AhnstromZS, ParkerDR. Development and assessment of a sequential extraction procedure for the fractionation of soil cadmium. Soil Sci Soc Am J, 1999, 63(6): 1650-1658

AmbayeTG, VaccariM, van HullebuschED, AmraneA, RtimiS. Mechanisms and adsorption capacities of biochar for the removal of organic and inorganic pollutants from industrial wastewater. Int J Environ Sci Technol, 2021, 18: 3273-3294

ASTM (2007) Standard test method for chemical analysis of wood charcoal. https://www.astm.org/d1762-84r21.html. Accessed March 1, 2022

AwadYM, BlagodatskayaE, OkYS, KuzyakovY. Effects of polyacrylamide, biopolymer, and biochar on decomposition of soil organic matter and plant residues as determined by 14 C and enzyme activities. Eur J Soil Biol, 2012, 48: 1-10

Bouslimi H, Ferreira R, Dridi N, Brito P, Martins-Dias S, Cacador I, Sleimi N (2021) Effects of barium stress in Brassica juncea and Cakile maritima: the indicator role of some antioxidant enzymes and secondary metabolites. Phyton. https://doi.org/10.32604/phyton.2020.011752

Carvalho CFMD, Viana DG, Pires FR, Egreja Filho FB, Bonomo R, Martins LF, Cruz LBS, Nascimento MCP, Cargnelutti Filho A (2019) Phytoremediation of barium-affected flooded soils using single and intercropping cultivation of aquatic macrophytes. Chemosphere. https://doi.org/10.1016/j.chemosphere.2018.09.096

Chałupnik S, Wysocka M, Chmielewska I, Samolej K (2019) Radium removal from mine waters with the application of barium chloride and zeolite: comparison of efficiency. J Sustain Mining 18(4):174-181. https://doi.org/10.1016/j.jsm.2019.07.002

ChenG, ZhangZ, ZhangZ, ZhangR. Redox-active reactions in denitrification provided by biochars pyrolyzed at different temperatures. Sci Total Environ, 2018, 615: 1547-1556

ChenM, WangD, XuX, ZhangY, GuiX, SongB, XuN. Biochar nanoparticles with different pyrolysis temperatures mediate cadmium transport in water-saturated soils: effects of ionic strength and humic acid. Sci Total Environ, 2022, 806: 150668

Cherubin MR, Lisboa IP, Silva AGB, Varanda LL, Bordonal RO, Carvalaho JLN, Otto R, Pavinato PS, Soltangheisi A, Cerri CEP (2019) Sugarcane straw removal: implications to soil fertility and fertilizer demand in Brazil. Bioenerg.Res.12:888–900. https://doi.org/10.1007/s12155-019-10021-w

Choudhury H, Cary R (2001) Concise international chemical assessment document. Barium and barium compounds, pp 5–10

ChristieD. Resampling with Excel. Teach Stat, 2004, 26: 9-14

CONAMA, (Environment National Council) (2009) Resolution No. 420 of December 28, 2009 (in Portuguese). Accessed 23 Jan 2022

DallasCE, WilliamsPL. Barium: Rationale for a new oral reference dose. J Toxicol Environ Health B Crit Rev, 2011, 4: 395-429

de Souza CardosoAA, MonteiroFA. Sulfur supply reduces barium toxicity in Tanzania Guinea grass (Panicum maximum) by inducing antioxidant enzymes and proline metabolism. Ecotoxicol Environ Saf, 2021, 208: 111643

El-NaggarA, ShaheenSM, OkYS, RinklebeJ. Biochar affects the dissolved and colloidal concentrations of cd, Cu, Ni, and zn and their phytoavailability and potential mobility in a mining soil under dynamic redox-conditions. Sci Total Environ, 2018, 624: 1059-1071

GhaemiA, Torab-MostaediM, Ghannadi-MaraghehM. Characterizations of strontium (II) and barium (II) adsorption from aqueous solutions using dolomite powder. J Hazard Mater, 2011, 190(1–3): 916-921

Gimeno-GarcíaE, AndreuV, BoludaR. Distribution of heavy metals in rice farming soils. Arch Environ Contam Toxicol, 1995, 29(4): 476-483

GuninaA, KuzyakovY. From energy to (soil organic) matter. Glob Change Biol, 2022, 28(7): 2169-2182

HamerU, MarschnerB, BrodowskiS, AmelungW. Interactive priming of black carbon and glucose mineralisation. Org Geochem, 2004, 35(7): 823-830

IBI (2015) Standardized product definition and product testing guidelines for biochar that is used in soil

IUSS Working Group WRB (2015) World Reference Base for Soil Resources 2014, update 2015 International soil classification system for naming soils and creating legends for soil maps. FAO, Rome

KabalaC, SinghBR. Fractionation and mobility of copper, lead, and Zinc in Soil profiles in the vicinity of a copper smelter. J Environ Qual, 2001, 30: 485-492

Kampf N, Schwertmann U (1982) The 5-M-NaOH concentration treatment for iron oxides in soils. Undefined 30:401–408. https://doi.org/10.1346/CCMN.1982.0300601

LiJ, DaiJ, LiuG, ZhangH, GaoZ, FuJ, HeY, HuangY. Biochar from microwave pyrolysis of biomass: a review. Biomass Bioenergy, 2016, 94: 228-244

MaL, HuT, LiuY, LiuJ, WangY, WangP, ZhouJ, ChenM, YangB, LiL. Combination of biochar and immobilized bacteria accelerates polyacrylamide biodegradation in soil by both bio-augmentation and bio-stimulation strategies. J Hazard Mater, 2021, 405: 124086

ManyaJJ. Pyrolysis for Biochar purposes: a review to establish current knowledge gaps and Research needs. Environ Sci Technol, 2012, 46: 7939-7954

MartíniAF, ValaniGP, BoschiRS, BoviRC, Simões da SilvaLF, CooperM. Is soil quality a concern in sugarcane cultivation? A bibliometric review. Soil Tillage Res, 2020, 204: 104751

Melo LC, Coscione AR, Abreu CA, Puga AP, Camargo OA (2013) Influence of Pyrolysis Temperature on Cadmium and Zinc Sorption Capacity of Sugar Cane Straw--Derived Biochar. BioResources 8(4)

MukherjeeS, ThakurAK, GoswamiR, MazumderP, TakiK, VithanageM, KumarM. Efficacy of agricultural waste derived biochar for arsenic removal: tackling water quality in the Indo-Gangetic plain. J Environ Manage, 2021, 281: 111814

NovakJM, LimaI, XingB, GaskinJW, SteinerC, DasKC, AhmednaM, RehrahD, WattsDW, BusscherWJ, SchombergH. Characterization of designer Biochar Produced at different temperatures and their effects on a Loamy Sand. Annals Environ Sci, 2009, 3: 195-206

OuyangB, RenockDJ, AjemigbitseMA, Van SiceK, WarnerNR, LandisJD, FengX. Radium in hydraulic fracturing wastewater: distribution in suspended solids and implications to its treatment by sulfate co-precipitation. Environ Science: Processes Impacts, 2019, 21(2): 339-351

QianW, LiangJY, ZhangWX, HuangST, DiaoZH. A porous biochar supported nanoscale zero-valent iron material highly efficient for the simultaneous remediation of cadmium and lead contaminated soil. J Environ Sci, 2022, 113: 231-241

QiuYY, ZhangL, MuX, LiG, GuanX, HongJ, JiangF. Overlooked pathways of denitrification in a sulfur-based denitrification system with organic supplementation. Water Res, 2020, 169: 115084

Raij BV, Andrade JC, Cantarella H, Quaggio JA (2001) Análise química para avaliação da fertilidade de solos tropicais (in Portuguese). Instituto Agronômico, Campinas, Campinas

RinklebeJ, ShaheenSM, El-NaggarA, WangH, Du LaingG, AlessiDS, OkYS. Redox-induced mobilization of Ag, Sb, Sn, and Tl in the dissolved, colloidal and solid phase of a biochar-treated and un-treated mining soil. Environ Int, 2020, 140: 105754

ShenZ, ZhangZ, ZhangM, RinklebeJ, MaY, HouD. Effect of production temperature and particle size of rice husk biochar on mercury immobilization and erosion prevention of a mercury contaminated soil. J Hazard Mater, 2021, 420: 126646

ShinJ, KwakJ, LeeY-G, KimS, SonC, ChoKH, LeeS-H, ParkY. Xianghao Ren, and Kangmin Chon. Changes in adsorption mechanisms of radioactive barium, cobalt, and strontium ions using spent coffee waste biochars via alkaline chemical activation: Enrichment effects of O-containing functional groups. Environ Res, 2021, 199: 111346

SiregarA, KleberM, MikuttaR, JahnR. Sodium hypochlorite oxidation reduces soil organic matter concentrations without affecting inorganic soil constituents. Eur J Soil Sci, 2005, 56: 481-490

SoaresMB, CerriCEP, DemattêJAM, AlleoniLRF. Biochar aging: impact of pyrolysis temperature on sediment carbon pools and the availability of arsenic and lead. Sci Total Environ, 2022, 807: 151001

SoaresMB, DuckworthOW, AlleoniLR. The role of dissolved pyrogenic carbon from biochar in the sorption of as (V) in biogenic iron (oxyhydr) oxides. Sci Total Environ, 2023, 865: 161286

SoaresMB, FerreiraJR, ColzatoM, et al. . Role of Pyrolysis Temperature on Arsenic and Lead Leaching Potential in a Biochar-Amended Sediment. Int J Environ Res, 2024, 18: 51

Solano-RodríguezB, PyeS, LiP-H, EkinsP, ManzanoO, Vogt-SchilbA. Implications of climate targets on oil production and fiscal revenues in Latin America and the Caribbean. Energy Clim Change, 2021, 2: 100037

SongW, GuoM. Quality variations of poultry litter biochar generated at different pyrolysis temperatures. J Anal Appl Pyrol, 2012, 94: 138-145

SunK, JinJ, KeiluweitM, KleberM, WangZ, PanZ, XingB. Polar and aliphatic domains regulate sorption of phthalic acid esters (PAEs) to biochars. Bioresour Technol, 2012, 118: 120-127

TanZ, YuanS, HongM, ZhangL, HuangQ. Mechanism of negative surface charge formation on biochar and its effect on the fixation of soil cd. J Hazard Mater, 2020, 384: 121370

Tang J, Johannesson KH (2010) Ligand extraction of rare earth elements from aquifer sediments: implications for rare earth element complexation with organic matter in natural waters. Geochim Cosmochim Acta 74(23):6690–6705. https://doi.org/10.1016/j.gca.2010.08.028

Tao H, Man Y, Shi X, Zhu J, Pan H, Qin Q, Liu S (2016) Inconceivable hypokalemia: a case report of acute severe barium chloride poisoning. Case reports in medicine. 2016(1):2743134. https://doi.org/10.1155/2016/2743134

TomczykA, SokołowskaZ, BogutaP. Biochar physicochemical properties: pyrolysis temperature and feedstock kind effects. Reviews Environ Sci Bio/Technology, 2020, 19: 191-215

USEPA (2002) National primary drinking water regulations. Office of Ground Water and Drinking Water. http://www.epa.gov/safewater/consumer/pdf/mcl.pdf

USEPA (2004) Method 3052 Microwave Assisted Acid Digestion of Siliceous and Organically Based Matrices, EPA SW-846, Revision 3. Washington DC

USEPA (2005) Ecological soil screening levels for barium. https://rais.ornl.gov/documents/eco-ssl_barium.pdf

USEPA (2007) Method 3051A: Microwave-assisted acid digestion of sediments, sludges, soils and oils. EPA, Washington

van PouckeR, AllaertS, OkYS, PalaM, RonsseF, TackFMG, MeersE. Metal sorption by biochars: a trade-off between phosphate and carbonate concentration as governed by pyrolysis conditions. J Environ Manage, 2019, 246: 496-504

VianaDG, Egreja FilhoFB, PiresFR, SoaresMB, FerreiraAD, BonomoR, MartinsLF. In situ barium phytoremediation in flooded soil using Typha domingensis under different planting densities. Ecotoxicol Environ Saf, 2021, 210: 111890

VianaDG, PiresFR, FerreiraAD, Egreja FilhoFB, de CarvalhoCFM, BonomoR, MartinsLF. Effect of planting density of the macrophyte consortium of Typha domingensis and Eleocharis acutangula on phytoremediation of barium from a flooded contaminated soil. Chemosphere, 2021, 262: 127869

Vithanage M, Mayakaduwa SS, Herath I, Ok YS, Mohan D (2016) Kinetics, thermodynamics and mechanistic studies of carbofuran removal using biochars from tea waste and rice husks. Chemosphere 150:781–789. https://doi.org/10.1016/j.chemosphere.2015.11.002

WangJ, WangS. Preparation, modification and environmental application of biochar: a review. J Clean Prod, 2019, 227: 1002-1022

Wang SP, Wang L, Sun ZY, Wang ST, Shen CH, Tang YQ, Kida K (2021) Biochar addition reduces nitrogen loss and accelerates composting process by affecting the core microbial community during distilled grain waste composting. Biores Technol 337:125492. https://doi.org/10.1016/j.biortech.2021.125492

WillemsDJ, KumarA, NugegodaD. Mixture toxicity of three unconventional gas Fracking Chemicals, Barium, O-Cresol, and Sodium Chloride, to the freshwater shrimp Paratya australiensis. Environ Toxicol Chem, 2023, 42(2): 481-494

YangX, LiJ, LiangT, YanX, ZhongL, ShaoJ, El-NaggarA, GuanGY, LiuJ, ZhouY. A combined management scheme to simultaneously mitigate as and cd concentrations in rice cultivated in contaminated paddy soil. J Hazard Mater, 2021, 416: 125837

YiZ, LiC, LiQ, ZhangL, ZhangS, WangS, QinL, HuX. Influence of CO2 atmosphere on property of biochar from pyrolysis of cellulose. J Environ Chem Eng, 2022, 10(3): 107339

YoonGS, ParkSM, YangH, TsangDCW, AlessiDS, BaekK. Selection criteria for oxidation method in total organic carbon measurement. Chemosphere, 2018, 199: 453-458

YounisSA, El-SalamonyRA, TsangYF, KimKH. Use of rice straw-based biochar for batch sorption of barium/strontium from saline water: Protection against scale formation in petroleum/desalination industries. J Clean Prod, 2020, 250: 119442

YuanJH, XuRK, ZhangH. The forms of alkalis in the biochar produced from crop residues at different temperatures. Bioresour Technol, 2011, 102: 3488-3497

YuanY, BolanN, PrévoteauA, VithanageM, BiswasJK, OkYS, WangH. Applications of biochar in redox-mediated reactions. Bioresour Technol, 2017, 246: 271-281

YuanP, WangJ, PanY, ShenB, WuC. Review of biochar for the management of contaminated soil: Preparation, application and prospect. Sci Total Environ, 2019, 659: 473-490

Yun D, Cho E, Dindulkar SD, Jung S (2016) Succinoglycan Octasaccharide Conjugated polydiacetylene-doped Alginate beads for Barium (II) detection. Macromol Mater Eng 301:805–811. https://doi.org/10.1002/MAME.201600060

Zama EF, Zhu YG, Reid BJ, Sun GX (2017) The role of biochar properties in influencing the sorption and desorption of pb(II), cd(II) and as(III) in aqueous solution. J Clean Prod 148:127–136. https://doi.org/10.1016/j.jclepro.2017.01.125

Zhang H, Chen C, Gray EM, Boyd SE (2017) Effect of feedstock and pyrolysis temperature on properties of biochar governing end use efficacy. Biomass Bioenergy 105:136–146. https://doi.org/10.1016/J.BIOMBIOE.2017.06.024

ZhaoSX, TaN, WangXD. Effect of temperature on the structural and physicochemical properties of biochar with Apple tree branches as feedstock material. Energies, 2017, 10(9): 1293

Zuhara S, McKay G (2024) Waste-derived activated carbons for effective adsorptive removal of strontium, barium, and binary pollutants: a response surface methodology study. J Environ Chem Eng. https://doi.org/10.1016/j.jece.2024.112836