18 research outputs found
Issues in Public Health: Assuaging Concern from Contaminated Land Resulting from Land Use Dynamics in Malaysia
Enhancing the regulatory framework for upstream chemicals management in Malaysia: Some proposals from an academic perspective
Assessment of the River Water Pollution Levels in Kuantan, Malaysia, Using Ion-Exclusion Chromatographic Data, Water Quality Indices, and Land Usage Patterns
The potential and environmental ramifications of palm biodiesel: Evidence from Malaysia
© 2018 Malaysia finds itself in a unique position. The large flourishing palm oil industry could produce enough biodiesel to completely offset Malaysia's entire diesel consumption. Consequently, we employ a dynamic, partial equilibrium model of the Malaysian agricultural sector to predict whether palm biodiesel can offset diesel fuel. The model indicates palm biodiesel cannot compete with diesel's price because of the high cost of palm oil. Nevertheless, the government could subsidize biodiesel production at Malaysian Ringgit (RM) 1.09 per liter (or United States Dollar 0.28/liter) since biodiesel could help the government achieves its greenhouse gas (GHG) emission targets in the Paris Agreement. Furthermore, the government should implement two new regulations to boost the GHG efficiency of its agriculture. First, the palm oil mills should treat their palm oil mill effluents (POME) because POMEs emit methane, a potent GHG gas. Second, the government should prevent deforestation. The destruction of rainforests reduces the carbon storage because oil palm trees store half the carbon as pristine rainforests per hectare. Finally, palm biodiesel could lead to greater agricultural employment but induce higher agricultural prices, loss of export revenue, and rising imports