针铁矿
铁酸盐
土壤水分
化学
结晶度
赤铁矿
电子探针
有机质
环境化学
矿物学
地质学
土壤科学
结晶学
有机化学
吸附
作者
Chunmei Chen,Yanjun Dong,Aaron Thompson
标识
DOI:10.1021/acs.est.3c01876
摘要
for 33 days, no measurable mineralogical changes were found for the Calhoun soils enriched with high-crystallinity goethite, while Fe(II) did drive an increase in Fe oxide crystallinity in OM-removed LCZO soils having low-crystallinity ferrihydrite and goethite. However, the presence of soil OM largely inhibited Fe(II)-catalyzed increases in Fe mineral crystallinity in the LCZO soil. Fe atom exchange appears to be commonplace in soils exposed to anoxic conditions, but its resulting Fe(II)-induced recrystallization and mineral transformation depend strongly on soil OM content and the existing soil Fe phases.
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