XXXI International Mineral Processing Congress 2024 Proceedings/Washington, DC/Sep 29–Oct 3 1641
REFERENCES
Bullock, L.A., et al. 2021. “Global carbon dioxide removal
potential of waste materials from metal and diamond
mining.” Frontiers in Climate 3: 694175.
Castro, I., et al. 2000. “Bioleaching of zinc and nickel
from silicates using Aspergillus niger cultures.”
Hydrometallurgy 57.1: 39–49.
Dong, et al. 2022. “A critical review of mineral–microbe
interaction and co-evolution: mechanisms and applica-
tions.” National science review 9.10: nwac128.
Jain, N., and D. K. Sharma. 2004. “Biohydrometallurgy
for nonsulfidic minerals—a review.” Geomicrobiology
Journal 21.3: 135–144.
Grayevsky, R. et al. 2022. “Carbon Storage through Rapid
Conversion of Forsterite into Solid Oxalate Phases.”
Energy &Fuels 37.1: 509–517.
Lamérand, C, et al. 2020. “Olivine dissolution and hydrous
Mg carbonate and silicate precipitation in the presence
of microbial consortium of photo-autotrophic and het-
erotrophic bacteria.” Geochimica et Cosmochimica Acta
268: 123–141.
Li, Z-b., et al. 2019. “Specificity of low molecular weight
organic acids on the release of elements from lizardite
during fungal weathering.” Geochimica et Cosmochimica
Acta.
Mirjafari, P., et al. 2007. “Investigating the application of
enzyme carbonic anhydrase for CO2 sequestration pur-
poses.” Industrial &engineering chemistry research 46.3:
921–926.
Mujah, D. et al. 2017. “State-of-the-art review of bioce-
mentation by microbially induced calcite precipitation
(MICP) for soil stabilization.” Geomicrobiology Journal
34.6: 524–537.
Naveed, M. et al. 2020. “Application of microbially induced
calcium carbonate precipitation with urea hydrolysis to
improve the mechanical properties of soil.” Ecological
Engineering, 153, 105885.
Ni, Shumin, et al. 2023. “CO2 Mineralized Sequestration
and Assistance by Microorganisms in Reservoirs:
Development and Outlook.” Energies 16.22: 7571.
Okyay, Tugba O., et al. 2016. “CO2 sequestration by ureo-
lytic microbial consortia through microbiallyinduced
calcite precipitation.” Science of the Total Environment
572: 671–680.
Proudfoot, D. et al. 2022. “Investigating the potential for
microbially induced carbonate precipitation to treat
mine waste.” Journal of Hazardous Materials, 424,
127490.
Song, M. et al. 2022. “A review on the applications of
microbially induced calcium carbonate precipita-
tion in solid waste treatment and soil remediation.”
Chemosphere, 290, 133229.
Torres, M. A., et al. 2019. “The kinetics of siderophore‐
mediated olivine dissolution.” Geobiology 17.4:
401–416.
REFERENCES
Bullock, L.A., et al. 2021. “Global carbon dioxide removal
potential of waste materials from metal and diamond
mining.” Frontiers in Climate 3: 694175.
Castro, I., et al. 2000. “Bioleaching of zinc and nickel
from silicates using Aspergillus niger cultures.”
Hydrometallurgy 57.1: 39–49.
Dong, et al. 2022. “A critical review of mineral–microbe
interaction and co-evolution: mechanisms and applica-
tions.” National science review 9.10: nwac128.
Jain, N., and D. K. Sharma. 2004. “Biohydrometallurgy
for nonsulfidic minerals—a review.” Geomicrobiology
Journal 21.3: 135–144.
Grayevsky, R. et al. 2022. “Carbon Storage through Rapid
Conversion of Forsterite into Solid Oxalate Phases.”
Energy &Fuels 37.1: 509–517.
Lamérand, C, et al. 2020. “Olivine dissolution and hydrous
Mg carbonate and silicate precipitation in the presence
of microbial consortium of photo-autotrophic and het-
erotrophic bacteria.” Geochimica et Cosmochimica Acta
268: 123–141.
Li, Z-b., et al. 2019. “Specificity of low molecular weight
organic acids on the release of elements from lizardite
during fungal weathering.” Geochimica et Cosmochimica
Acta.
Mirjafari, P., et al. 2007. “Investigating the application of
enzyme carbonic anhydrase for CO2 sequestration pur-
poses.” Industrial &engineering chemistry research 46.3:
921–926.
Mujah, D. et al. 2017. “State-of-the-art review of bioce-
mentation by microbially induced calcite precipitation
(MICP) for soil stabilization.” Geomicrobiology Journal
34.6: 524–537.
Naveed, M. et al. 2020. “Application of microbially induced
calcium carbonate precipitation with urea hydrolysis to
improve the mechanical properties of soil.” Ecological
Engineering, 153, 105885.
Ni, Shumin, et al. 2023. “CO2 Mineralized Sequestration
and Assistance by Microorganisms in Reservoirs:
Development and Outlook.” Energies 16.22: 7571.
Okyay, Tugba O., et al. 2016. “CO2 sequestration by ureo-
lytic microbial consortia through microbiallyinduced
calcite precipitation.” Science of the Total Environment
572: 671–680.
Proudfoot, D. et al. 2022. “Investigating the potential for
microbially induced carbonate precipitation to treat
mine waste.” Journal of Hazardous Materials, 424,
127490.
Song, M. et al. 2022. “A review on the applications of
microbially induced calcium carbonate precipita-
tion in solid waste treatment and soil remediation.”
Chemosphere, 290, 133229.
Torres, M. A., et al. 2019. “The kinetics of siderophore‐
mediated olivine dissolution.” Geobiology 17.4:
401–416.