Responses of Soil Carbon Pools and Carbon Management Index to Nitrogen Substitution Treatments in a Sweet Maize Farmland in South China

Chen, Zekai; Liu, Fangdan; Cai, Guangyuan; Peng, Xiaoshan; Wang, Xiaolong

doi:10.3390/plants11172194

Cited by 4 publications

(2 citation statements)

References 52 publications

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“…The treatments increased the soil carbon pool management index by 21.1-111.0% compared to the control. Moreover, the straw based biochar treatments increased the soil carbon sequestration index by 78.3% and 155.8% compared to the control" [88].…”

Section: Carbon Management Indexmentioning

confidence: 92%

Effect of Chemical Fertilizer and Tobacco Stalks-derived Biochar on FCV Tobacco Yield, Nutrient Use Efficiency and Carbon Management Index in a Light Textured Alfisol

Bindu

Reddy²,

Santhy³

et al. 2023

IJPSS

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Aims: To investigate the effect of tobacco stalk biochar (TS Biochar) and synthetic zeolite (SZ) on light textured sandy loam soil in terms of improving the nutrient use efficiency and productivity of FCV tobacco. Study Design: Randomized block design (RBD). Place and Duration of Study: ICAR-CTRI RS, Jeelugumilli, Andhra Pradesh, India. Methodology: Field experiment was conducted with eight treatments and three replications. The treatments included T1: 100 % NPK; T2: 100% NPK + 1 t ha-1 TS Biochar; T3: 100% NPK + 250 kg ha-1 Synthetic Zeolite (SZ) ; T4: 100 % NPK + 1 t ha-1 TS Biochar + 250 kg ha-1SZ; T5: 100% NPK + 0.5 t ha-1 TS Biomass; T6: Adjusted N & K + 1 t ha-1 TS Biochar; T7: 1 t ha-1 TS Biochar + 250 kg ha-1SZ; T8: Control.TS Biochar was characterized for different functional groups using FTIR analysis Results: Results revealed that the application of 1 t ha-1 TS Biochar + 100% NPK and 1 t ha-1 TS Biochar +250 kg ha-1 SZ + 100% NPK resulted in a significant increase in tobacco leaf yield compared to the 100% RDF alone . The highest uptake of nitrogen (84.56 kg ha-1) and potassium (122.73 kg ha-1) by tobacco was observed in T2 (100% NPK +1 t ha-1 TS Biochar). Recovery efficiency of N and K applied was greater in tobacco stalk biochar soil amendment with 50.78 and 77.83 per cent as against 100 % NPK alone with 32.83 and 49.64 per cent, respectively. FTIR analysis indicated that TS Biochar is having negative hydroxyl, carbonate and carboxyl functional groups on the surface. Hence, tobacco stalk biochar (TS Biochar) at the rate of 1t ha-1 along with 100% recommended chemical fertilizers can be recommended for the tobacco growing farming community for enhanced yield, nutrient uptake, nutrient use efficiency and soil properties. Conclusion: Tobacco stalk biochar (TS Biochar) can serve as soil amendment for enhancing nutrient use efficiency in light textured Alfisols.

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Section: Carbon Management Indexmentioning

confidence: 92%

Effect of Chemical Fertilizer and Tobacco Stalks-derived Biochar on FCV Tobacco Yield, Nutrient Use Efficiency and Carbon Management Index in a Light Textured Alfisol

Bindu

Reddy²,

Santhy³

et al. 2023

IJPSS

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“…The incorporation of straw into the soil can regulate the metabolic activity of soil microorganisms [5,6], and its metabolic products are an important source of soil organic matter, such as enzymes, polysaccharides, and proteins [7]. The increase in this type of soil organic matter creates favorable conditions for improving soil quality and fertility and can potentially replace a portion of chemical fertilizers in the long term [8,9], thereby reducing production costs and increasing crop yields. Although long-term straw return can improve soil quality and enhance soil fertility [10,11], in the initial years of straw return, the large amount of organic carbon entering the soil within a short period can significantly alter the original soil carbon-nitrogen balance [12].…”

Section: Introductionmentioning

confidence: 99%

Improvement of Active Organic Carbon Distribution and Soil Quality with the Combination of Deep Tillage and No-Tillage Straw Returning Mode

Zhao,

Geng,

Wang

et al. 2023

Agronomy

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During the initial period of straw return, a suitable straw return technology can lay the foundation for long-term soil fertility improvement. This study focused on the issues of backward straw return technology and blind fertilizer application in the southern part of the maize-producing area in the Northeast Plain of China. In this study, two straw return modes (2-year no-tillage straw cover + 1-year deep loosening and burying straw returning mode, NPT; 3-year rotary tillage and burying straw returning mode, RT), with RT mode as a control, were combined with different N fertilizer application rates (0, 192, 240 kg/ha). The changes in soil organic carbon (SOC) and its active components (MBC, DOC, and LOC) in the 0–40 cm soil layer were analyzed, and the carbon stratification rate, carbon pool index (CPI), SOC storages of each component, and maize yield were calculated to evaluate the short-term (3-year) differences in soil organic carbon quantity and quality in order to find suitable straw return methods and nitrogen application rate combinations. The results showed that the NPT mode increased the SOC and MBC content in the 20–30 cm soil layer, with an increase of 16.2% to 37.8% and 23.0% to 50.3%, respectively, compared with the RT mode. Under the NPT mode, the carbon pool stability was higher after nitrogen fertilizer addition, with a CPI value of 10.2% to 37.8% higher in the 20–40 cm soil layer compared with the RT mode. The differences in maize yield were not significant (p < 0.05) between the nitrogen application rates of 192 kg/ha and 240 kg/ha, but the SOC storages did not show significant changes. The MBC storage had the highest value under the nitrogen application rate of 192 kg/ha. Therefore, we thought that, in the early stage of straw return, the organic carbon priming effect caused by increased microbial activity was higher under the nitrogen application rate of 192 kg/ha. Considering the aspects of not affecting maize yield and improving SOC stability, it is recommended to use the NPT mode with the application of a 240 kg/ha nitrogen fertilizer rate for straw return.

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Straw return alleviates the greenhouse effect of paddy fields by increasing soil organic carbon sequestration under water-saving irrigation

Han

Zhang

et al. 2023

Agricultural Water Management

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Responses of Soil Carbon Pools and Carbon Management Index to Nitrogen Substitution Treatments in a Sweet Maize Farmland in South China

Cited by 4 publications

References 52 publications

Effect of Chemical Fertilizer and Tobacco Stalks-derived Biochar on FCV Tobacco Yield, Nutrient Use Efficiency and Carbon Management Index in a Light Textured Alfisol

Effect of Chemical Fertilizer and Tobacco Stalks-derived Biochar on FCV Tobacco Yield, Nutrient Use Efficiency and Carbon Management Index in a Light Textured Alfisol

Improvement of Active Organic Carbon Distribution and Soil Quality with the Combination of Deep Tillage and No-Tillage Straw Returning Mode

Straw return alleviates the greenhouse effect of paddy fields by increasing soil organic carbon sequestration under water-saving irrigation

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