Development of human exometabolite deep mineralization method for closed ecosystems

A. A. Tikhomirov; S. V. Trifonov; E. A. Morozov; Yu. A. Kudenko; G. S. Kalacheva; S. A. Ushakova

doi:10.1134/S1607672916050021

Development of human exometabolite deep mineralization method for closed ecosystems

作者: Tikhomirov A.A.¹, Trifonov S.V.¹, Morozov E.A.¹, Kudenko Y.A.¹, Kalacheva G.S.¹, Ushakova S.A.¹
隶属关系:
1. Institute of Biophysics, Siberian Branch
期: 卷 470, 编号 1 (2016)
页面: 316-318
栏目: Biochemistry, Biophysics, and Molecular Biology
URL: https://journals.rcsi.science/1607-6729/article/view/211524
DOI: https://doi.org/10.1134/S1607672916050021
ID: 211524

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Methods of physicochemical further oxidation of hardly soluble sediment obtained from “wet combustion” of human exometabolites applied to space-purpose Bio Technological Life Support Systems (BTLLS) were studied. Most hardly dissoluble sediment containing Ca, P, Mg, and other essential plant nutrition elements were shown to dissolve in H₂O₂ and HNO₃ aqueous media activated by alternating electric current. Dissolved additional mineral elements allowed (as demonstrated for lettuce) to increase the productivity of BTLLS phototrophic unit plants more than twice, which is comparable to their productivity on standard Knop solution with balanced chemical composition. Thus, dissolved mineral elements can be involved into BTLLS turnover process and increase its closure degree.

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Development of human exometabolite deep mineralization method for closed ecosystems

全文:

详细

作者简介

A. Tikhomirov

S. Trifonov

E. Morozov

Yu. Kudenko

G. Kalacheva

S. Ushakova

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