Microsoft Word 12 The Malaysian Agricultural Industry in the New Millennium
WHAT SHAPES THE FUTURE OF MALAYSIAN AGRICULTURE
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WHAT SHAPES THE FUTURE OF MALAYSIAN AGRICULTURE Malaysian agriculture, like those in many countries is shaped by several factors, viz. (i)
Status of the natural resource base, (ii) Climate change, (iii) Extent of land degradation, (iv) Advances in science and technology, (v) Urbanization, (vi) Trade liberalization and commercialization, and (vii) Strategic alliances and international agreements and conventions. These factors would influence agricultural development in the country in a holistic manner, although the effect and intensity of influence of each factor may vary accordingly. Invariably, agricultural development faces three major global challenges in the new millennium: (i) Persistence of poverty and food insecurity; (ii) Globalization and its impact on the eventual transformation of traditional agricultural systems, and (iii) Continuing and perennial pressure on the deterioration of the natural resource base. The agricultural production capacity in Malaysia, in effect, will be tapping three principal sources of growth, viz. (i) Expanding the arable land area; (ii) Increasing cropping intensity (mostly through irrigation); and (iii) Boosting yields. This is made possible as Malaysian agricultural landscapes are yet to approach the ceiling for all the three sources at the local scale. However, the intrinsic geopolitical unevenly distribution of available land in Sabah, Sarawak and Peninsular Malaysia coupled with the equally unequal population concentrations in these regions, and locally-mediated consumer demands for agricultural produce and inputs reflect the present state of agricultural development in the country. This present state is echoed by Anon (2003) where enough unused potential farmland at the regional scale, of which only ca. 11% (5.78 million ha) of all land is used in crop production. Out of this, ca. 36% of the arable land to some degree are suitable for crop production and ca. 18.92 million ha of arable land remains with crop production potential. Reflections of the regional- or population-mediated pressure needing the arable land may not have it. This is especially true in the Klang Valley of Selangor and Federal Territories. In several situations, much of the land also suffers from (a) ecological fragility and in hilly areas of steep terrain of Sarawak and Sabah; (b) low fertility in acid sulphate, peat and heavy clay soils; (c) coastal areas prone to flooding and seepage of saline water; (d) toxicity in ex-tin mining land, acid sulphate soils; (e) high incidence of disease as exemplified by ex- pepper land prone to root disease and nematodes; (f) lack of infrastructure in the rural areas of Sabah, Sarawak, Pahang, and Kelantan. Any attempt to ameliorate these problem soils requires high investments to be made accessible or disease- free.
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In Malaysia and elsewhere, the general trend in agriculture production is usually towards sustainable intensification, as opposed to dependence on land expansion. Baki (2006a) argued that 80% of increments in crop production in Malaysia come from intensification mediated through higher crop yields, increased multiple cropping and shorter fallow period. The agricultural production programme through intensification is intimately linked with the availability of labour and fertilizer-use efficiency. Labour is a central issue pertaining to the future of agriculture and its ensuing sustainable development. The general trend in Malaysia and elsewhere is towards increasing farm labour scarcities due to rapid migration to urban areas, and increasingly burgeoning populace, demanding better pay and competition for labour by industrial sectors. Invariably it follows that intensification of agriculture adds to labour demand and scarcity. This calls for growing demand for labour-saving technologies.
Baki (2006) suggested three areas that are particularly critical in shapiung the future of Malaysian agriculture, and these include biotechnology, technologies capable of supporting sustainable agriculture, and directions of future research and opportunities for increasing the competitiveness of agriculture in the country vis-à-vis the neighbouring countries in the ASEAN in particular and in Asia in general. The employment of a biotechnology tool of genetic engineering (GE) - a technique which allows genes to be transferred from one species to another leading to the production of genetically modified organisms (GMOs) calls for big investments in manpower training and acquiring the technology through innovative research by the locals. The potential GM crops in Malaysia include oil palm (Basta® tolerance), papaya and banana (virus resistance) and rice (IMI Rice)(imidazolinone resistance). In 2003, scientists at the Malaysian Palm Oil Board has successfully produced a GM oil palm using the microprojectile bormbardment method which made it possible to produce oil palm with value added fatty acids and novel metabolites through genetic engineering (Kadir 2003). The rice breeders in the Malaysian Agricultural Research Institute (MARDI) through conventional breeding have produced five imidazolinone tolerant lines purification and evaluation for resistance against the major pests and diseases. The locally developed herbicide tolerant rice (HTR) cultivars are expected to be released to rice farmers in the off-season 2009 or 2010. Further evaluations on yield, agronomic performances and physical and chemical properties of the grain, including nutritive constituents are being made. Our immediate concern is the possible introgression of undesirable genes from HTR cultivars to weedy rices, making the later resistant to imidazolinone herbicides. If this happens, then our weedy rices will become “super-weeds” and the insurmountable problems associated with them are likely to prevail. Of course the production of GM crops needs to overcome the species barrier and utilization of genetic tools giving GE tremendous power but so controversial not only to consumers but also to the unknown and untold effects to the environment. Moreover, there is a continuous debate and general concern and implications on health, environment, socio-economic, and ethics. Again the Malaysian initiatives on these crops have not to date overcome the socio- economic and ethical barrier that may influence the local and overseas markets for these products.
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There are emerging issues associated with GM crops that Malaysia either as an importing consumer nation or a potential producer need to address or be concerned of. These include (i) Coexistence: cultivation of conventional, organic agriculture and GM crops; (ii) Labeling: detection limits and traceability of adventitious presence of GM materials; (iii) Liability and redress: the needs to consider their legal system and relevant international agreements; and (iv) Pharming: production of pharmaceutical products in plants, e.g. vaccines in bananas. In effect, the welfare of farming community together with the consumers at large in Malaysia are affected by the way policy makers and advisors, and funding agencies conduct themselves and their policies with respect to the adherence of an integrated multi-disciplinary research approach in biological sciences including genetic engineering along side conventional breeding and agronomy, but also the socio-economic context where farming occurs. This is where the societal goals of agriculture would have the greatest impact on the society. Regardless of the emerging technologies and issues associated with sustainable agricultural development in the country hinges very much on future trends and expansion of conservation technologies comprising (i) Good Agricultural Practices (GAP); (ii) Integrated Production Systems; (iii) Integrated Pest Management (IPM); (iv) Integrated Plant Nutrient System (IPNS); (iv) No Till/Conservation Agriculture (NT/CA); (v) Organic Agriculture; and (vi) Urban and Peri-Urban Agriculture. Two other central factors that may shape the future of agricultural development in Malaysia include irrigation and water availability. These are especially crucial to food production and supplies in Malaysia. The National Water Board envisaged that the states of Perlis, Penang, Selangor, Federal Territory K. Lumpur, Malacca, and Negeri Sembilan may face water shortage in 2030, and this calls for greater efficiency in water use. This is echoed by Baki (2006) who argued that access to water and food security are dramatically linked. In the Klang Valley in Selangor and the Federal Territories, population pressure aggravates the water situation further. Other important factors that may also shape the future of agricultural development in Malaysia, inter-alia, include the continuing urbanization, trade liberalization, and commercialization of agriculture-related activities in the country. The increasingly burgeoning, affluent and urbanized Malaysians require rapid growth in urban food demand; diversification of diets towards high-value food products; transformation of food production and delivery systems, and increased resource competition and conflict for land, water, and labour. Further, trade liberation in world trade hinges very much on binding international agreements, viz. WTO Agreement on Globalization and Trade Liberalization; International Treaty on Plant Genetic Resources for Food and Agriculture; International Plant Protection Convention; Rotterdam Convention; Agreement on the Application of Sanitary and Phytosanitary Measures; the Cartagena Protocol on Bio-safety; the Codex Alimentarius, and the Code of Conduct for Distribution and Use of Pesticides. These international agreements would have consequential effects on the way agricultural activities/industries are conducted, including (i) access to, and transfer of plant genetic materials and technologies;
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(ii) prevention on spread and introduction and control of pests of plants and plant products; (iii) export and import of hazardous substances; (iv) protection of human or animal life or health from risks arising from additives, contaminants, toxins or disease-causing organisms in foods, beverages or feedstuffs; (v) precautionary approach to protect Malaysia for their biodiversity resources; (vi) protecting the health of consumers and ensuring fair practices in the food trade; and (vii) establishment of Code of Conduct with strict adherence of protocols on the distribution and use of pesticide; although these are already adopted by some pesticide companies. One way to overcome these binding international agreements is to develop a win-win strategic alliances and international agreements and conventions either bilaterally or with trading partners within the contexts of (i) World Trade Organization (WTO); (ii) United Nations Conventions on Biological Diversity (UNCBD);(iii) Climate Change and Combating Diversification (CCCD); (iv) International Plant Protection Convention (IPPC); (v) Rotterdam Convention; and (vi) International Treaty of Plant Genetic Resources for Food and Agriculture. Yüklə 154,01 Kb. Dostları ilə paylaş:
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