Secondary products and molecular mechanism of calcium oxalate degradation by the strain Azospirillum sp. OX-1

Published: 20 September 2023| Version 1 | DOI: 10.17632/f8vzv6kxxk.1
Contributor:
Wenjun Nie

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The original data set in Figures 2, 3, and 5 of thie study "Secondary products and molecular mechanism of calcium oxalate degradation by the strain Azospirillum sp. OX-1". Fig. 2. Analysis of physical and chemical indices related to degradation of calcium oxalate by strain OX-1. (Group CK was treated without strain OX-1; Group T was treated with strain OX-1) (a) Changes in pH. (b) Changes in oxalate concentration. (c) Changes in Ca2+ concentration. (d) Changes in XRD patterns. Fig. 3. Analysis of secondary minerals formed by degradation of calcium oxalate by strain OX-1. (a) Comparison of XRD patterns. (b) Comparison of FTIR spectra of secondary minerals. (c) TG-DTG curves of secondary mineral. (d) DTA curve of secondary mineral. Fig. 5. Peak area of methane. (CK was a blank control without OX-1; Treated indicates CH4 content in conical bottle after calcium oxalate was degraded by OX-1.)

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Geomicrobiology, Environmental Geoscience

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