Effects of Sludge Biochar Addition on Ryegrass and Soil Nutrient Properties

doi:10.11733/j.issn.1007-0435.2024.04.035

Acta Agrestia Sinica ›› 2024, Vol. 32 ›› Issue (4): 1295-1302.DOI: 10.11733/j.issn.1007-0435.2024.04.035

Effects of Sludge Biochar Addition on Ryegrass and Soil Nutrient Properties

LI Wei¹, WANG Jun^2,3, XU Ru-min^2,3, DU Shi-zhou¹, QIAO Yu-qiang¹, CHEN Huan¹

1. Crop Research Institute, Anhui Academy of Agricultural Sciences, Hefei, Anhui Province 230031, China;
2. Anhui Municipal Sludge Disposal and Resource Utilization Engineering Technology Center, Hefei, Anhui Province 230022, China;
3. Anhui Tongyuan Environmental Energy Saving Co., LTD, Hefei, Anhui Province 230022, China

Received:2023-11-26 Revised:2024-01-05 Published:2024-05-07

污泥生物炭添加对黑麦草和土壤养分特性的影响

李玮¹, 汪军^2,3, 徐汝民^2,3, 杜世州¹, 乔玉强¹, 陈欢¹

1. 安徽省农业科学院作物研究所, 安徽合肥 230031;
2. 安徽省市政污泥处置与资源化利用工程研究中心, 安徽合肥 230022;
3. 安徽省通源环境节能股份有限公司, 安徽合肥 230022

通讯作者: 杜世州,E-mail:dsz315@sina.com
作者简介:李玮(1980-)，女，汉族，甘肃定西人，博士，副研究员，主要从事作物栽培研究，E-mail:jtlw2007@163.com
基金资助:
安徽省重点研究与开发计划项目(2023t07020011)；国家重点研究计划(2023YFD1900204)；国家自然科学基金项目(32301447)；安徽省农业科学院青年英才计划项目(QNYC-202217,QNYC-201908)资助

Abstract

Abstract: In order to investigate the effects of sludge biochar (C)/modified sludge biochar (GC) addition on ryegrass (Lolium perenne L.) and soil nutrient properties,Lolium perenne Linn was planted with different levels of C/GC addition (0%,5%,10%,15%,and 20%) to determine the indicators of ryegrass and soil nutrients. The results showed that the addition of C and GC both promoted the growth of ryegrass and its stem,leaf and root water content,and the 5% addition level significantly increased the dry weight of ryegrass stem,leaf and root. C and GC additions had the most obvious effect on the increase of N content of ryegrass,followed by K content. C additions had a greater effect than GC on increasing the biomass of ryegrass,and for the content of nutrients and their uptake accumulation of ryegrass,GC was greater than C. C and GC both increased soil organic matter and total nitrogen content,decreased soil pH value,and the effects on soil alkaline nitrogen and available phosphorus varied by biochar type. Soil alkaline nitrogen content decreased significantly with the increase of C addition,while soil available phosphorus content was almost unaffected by the addition of C,however,soil available phosphorus content increased significantly with the increase of GC addition level. GC addition helped to increase the soil alkaline nitrogen content,but the difference was not significant among the application levels. The addition of 5% to 10% proportion of C or GC to the soil promoted plant growth and was beneficial to the increase of soil nutrient content.

Key words: Ryegrass, Sludge/modified sludge biochar, Biomass, Nutrient content, Soil nutrient

摘要： 为探讨污泥生物炭(Sludge biochar，C)和改性污泥生物炭(Modified sludge biochar，GC)添加对黑麦草(Lolium perenne L.)和土壤养分特性的影响，本试验以C和GC为材料，设置不同添加水平(0%，5%，10%，15%，20%)种植黑麦草，测定黑麦草和土壤养分等指标。结果表明，添加C、GC均促进了黑麦草的生长及其茎叶和根含水量的提高，5%的添加水平显著提高了黑麦草茎叶和根的干重。C、GC添加对黑麦草TN含量的提高效果最显著，其次为TK。C添加对提高黑麦草生物量的影响程度大于GC，而对黑麦草养分含量及其吸收累积，GC大于C。应用C、GC可提高土壤有机质和全氮含量，降低土壤pH，碱解氮和速效磷受生物炭类型影响。因此，土壤中添加5%～10%比例的C或GC对植物的生长有促进作用，有利于提高土壤的养分含量。

关键词: 黑麦草, 污泥/改性污泥生物炭, 生物量, 养分吸收, 土壤养分

CLC Number:

S141.6

LI Wei, WANG Jun, XU Ru-min, DU Shi-zhou, QIAO Yu-qiang, CHEN Huan. Effects of Sludge Biochar Addition on Ryegrass and Soil Nutrient Properties[J]. Acta Agrestia Sinica, 2024, 32(4): 1295-1302.

李玮, 汪军, 徐汝民, 杜世州, 乔玉强, 陈欢. 污泥生物炭添加对黑麦草和土壤养分特性的影响[J]. 草地学报, 2024, 32(4): 1295-1302.

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References

[1] KHANMOHANNADI Z,AFYUNI M,MOSADDEGHI M R. Effect of pyrolysis temperature on chemical and physical properties of sewage sludge biochar[J]. Waste Management & Research,2015,33(3):1-9
[2] 王旭东,任雪冰,汤舒,等. 污泥生物炭在土壤改良中的应用研究[J]. 中国农业科技导报,2023,25(6):165-173
[3] 张乾,李金升,赵天赐,等.生物炭对土壤的影响及在草地生态系统中应用的研究进展[J]. 草地学报,2019,27(2):279-284
[4] 范博,王占义,刘鹏博,等.生物炭基肥和补播对荒漠草原植物群落和土壤养分的影响[J].草地学报，2023，31(12):3775-3784
[5] 吴鹏豹,解钰,漆智平,等.生物炭对花岗岩砖红壤团聚体稳定性及其总碳分布特征的影响[J]. 草地学报,2012,20(4):643-649
[6] KHAN S,CHAO C,WAQAS M,et al. Sewage Sludge Biochar Influence upon Rice (Oryza sativa L.) Yield,Metal Bioaccumulation and Greenhouse Gas Emissions from Acidic Paddy Soil[J]. Environmental Science & Technology,2013,47(15):8624-8632
[7] PAZ-FERREIRO J,FU S,MENDEZ A,et al. Interactive effects of biochar and the earthworm Pontoscolex corethrurus on plant productivity and soil enzyme activities[J]. Journal of Soils & Sediments,2014,14(3):483-494
[8] FARI W M,FIGUEIREDO C C,COSER T R,et al. Is sewage sludge biochar capable of replacing inorganic fertilizers for corn production? Evidence from a two-year field experiment[J]. Archives of Agronomy and Soil Science,2018,64(1/7):505-519
[9] 王静,范云慧,高丽丽,等. 市政污泥生物炭对大豆生长及重金属积累的影响[J]. 农产品质量与安全,2018 (3):30-34
[10] 陶玲,黄磊,周怡蕾,等. 污泥-凹凸棒石共热解生物炭对矿区土壤重金属生物有效性和环境风险的影响[J]. 生态环境学报,2022,31(8):1637-1646
[11] YUAN H,LU T,WANG Y ZY,et al. Sewage sludge biochar:Nutrient composition and its effect on the leaching of soil nutrients[J]. Geoderma,2016(267):17-23
[12] FATIMA B,BIBI F,M,ALI M L,et al. Accompanying effects of sewage sludge and pine needle biochar with selected organic additives on the soil and plant variables[J]. Waste Management,2022(153):197-208
[13] 吴慧丽,田薇,纪燕玲,等. 促进镉吸收积累的植物根际促生菌的筛选及其对一年生黑麦草的影响[J]. 草业学报,2021,30(7):53-61
[14] 关皓,张明均,宋珊,等. 添加剂对不同干物质含量的多花黑麦草青贮品质的影响[J]. 草业科学,2017,34(10):2157-2163
[15] 鲁如坤. 土壤农业化学分析方法[M]. 北京:中国农业科技出版社,2000:308-315
[16] 徐美丽,陈永光,肖荣波,等. 生物炭对土壤有效态重金属的作用机制进展[J]. 环境工程,2021,39(8):165-172,226
[17] 方明,任天志,赖欣,等. 施用生物炭对红壤和潮土种植小白菜氮素利用的影响[J]. 中国土壤与肥料,2019(6):123-133
[18] 彭红宇,刘红恩,王秋红,等.低温生物炭和化肥配施对冬小麦生长和土壤铅镉生物有效性的影响[J].江苏农业科学,2023,51(4):212-219
[19] 恽壮志,徐汝民,朱正杰,等. 污泥生物炭基质化应用对多肉植物生长性状的影响[J]. 现代园艺,2023,46(11):11-13
[20] 王军,刘程,金鹏,等. 污泥基生物炭对黑麦草生长特性及重金属累积的影响[J]. 安徽农业科学,2022,50(15):79-82,97
[21] CHEN L D,ZHOU W,LUO L,et al. Short-term responses of soil nutrients,heavy metals and microbial community to partial substitution of chemical fertilizer with spent mushroom substrates (SMS)[J]. Science of the Total Environment,2022,844:157064
[22] 刘丽娟,冷平生,胡增辉,等. 城市污泥和建筑垃圾混合基质对臭椿生长及重金属转移的影响[J]. 应用与环境生物学报,2018,24(6):1390-1397
[23] 冯嘉仪,阮可瑾,苏思宁,等. 构树的污泥适应性及养分和重金属吸收累积特征[J]. 应用生态学报,2022,33(6):1629-1638
[24] RODRIGUEZ Y,MAUDIER B,ERICK Z,et al. Effects of Wood Ash on Nutrients and Heavy Metal(oid)s Mobility in an Ultisol[J]. International Journal of Environmental Research and Public Health,2019,16(7):1246
[25] SUN K,WEN D,YANG K,et al. Heavy metal and soil nutrient accumulation and ecological risk assessment of vegetable fields in representative facilities in Shandong Province,China[J]. Environmental Monitoring and Assessment,2019,191(4):240
[26] YUAN H R,LU T,WANG Y Z,et al. Sewage sludge biochar:Nutrient composition and its effect on the leaching of soil nutrients[J]. Geoderma,2016,267:17-23
[27] KANNAN P,PARAMASIVAN M,MARIMUTHU S,et al. Applying both bichar and phosphobacteria enhances Vigna mungo L. growth and yield in acid soils by increasing soil pH,moisture content,microbial grothe and P availability[J]. Agriculture,Ecosystems & Environment,2021,308(5):e107258
[28] FIGUEIREDO C C,REIS A S P J,ARAUJO A S,et al. Assessing the potential of sewage sludge-derived biochar as a novel phosphorus fertilizer:Influence of extractant solutions and pyrolysis temperatures[J]. Waste Management,2021,124(1/2):144-153
[29] DUCEY T F,IPPOLITO J A,CANTRELL K B,et al. Addition of activated switchgrass biochar to an aridic subsoil increase micaobial nitrogen cycling gene abundances[J]. Applied Soil Ecology,2013,65(2):65-72

Effects of Sludge Biochar Addition on Ryegrass and Soil Nutrient Properties

污泥生物炭添加对黑麦草和土壤养分特性的影响

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