yields might not be sustained in the long run. In conclusion, crop residue mulching combined with no-tillage is not recommended for spring-sown maize system under these temperate climate conditions. Instead, use of ridges mulched with plastic film combined with crop residues in furrows may be an efficient measure to increase crop yield and maintain or improve soil fertility. Highlights: [inline image] No-tillage combined with crop residue mulching was not recommended for spring maize cultivation in the study area. [inline image] Ridges covered by plastic film combined with bare furrow may not sustain maize productivity in the long run. [inline image] Ridges covered by plastic film combined with furrow mulched by crop residue could be a suitable measure for sustaining maize productivity and maintaining soil fertility.
Author Yang, Xueyun
Zhang, Shulan
Wang, Zhaohui
Chen, Xinping
Li, Pingru
Author_xml – sequence: 1
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  surname: Zhang
  fullname: Zhang, Shulan
  email: zhangshulan@nwsuaf.edu.cn
  organization: State Key Laboratory of Soil Erosion and Dryland Farming, Northwest A & F University, Yangling, 712100 Shaanxi, China
– sequence: 2
  givenname: Pingru
  surname: Li
  fullname: Li, Pingru
  organization: College of Resources and Environment, Northwest A & F University, Yangling, 712100 Shaanxi, China
– sequence: 3
  givenname: Xueyun
  surname: Yang
  fullname: Yang, Xueyun
  organization: College of Resources and Environment, Northwest A & F University, Yangling, 712100 Shaanxi, China
– sequence: 4
  givenname: Zhaohui
  surname: Wang
  fullname: Wang, Zhaohui
  organization: College of Resources and Environment, Northwest A & F University, Yangling, 712100 Shaanxi, China
– sequence: 5
  givenname: Xinping
  surname: Chen
  fullname: Chen, Xinping
  organization: State Key Laboratory of Soil Erosion and Dryland Farming, Northwest A & F University, Yangling, 712100 Shaanxi, China
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Issue 1
Keywords Biomass accumulation
Soil water storage
Water use efficiency
Loess Plateau
Leaf area index
Monocotyledones
Growth
Biomass
Cereal crop
Water storage
Gramineae
Spring(season)
Angiospermae
Plateaus
Loess
Soil tillage
Zea mays
Soil moisture
Sowing date
Plastic mulching
Sowing
Soils
Spermatophyta
Yield
Biological accumulation
Language English
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PublicationTitle Soil & tillage research
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[Amsterdam]: Elsevier Science
Elsevier
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Snippet ▶ No-tillage combined with crop residue mulching was not recommended for spring maize cultivation in the study area. ▶ Ridges covered by plastic film combined...
The large dryland area of the Loess Plateau is subject of developing strategies for a sustainable crop production, e.g. by modifications of field management...
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SubjectTerms Agronomy. Soil science and plant productions
Biological and medical sciences
Biomass accumulation
biomass production
conventional tillage
corn
crop residues
Cropping systems. Cultivation. Soil tillage
Fertility
field experimentation
Fundamental and applied biological sciences. Psychology
furrows
General agronomy. Plant production
grain yield
growing season
harvest date
irrigation
Leaf area index
Loess Plateau
mulching
no-tillage
plastic film mulches
plateaus
seed development
soil fertility
Soil science
Soil tillage
soil water
Soil water storage
sowing date
stubble tillage
sustainable agriculture
temperate zones
Tillage. Tending. Growth control
water resources
Water use efficiency
water utilization
Zea mays
Title Effects of tillage and plastic mulch on soil water, growth and yield of spring-sown maize
URI https://dx.doi.org/10.1016/j.still.2010.11.006
https://www.proquest.com/docview/1449949203
https://www.proquest.com/docview/851471707
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