An iron-dependent burst of hydroxyl radicals stimulates straw decomposition and CO<sub>2</sub> emission from soil hotspots: Consequences of Fenton or Fenton-like reactions

Authors

Du H.Y.^1, ² , Chen C.M.^1, ³ , Yu G.H.¹ , Sun F.S.¹ , Polizzotto M.L.⁴ , Kuzyakov Y. ^5, ^6, ⁷

Journal

Geoderma

Publisher

Elsevier

Language

English

Pages

114512

Status

Published

Volume

375

Year

2020

Organizations

¹ Institute of Surface-Earth System Science|School of Earth System Science|Tianjin University
² Jiangsu Provincial Key Lab for Organic Solid Waste Utilization|College of Resources & Environmental Sciences|Nanjing Agricultural University
³ Department of Plant and Soil Sciences|Delaware Environmental Institute|University of Delaware
⁴ Department of Earth Sciences|University of Oregon
⁵ Department of Agricultural Soil Science|University of Göttingen
⁶ Institute of Environmental Sciences|Kazan Federal University
⁷ Agro-Technology Institute|RUDN University

Cite

ГОСТ MLA RIS BibTex

Article

Zhdanov D.D., Plyasova A.A., Pokrovsky V.S., Pokrovskaya M.V., Alexandrova S.S., Gladilina Y.A., Sokolov N.N.

Biochimie. Elsevier B.V.. Vol. 174. 2020. P. 34-43

Article

Anossova O.

Lecture Notes in Networks and Systems. Springer. Vol. 131. 2020. P. 367-375

An iron-dependent burst of hydroxyl radicals stimulates straw decomposition and CO₂ emission from soil hotspots: Consequences of Fenton or Fenton-like reactions