Material flow cost accounting practices and resource efficiencies in South African sugar industry.
MetadataShow full item record
Given the backdrop of inefficiencies and declining productivity in the South African sugar industry, this study examined material flow cost accounting (MFCA) as a decision-making toolkit for improving resource efficiency in the industry. This was considered with three distinct objectives, namely: to establish which factors determine the quality of sucrose in sugarcane production; to demonstrate the potential environmental and economic benefits of cleaner production processes and technologies in the sugar milling industry, and to examine the effectiveness of adopting the MFCA framework approach as a decision-making tool in the supply chain to improve overall performance of the sugar industry. Data were collected from a panel of the six sugar milling firms that are operating in the South African sugar milling industry. For the first and second objectives, the panel auto regressive distributive lag (P-ARDL) estimating technique was adopted while models from literature were employed to access the efficiency of the implementation of MFCA as an important alternative to the conventional accounting process in the third objective. A system generalized method of moments (GMM) estimation technique was also used to estimate the impact of sucrose content on profitability. As well, a random effect regression model was employed to examine the relationship between material flow cost accounting and resource efficiency. Besides the aforementioned methods, detailed conceptual issues relating to cleaner production were identified and addressed. Taking the sugar cane industry in South Africa as the study focus, an alternative measure that enhances the quality of sugar, particularly that of sucrose, was investigated. Findings from the study revealed that certain factors, such as transportation and loading delay, not only contribute to losses in sucrose, but also affect the farmers’ yields due to increase in deterioration of cane sugar. Specifically, the result of objective one revealed that, both in the short- and long- runs, most of the variables investigated have the tendency of increasing the sucrose level in sugar cane while an increase in other variables would decrease sucrose level altogether. However, the impact of soil water content (100mm) appears not to be statistically significant on sucrose production in the short- and long-runs. Of special interest is stalk growth (of sugar cane) and average temperature, as their values are more significantly germane as regards to the quantity of sucrose obtained for sugar cane processing in South Africa. The study further used a structural equation model to examine the relationship between cleaner production and firm performance, which was measured by environmental, operational and financial performance. The hypothesis tested supported that cleaner production had a positive and significant influence on the environmental, operational and financial performance of the firms in the sugar industry. Results from the last two objectives of the study provide evidence to support the conclusion that the effective MFCA implementation process supports increased efficiency in the sugar cane industry as well as cleaner production. The study also found that sucrose content has a positive and significant impact on the profitability of the firms. As well, the evidence showed that material flow cost accounting has a positive relationship with resource efficiency. This study, therefore, recommends the proficient use of MFCA among the South African industries as they possess the quality of classifying product cost from waste cost, hence, improving profitability and organizational efficiency. The contribution of this study lies in the researcher’s capability to model the MFCA process for minimizing the applicable costs of the sugar industry for optimal performance.