A science framework ( SF ) for agricultural sustainability

The significance of Science Framework (SF) to date is receiving more acceptances all over the world to address agricultural sustainability. The professional views, however, advocate that the SF known as Mega Science Framework (MSF) in the transitional economies is not converging effectively in many ways for the agricultural sustainability. Specially, MSF in transitional economies is mostly incapable to identify barriers in agricultural research, inadequate to frame policy gaps with the goal of strategizing the desired sustainability in agricultural technology and innovation, inconsistent in finding to identify the inequities, and incompleteness to rebuild decisions. Therefore, this study critically evaluates the components of MSF in transitional economies and appraises the significance, dispute and illegitimate issue to achieve successful sustainable development. A sound and an effective MSF can be developed when there is an inter-linkage within principal components such as of (a) national priorities, (b) specific research on agricultural sustainability, (c) adequate agricultural research and innovation, and (d) alternative policy alteration. This maiden piece of research which is first its kind has been conducted in order to outline the policy direction to have an effective science framework for agricultural sustainability.


INTRODUCTION
Competence in developing and employing science and technology (S&T) is increasingly acknowledged as an indispensable factor in approaches to generating sustainable development (Rukmani 2008, Leeuwis 2000, Cash et al. 2003).Attempts to supplement such aptitudes have been augmented since the beginning of the 21 st century due to the emergence of a concern to promote a global structure for research and relate it to S&T (Busch et al. 1989, Carruthers and Tinning 2003, Koehnen 2011).Concerning S&T and related research, the literature indicates that there have been a small number of associated triumphs and failures (Gibbons 1994).These reflect directives to show advances in competence (alternatively termed "efficiency") in relation to the understanding of and approaches to sustainable development, as well as to undertake the methodical research required to extrapolate from individuals' knowledge to attain a universal approach (Rahim and Emran 2012).In particular, such directives address types of agenda, academic requirements, societal provision and knowledge systems that are capable of connecting successful S&T with effective sustainability (Mantell and Van-Hove 2008, Sandall et al. 2011, Hellin 2012). 1 Agricultural operations and sustained development are not outside the realms of effective sustainability.Some of the earlier research guidance on agriculture has provided the foundations for working towards sustainability outcomes by developing fundamental technical concepts and there is recognition that there has been a considerable transmission of knowledge in relation to certain aspects towards these efforts (Mulder 2012).However, knowledge transmission in terms of a scientific framework that can be employed significantly on a social and regional basis in agriculture is unfortunately lacking with respect to many technical aspects.
Another lacking is the transfer of scientific research and development (R&D) between the natural sciences 2 and agricultural sciences.For the transfer of scientific R&D knowledge to be efficient, as expected, it is necessary to develop societal reactions in relation to shared concerns (so that the information is discerned by significant stakeholders); these must not only be realistic, but also relevant and valid (Rahim and Emran 2012).The transmission of scientific knowledge regarding R&D here indicates the "integrity (i.e.reliability)" of the link between technical competence and equitable attitudes in activities (Hellin 2012).Moreover, any related disputes or issues concerning needs, fairness and inefficiencies should be resolved and the salience of effective policies and choice selections focusing on the distant future should be ensured (Alauddin and Quiggin 2008, Hellin 2012, Sulaiman et al. 2012).Therefore, legitimacy 3 in relation to needs, the validity of fair choice and the transfer of scientific knowledge in all sectors within an economy are vital parts of the construction of "integrity" (Buttel 1997).In addition, the incorrect selection of R&D knowledge and transmission can be overcome by an extensive process of learning from past mistakes.It is important to acknowledge the value of such tasks as a way forward, for example the work done "at the margins" by societal experts and policy makers (Rahim and Emran 2012).However, how technical competence can be transmitted fairly and equitably in an economy, for example through sanctions or compelling compliance from sectors, and issues of how to ensure technical equality and how to develop appropriate categorizations are still matters of debate in many countries, Malaysia in particular (Buttel 1997, Alauddin and Quiggin 2008, Sulaiman et al. 2012).The complexity of the successful diffusion of scientific R&D in society as a result of the dissimilarities between the various groups, results in difficulties to bridge the gap in unsuccessful diffusion to make provision for sound economic growth particularly on margin-straddling organizations and activities in scatter-locations such as in Malaysia (Lederman 2006, Miller 2006).
Debates concerning the diffusion of scientific R&D between the natural sciences and other components of society continue to 1 Effective sustainabila four fundamental domains: ecology, economics, culture and politics.
2 Namely physics, chemistry, medicine, and biology, as well as related fields.
3 Legitimacy concerns the awareness of stakeholders with regard to ethics and equitable attitudes in relation to actions.

1889
SF FOR AGRICULTURAL SUSTAINABILITY this day, but in reality, a consensus must be attained with regard to integrity and work at the margins towards an effective framework for sustainable development employing science and technology (Rahim and Emran 2012). 4 With regard to complexity, the European Commission has argued that the solutions to political and ethical dilemmas involving the scientific framework (science and technology) and other aspects of society (i.e.welfare-related aspects) cannot be resolved unless awareness on the part of stakeholders is explored.To ensure sustainability, any scientific framework should be both broad and applied to various parts of an economy, agriculture in particular.Studies by the Miller (2006) and Lederman (2006) indicate that the scientific framework should have some fundamental structures in terms of competencies to address the following aspects: i) to explain phenomena scientifically; ii) to design and evaluate scientific enquiry; iii) to interpret the data and evidence, scientifically; iv) to engage in rational trade-offs between economic needs and ecological capacity.
However, there must be integration in relation to the different scopes of such fundamental structures in terms of the ways in which the requirements for framework and policy equilibrium afford the integrity, salience, equity, justice and authenticity of the information (EASYPol 2006).
In addition, there must be coherent trade-offs between societal needs and ecological capacity to maintain long-term environmental governance. 5If the societal need is greater than ecological capacity, there should be an ecological intervention 6 that outlines materialization from early scientific innovations to top-level guidelines (Anderson and Valenzuela 2009).Hence, the "efficacy" of technical contributions is vital; however, there are issues in terms of how this is to be estimated, the outlining of distinct research questions and alternative measures for addressing problems, rather than simply what processes may be employed to address ecological evils.Therefore, R&D related to equity is required to address problems and measurements (Anderson and Valenzuela 2009).Only then approaches to generating sustainable development will be promising and will be integrating in achieving an articulation of a plan.
Sustainable development is a concept comprising a variety of approaches that relate to how problems are originated and to how procedures are planned to address them (Cerf et al. 2011, Koutsouris 2008).What is meant by sustainable development according to governments, environmental activists, businesses and social reformers?It is regarded as the juncture between society, the economy, 4 A framework is a real or conceptual structure intended to serve as a support or guide for the building of something that expands the structure into something useful.It is more comprehensive than a protocol and more prescriptive than a structure.It denotes a set of beliefs, ideas, or rules that form the basis of a system or society, and relates scientific literacy matters at both national and international levels (Lederman 2006, Miller 2006).In particular, in relation to the issue of sustainability on agriculture it highlights the availability of sufficient water, food security, disease control, and the generation of adequate energy, including that if adapting to climate change. 5Meadows et al. (1992) argue that "if the present growth trends on world population, industrialization, pollution, food production and resource depletion remain unchanged, the limits to growth on this planet will be reached sometime within the next 100 years".There is no doubt that as ecological resources are limited, there should be a balance in economic activities to maintain the ecological capacity for future generations. 6If there is a deviation of proper environmental policy that advocates sustainability to maintain social and economic and political activities, and if environmental policy is unable to address environmental issues effectively, it may disturb the proper functioning of the cycle of ecological capacity and would affect business, civil society and government as a whole in the ecological management system (Anderson and Valenzuela 2009).FERDOUS AHMED et al. government and the environment, all of which are distinct but associated entities (Reed et al. 2006).We disagree with the view that sustainability issues are not integrated with these entities, but rather consider that they are somewhat fractured and multifaceted, particularly the fact is that they are measured in diverse options.Very often the economy is prioritized in guidelines and the environment is analyzed as separate from human beings (Bockstaller et al. 1997).However, there are interrelationships in sustainable development as the economy relies on the community and the environment; man's survival and civilization is subordinate to and within the environment.Therefore, the links between integrity and technical competence with the critical notions raised earlier, such as ethical issues, equity, technical equality and suitability, are very important based on societal needs.However, R&D issues, knowledge transfer and the division between the economy, society and the environment, frequently results in a constricted techno-scientific approach, whereas the debates in which the civilization needs to engage in terms of the current socioeconomic formation are regularly overlooked, and primary discussion concerning sustainable societies and the diversification of literature is mostly absent (Fraser et al. 2006).
It is recognized that science-based knowledge is the key factor in technological development related to economic growth and development (Cash et al. 2003).Here, a knowledge-based economy is crucial in moving towards a science-based economy (Hezri and Hasan 2004).New information such as development of science is progressed by generating investigation and assessment (Hopwood et al. 2005).Research and development (R&D) strategy is the fulfillment of market requirements and reveals of associated difficulties how to overcome (Hopwood et al. 2002).Hence, innovations are used to derive advantages from technology, invention and services thus result in greater economic growth and productive wealth (Bell and Morse 2004).
The evidence is well-built by the integration of the different scopes on sustainable development to enhance the advanced economics. 7Is the dissemination of scientific knowledge capable of responding to concerns in all parts of the economy?This is the critical issue we aim to address in our research and we also intend to identify the gaps in the science framework related to agricultural sustainability.
This research comprises a case study in Malaysia designed to evaluate sustainable development with a view to developing an effective science framework for agricultural sustainability.In particular, it addresses the following research issues: • To what extent has Malaysia been successful in rebuilding its agro-economy through industrialization? 8 In particular, here we consider the fact that the contribution of agriculture to the national gross domestic product (GDP) appears to be negligible (Figure 1).• What are the lessons to be learned by policy makers?• What is the way forward to resolve the issue of agricultural sustainability?
We understand that there are some policy gaps in relation to strategies concerning the choices made on national agenda for agricultural sustainability.There may some gaps in the understanding of and the focus on economic growth and productive wealth distribution. 7Malaysia is considered a developing to advanced economy and trying to catching up the innovations that are used to derive advantages from technology.
8 Although Dr Mahathir Bin Mohamad (the former Prime Minister) was successful in rebuilding Malaysia's economy through industrialization; he has often been criticized for his negligence in addressing food security and agricultural sustainability issues.Despite having considerable legitimacy, agriculture was again emphasized in the ninth Malaysian Plan during the state power of Mr Abdullah Ahmad Badawi (former Prime Minister) in 2006 (Ministry of Finance, Malaysia).

SF FOR AGRICULTURAL SUSTAINABILITY
Furthermore, the focus on R&D related to the natural sciences over the last two or three decades may have delayed progress on the development of sustainability in the potential parts of the economy.Hence, the effectiveness issue, particularly for agriculture, is not commonly addressed in Malaysia.That is why it is important to promote the understanding level of sustainability and undertake methodical research in relation to agriculture.
Malaysia needs to embrace the mega-science approach, incorporating science, technology, and innovation (STI), to lead the sustained growth of the economy towards long-term sustainability.Mega science adopts the intensive, extensive and in-depth use of knowledge to generate products, technologies and services in all aspects of economic growth and sustainable development (Rahim and Emran 2012).Nowadays, the question most commonly asked by policy makers is how STI can aid economic growth without compromising environmental sustainability (Bossel 1998).Unfortunately, over the last 30 years, the implementation of anthropogenic STI methods worldwide has transformed food production, consumption, transportation, health, and communications in such a way that is resulted in unsustainable changes in climate patterns.However, the initiatives and outcomes have thus far been ignored (Corbiere-Nicollier et al. 2003).Furthermore, Malaysia has the capacity to transform its economy more productively due to the huge biodiversity of its natural resources, but this has not yet occurred.
There are vast opportunities in various sectors of the national economy which can be leveraged to resolve the challenges and problems faced in agriculture.This could be achieved through innovative approaches in the application of science, engineering and technology (SET), or research and extension (Alston et al. 1998, Mullen et al. 2000).Identifying and developing various tools through SET could ensure the benefits of Malaysian economy in a sustainable manner (Navarro 2006).A considerable body of literature, including contributions from Hellin (2012), Mulder (2012), Prasad (2012), Baerenklau and Keith (2007), Sharmistha (2007), Rao and Hanumantha Rao (2005) reflect the needs and issues of sustainable development, which provides innovation both in the national and international arenas.However, from the Malaysian perspective, unfortunately, effective initiatives are limited.Therefore, this study has taken the initiative to mitigate the limitations in the Malaysian context by introducing an additional guideline in relation to SET for the Mega Science Framework (MSF) and aims to provide a recommendation for a scientific framework that is applicable and effective in terms of sustainable growth with particular reference to agriculture.

STUDY OUTLINE
To our knowledge, no extensive scientific research has been done on agricultural sustainability in Malaysia.As the Malaysian government is dependent primarily on the service and manufacturing sectors, there is still a gap in national policy related to the agricultural sector, which is given less priority (EPU 2006, Rahim and Emran

2012).
It is regrettable that even though Malaysia has a huge land area of which 60% is forest, a very important indicator for sustainable agriculture, policy makers have failed to develop innovative strategies for the agro sector (Rahim and Emran 2012).Furthermore, the contribution of agriculture to national GDP has decreased dramatically in most developing nations over the last two decades, this is quite noticeable in Malaysia as well (Athukorala andLoke 2009, Arshad et al. 2010).9Table I shows the comparative expenditure (Rm) ratio between national R&D and endowment to agriculture. 10The endowment ratio decreased for agricultural R&D in all major master plans from 2001 to 2011 and also does so in the forthcoming master plan for the year 2015 (EPU 2014).the goal of achieving meaningful sustainable development could be attained.Therefore, the Malaysian government should realize the importance of sustainable agriculture.So that it could contribute to the national GDP significantly in the future.A balanced economy could be achieved for long-term sustained economic growth, even if Malaysia experiences effects from climate change or a meltdown in foreign investment over time.
In this era of globalization, very few boundaries remaining between most fields; in fact, there is an interlinking or connectivity among the various knowledge domains (Rahim and Emran 2012).However, information and communication technology could be potential for the agriculture and especially by applying a multidisciplinary approach.The collective knowledge embedded in a multidisciplinary approach can be innovative, extending and giving new meaning to agriculture.Hence, there is great potential to regain predictability in agriculture 12 and it may be possible to enhance knowledge in different fields of study, including agro-forestry, the environment, agro-biotechnology, bioremediation, ecotourism, and agro-tourism (Manap 1986).A multidisciplinary approach employing the MSF 13 could combine sustainability knowledge, open up new understanding, develop concrete capabilities, provide new scopes, and ensure comprehensive and diversified food security technological support, for example in relation to sufficient water sources, disease control, R&D for future innovation, agrobiotechnology, bioremediation and agro-engineering in adapting to vulnerability resulting from climate change or related matters. 12The predictability of agriculture (or the lack of it) relates to the gap between potential production of agricultural products and production lost for one or other reason (e.g.poor management, ineffective strategy, climate change, or lack of proper research, development and innovation).These gaps would be minimized by the proper application of the MSF, for example by utilizing modern innovation and R&D, namely agro-biotechnology, bimolecular and bioremediation. 13The MSF is here not only a science-based innovative framework but is also related to socio-economic engineering in the context of the techno-centric paradigm, adopting a different approach that has a multilevel perspective and takes stakeholder priorities into consideration.(Zainal et al. 2008).This indicates the limitations of the MSF in terms of implementing the desired agricultural sustainability.Therefore, it is clear that Malaysia's proposed model in the MSF is not converging effectively to provide sustainable agriculture.The expert view suggests that the NEM does not strategize for sustainability as it puts more emphasis on the private sector (EPU 2006).However, privatization results in some sectors to fall in the deficient market mechanisms.This market mechanism also can be resulted in more disputes as it is based on the unequal distribution of natural resources in the NEP (NEP 2010).Moreover, the propaganda of privatization is criticized as it is based on the elite class and focuses less on effective sustainability for the poor whose livelihood depends on agriculture.
Ensuring effective sustainability in agriculture is very important to support growing requirements, for example in relation to quantity, quality and the provision of multi-faceted agricultural products 14 The key research questions embraced in the MSF include how effective and efficient technology can change existing technical systems and how innovation can enhance future ability by transferring knowledge, considering various possible alternatives.The underlying paradigm considers it possible to negotiate the trade-off between societal needs and future development in a manner that produces a win-win situation. 15The NEP was a restructuring action programme launched in Malaysia by the former Prime Minister, Tun Abdul Razak, in 1971 and it was succeeded by the National Development Policy in 1991.It was essentially an ambitious socio-economic affirmative action programme, which was partly against privatization and was controversial as its ideas were based on socialism.However, to increase per capita GDP in the late 1990s, the Malaysian government introduced the NEM, replacing the NEP.Its aim was to transform the economy into one with high income rates and quality growth, as well as containing key plans for high income, sustainability and inclusiveness.In particular, the goal of the NEM is to stimulate economic growth by improving worker productivity across all sectors of society, in part through an improved system of affirmative action, with an eye towards sustainability which is managed directly and indirectly in the MSF.FERDOUS AHMED et al. and services for agricultural sustainability and food security.However, the integrity of the transmission of scientific knowledge would be unrealistic, irrelevant and invalid if the NEM were implemented to its full extent (NEP 2010).To establish effective integrity, there is a great need to locate elements that are lacking in policy and identify a way forward to overcome barriers to equality in order to ensure feasible and sustainable development.Finally, there is a need to establish answers to the following research questions concerning the MSF: • At what point are we now?
• What are the phenomena on which we should be focusing?• What intrinsic compensations can we obtain?
• Where should we be positioned as a country?
• How may we achieve the goal of 2050working together?• Can these efforts help determine a successful roadmap?
IMPROVEMENT OF THE MSF USING AN EFFECTIVE

KNOWLEDGE MANAGEMENT SYSTEM
From perusing the relevant literature, it is apparent that the barriers to the MSF require a feasible solution to achieve sustainable agricultural development; thus, Malaysia should remodel its policies to generate an improvement in knowledge by including a good number of universities and research institutes in the process.The mega science approach must highlight the need to reinforce R&D policies for non-traditional sectors along with modernization.To strategize with a view to realizing the entire potential of sustainability, implementing R&D is essential.Hence, a mega science strategy should recognize a R&D policy that can be acted as the optimum indicator for all the specified sectors related to economic growth and development.Figure 2 shows low R&D investment in Malaysia compared to other advanced economies.To attain this target in the NEM, the Malaysian government should increase at least 2% expenditure in S&T activities.
The NEM aims to achieve an effective knowledge management system by 2020 (NEP 2010).However, according to the investment scenarios shown in Figure 2, the Malaysian figures are not at all impressive in terms of attaining a sound MSF that can determine the future agricultural agenda for sustainable development.R&D requires a long period to demonstrate benefits, unlike the benefit in national GDP derived through commercializing knowledge and research findings (Figure 3).To obtain widespread, persistent and rigorous benefits from R&D activities, a longterm R&D vision is required, involving bold, up-front investments for agricultural sustainability (Pardey et al. 2006).As there are financial constraints, it is difficult for a country such as Malaysia to make the necessary investments that could generate significant strides in an approach towards the MSF.Therefore, we emphasize that a long-term strategy should be implemented extensively in the agricultural sector (Alston et al. 2000).Otherwise, the transmission of scientific knowledge would be no more than a policy issue on the agenda.Therefore "integrity" in relation to technical competence with salience for SF FOR AGRICULTURAL SUSTAINABILITY  effective policies and the outcome of MSF, would be unrealistic, irrelevant and illogical.Although the Malaysian economy is slowly developing based on industry and manufacturing, there are nonetheless several knowledge gaps in agricultural sectors, both in terms of theoretical and applied aspects of research. 16In particular, finding the optimal solution requires a sound and effective concentration of technological knowledge and sustainable economic development (Navarro 2006, Hellin 2012, Mulder 2012).In addition, for every 10,000 population there is a full-time equivalent (FTE) researcher in Malaysia.However they are low-waged compared to other advanced and transitional economies (Figure 4). 17Does this mean that Malaysia is not on the right track to fulfill the aims of the MSF by 2020?It certainly appears that the proposed MSF is currently unable to identify gaps and a way forward to address the required objectives through knowledge management.

FUNDING OPTIONS AND INNOVATION
The Malaysian government contains diverse ministries concerned with agriculture and its related fields.Among these, the Ministry of Agriculture and Agro-Based Industry, the Ministry of Natural Resources and Green Technology, the Ministry of Science, Technology and Innovation, the Ministry of Education and the Ministry of Domestic Trade and Industries are the most relevant (EPU 2006); the large number of ministries that directly or indirectly oversee the agricultural sector and share responsibility results in bureaucratic obstacles to providing research funding for technology and innovation (DOS 2010).There are some funding sources available for agricultural research, such as the Prototype Research Grant Scheme (PRGS), the Exploratory Experimental Research Grant Scheme (ERGS), the Long-Term Research Grant Scheme (LRGS), the Research University Grant Scheme (RUGS), the Agricultural Research Fund (ARS), the Fundamental Research Grant Scheme (FRGS), and the Malaysian Palm Oil Board fund for research (CESS).However, unfortunately most of the research grants have various limitations.First, the amount of research grant tends not to be adequate for studies in agricultural technology and innovation.Second, most of the grants are conditional, which sometimes discourages research scientists from applying (Blackmore et al. 2002).
Therefore, the outcomes of MSF studies are always questionable and private investors are gradually becoming discouraged from taking part in enhancing the framework. 18The perspective of some developed and emerging countries, which made an allocation to generate the R&D agenda, could be used as a model (Chichilnisky 1994).According to the EU (European Union) country report of 2011 on South Korea, it increased its funding for R&D to up to 28.7% from 24.3% in 2005 (EU 2011).This means that the South Korean government increased the funds available for research and innovation by 1.1% on average per year.The United States (US) is the leading country in research and its research fund is one of the largest for agricultural technology and 16 It is presumed that the growth of the economy may drop in the future due to the growing population and improper use of renewable and non-sustainable resources.However, there is a way of overcoming the constraints by managing natural and environmental resources.Hence, the growth of the economy should not only depend on resources and expertise but also on sustainable natural resource management, for example in relation to land, forestry and water, as well as building environmental capacity. 17The transitional economies included here are neither fully developed nor developing countries, but are changing gradually from centrally planned economies to a free market (i.e.Russian Federation). 18Private investors may play a vital role in sustaining MSF studies involving different agricultural practices such as those related to food, fuel, fiber, pharmaceuticals, etc.They can promote agricultural knowledge and networks to design and conceptualize three-layered economic development models including agrarian, industrial and knowledge based agricultural aspects.SF FOR AGRICULTURAL SUSTAINABILITY innovation (EU 2011).The research budget of the US Department of Agriculture (USDA) is funded by two different organizations: the Agricultural Research Service (ARS) and the National Institute of Food and Agriculture (NIFA).The US government is prioritizing research and innovation for the agro sector through a policy which is supposed to increase research funding (EU 2011).Now the question is that how Malaysian government can effectively manage funds to implement MSF studies.Although the ruling government has a plan to apportion RM20 billion (US$1 = RM3.10)for increased science production by 2020, it is still not enough to attain an increment in R&D activities (Aminuddin et al. 2005).The Special Innovation Unit (SIU) of the Malaysian Prime Minister's Office could take necessary steps to spread and introduce the R&D activities in the country.It is also important to establish what percentage of the total grant could be provided by the private sector. Figure 5 illustrates the regional shares of public agricultural research expenditures.The Malaysian MSF has the potential to enhance bio-wealth prospects through research on the genomics of species belonging to both flora and fauna.It has already been proven that genomic traits can considerably improve agricultural production through the advanced technology of agro-biotechnology and molecular breeding (Fan et al. 2006).What can be done using these biological technologies for the welfare of agriculture in Malaysia?Through a widespread, persistent and rigorous focus on R&D activities and a long-term R&D vision, the Malaysian MSF could enhance crop production, yields and resistance to pests and weeds, as well as improve tolerance to increased temperatures, drought and floods.The functions of ICT, biodiversity conservation, water technology and agro ecosystems must be included in the focus of the MSF.Several essential technologies and technological innovations can be employed to address the short comings of the MSF, such as (a) the transplantation of bio-geographical species, (b) plant and crop gene technology, (c) innovations in fisheries and aquaculture, (d) sustainable rural and urban agriculture, (e) low carbon crops and green technology, (f) improvement of ICT based applications, (g) sustainable water technology, (h) research exchange among ASEAN countries in relation to agriculture, (i) human capital in agriculture, and (j) food safety and nutrition.

DISCUSSION
There is no doubt that the MSF is crucial in meeting the increasing demand to achieve sustainable agriculture.Consequently, the science framework should be linked to every aspect of agriculture; otherwise, the MSF will remain far from achieving sustainable development in food security.There are many issues with the agro sector, such as the lack of appropriate policy, constraints and risk management, which constitute barriers to agricultural development.Malaysia could adopt the model of Competitive Agricultural Technological Funds (CATF) to achieve the agricultural sustainability. 20This model 19 In light of innovative science framework, China has progressed DNA genome mapping and sequencing of more than 100 crop plants which are proving to be economically profitable. 20Bureaucratic constraints and the use of conventional methods in agricultural research have, in developing countries, led to funds being directed to agricultural technology.SF FOR AGRICULTURAL SUSTAINABILITY has been introduced in Latin American countries over the last three decades to advance agricultural technology, promoting agricultural research under a long-term framework.The key to this model is to select areas on a priority basis.Technology transfer is a vital issue in some developing countries such as Malaysia. 21Therefore, the issue is how Malaysia could strategize a new approach to technology transfer and in particular the four critical steps: i) knowledge management; ii) gap-filling research; iii) providing support and guidelines to the private sector; and iv) analysis of environmental impact.
Technological innovation in agriculture based on a multidimensional model is of considerable importance in Malaysia (Figure 6).Agricultural innovation comprises multiple actors, factors and levels and can be embedded in the MSF through co-evolutionary methods that combine all these effectively.Innovation in the MSF can be extended further following Gibbons et al. (1994) for the practices of sustainable agriculture.This innovation system for agro production and conventional science can be enhanced in two ways: i) merging multidisciplinary approaches and ii) aggregating the research knowledge of concerned scientists and stakeholders.There are disputed aspects of this mode which can be overcome by fostering greater awareness among researchers and stakeholders to build knowledge dynamics and the necessary expertise for further technological innovations. 22The main barriers to the implementation of the MSF in Malaysia are funding constraints in agricultural research and a lack of support for research in higher education.sustainable development.However, MSF is facing many disputes and issues with legitimacy in achieving successful and sustainable agricultural development.To understand what makes an effective MSF, this study appraises barriers, policy gaps, desired technology and innovation and current lacks using the Malaysian perspective as a case study.Unlike some neighboring ASEAN countries, it has been noted that agriculture in Malaysia is not receiving sufficient attention from technology and research, which is a prerequisite for achieving sustainable development.This study has evaluated possible strategies for sustainable development in agriculture that can be merged with the MSF.The points addressed in this study can be used to revise the proposed MSF in Malaysia and in other countries with similar transitional economies.

ACKNOWLEDGMENTS
This work was supported by RG157-12SBS project funding by Geran Penyelidikan (UMRG)-SBS and UPGP, IPPP University Malaya.The authors would like to thank University of Malaya for financial support.The authors are also thankful to Naima Sharmin, a PhD student at the Faculty of Science who helped considerably with the figures of this manuscript preparation.

Figure 3 -
Figure 3 -Time Lags on Increase in HR and R&D Investments and the Resultant Key Indicators Stimulating Economic Growth.Source: Sustaining Malaysia's Future, The Mega Science Agenda, 2011 (MSF 2010).
Furthermore, the public financial support for independent researchers is insufficient.Potentially, national agricultural research and university research systems can diminish the expenditure of private research, providing skilled expertise for private agricultural research and innovation.National agricultural research could also possibly supply technologies in the private research sector to afford the opportunities that can be observed in developed nations in the West.CONCLUSIONSFundamental components such as (a) national priorities, (b) specific research on agricultural sustainability, (c) adequate agricultural research and innovation, and (d) alternative policies, are required to promote sustainability research in agriculture and most importantly these should address recent environmental concerns.With this in mind, many emerging countries have proposed a mega science framework (MSF) for long-term

Figure 6 -
Figure 6 -A multidimensional model of agricultural technology transfer for the public sector.