142 research outputs found
LECTURERS’ AND STUDENTS’ BELIEFS IN CODE-SWITCHING: A MALAYSIAN POLYTECHNIC CONTEXT
This research is to discover whether lecturers’ beliefs coincide with their practices in their daily teaching. The focus will be on the belief in the use of code-switching in the classroom. At the same time, it is also worthwhile to indicate whether there are differences in the beliefs between the lecturers and the students. For that purpose three lecturers from an engineering department of a polytechnic in a northern region as well as the students in the classrooms were chosen to participate in this research. The methods designed include classroom observations, questionnaires for both the lecturers and students, and interviews with the lecturers after the classroom observation. The findings showed that the lecturers mostly used reiteration and message qualification functions when code-switching. They believed that it was intended mainly to enhance their students’ understanding and to save their time from lengthy explanation whenever the students are in doubt. This was agreeable by most students as they believed that code-switching could help them understand the lessons better. Some recommendations are made based on the findings and analysis of the results, expecting that it would further improve the teaching of Mathematics, Science and technical subjects in the Malaysian polytechnics
Mercury and methylmercury distribution in the intertidal surface sediment of a heavily anthrophogenically impacted saltwater-mangrove-sediment interplay zone
Total mercury (THg) and methylmercury (MeHg) concentrations were determined from sediment samples collected from thirty sampling stations in Port Klang, Malaysia. Three stations had THg concentrations exceeding the threshold effect level of the Florida Department of Environmental Protection and the Canadian interim sediment quality guidelines. THg and MeHg concentrations were found to be concentrated in the Lumut Strait where inputs from the two most urbanized rivers in the state converged (i.e. Klang River and Langat River). This suggests that Hg in the study area likely originated from the catchments of these rivers. MeHg made up 0.06–94.96% of the sediment's THg. There is significant positive correlation (p < 0.01) between THg and MeHg concentrations. Significant positive correlation (p < 0.05) was also observed between fine sediment particles (i.e. clay and silt) with MeHg concentrations. Sediment particle size, however, was not found to have any influence on THg concentrations in the sediment in the study area
Geo-spatial approach for suitable location of transportation terminals in the coastal towns planning
Good establishment of transportation terminals (jetties and airports) of coastal towns in proportion to relevant landuses
and urban networks is an important element in urban tourism planning. Increasing urban network has both positive
and negative impacts. Accessibility is chosen as key elements with respect to its critical roles in quality and attraction
of coastal tourism. The overall objective of this study is to develop a decision support tool to plan appropriate locations
for jetties, airport and urban transportation network development through the use of spatial technologies to address the
issues of accessibility. Langkawi Island, an important tourism city in Malaysia has been chosen as a case study. This
method can explain the linkage between accessibility and tourism quality. It covers the optimum accessibility from Jetties
and airport to tourism landuses and facilities area. This research has successfully managed to develop a scientifically
based approach to convert conceptual configuration of accessible tourism locations into transportation terminals using
geospatial technology. It is hoped that this spatial based approach can be employed in transportation planning and urban
network suitability assessment at both the local and structure plan levels
Governance strategies in sustainable campus using Rasch model
In moving towards sustainability, university needs to establish a good governance strategy which practices to transform a positive sustainable culture toward successful green campus. Howe ver, due to constraint of knowledge and commitment regarding sustainability integration has caused weakness in the implementation of green concept in majority of Malaysian universities. This paper is presents one of the five dimensions of a developed hypot hetical integrated sustainable campus model which is university governance. The university governance dimension consists of 5 constructs and 23 items which are strategies for the university to be complied. These strategies were uncovered using questionnair e survey with 35 selected experts who are currently active in sustainable campus activities and researches. Collected data from this survey was analysed using Rasch method in Winstep software to measure items reliability, separation index, items polarity, item fit and item person map. Results from the analysis indicated that 19 strategies were significant to be implemented. Thus, it provides good information for universities to adopt these sustainable campus strategies in making their campus as a role mode l for a sustainable and conducive living environment
Aboveground carbon stock potential of teak (tectona grandis) under different land use system in Balung plantation, Tawau Sabah
Assessment of aboveground carbon stock in different teak plantation systems was conducted in Balung River Plantation, Tawau, Sabah. The objective of this study is to determine the potential of teak as the main tree components to increase the above ground carbon stock in different land use system. The above ground carbon stock of agroforestry and mixed plantation system of teak (Tectona grandis) were compared with natural forest and monoculture plantation of the species. The agroforestry combinations investigated are agroforestry system 1, teak (18 years) with snake fruit (8 years) and agarwood (8 years); agroforestry system 2, teak (17 years) with coffee (14 years); and also mixed timber plantation system, teak (18 years) with agarwood (8 years); while 20 years teak monoculture plantation and natural forest reserve was set up as a control. A random systematic sampling method was used in conducting field inventory. The methodologies used include the measurement of height and diameter breast height (DBH) of trees within a 50 m x 50 m plot dimension (for plantation) and 30 m x 30 m (forest). Allometric equations were used to derive the field measured attributes into stand biomass while carbon stock was estimated as 50 percent from the total biomass. The result shows the accumulation of carbon stock goes in the following order: forest reserve (213.84 t C/ha) > mixed timber plantation (69.94 t C ha-1 ) > agroforestry system 2 (37.75 t C/ha) > agroforestry system 1 (37.34 t C/ha) > teak monoculture (34.53 t C/ha) witnessing the teak trees to increase the total aboveground carbon stock in agroforestry and mixed timber plantation system by more than 60 percent. This study suggested that teak has great potential in transforming a low biomass land use into a carbon-rich tree based systems
Challenges of solid waste management in Malaysia
Malaysia is faced with challenges with respect to the solid waste management sector because of the increase of population and tourism, economic growth for sustainable development and inadequate waste legislation enforcement, infrastructure and public attitude among residents. This paper gives an approach of the solid waste management in Malaysia with the aim of presenting the state of waste management practices and problems with regards to environmental, economic and other ramifications
Carbon stock estimation of agroforestry system in Tawau, Sabah
Studies on total aboveground carbon (TAC) and belowground carbon (TBC) stock has been conducted in Balung Plantation, Tawau, Sabah. The main objective of the study was to determine the above and below ground carbon stock in agroforestry system. The combination of agroforestry systems with different ages were investigated, which is oil palm (25 years) and agarwood (7 years), oil palm (20 years) and agarwood (7 years), and oil palm (17 years) and agarwood (5 years). Monoculture of oil palm (16 years) and Tawau Hill Park forest reserve was set as control. A random systematic sampling method was used in conducting field inventory and soil sampling. The size of the sampled area in agroforestry and monoculture is 3 × 50m × 50m, while for forest reserve, the sampled area is 3 x 30m x 30m. Allometric equations were used to calculate the stand biomass. Sampling for organic and shrub layers were collected in a square frame (1m × 1m). Soil samples and bulk density was collected from three different layers which are 0 – 5 cm, 5 – 10 cm and 10 – 30 cm in randomly located sites within the plots. Soil samples, organic and shrub layer were analyzed using CHN628 series for carbon content. Result shows that the amount of total carbon stock in agroforestry was 79.12 tan C ha-1, 85.39 tan C ha-1 and 78.27 tan C ha-1, respectively. Monoculture of oil palm (16 years) has 76.44 tan C ha-1 while Tawau Hill Park forest reserve has total carbon stock at 287.38 tan C ha-1. Forest reserve stand has the highest total carbon stock compared to agroforestry and monoculture systems. But, in terms of soil carbon, forest reserve has the lowest TBC compared to agroforestry and monoculture systems. ANOVA was conducted to explore the impact of planting systems on total carbon stock. There was a statistically significant difference at the p < .05 level for soil carbon, living tree and organic layer between agroforestry, monoculture and forest reserve. Good crop and fertilizer management in agroforestry and monoculture systems helps in increasing soil organic carbon (SOC)
Determination of the sediment contamination level in Dangli Waters of Langkawi UNESCO Global Geopark, Kedah, Malaysia
Dangli Waters ecosystem is located at the north of Langkawi UNESCO Global Geopark. Apparently, this area is currently experiencing a significant deterioration of marine habitat. Therefore, 14 stations were set up in this study area to investigate the sediment for metal contents discharged into Dangli Waters using the ecological risk assessment. The sediment samples were collected during four seasons, namely South West Monsoon, First Inter Monsoon, North East Monsoon and Second Inter Monsoon. The spatial distribution pattern of heavy metals in sediment was properly determined as well as the seasonal variation of the contamination. From the results obtained, the average concentration of each heavy metal distributed in the surface sediment of Dangli Waters can be written in decreasing order as Fe>Cr>As>Co>Cd. From the observation, heavy metal concentrations of As was recorded the most higher profiles near to the cement plant production area. Meanwhile, for the pattern of seasonal changes, FIM season was defined as the season with higher concentrations of all metals in the surface sediment compared to other seasons. This is due to highly rainfall distribution and water runoff during this period, leading an increase of sediment deposition into the Dangli Waters. According to the contamination factor (Cf) for each metal, it was shown that some heavy metals such as As were at a risky level with the Cf value was higher than 6 (Cf >6). However, the degree of contamination (Cd) for each station was classified as moderate (7 ≤ Cd < 14), except for ST2 which showed a low degree of contamination
Historical Development of Corporate Social Responsibility- A Review on Early Studies
In this twenty first century, the term corporate social responsibility briefly known as CSR is becomes the business strategy. Multinational corporations are paying much more attention to publicize their commitment towards CSR. However, none of the early research explores the historical development of CSR in literature. This study highlighted the debate of CSR followed by the literature development. Keywords: Corporate Social Responsibility, History, Responsible Business, Strateg
Urbanization trends and groundwater issues in Asian cities
Above half of the global population resides in urban areas and the increasing population is highly dependent on groundwater
for its drinking water and agricultural requirements. Asia and Africa are urbanizing at a higher rate than other developed
regions. Asia contributes to 53 percent of global urban population and is expected to reach 55 percent by 2025. This
article seeks to explore the urbanization trends in Asia and its impacts on groundwater resources through evaluating five
countries- China, India, Indonesia, Japan and Malaysia. China and India are two major contributors of world’s urban
population; Indonesia, Japan and Malaysia are other three rapidly urbanizing countries in Asia. The analyses are drawn
based on a critical review of previous studies conducted on the topic in Asia. The study has found that most populous
mega-urban regions in the world and in Asia are located in these five countries. The urban growth rate of China is double
or little less than India, Indonesia and Malaysia; Japan is expected to exhibit a declination in its urban population while
continue to maintain a high urbanization level during 2014-2050. Urbanization in Asia is not environmentally sustainable
and it puts huge pressure on groundwater resources, degrading its quality and quantity, raising concern for resultant
land subsidence. India poses a higher pressure on its groundwater resources, followed by China, Indonesia, Japan and
Malaysia. Innovative technological and governance solutions with given priority on infrastructural development and
environmental conservation is required to tackle urbanization dilemma existing in Asia
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