首页 > 过刊浏览>2025年第44卷第1期 >120-127. DOI:10.13300/j.cnki.hnlkxb.2025.01.013
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生物炭配合深翻对稻田土壤性质及水稻产量的影响
作者:
作者单位:

1.天津大学环境科学与工程学院,天津 300350;2.天津市农业科学院,天津 300384;3.天津亚派绿肥生物科技发展有限公司,天津 301600

作者简介:

王红越,E-mail:why010120@163.com

通讯作者:

肖辉,E-mail:xiaohui-81@163.com

中图分类号:

S3-33

基金项目:

国家重点研发计划项目(2021YFD190090505);天津市农业科学院青年科技创新项目(2022007)


Effects of rice husk biochar combined with deep tillage on properties of soil in paddy fields and yield of rice
Author:
Affiliation:

1.College of Environmental Science & Engineering, Tianjin University, Tianjin 300350, China;2.Tianjin Academy of Agricultural Sciences, Tianjin 300384, China;3.Tianjin Yapai Green Fertilizer Biological Science and Technology Development Co., Ltd., Tianjin 301600, China

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    摘要:

    为探索改善土壤质量和提升水稻产量的农艺措施,通过田间小区试验,设置对照(CK)、深翻30 cm(T1)、生物炭15 t/hm2(T2)、生物炭15 t/hm2+深翻30 cm(T3)处理,探究土壤性质和水稻产量对不同农艺措施的响应。结果显示,与对照相比,施用生物炭使土壤渗透系数、有机质、水稻产量、穗粒数和生物量分别提升224.66%、22.42%、9.46%、23.90%和6.51%;深翻对土壤性质及水稻产量无显著影响;生物炭配合深翻使土壤渗透系数和水稻产量分别增加184.25%和9.93%;生物炭和深翻仅对穗粒数有显著交互效应;水稻产量和生物量均与土壤渗透系数和有机质呈现显著正相关;穗粒数与土壤渗透系数呈极显著正相关。结果表明,施用生物炭是改善土壤质量并提高水稻产量的有效措施,可以通过改善土壤通透性、提高有机质含量,增加水稻穗粒数最终提高产量。

    Abstract:

    Treatments including the control (CK), deep tillage of 30 cm (T1), biochar 15 t/hm2 (T2), and biochar 15 t/hm2 + deep tillage of 30 cm (T3) were set up to conduct a field experiment to study the response of the properties of soil in paddy fields and the yield of rice to different agronomic measures in order to investigate agronomic measures for improving the quality of soil and increasing the yield of rice. The results showed that the application of biochar significantly increased the permeability coefficient in soil, organic matter, the yield of rice, the number of grains per panicle, and the biomass by 224.66%, 22.42%, 9.46%, 23.90%, and 6.51%, compared with that of the control. Deep tillage had no significant effect on the physicochemical properties of soil in paddy fields and the yield of rice. Biochar combined with deep tillage significantly increased the permeability coefficient in soil and the yield of rice by 184.25% and 9.93%, respectively. Biochar and deep tillage plowing had a significant interactive effect on the number of grains per panicle. The yield of rice and the biomass were significantly positively correlated with the permeability coefficient in soil and organic matter. There was a significant positive correlation between the number of grains per panicle and the permeability coefficient in soil. It is indicated that the application of biochar is an effective measure to improve the quality of soil and increase the yield of rice. It can improve the permeability in soil, increase the content of organic matter and the number of rice grains per panicle, and ultimately increase the yield of rice.

    图1 不同处理下稻田土壤容重(A)、渗透系数(B)、全氮(C)、碱解氮(D)、速效磷(E)、速效钾(F)、有机质(G)、水溶性盐总量(H)和pH值(I)Fig.1 Paddy soil bulk density (A), permeability coefficient (B), total nitrogen (C), alkaline hydrolysis nitrogen (D), available phosphorus (E), available potassium (F), organic matter (G), water-soluble salts (H) and pH (I) under different treatments
    图2 不同处理下稻田土壤水稻产量(A)、穗粒数(B)、有效穗数(C)、千粒重(D)、生物量(E)、株高(F)、剖面根质量(G)Fig.2 Rice yield (A), grain number per spikelet (B), spikelet number (C), 1 000-grain weight (D), biomass (E), plant height (F) and root weight (G) under different treatments
    图3 生物炭、土壤性质与水稻产量及其构成因素的结构方程模型Fig.3 Structural equation modeling (SEM) between the soil properties and rice index
    表 1 土壤性质与水稻产量及其构成因素的皮尔逊相关性分析Table 1 Pearson correlation analysis between soil properties and rice index
    参考文献
    [1] YAKUBU A,DANSO E O,ARTHUR E,et al.Rice straw biochar and irrigation effect on yield and water productivity of okra[J].Agronomy journal,2020,112(4):3012-3023.
    [2] MUHAMMAD N,AZIZ R,BROOKES P C,et al.Impact of wheat straw biochar on yield of rice and some properties of Psammaquent and Plinthudult[J].Journal of soil science and plant nutrition,2017,17(3):808-823.
    [3] YANG X,LIU H B,MAO X T,et al.Non-flooding rice yield response to straw biochar and controlled-release fertilizer[J].Agronomy journal,2020,112(6):4799-4809.
    [4] ZHANG A F,CUI L Q,PAN G X,et al.Effect of biochar amendment on yield and methane and nitrous oxide emissions from a rice paddy from Tai Lake Plain,China[J].Agriculture,ecosystems & environment,2010,139(4):469-475.
    [5] OLADELE S O,ADEYEMO A J,AWODUN M A.Influence of rice husk biochar and inorganic fertilizer on soil nutrients availability and rain-fed rice yield in two contrasting soils[J].Geoderma,2019,336:1-11.
    [6] SRIPHIROM P,CHIDTHAISONG A,YAGI K,et al.Effects of biochar on methane emission,grain yield,and soil in rice cultivation in Thailand[J].Carbon management,2021,12(2):109-121.
    [7] WU L P,WEI C B,ZHANG S R,et al.MgO-modified biochar increases phosphate retention and rice yields in saline-alkaline soil[J].Journal of cleaner production,2019,235:901-909.
    [8] ALI I,ZHAO Q,WU K,et al.Biochar in combination with nitrogen fertilizer is a technique:to enhance physiological and morphological traits of rice (Oryza sativa L.) by improving soil physio-biochemical properties[J].Journal of plant growth regulation,2022,41(6):2406-2420.
    [9] LU H H,WANG Y F,LIU Y X,et al.Effects of water-washed biochar on soil properties,greenhouse gas emissions,and rice yield[J/OL].CLEAN–soil,air,water,2018,46(4):1700143[2024-01-23].https://doi.org/10.1002/clen.201700143. .
    [10] JEFFERY S,VERHEIJEN F G A,VAN DER VELDE M,et al.A quantitative review of the effects of biochar application to soils on crop productivity using meta-analysis[J].Agriculture,ecosystems & environment,2011,144(1):175-187.
    [11] XIE K Z,XU P Z,YANG S H,et al.Effects of supplementary composts on microbial communities and rice productivity in cold water paddy fields[J].Journal of microbiology and biotechnology,2015,25(5):569-578.
    [12] DHALIWAL J,KAHLON M S,KUKAL S S.Deep tillage and irrigation impacts on crop performance of direct seeded rice-wheat cropping system in north-west India[J].Paddy and water environment,2021,19(1):113-126.
    [13] HU R W,LIU Y J,CHEN T,et al.Responses of soil aggregates,organic carbon,and crop yield to short-term intermittent deep tillage in Southern China[J/OL].Journal of cleaner production,2021,298:126767.https://doi.org/10.1016/j.jclepro.2021.126767.
    [14] WU P P,LI L J,WANG X.Shallow plough tillage with straw return increases rice yield by improving nutrient availability and physical properties of compacted subsurface soils[J].Nutrient cycling in agroecosystems,2023,127(1):69-83.
    [15] KAHLON M S.Effect of land manag ement practi ces on physical properties of soil and water productivity in wheat - maize system of north west India[J].Applied ecology and environmental research,2017,15(4):1-13.
    [16] SUN M,REN A X,GAO Z Q,et al.Long-term evaluation of tillage methods in fallow season for soil water storage,wheat yield and water use efficiency in semiarid southeast of the Loess Plateau[J].Field crops research,2018,218:24-32.
    [17] XIAO J M,ZHU S F,HAN S J,et al.Fenlong-ridging deep tillage integrated with biochar and fertilization to improve sugarcane growth and yield[J/OL].Agronomy,2023,13(9):2395[2024-01-23].https://doi.org/10.3390/agronomy13092395.
    [18] ARORA V K,JOSHI R,SINGH C B.Irrigation and deep tillage effects on productivity of dry-seeded rice in a subtropical environment[J].Agricultural research,2018,7(4):416-423.
    [19] YAO S H,TENG X L,ZHANG B.Effects of rice straw incorporation and tillage depth on soil puddlability and mechanical properties during rice growth period[J].Soil and tillage research,2015,146:125-132.
    [20] 张雨萌,郭艳杰,张丽娟,等.生物炭配合深松对土壤团聚体及有机碳的影响[J].水土保持通报,2022,42(5):368-375.ZHANG Y M, GUO Y J, ZHANG L J, et al. Effects of biochar combined with subsoiling on soil aggregates and organic carbon[J]. Bulletin of soil and water conservation, 2022, 42(5): 368-375.
    [21] WU Q X,DU B,JIANG S C,et al.Side deep fertilizing of machine-transplanted rice to guarantee rice yield in conservation tillage[J/OL].Agriculture,2022,12(4):528[2024-01-23].ttps://doi.org/10.3390/agriculture12040528.
    [22] KANG S W,KIM S H,PARK J H,et al.Effect of biochar derived from barley straw on soil physicochemical properties,crop growth,and nitrous oxide emission in an upland field in South Korea[J].Environmental science and pollution research international,2018,25(26):25813-25821.
    [23] BURRELL L D, ZEHETNER F, RAMPAZZO N, et al. Long-term effects of biochar on soil physical properties[J]. Geoderma, 2016, 282: 96-102.
    [24] SUN J, LI H, WANG Y, et al. Biochar and nitrogen fertilizer promote rice yield by altering soil enzyme activity and microbial community structure[J]. Global change biology bioenergy, 2022, 14(12): 1266-1280.
    [25] KALU S, SIMOJOKI A, KARHU K, et al. Long-term effects of softwood biochar on soil physical properties, greenhouse gas emissions and crop nutrient uptake in two contrasting boreal soils[J/OL]. Agriculture, ecosystems & environment, 2021, 316: 107454[2024-01-23].https://doi.org/10.1016/j.agee.2021.107454.
    [26] CHEN L, GUO L, DENG X, et al. Effects of biochar on rice yield, grain quality and starch viscosity attributes[J]. Journal of the science of food and agriculture, 2023, 103(12): 5747-5753.
    [27] CHEN X, YANG S, DING J, et al. Effects of biochar addition on rice growth and yield under water-saving irrigation[J/OL]. Water, 2021, 13(2): 209[2024-01-23].https://doi.org/10.3390/w13020209.
    [28] HUANG M, FAN L, JIANG L G, et al. Continuous applications of biochar to rice: effects on grain yield and yield attributes[J]. Journal of integrative agriculture, 2019, 18(3): 563-570.
    [29] ARUNRAT N, KONGSURAKAN P, SEREENONCHAI S, et al. Soil organic carbon in sandy paddy fields of northeast Thailand: a review[J/OL]. Agronomy, 2020, 10(8): 1061[2024-01-23].https://doi.org/10.3390/agronomy10081061.
    [30] LIU Y, LI H, HU T, et al. A quantitative review of the effects of biochar application on rice yield and nitrogen use efficiency in paddy fields: a Meta-analysis[J/OL]. Science of the total environment, 2022, 830: 154792[2024-01-23].https://doi.org/10.1016/j.scitotenv.2022.154792.
    [31] CHEN W, LI P, LI F, et al. Effects of tillage and biochar on soil physiochemical and microbial properties and its linkage with crop yield[J/OL]. Frontiers in microbiology, 2022, 13: 929725[2024-01-23].https://doi.org/10.3389/fmicb.2022.929725 .
    [32] ZHANG X, WANG M, ZHANG D, et al. Increasing soil organic carbon pools and wheat yields by optimising tillage and fertilisation on the Loess Plateau in China[J/OL]. European journal of soil science, 2022, 73(1): e13197[2024-01-23].https://doi.org/10.1111/ejss.13197 .
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王红越,宋玉凤,肖辉,张慧,陈坤,董昱辰,陈冠益,钟磊.生物炭配合深翻对稻田土壤性质及水稻产量的影响[J].华中农业大学学报,2025,44(1):120-127

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  • 收稿日期:2024-01-23
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