Effects of Maize Residue Biochar Amendments on Soil Properties and Soil Loss on Acidic Hutton Soil

Effects of Maize Residue Biochar Amendments on Soil Properties and Soil Loss on Acidic Hutton Soil

Soil acidification is a serious challenge and a major cause of declining soil and crop productivity in the Eastern parts of South Africa (SA). An incubation experiment investigated effects of different maize residue biochar rates on selected soil properties and soil loss in acidic Hutton soils. Bioc...

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Main Authors: Patrick Nyambo, Thembalethu Taeni, Cornelius Chiduza, Tesfay Araya
Format: Article
Language:English
Published: MDPI AG 2018-11-01
Series:Agronomy
Subjects:
acidic soil
biochar
soil loss
soil organic carbon
Online Access:https://www.mdpi.com/2073-4395/8/11/256
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spelling doaj-2246afebcf464dd6ac02b0e3891984282021-04-02T01:08:24ZengMDPI AGAgronomy2073-43952018-11-0181125610.3390/agronomy8110256agronomy8110256Effects of Maize Residue Biochar Amendments on Soil Properties and Soil Loss on Acidic Hutton SoilPatrick Nyambo0Thembalethu Taeni1Cornelius Chiduza2Tesfay Araya3Department of Agronomy, University of Fort Hare, Private Bag X1314 Alice 5700, South AfricaDepartment of Agronomy, University of Fort Hare, Private Bag X1314 Alice 5700, South AfricaDepartment of Agronomy, University of Fort Hare, Private Bag X1314 Alice 5700, South AfricaDepartment of Agronomy, University of Fort Hare, Private Bag X1314 Alice 5700, South AfricaSoil acidification is a serious challenge and a major cause of declining soil and crop productivity in the Eastern parts of South Africa (SA). An incubation experiment investigated effects of different maize residue biochar rates on selected soil properties and soil loss in acidic Hutton soils. Biochar amendment rates were 0%, 2.5%, 5%, 7.5%, and 10% (soil weight) laid as a completely randomized design. Soil sampling was done on a 20-day interval for 140 days to give a 5 &#215; 7 factorial experiment. Rainfall simulation was conducted at 60, 100 and 140 days after incubation to quantify soil loss. Relative to the control biochar amendments significantly improved soil physicochemical properties. After 140 days, biochar increased soil pH by between 0.34 to 1.51 points, soil organic carbon (SOC) by 2.2% to 2.34%, and microbial activity (MBC) by 496 to 1615 mg kg<sup>&#8722;1</sup> compared to control. Soil aggregation (MWD) changes varied from 0.58 mm to 0.70 mm for the duration of the trial. Soil loss significantly decreased by 27% to 70% under biochar amendment compared to control. This indicates that maize residue biochar application has the potential to improve the soil properties and reduce soil loss in the degraded acidic Hutton soil.https://www.mdpi.com/2073-4395/8/11/256acidic soilbiocharsoil losssoil organic carbon
collection DOAJ
language English
format Article
sources DOAJ
author Patrick Nyambo
Thembalethu Taeni
Cornelius Chiduza
Tesfay Araya
spellingShingle Patrick Nyambo
Thembalethu Taeni
Cornelius Chiduza
Tesfay Araya
Effects of Maize Residue Biochar Amendments on Soil Properties and Soil Loss on Acidic Hutton Soil
Agronomy
acidic soil
biochar
soil loss
soil organic carbon
author_facet Patrick Nyambo
Thembalethu Taeni
Cornelius Chiduza
Tesfay Araya
author_sort Patrick Nyambo
title Effects of Maize Residue Biochar Amendments on Soil Properties and Soil Loss on Acidic Hutton Soil
title_short Effects of Maize Residue Biochar Amendments on Soil Properties and Soil Loss on Acidic Hutton Soil
title_full Effects of Maize Residue Biochar Amendments on Soil Properties and Soil Loss on Acidic Hutton Soil
title_fullStr Effects of Maize Residue Biochar Amendments on Soil Properties and Soil Loss on Acidic Hutton Soil
title_full_unstemmed Effects of Maize Residue Biochar Amendments on Soil Properties and Soil Loss on Acidic Hutton Soil
title_sort effects of maize residue biochar amendments on soil properties and soil loss on acidic hutton soil
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2018-11-01
description Soil acidification is a serious challenge and a major cause of declining soil and crop productivity in the Eastern parts of South Africa (SA). An incubation experiment investigated effects of different maize residue biochar rates on selected soil properties and soil loss in acidic Hutton soils. Biochar amendment rates were 0%, 2.5%, 5%, 7.5%, and 10% (soil weight) laid as a completely randomized design. Soil sampling was done on a 20-day interval for 140 days to give a 5 &#215; 7 factorial experiment. Rainfall simulation was conducted at 60, 100 and 140 days after incubation to quantify soil loss. Relative to the control biochar amendments significantly improved soil physicochemical properties. After 140 days, biochar increased soil pH by between 0.34 to 1.51 points, soil organic carbon (SOC) by 2.2% to 2.34%, and microbial activity (MBC) by 496 to 1615 mg kg<sup>&#8722;1</sup> compared to control. Soil aggregation (MWD) changes varied from 0.58 mm to 0.70 mm for the duration of the trial. Soil loss significantly decreased by 27% to 70% under biochar amendment compared to control. This indicates that maize residue biochar application has the potential to improve the soil properties and reduce soil loss in the degraded acidic Hutton soil.
topic acidic soil
biochar
soil loss
soil organic carbon
url https://www.mdpi.com/2073-4395/8/11/256
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AT corneliuschiduza effectsofmaizeresiduebiocharamendmentsonsoilpropertiesandsoillossonacidichuttonsoil
AT tesfayaraya effectsofmaizeresiduebiocharamendmentsonsoilpropertiesandsoillossonacidichuttonsoil
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