Runoff and soil loss from small plots of erosion-prone marl soil inoculated with bacteria and cyanobacteria under real conditions

Sadeghi Seyed Hamidreza; Satri Mahya Sadeghi; Kheirfam Hossein; Darki Behrouz Zarei

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Runoff and soil loss from small plots of erosion-prone marl soil inoculated with bacteria and cyanobacteria under real conditions

机译：在真实条件下用细菌和蓝藻的侵蚀易发磨碎的侵蚀易腐蚀的小块径流和土壤损失

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摘要

Land degradation is a major global concern that is exacerbated in the erosion-prone marl and calcium carbonate rich mudstone slopes. Several studies have therefore focused on finding ways to inhibit soil erosion among which, soil inoculation has been recently introduced as a new technique. However, the success of such treatment has not been adequately taken into account. Following this, in this study, we assessed the hydrological responses of an erosion-prone marl soil due to surface inoculation of bacteria and cyanobacteria. The individual bacteria and cyanobacteria and their combination were inoculated (in three repetitions) on 0.5 m x 0.5 m-sized plots filled by marl soil from the Marzanabad Region in the north of Iran. The entire plots were thoroughly exposed to natural conditions in an open area at the campus of Faculty of Natural Resources of Tarbiat Modares University in Noor, Mazandaran Province, Iran. After 32 days of inoculation, five erosive natural rainfalls occurred on the experimental plots, from 10 to Jan. 29, 2018. The rainfalls on control plot led to a relatively high runoff yield (i. e., 223-2010 ml) and coefficient (i.e., 2.3-7.6%), a considerable soil loss (i.e., 1.32-17.96 g), and sediment concentration (i.e., 2.4-9 g l(-1)). Whilst, in the inoculated (i.e., bacteria, cyanobacteria, and bacteria + cyanobacteria) plots, the runoff volume, runoff coefficient, soil loss, and sediment concentration varied between 56 and 1116 ml, 2.3-9.4%, 0.16-4.04 g, and 1.01-3.61 g l(-1), respectively. It, therefore, verified that the soil inoculation decreased the runoff yield and coefficient (29-77%), soil loss (77-89%), and sediment concentration (60-76%), as compared to the control. On the whole, we found that the soil inoculation technique could be considered as a bio-strategy to conserve/restore marl soil lands, where the viability of conventional methods is low.

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来源
《European Journal of Soil Biology》 |2020年第1期|共11页
作者
Sadeghi Seyed Hamidreza; Satri Mahya Sadeghi; Kheirfam Hossein; Darki Behrouz Zarei;
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作者单位

Tarbiat Modares Univ Fac Nat Resources Dept Watershed Management Engn Tehran Iran;

Tarbiat Modares Univ Fac Nat Resources Dept Watershed Management Engn Tehran Iran;

Urmia Univ Fac Agr &

Nat Resources Dept Range &

Watershed Management Orumiyeh Iran;

Tarbiat Modares Univ Fac Marine Sci Dept Marine Biol Tehran Iran;

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原文格式 PDF
正文语种 eng
中图分类土壤生物学;
关键词
Biological soil crust; Runoff yield; Soil degradation; Soil loss; Soil erodibility; Soil micro-organism;

机译：生物土壳;径流产量;土壤退化;土壤损失;土壤蚀;土壤微生物;

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Runoff and soil loss from small plots of erosion-prone marl soil inoculated with bacteria and cyanobacteria under real conditions

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