Biochar pyrolyzed at low temperature enhanced acidophilous plant growth by promoting rhizospheric microbes in a slightly alkaline urban soil

Biochar - 2021
Huimin Zhou1, Xiaoying Li2, Liu Chang1, Lin He1, Xiaoqing Liu1, Zheng Xiao1, Xiaobo Sun1, Gaoling Shi1, Su JiaLe2, Junhui Chen3
1Jiangsu Key Laboratory for Horticultural Crop Genetic Improvement, Institute of Leisure Agriculture, Jiangsu Academy of Agricultural Sciences, Nanjing, China
2Jiangsu Key Laboratory for Horticultural Crop Genetic Improvement, Institute of Leisure Agriculture, Jiangsu Academy of Agricultural Sciences, Nanjing, 210014, China
3State Key Laboratory of Subtropical Silviculture, Zhejiang A and F University, Hangzhou, China

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Abideen Z, Koyro HW, Huchzermeyer B, Gul B, Khan MA (2020) Impact of a biochar or a biochar-compost mixture on water relation, nutrient uptake and photosynthesis of Phragmites karka. Pedosphere 30:466–477

Ahmad M, Rajapaksha AU, Lim JE, Zhang M, Bolan N, Mohan D, Vithanage M, Lee SS, Ok YS (2014) Biochar as a sorbent for contaminant management in soil and water: a review. Chemosphere 99:19–33

Ameloot N, De Neve S, Jegajeevagan K, Yildiz G, Buchan D, Funkuin YN, Prins W, Bouckaert L, Sleutel S (2013) Short-term CO2 and N2O emissions and microbial properties of biochar amended sandy loam soils. Soil Biol Biochem 57:401–410

Anderson TH, Domsch KH (2010) Soil microbial biomass: the eco-physiological approach. Soil Biol Biochem 42:2039–2043

Backer RGM, Saeed W, Seguin P, Smith DL (2017) Root traits and nitrogen fertilizer recovery efficiency of corn grown in biochar-amended soil under greenhouse conditions. Plant Soil 415:1–13

Bailey VL, Fansler SJ, Smith JL, Bolton H (2011) Reconciling apparent variability in effects of biochar amendment on soil enzyme activities by assay optimization. Soil Biol Biochem 4:296–301

Bonanomi G, Ippolito F, Cesarano G, Vinale F, Lombardi N, Crasto A, L. Woo S, Scala F, (2017) Biochar chemistry defined by 13C-CPMAS NMR explains opposite effects on soilborne microbes and crop plants. Appl Soil Ecol 124:351–436

Bruun S, Harmer SL, BekiarisChristelaZuinHuJensenaLombi GWLYFLSE (2017) The effect of different pyrolysis temperatures on the speciation and availability in soil of P in biochar produced from the solid fraction of manure. Chemosphere 169:377–386

Budai A, Rasse DP, Lagomarsino A, Lerch TZ, Paruch L (2016) Biochar persistence, priming and microbial responses to pyrolysis temperature series. Biol Fert Soils Coop J Int Soc Soil Sci 52:749–776

Butler JL, Williams MA, Bottomley PJ, Myrold DD (2003) Microbial community dynamics associated with rhizosphere carbon flow. Appl Environ Microbiol 69(11):6793–6800

Chen JH, Liu XY, Li LQ, Zheng JF, Qu JJ, Zheng JF, Zhang XF, Pan GX (2015) Consistent increase in abundance and diversity but variable change in community composition of bacteria in topsoil of rice paddy under short term biochar treatment across three sites from South China. Appl Soil Ecol 91:68–79

Chen JH, Sun X, Li LQ, Liu XY, Zhang B, Zheng JF, Pan GX (2016) Change in active microbial community structure, abundance and carbon cycling in an acid rice paddy soil with the addition of biochar. Eur J Soil Sci 67:857–867

Chen JH, Chen D, Xu QF, Fuhrmann JJ, Li LQ, Pan GX, Li YF, Qin H, Liang CF, Sun X (2019) Organic carbon quality, composition of main microbial groups, enzyme activities, and temperature sensitivity of soil respiration of an acid paddy soil treated with biochar. Biol Fertil Soils 55:185–197

Dai ZM, Zhang XJ, Tang C, Muhammad N, Wu JJ, Brookes PC, Xu JM (2017) Potential role of biochars in decreasing soil acidification–a critical review. Sci Total Environ 581:601–611

Dai YH, Zheng H, Jiang ZX, Xing BS (2020) Combined effects of biochar properties and soil conditions on plant growth: a meta-analysis. Sci Total Environ 713:136635

Fierer N, Jackson JA, Vilgalys R, Jackson RB (2005) Assessment of soil microbial community structure by use of taxon-specific quantitative PCR assays. Appl Environ Microbiol 71:4117–4120

Figueiredo C, Farias WM, Coser TR, Paula AM, Silva MRS, Paz-Ferreiroet, (2019) Sewage sludge biochar alters root colonization of mycorrhizal fungi in a soil cultivated with corn. Euro J Soil Biol 93:103092

Fontaine S, Henault C, Aamor A, Bdioui N, Bloor J, Maire V, Mary B, Revaillot S, Maron P (2011) Fungi mediate long term sequestration of carbon and nitrogen in soil through their priming effect. Soil Biol Biochem 43:86–96

Guo KY, Zhao YZ, Liu Y, Chen JH, Wu QF, Ruan YF, Li SH, Shi J, Zhao L, Sun X, Liang CF, Xu QF, Qin H (2020) Pyrolysis temperature of biochar affects ecoenzymatic stoichiometry and microbial nutrient-use efficiency in a bamboo forest soil. Geoderma 363:114162

Hammer EC, Balogh-Brunstad Z, Jakobsen I, Olsson PA, Stipp SLS, Rillig MC (2014) A mycorrhizal fungus grows on biochar and captures phosphorus from its surfaces. Soil Biol Biochem 77:252–260

Harvey OR, Kuo LJ, Zimmerman AR, Louchouarn P, Amonette JE, Herbert BE (2012) An index-based approach to assessing recalcitrance and soil carbon sequestration potential of engineered black carbons(biochars). Environ Sci Technol 46:1415–1421

Huang SY, Shan MJ, Chen JH, Penttinen P, Qin H (2018) Contrasting dynamics of polychlorinated biphenyl dissipation and fungal community composition in low and high organic carbon soils with biochar amendment. Environ Sci Pollut Res 25:33432–33442

Ippolito JA, Cui LQ, Kammann C, Wrage-Mönnig N, Estavillo JM, Fuertes-Mendizabal T, Cayuela ML, Sigua G, Novak J, Spokas K, Borchard N (2020) Feedstock choice, pyrolysis temperature and type influence biochar characteristics: a comprehensive meta-data analysis review. Biochar 2:421–438

Jim CY (1998) Physical and chemical properties of a Hong Kong roadside soil in relation to urban tree growth. Urban Ecosyst 2:171–181

Johansson JF, Paul LR, Finlay RD (2004) Microbial interactions in the mycorrhizosphere and their significance for sustainable agriculture. FEMS Microbiol Ecol 48:1–13

Lammirato C, Miltner A, Kaestner M (2011) Effects of wood char and activated carbon on the hydrolysis of cellobiose by β-glucosidase from Aspergillus niger. Soil Biol Biochem 43:1936–1942

Lehmann A, Stahr K (2007) Nature and significance of anthropogenic urban soils. J Soils Sediments 7:247–260

Lehmann J, Rillig MC, Thies J, Masiello CA, Hockaday WC, Crowley D (2011) Biochar effects on soil biota—a review. Soil Biol Biochem 43:1812–1836

Lei OY, Zhang RD (2013) Effects of biochars derived from different feedstocks and pyrolysis temperatures on soil physical and hydraulic properties. J Soils Sediments 13:1561–1572

Li XN, Wang T, Chang SX, Jiang X, Song Y (2020) Biochar increases soil microbial biomass but has variable effects on microbial diversity: a meta-analysis. Sci Total Environ 749:141593

Liu Y, Guo KY, Zhao YZ, Li SH, Wu QF, Liang CF, Sun X, Xu QF, Chen JH, Qin H (2020a) Change in composition and function of microbial communities in an acid bamboo (Phyllostachys praecox) plantation soil with the addition of three different biochars. For Ecol Manag 473:118336

Liu XY, Wang HD, Liu C, Sun BB, Zheng JF, Bian RJ, Drosos M, Zhang XH, Li LQ, Pan GX (2020b) Biochar increases maize yield by promoting root growth in the rainfed region. Arch Agron Soil Sci. https://doi.org/10.1080/03650340.2020.1796981

Lou YM, Joseph S, Li LQ, Graber ER, Liu XY, Pan GX (2015) Water extract from straw biochar used for plant growth promotion: an initial test. BioResources 11:249–266

Lu RK (2000) Methods of soil and agro-chemical analysis. China Agric Sci Technol Press, China

Luo Y, Durenkamp M, Nobili MD, Lin Q, Devonshire BJ, Brookes PC (2013) Microbial biomass growth, following incorporation of biochars produced at 350 °C or 700 °C, in a silty-clay loam soil of high and low pH. Soil Biol Biochem 57:513–523

Luo Y, Dungait J, Zhao XR, Brookes P, Durenkamp M, Li GT, Lin QM (2018) Pyrolysis temperature during biochar production alters its subsequent utilization by microorganisms in an acid arable soil. Land Degrad Dev 29:2183–2188

Marleena H, Riitta K, Lauri KT, Heikki S (2016) The effects of birch (Betula spp.) biochar and pyrolysis temperature on soil properties and plant growth. Soil Tillage Res 163:224–234

Marx MC, Wood M, Jarvis SC (2001) A microplate fluorimetric assay for the study of enzyme diversity in soils. Soil Biol Biochem 33:1633–1640

May LA, Smiley B, Schmidt MG (2001) Comparative denaturing gradient gel electrophoresis analysis of fungal communities associated with whole plant corn silage. Can J Microbiol 47:829–841

Mu XH, Chen QW, Chen FJ, Yuan LX, Mi GH (2016) Within-leaf nitrogen allocation inadaptation to low nitrogen supply in maize during grain-filling stage. Front Plant Sci 7:699

NaNannipieri P, Kandeler E, Ruggiero P (2002) Enzyme activities and microbiological and biochemical processes in soil

Omondi MO, Xia X, Nahayo A, Liu XY, Korai PK, Pan GX (2016) Quantification of biochar effects on soil hydrological properties using meta-analysis of literature data. Geoderma 274:28–34

Ortas I, Rafique M, Akpinar C, Kacard YA (2017) Growth media and mycorrhizal species effect on acclimatization and nutrient uptake of banana plantlets. Sci Hortic 217:55–60

Papa S, Bartoli G, Pellegrino A, Fioretto A (2010) Microbial activities and trace element contents in an urban soil. Environ Monit Assess 165:193–203

Phillips JM, Hayrnan DS (1970) Improved procedures for clearing roots and staining parasitic and vesicular arbuscular mycorrhizal fungi for rapid assessment of infection. Trans Br Mycol Soc 55:158–161

Pittelkow CM, Liang XQ, Linquist BA, Groenigen KJV, Lee J, Lundy ME, Gestel NV, Six J, Venterea RT, Kessel CV (2015) Productivity limits and potentials of the principles of conservation agriculture. Nature 517:365–368

Riggs CE, Hobbie SE (2016) Mechanisms driving the soil organic matter decomposition response to nitrogen enrichment in grassland soils. Soil Biol Biochem 99:54–65

Salar F, Shahram T, Qin RJ, Christos N, Lu YY, Gao SD (2021) Biochar effects on yield of cereal and legume crops using meta-analysis. Sci Total Environ 775:145869

Sapkota M, Young J, Coldren C, Slaughter L, Longing S (2020) Soil physiochemical properties and carbon sequestration of Urban landscapes in Lubbock, TX, USA. Urban For Urban Green 56:126847

Soil Survey Staff (2014) Keys to soil taxonomy, 12th edn. USDA-Natural Resources Conservation Service, Washington, DC

Wang XK (2006) Principles and technology of plant physiological and biochemical. Higher Education Press, China

Wei XY, Chen JJ, Zhang CY, Pan DM (2016) Differential gene expression in Rhododendron fortunei roots colonized by an ericoid mycorrhizal fungus and increased nitrogen absorption and plant growth. Front Plant Sci 7:1594

Wei Z, Wang JJ, Fultz LM, White P, Jeong C (2020) Application of biochar in estrogen hormone-contaminated and manure-affected soils: impact on soil respiration, microbial community and enzyme activity. Chemosphere 270:128625

Yang CD, Liu JJ, Lu SG (2021) Pyrolysis temperature affects pore characteristics of rice straw and canola stalk biochars and biochar-amended soils. Geoderma 397:115097

Yuan JH, Xu RK (2011) The amelioration effects of low temperature biochar generated from nine crop residues on an acidic Ultisol. Soil Use Manage 27:110–115

Yuan XH, Xue ND, Han ZG (2021) A meta-analysis of heavy metals pollution in farmland and urban soils in Chian over the past 20 years. J Environ Sci 101:217–226

Zheng H, Wang X, Chen L, Wang ZY, Xia Y, Zhang YP, Wang HF, Luo XX, Xing BS (2018) Enhanced growth of halophyte plants in biochar-amended coastal soil: roles of nutrient availability and rhizosphere microbial modulation. Plant, Cell Environ 41:517–532

Zhou HM, Zhang DX, Wang P, Liu XY, Cheng K, Li LQ, Zheng JW, Zhang XH, Zheng JF, Crowley D, Zwieten L, Pan GX (2017) Changes in microbial biomass and the metabolic quotient with biochar addition to agricultural soils: a meta-analysis. Agric Ecosyst Environ 239:80–89