Changes in soil enzymes, soil properties, and maize crop productivity under wheat straw mulching in Guanzhong, China

•Straw mulch was effective in increasing soil organic carbon (SOC) content.•Straw mulch improves the soil N, P and soil water content in 0–10 cm soil layer.•Straw mulch treatments significantly increased the soil enzyme activity.•Enzyme activities are related to nutrient dynamics, particularly SOC a...

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Published inSoil & tillage research Vol. 182; pp. 94 - 102
Main Authors Akhtar, Kashif, Wang, Weiyu, Ren, Guangxin, Khan, Ahmad, Feng, Yongzhong, Yang, Gaihe
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.10.2018
Subjects
beta-fructofuranosidase
biomass production
catalase
China
corn
grain yield
Invertase
mulching
nitrogen
phosphorus
semiarid zones
soil biological properties
soil depth
Soil enzymes
soil organic carbon
Soil properties
soil sampling
soil water
soil water content
Straw mulch
straw mulches
sustainable agriculture
total nitrogen
total phosphorus
urease
Water use efficiency
wheat straw
Zea mays
China
Straw mulch
Soil enzymes
Zea mays
Water use efficiency
Soil properties
Invertase
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Abstract •Straw mulch was effective in increasing soil organic carbon (SOC) content.•Straw mulch improves the soil N, P and soil water content in 0–10 cm soil layer.•Straw mulch treatments significantly increased the soil enzyme activity.•Enzyme activities are related to nutrient dynamics, particularly SOC and available N.•The crop yield and water use efficiency were significantly higher with straw mulch. Addition of organic material, such as crop straw mulch in most soils is considered a strategy for sustainable agricultural production. We conducted a two-year experiment in 2015 and 2016 to determine changes in soil biochemical properties and maize yield in response to treatment with wheat-straw mulch. The treatments consisted of the addition of different levels of wheat-straw mulch (S1: 0, S2: 2500, S3: 5000 kg ha−1). Soil samples from four depths (0.1, 0.2, 0.3, and 0.4 m) were collected and analyzed. Soil enzymes, such as invertase, phosphatase, urease, and catalase, were significantly higher in the S3 treatment than in the S1 treatment. Values were greater for the samples collected at 0.1 m soil depth than those collected from deeper soil layers. Regarding soil properties, soil organic carbon (SOC), available nitrogen (AN), available phosphorus (AP), total nitrogen (TN), total phosphorus (TP), and soil water content (SWC) were significantly higher in S3 at 0–0.1 m soil depth than in other treatments. Compared with the (S1), an average increase in SOC, AN, AP, TN, TP, and SWC in 0–0.4 m soil depth with full straw mulch (S3), were 32.4, 31.9, 32.0, 11.8, 16.7, and 18.5%, higher, respectively. On average, urease, phosphatase, invertase, and catalase increased by 15.1, 11.0, 88.4, and 24.0%, respectively in the S3 treatment compared with that in the S1 treatment at 0–0.1 m depth, and decreased with increasing soil depth. The S3 treatment had increased grain yield (7%), biomass yield (28%), and water use efficiency (8%), compared with the S1 treatment. Overall, our results suggested that the S3 straw mulch treatment (5000 kg ha−1) could be used to sustain maize productivity and promote a better relationship between soil enzymes and soil properties in the semi-arid conditions of the Guanzhong area.
AbstractList Addition of organic material, such as crop straw mulch in most soils is considered a strategy for sustainable agricultural production. We conducted a two-year experiment in 2015 and 2016 to determine changes in soil biochemical properties and maize yield in response to treatment with wheat-straw mulch. The treatments consisted of the addition of different levels of wheat-straw mulch (S1: 0, S2: 2500, S3: 5000 kg ha−1). Soil samples from four depths (0.1, 0.2, 0.3, and 0.4 m) were collected and analyzed. Soil enzymes, such as invertase, phosphatase, urease, and catalase, were significantly higher in the S3 treatment than in the S1 treatment. Values were greater for the samples collected at 0.1 m soil depth than those collected from deeper soil layers. Regarding soil properties, soil organic carbon (SOC), available nitrogen (AN), available phosphorus (AP), total nitrogen (TN), total phosphorus (TP), and soil water content (SWC) were significantly higher in S3 at 0–0.1 m soil depth than in other treatments. Compared with the (S1), an average increase in SOC, AN, AP, TN, TP, and SWC in 0–0.4 m soil depth with full straw mulch (S3), were 32.4, 31.9, 32.0, 11.8, 16.7, and 18.5%, higher, respectively. On average, urease, phosphatase, invertase, and catalase increased by 15.1, 11.0, 88.4, and 24.0%, respectively in the S3 treatment compared with that in the S1 treatment at 0–0.1 m depth, and decreased with increasing soil depth. The S3 treatment had increased grain yield (7%), biomass yield (28%), and water use efficiency (8%), compared with the S1 treatment. Overall, our results suggested that the S3 straw mulch treatment (5000 kg ha−1) could be used to sustain maize productivity and promote a better relationship between soil enzymes and soil properties in the semi-arid conditions of the Guanzhong area.
•Straw mulch was effective in increasing soil organic carbon (SOC) content.•Straw mulch improves the soil N, P and soil water content in 0–10 cm soil layer.•Straw mulch treatments significantly increased the soil enzyme activity.•Enzyme activities are related to nutrient dynamics, particularly SOC and available N.•The crop yield and water use efficiency were significantly higher with straw mulch. Addition of organic material, such as crop straw mulch in most soils is considered a strategy for sustainable agricultural production. We conducted a two-year experiment in 2015 and 2016 to determine changes in soil biochemical properties and maize yield in response to treatment with wheat-straw mulch. The treatments consisted of the addition of different levels of wheat-straw mulch (S1: 0, S2: 2500, S3: 5000 kg ha−1). Soil samples from four depths (0.1, 0.2, 0.3, and 0.4 m) were collected and analyzed. Soil enzymes, such as invertase, phosphatase, urease, and catalase, were significantly higher in the S3 treatment than in the S1 treatment. Values were greater for the samples collected at 0.1 m soil depth than those collected from deeper soil layers. Regarding soil properties, soil organic carbon (SOC), available nitrogen (AN), available phosphorus (AP), total nitrogen (TN), total phosphorus (TP), and soil water content (SWC) were significantly higher in S3 at 0–0.1 m soil depth than in other treatments. Compared with the (S1), an average increase in SOC, AN, AP, TN, TP, and SWC in 0–0.4 m soil depth with full straw mulch (S3), were 32.4, 31.9, 32.0, 11.8, 16.7, and 18.5%, higher, respectively. On average, urease, phosphatase, invertase, and catalase increased by 15.1, 11.0, 88.4, and 24.0%, respectively in the S3 treatment compared with that in the S1 treatment at 0–0.1 m depth, and decreased with increasing soil depth. The S3 treatment had increased grain yield (7%), biomass yield (28%), and water use efficiency (8%), compared with the S1 treatment. Overall, our results suggested that the S3 straw mulch treatment (5000 kg ha−1) could be used to sustain maize productivity and promote a better relationship between soil enzymes and soil properties in the semi-arid conditions of the Guanzhong area.
Author Ren, Guangxin
Akhtar, Kashif
Wang, Weiyu
Khan, Ahmad
Yang, Gaihe
Feng, Yongzhong
Author_xml – sequence: 1
  givenname: Kashif
  surname: Akhtar
  fullname: Akhtar, Kashif
  organization: College of Agronomy, Northwest A & F University, Yangling, 712100, Shaanxi, China
– sequence: 2
  givenname: Weiyu
  surname: Wang
  fullname: Wang, Weiyu
  organization: College of Agronomy, Northwest A & F University, Yangling, 712100, Shaanxi, China
– sequence: 3
  givenname: Guangxin
  surname: Ren
  fullname: Ren, Guangxin
  organization: College of Agronomy, Northwest A & F University, Yangling, 712100, Shaanxi, China
– sequence: 4
  givenname: Ahmad
  surname: Khan
  fullname: Khan, Ahmad
  organization: Department of Agronomy, Faculty of Crop Production, The University of Agriculture Peshawar, Khyber Pakhtunkhwa, Pakistan
– sequence: 5
  givenname: Yongzhong
  surname: Feng
  fullname: Feng, Yongzhong
  organization: College of Agronomy, Northwest A & F University, Yangling, 712100, Shaanxi, China
– sequence: 6
  givenname: Gaihe
  surname: Yang
  fullname: Yang, Gaihe
  email: ygh@nwsuaf.edu.cn
  organization: College of Agronomy, Northwest A & F University, Yangling, 712100, Shaanxi, China
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Soil enzymes
Zea mays
Water use efficiency
Soil properties
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Snippet •Straw mulch was effective in increasing soil organic carbon (SOC) content.•Straw mulch improves the soil N, P and soil water content in 0–10 cm soil...
Addition of organic material, such as crop straw mulch in most soils is considered a strategy for sustainable agricultural production. We conducted a two-year...
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SubjectTerms beta-fructofuranosidase
biomass production
catalase
China
corn
grain yield
Invertase
mulching
nitrogen
phosphorus
semiarid zones
soil biological properties
soil depth
Soil enzymes
soil organic carbon
Soil properties
soil sampling
soil water
soil water content
Straw mulch
straw mulches
sustainable agriculture
total nitrogen
total phosphorus
urease
Water use efficiency
wheat straw
Zea mays
Title Changes in soil enzymes, soil properties, and maize crop productivity under wheat straw mulching in Guanzhong, China
URI https://dx.doi.org/10.1016/j.still.2018.05.007
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Volume 182
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