An Approach to Improve Soil Quality: a Case Study of Straw Incorporation with a Decomposer Under Full Film-Mulched Ridge-Furrow Tillage on the Semiarid Loess Plateau, China

Yang, Feng; He, Bing; Zhang, Ligong; Zhang, Guoping; Gao, Y.

doi:10.1007/s42729-019-00106-y

Cited by 28 publications

(10 citation statements)

References 57 publications

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“…In our experiment, with increasing temperature and rainfall for the 0-95d after straw return to the field, overall decomposition proportion, carbon release proportion and cellulose, hemicellulose, and lignin decomposition proportion of all treatments were similar, that is, they increased rapidly (Fig. 1), our finding was consistent with the work of Yang et al 35 . During the 95d-145d period, a drop in temperature and precipitation occurs, microbial decomposition activity slows down, due to the perishable nature of straw, components such as cellulose and hemicellulose gradually decline, refractory organic components such as lignin proportion increase, so straw decomposition gradually slows, and late decomposition proportion is significantly reduced 36 .…”

Section: Discussionsupporting

confidence: 92%

Effects of different returning method combined with decomposer on decomposition of organic components of straw and soil fertility

Wang

Geng

et al. 2021

Preprint

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In view of the problems of low straw decomposition rates and reduced soil fertility in southern Liaoning, China. Using nylon mesh bags method, the decomposition rules of cellulose, hemicellulose and lignin in straw and straws and the dynamic changes of soil organic carbon (SOC), soil microbial biomass carbon (MBC) and soil dissolved organic carbon (DOC) contents were analyzed after 15, 35, 55, 75, 95, 145 and 365 days of returning. At 365 days after return to the field, rotating tillage + straw decomposing agent(refer to decomposer)(RT+S) was the most favorable for straw decomposition and its components, straw decomposition proportion reached 73.25%, and the decomposition proportion of lignin, cellulose and hemicellulose were the highest, being 35.49%, 84.23% and 85.50%, respectively. DOC content in RT+S treatment was higher than in other treatments at each stage, SOC content reached 18.02 g· kg-1 at 145d, which was higher than other treatments. The improvement effect of deep turning + deep rotary tillage + straw decomposing agent (PT+S) treatment on microbial biomass carbon (MBC) was the best, followed by RT+S treatment. Our results suggest that the straw and its organic components decomposition proportion could be increased by adding straw decomposing agent, the straw decomposition proportion and the SOC content of various forms were significantly increased with the RT+S treatment.

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Section: Discussionsupporting

confidence: 92%

Effects of different returning method combined with decomposer on decomposition of organic components of straw and soil fertility

Wang

Geng

et al. 2021

Preprint

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“…In our experiment, with the straw incorporation and tillage practices, the soil structure was reorganized, resulting in the decrease in the soil bulk density and increase in the soil porosity. Yang et al [46] revealed that straw incorporation after three years decreased the soil bulk density in the 0-30 cm soil layer by 1.6%-4.7%, which was consistent with our results. Choudhary et al [47] also reported that soil application with crop residues could mitigate the adverse effect of saline water irrigation.…”

Section: Main Effects Of Straw Segment Length On Soil Propertiessupporting

confidence: 93%

Soil Water-Salt Dynamics and Maize Growth as Affected by Cutting Length of Topsoil Incorporation Straw under Brackish Water Irrigation

Zhang

et al. 2020

Agronomy

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Brackish water has been utilized extensively in agriculture around the world to cope with the global water deficit, but soil salt accumulation caused by brackish water irrigation cannot be ignored. Straw incorporation has been confirmed an effective sustainable means to inhibit soil salt accumulation. An experiment was conducted in growth tanks over two consecutive growing seasons to investigate the effects of wheat straw incorporation on soil moisture and salinity under brackish water irrigation (5g NaCl L−1). Furthermore, the trial investigated the effects of three wheat straw cutting lengths (CK = 0 cm; L1 = 5 cm, L2 = 10 cm, and L3 = 20 cm) on soil water-salt dynamics and summer maize growth. The results showed that soil properties and maize yields were favorably and significantly affected by the shorter straw segments incorporated into the cultivated field (p < 0.05), as indicated in the decrease in soil bulk density (7.47%–7.79%) and the rise of soil organic matter (SOM) content (2.4–4.5g kg−1) and soil total porosity (4.34%–4.72%) under treatment L1. Meanwhile, treatment L1 produced the greatest dry above-ground biomass (14447 ± 571 kg ha−1), 100-grain weight (34.52 ± 1.20 g) and grain yield (7251 ± 204 kg ha−1) of summer maize. Soil water content in the cultivated layer increased 4.79%–25.44%, and the soil salt accumulation rate decreased significantly due to the straw incorporation and the highest value of soil moisture content (19.10%–21.84%), as well as the lowest value of soil salt accumulation rates (2.12–9.06) obtained at treatment L1. Straw incorporation with cutting length in 5 cm is the optimal choice for alleviating the adverse effects due to brackish water irrigation and improving soil properties, which could be helpful for agricultural mechanization and straw field-returning practices.

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“…Previously, Wang et al (2015b) found that straw incorporation could improve NUE due to the improvement of N immobilization. In addition, Yang et al (2020) reported that complete decomposition of straw leads to the enhancement release of straw C and N into the soil which improved soil nutritional condition. However, Hoang and Marschner (2019) found that straw addition could decrease available N, compared with without straw addition.…”

Section: Nitrogen Use Efficiencymentioning

confidence: 99%

Straw Incorporation Coupled with Deep Placement of Nitrogen Fertilizer Improved Grain Yield and Nitrogen Use Efficiency in Direct-Seeded Rice

Chen

Ping

et al. 2020

J Soil Sci Plant Nutr

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The purpose of this study is to understand how grain yield and nitrogen use efficiency were affected by straw incorporation coupled with deep placement of nitrogen fertilizer in direct-seeded rice in South China. The experimental treatments comprised deep placement of N fertilization coupled with straw return (DS) and without straw return (DO) as well as surface broadcasting of N fertilizer coupled with straw return (SS) and without straw return (SO), whereas no fertilizer placement and no straw return were taken as a control (FS0) in two rice cultivars, i.e., Yuxiangyouzhan (YX) and Wufengyou615 (WF), grown in early and late season of 2018. Results depicted that, compared with FS0, DS significantly (P < 0.05) improved grain yield by 68.7-115.9% owing to higher net photosynthetic rate (Pn) at the heading stage, larger total aboveground biomass, and leaf area index (LAI). Compared with DO, the nitrogen recovery efficiency (NRE) and nitrogen agronomic use efficiency (NAE) in DS were increased by 19.3-188.6% and 1.9-33.8%, respectively. Furthermore, the nitrate reductase (NR) activity of the flag leaves at heading stage for DS was increased by 10.6-93.0% as compared with DO treatment. Therefore, straw incorporation coupled with deep placement of nitrogen fertilizer could be a feasible technique with the increase of grain yield and nitrogen use efficiency in direct-seeded rice (DSR) in South China.

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An Approach to Improve Soil Quality: a Case Study of Straw Incorporation with a Decomposer Under Full Film-Mulched Ridge-Furrow Tillage on the Semiarid Loess Plateau, China

Cited by 28 publications

References 57 publications

Effects of different returning method combined with decomposer on decomposition of organic components of straw and soil fertility

Effects of different returning method combined with decomposer on decomposition of organic components of straw and soil fertility

Soil Water-Salt Dynamics and Maize Growth as Affected by Cutting Length of Topsoil Incorporation Straw under Brackish Water Irrigation

Straw Incorporation Coupled with Deep Placement of Nitrogen Fertilizer Improved Grain Yield and Nitrogen Use Efficiency in Direct-Seeded Rice

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