Rice straw application with different water regimes stimulate enzymes activity and improve aggregates and their organic carbon contents in a paddy soil

Rice straw application with different water regimes stimulate enzymes activity and improve aggregates and their organic carbon contents in a paddy soil

Soil organic carbon plays considerable roles in binding soil particles together forming aggregates. Carbon (C) incorporated within these aggregates is thought to be microbially processed; thus, investigating changes in microbial activities i.e. dehydrogenase, urease, catalase and phosphatase enzymes...

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Veröffentlicht in:Chemosphere (Oxford) 2021-07, Vol.274, p.129971-129971, Article 129971
Hauptverfasser: Mohamed, Ibrahim, Bassouny, Mohamed A., Abbas, Mohamed H.H., Ming, Zhan, Cougui, Cao, Fahad, Shah, Saud, Shah, Khan Khattak, Jabar Zaman, Ali, Shamsher, M.S. Salem, Haythum, Azab, Ahmed, Ali, Maha
Format: Artikel
Sprache:eng
Schlagworte:
Anthrosols
Enzymes activity
Organic carbon
Rice straw
Soil aggregates
Water regimes
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Zusammenfassung:Soil organic carbon plays considerable roles in binding soil particles together forming aggregates. Carbon (C) incorporated within these aggregates is thought to be microbially processed; thus, investigating changes in microbial activities i.e. dehydrogenase, urease, catalase and phosphatase enzymes may explain, to some extent, the dynamics and probably mechanisms responsible of formation of these aggregates. Since, soil water content (SWC) may take part in stimulating/lessening activities of organic matter decomposers; thus, this study aimed at investigating the effects of rice straw as a source of organic C in combination with variable SWC on bioaccumulation of C within different soil aggregate size fractions (2000–250, 250–53 and 
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2021.129971