02877naa a2200397 a 450000100080000000500110000800800410001902200140006002400550007410000160012924501360014526000090028152016600029065000120195065000170196265000180197965000170199765000210201465000190203565000100205465000250206465000230208965000230211265000240213565300170215965300340217665300220221065300310223265300340226370000200229770000220231770000210233970000230236070000200238377300760240321600452023-12-19       2023    bl uuuu     u00u1 u    #d  a0269-40427 ahttps://dx.doi.org/10.1007/s10653-023-01602-y2DOI1 aCARNIER, R.  aSoil quality index as a tool to assess biochars soil quality improvement in a heavy metal-contaminated soil.h[electronic resource]  c2023  aAbstract: The assessment of soil quality improvement provided by biochars is complex and rarely examined. In this work, soil quality indices (SQIs) were produced to evaluate coffee industry feedstock biochars improvement on soil quality samples of a heavy metal-multicontaminated soil. Therefore, a 90-day incubation experiment was carried out with the following treatments: contaminated soil (CT), contaminated soil with pH raised to 7.0 (CaCO3), contaminated soil + 5% (m/m) coffee ground biochar, and contaminated soil + 5% (m/m) coffee parchment biochar (PCM). After incubation, chemical and biological attributes were analyzed, and the data were subjected to principal component analysis and Pearson correlation to obtain a minimum dataset (MDS), which explain the majority of the variance of the data. The MDS-selected attributes were dehydrogenase and protease activity, exchangeable Ca content, phytoavailable content of Cu, and organic carbon, which composed the SQI. The resulting SQI ranged from 0.50 to 0.56, with the highest SQI obtained for the PCM treatment and the lowest for the CT. The phytoavailable content Cu was the determining factor for differentiating PCM from the other treatments, which was a biochar original attribute and helped to improve soil quality based on the SQI evaluation, further than heavy metal immobilization due to the soil sample pH increase. Longer-term experiments may illustrate clearer advantages of using biochar to improve heavy metal-contaminated soil quality, as physical attributes may also respond, and more significant contributions to biological attributes could be obtained as biochar ages.  abiochar  aCoffee beans  aCrop residues  aHeavy metals  aSoil remediation  aSoil treatment  aCafé  aMelhoramento do Solo  aPoluição do Solo  aResíduo Agrícola  aResíduo Industrial  aCoffee waste  aGeneral Environmental Science  aMicrobial enzymes  aPotentially toxic elements  aPrincipal components analysis1 aABREU, C. A. de1 aANDRADE, C. A. de1 aFERNANDES, A. O.1 aSILVEIRA, A. P. D.1 aCOSCIONE, A. R.  tEnvironmental Geochemistry and Healthgv. 45, n. 8, p. 6027-6041, 2023.