A.R. Mulidzi scite author profile

Soil is a fundamental resource and it is crucial to manage its quality in order to enhance agricultural productivity and environmental quality. Soil enzymes catalyze several biochemical reactions which result in the transformation of organic matter, and the release of inorganic nutrients for plant growth and nutrient cycling. Soil enzyme activities are useful biological soil quality indicators since they are operationally practical, very sensitive, integrative, easy to measure and more responsive to soil tillage and structure than other soil variables. There are several enzymes in soil, but those involved in hydrolases and the degradation of main litter components are used most often for evaluating soil quality. This paper reviews the roles of soil enzymes such as β-glucosidase, phosphatase and urease, as well as the implications of their activities for soil quality.

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Management impact and benefit of cover crops on soil quality: A review

Adetunji

Ncube

Mulidzi

et al. 2020

Soil and Tillage Research

181

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Design of a pot experiment to study the effect of irrigation with diluted winery wastewater on four differently textured soils

Mulidzi¹,

Clarke²,

Myburgh³

2016

WSA

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Due to the intensification of environmental legislation, the wine industry is expected to find solutions for the treatment or re-use of winery wastewater. The objective of the study was to design and evaluate a pot experiment for determining the effects of irrigation with diluted winery wastewater on different soils. Four pedogenetically different soils were included in the experiment, i.e., (i) alluvial sand containing 3.3% clay from Rawsonville, (ii) aeolic sand containing 0.4% clay from Lutzville, (iii) shale-derived soil containing 20% clay from Stellenbosch, and (iv) granite-derived soil containing 13% clay from Stellenbosch. The pot experiment was carried out under a rain shelter at ARC Infruitec-Nietvoorbij. Soils were packed in 3.54 dm 3 PVC pots to a bulk density of 1 400 kg/m 3 . The four soils were irrigated using winery wastewater that was diluted to 3 000 mg/L COD. Municipal water was used to irrigate the control treatment of each soil. The relatively simple mixing and irrigation infrastructure enabled irrigation of more than one soil with diluted winery wastewater in one experiment. It was possible to irrigate the soils accurately when approx. 85% of the water had evaporated as no visual drainage occurred. Since the pot experiment could be continued under the rain shelter during winter, results were obtained quicker compared to an open field study. However, weighing the pots every second day was time consuming. Therefore, it is recommended that load cells are to be used to record daily mass losses automatically in future pot experiments.

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Effect of Irrigation with Diluted Winery Wastewater on Cations and pH in Four Differently Textured Soils

Mulidzi

Clarke

Myburgh

2015

SAJEV

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Environmental legislation requires the South African wine industry to find solutions for winery wastewater treatment or reuse. The feasibility of irrigation with diluted winery wastewater was assessed in a pot experiment under a rain shelter over four simulated irrigation seasons. Four soils varying in clay content were irrigated with winery wastewater diluted to 3 000 mg/L chemical oxygen demand (COD), whereas the control received municipal water. The rate of K + increase in the soil containing 20% clay was higher than in soils containing 13% clay or less. This suggests that heavy soils will aggravate the risk of high K + levels. The risk of Na + accumulation increased linearly with clay content. Low Ca 2+ and Mg 2+ concentrations in the diluted wastewater had no effect on the soil, irrespective of clay content. Irrigation with diluted winery wastewater increased soil pH (KCl) substantially in all the soils over the four simulated seasons. The soil pH increase was attributed to the addition of organic/bicarbonate salts to the soil. It must be noted that the results represent a worst case scenario, i.e. in the absence of rainfall or crops.

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Winery wastewater treatment by constructed wetlands and the use of treated wastewater for cash crop production

Mulidzi

2007

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A 45 m long, 4 m wide and 1 m deep wetland was constructed at Goudini in 2002 to treat distillery and winery effluent. After the plants were fully established, the wastewater with an average chemical oxygen demand (COD) of 14,000 mg/l was introduced to the wetland system at a rate of 4,050 litres per day. After treatment, wastewater at the outlet had an average COD of 500 mg/ l, indicating more than 90% COD removal. After treatment, the wastewater was used to irrigate cash crops as part of poverty alleviation for farm workers. The experiment consisted of four treatment: clean irrigation water with fertilizer applied (B1); clean irrigation water without fertilizer applied (B2); wastewater irrigation with fertilizer applied (B3); and wastewater irrigation without fertilizer applied (B4). These were replicated seven times. Cabbage was cultivated as a cash crop. The results indicated that cabbage could be irrigated with winery wastewater treated by wetlands. The study found that there was significant difference between treatments that were fertilized compared with those that were not fertilized. The results indicated that wastewater irrigation improved the nutritional status of the soil.

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A.R. Mulidzi

The biological activities of β-glucosidase, phosphatase and urease as soil quality indicators: a review

Management impact and benefit of cover crops on soil quality: A review

Design of a pot experiment to study the effect of irrigation with diluted winery wastewater on four differently textured soils

Effect of Irrigation with Diluted Winery Wastewater on Cations and pH in Four Differently Textured Soils

Winery wastewater treatment by constructed wetlands and the use of treated wastewater for cash crop production

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A.R. Mulidzi

The biological activities of &#946;-glucosidase, phosphatase and urease as soil quality indicators: a review

Management impact and benefit of cover crops on soil quality: A review

Design of a pot experiment to study the effect of irrigation with diluted winery wastewater on four differently textured soils

Effect of Irrigation with Diluted Winery Wastewater on Cations and pH in Four Differently Textured Soils

Winery wastewater treatment by constructed wetlands and the use of treated wastewater for cash crop production

Contact Info

Product

Resources

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The biological activities of β-glucosidase, phosphatase and urease as soil quality indicators: a review