ISAAA in Asia Promoting corporate profits in the name of the poor October 2000 |
||||||||||||||||||||||||||||
The controversy surrounding genetic engineering is heating up in Asia, as the transnational food and agriculture industry, worth over $700 billion a year1, moves to bring its patented biotechnologies into the regions farmlands. The companies are enlisting the support of a number of international, non-profit, development organizations to promote biotechnology and help to engineer the necessary political and legal landscape for its worldwide adoption. These organizations include the United Nations Industrial Development Organisation, the US Agency for International Development (USAID) and many others. The International Service for the Acquisition of Agri-biotech Applications (ISAAA) is one of the most focused promoters of gene technologies in Asia. Through the formation and support of key local elites, ISAAA is helping carry out an agenda set by transnational corporations (TNCs), in the name of Asias rural poor. 1. ISAAAs origins In the 1980s, the Rockefeller Brothers Fund brought together several other financiers to form the Resources Development Foundation in New York. This Foundation subsequently established an International Biotechnology Collaboration Program in cooperation with the Hitachi Foundation, with a mission to transfer biotechnology to the developing world. In 1991, under the guidance of Dr Clive James, former Deputy Director-General of the International Center for Wheat and Maize Improvement (CIMMYT), and with over a million dollars from an anonymous donor, the programme was re-established as an independent entity called the International Service for the Acquisition of Agri-biotech Applications (ISAAA) under the direction of Dr James. ISAAAs sole purpose is to facilitate the delivery of proprietary biotechnologies from the corporate labs of the industrialized world into the food and farming systems of the South.2 The first ISAAA center, the AmeriCenter, opened in 1992 at Cornell University in the US, where ISAAAs most recent Executive Director, Anatole Krattiger3, another former CIMMYT employee, was stationed. ISAAA now has a EuroCenter at the John Innes Centre in the UK, an AsiaCenter at Technova Inc in Japan, an AfriCenter at the regional office of the International Potato Center on the campus of the International Livestock Research Institute in Kenya, and a SEAsia Center at the International Rice Research Institute (IRRI) in Los Baños, Laguna, the Philippines. A LatiCenter is also planned. Besides the initial mysterious anonymous donor, ISAAA receives support from a number of institutions and biotech companies, including the Rockefeller Foundation, USAID, Novartis, Monsanto and AgrEvo. (See Appendix for current list.) In 1997, ISAAA reported that it had raised over $13 million for its programs.4 The big dollars are matched by high-profile board members, past and present, such as: Robert Fraley, head of Monsantos agbiotech program; Wally Beversdorf, head of Novartis Seeds biotech program; William Padolina, former Secretary of the Department of Science and Technology of the Philippines; and Gabrielle Persley, Executive Director of AusBiotech Alliance and advisor to the World Bank. (See Appendix for current list.) ISAAAs operations ISAAAs rationale is as follows. Since conventional agricultural technologies cannot feed the growing population, the world needs biotechnology, especially in the developing countries where demographic pressures are most critical. However, because of the enormous costs of biotech research and development (R&D), the technology is almost entirely in the hands of private companies in the North. The only way to get this technology to the South is to build "global partnerships" between the private sector of the North and the public sector of the South. Such partnerships require "honest brokers", such as ISAAA, that can bring the sides together and help ensure that the partnerships are carried out effectively.
At present, ISAAA targets twelve countries where it aims to fulfill its mission: Indonesia, Malaysia, the Philippines, Thailand, and Vietnam in Asia; Kenya, Egypt, and Zimbabwe in Africa; and Argentina, Brazil, Costa Rica, and Mexico in Latin America. To create these partnerships, ISAAA sets up technology transfer projects. They cover either tissue culture, diagnostics or transgenics (genetic engineering). While tissue culture and diagnostics involve simpler forms of modern biotechnology, they are seen as "stepping stones" to the more advanced applications. The projects involving transgenics focus on crops that are otherwise ignored by the private sector but which offer "a high probability of success over a short time frame" to demonstrate the effectiveness of these partnerships.5 In this manner, all ISAAA projects serve primarily to awaken interest in and commitment to biotechnology within national agricultural research systems (NARS) and to develop national capacity to conduct biotechnology research and development (R&D). For ISAAA, "capacity" refers to a countrys ability to adopt and integrate patented technologies from the North into local production systems. Its programmes, therefore, concentrate on field testing, gene transfer into local varieties, biosafety, negotiating license agreements and managing intellectual property rights. Since public opinion can interfere with the transfer of biotechnology as seen in countries as diverse as Bolivia, Indonesia, Brazil, France, India or Thailand ISAAAs programs are also directed at promoting public acceptance of the technology. This is done through publications, seminars, workshops, and, most importantly, its fellowship programs. Through fellowships, scientists and policy makers from the South are sent to corporate headquarters and regulatory authorities in the North to learn about such things as food safety regulations and how to do field trial applications, but also to establish personal relationships. ISAAA in Asia ISAAAs involvement in Southeast Asia began in 1996 when IRRI hosted ISAAAs annual board meeting at its facilities in Los Baños, the Philippines. A key participant at the meeting was the Philippines Secretary of Science and Technology, William Padolina. Dr Padolina soon became the Deputy Director-General of IRRI, and not coincidentally in January 1998, the SEAsiaCenter opened for business on IRRIs grounds. The location not only strengthens ties between ISAAA and one of the most influential agricultural research institutes in Asia6, but it lends ISAAA an automatic veneer of credibility. The Director of the SEAsiaCenter is Dr Randy Hautea, former head of the Philippines Institute of Plant Breeding. The Center targets Indonesia, Malaysia, the Philippines, Thailand, and Vietnam because "they all have the political will to pursue and adopt biotechnology applications."7 Table 1: ISAAAs partnership projects in Southeast Asia8
These technology transfer projects start with the identification of potential biotech applications in local farming and move on to removing hurdles to the full-scale deployment of transgenic crops. The major impediment to this end goal, at present, is "the lack of effective biosafety regulations and an uninformed public sometimes skeptical about transgenic crops."10 These are key concerns for ISAAA. A bedfellow brokerage One of the most important functions of ISAAAs projects is fostering the kind of personal relationships that will ensure the critical impetus to the adoption of biotechnology. In its own words, "By arranging for senior policymakers from developing countries to share views with business leaders of private corporations, ISAAA helps to generate the trust, confidence, and cooperation that will integrate developing countries into the agri-biotech revolution."11 In essence, ISAAA is building up an advocacy elite to create the regulatory environment for the successful introduction of corporate biotechnology from the North. In the process, these experts are expected to dampen social concerns and public dissent emerging at the local, national or regional level. The strategy seems to work. After visiting Monsantos Life Sciences Research Center, Dr. Chan Ying Kwok, a papaya breeder with the Malaysian Agricultural Research and Development Institute, said, "Walking through the greenhouses there I realized I was seeing agricultures future. It was exciting and inspiring."12 Dr Parichart Burns, a researcher with Thailands National Center of Genetic Engineering and Biotechnology (BIOTEC) had similar feelings when she visited Zenecas facilities in the UK: "We were able to see what the future holds for biotechnology . . . You realize that this technology is going to change everything."13 Going through a fellowship with ISAAA can have significant downstream implications. In September 1999, Dr Ruben Villareal, the Director of the South East Asia Regional Center for Research and Graduate Education in Agriculture (SEARCA), participated in an ISAAA study tour to Europe and North America.14 Soon after, his institute which is mandated by the governments of Southeast Asia to develop sustainable agriculture in the region announced that biotechnology was now a "priority theme" in its new five-year plan. According to Villareal, "Our interest lies in ethics and policy implications of biosafety standards set by each country, and how these can be harmonized."15 ISAAA and SEARCA have just announced they will jointly establish a Biotech Center in Los Baños, the Philippines, where both are located.16 Since ISAAAs activities involve high-level policy-makers, they can have immediate impacts. For instance, ISAAA held an ASEAN (and China) workshop on biosafety in cooperation with Indonesias Central Research Institute for Food Crops (CRIFC) in 1993. According to Dr. Sumarno, the Director of CRIFC, the meeting "triggered the development of our biosafety guidelines." After the workshop a small group drew up a draft based on Australian guidelines which were released by ministerial decree "because of the pressing need for guidelines."17 The "team feeling" established by ISAAAs personal approach spreads the sentiment of "us" (the pro-biotech camp) versus "them" (the anti-biotech camp) and as a consequence shatters the basis for real analysis of the issues and opportunities from a national development perspective. The full social, economic, and political implications of "the agri-biotech revolution" for the different countries and sectors in Asia are, in ISAAAs agenda, simply not considered. 2. Biotech as a cure for poverty? ISAAAs mission is an ambitious one: "to contribute to poverty alleviation in developing countries by increasing crop productivity and incomes, particularly among resource-poor farmers, and to bring about more sustainable agricultural development in a safer global environment."18 However it is constrained from the start by a very narrow framework: all of ISAAAs activities must encourage and deploy biotechnology in the target country. This will only work if biotechnology is the appropriate and effective way to address the needs of the resource-poor farmers. Since poverty is rooted in structural social, political, and economic problems not a lack of technology ISAAAs projects inevitably suffer from the same limitations as the Green Revolution. In both instances, the poverty of small farmers is used to justify the intrusion of an external technology, but the technology itself cannot address their fundamental problems. As Linda Cayanan, a farmer in Pampanga in the Philippines, points out:
The Mexican potato project Off the map of Asia but essential for understanding ISAAA is the Mexican potato project. In 1991, ISAAA initiated its first biotech transfer scheme. This involved a deal between Monsanto and Mexicos Center for Research and Advanced Studies (CINVESTAV) for the transfer of coat protein genes for Potato Virus X (PVX) and Potato Virus Y (PVY) resistance. It was followed by another deal, in 1997, for a replicase gene for resistance to Potato Leafroll Virus (PLRV). The Rockefeller Foundation kicked in $350,000 to finance the project. 19 ISAAA states that "the project regards resource-poor small-scale farmers as the main target group." From the outset, this makes the project a non-starter because small-scale farmers have little interest in the technology. In Mexico, potatoes are predominantly grown by large- and medium-scale farmers. For small farmers that do grow potatoes, "PVX and PVY are not the most pressing problems in Mexican potato production. Resistance to these two viruses alone is beneficial for farmers only if it is not associated with an extra cost."20 Not surprisingly, only large-scale farmers have expressed an interest in the PVX/PVY resistant potatoes.21 PLRV is a more significant problem, but it too is of relatively minor importance when compared with leaf blight and other structural problems. The virus-resistant potatoes cannot even be expected to reduce pesticides since pesticides are not used specifically against the disease. 22 Potato production in Mexico is firmly split according to landholding size, crop varieties and geography. Large-scale farmers (with over 20 ha) are responsible for 64% of the overall potato production.23 These farmers plant exclusively white varieties, derived from imported germplasm, while small scale farmers grow local red varieties, which fetch a lower price in the market but are resistant to blight by far the most serious disease affecting potato production in Mexico. The ISAAA project involves the development of both red and white virus-resistant potatoes. According to the licensing agreements brokered by ISAAA, CINVESTAV can transform local varieties with the PVX and PVY genes but it cannot transform imported varieties "suitable for processing." The agreement for PLRV involves more stringent conditions of use, and CINVESTAV is not allowed to transform the Alpha variety with the PLRV gene. Alpha is a white variety that accounts for 60% of the total production volume.24 Furthermore, Monsanto stipulates that, while CINVESTAV can share the transformed material with other developing countries, no transformed material (including potato exports) can be transported to the USA or other countries where Monsanto has patented the technology. These restrictions on the PLRV technology significantly weaken the projects potential benefits to large-scale and medium-scale farmers, who plant mostly Alpha varieties. Even should small farmers be drawn to the technology, the potential for it to benefit them is even more remote. ISAAA has secured a licensing agreement for the red varieties grown by small farmers, but there are currently no mechanisms to get these varieties out to small growers. As stated in one of ISAAAs reports: "The existence of a formal seed market for a certain variety is the precondition for the introduction of the technology into this variety. Under the current seed distribution system, therefore, transgenic virus resistance will not be disseminated in red varieties."25 Had ISAAA examined the situation from the outset, it would have seen that small potato farmers are completely cut off from all agricultural support. They have no access to credit even though potato production is extremely expensive. Public technological assistance vanished with the implementation of Structural Adjustment Programs during the last two decades, which sharply reduced the national budget for extension services.26 And, to compound the problem, small farmers have little capacity to demand changes, as they are not represented in the national potato growers associations. 27 Seven years into the project, ISAAA admits that: "Strategies to disseminate the technology and place it in the hands of small scale farmers have not yet been identified."28 Now it claims to be working with the government to bring small farmers within the seed distribution network by subsidizing private seed production. Under the plan, the state would buy genetically-engineered red seeds from commercial seed breeders at a promised price and then distribute them at a lower, more affordable price to small-scale farmers. But there is no clear assurance that the Mexican government will take this U-turn to rescue its small potato growers. And even if it does, the project will likely still fail because of the crisis potato growers are facing because of the North American Free Trade Agreement (NAFTA). Currently, local potato production is sustained by tariffs of around 272%. Under NAFTA, the tariff must be reduced to zero by 2004. This is bad news for Mexican growers, since US production costs are much lower. The cost for Mexican small-scale farmers is $1165 million/ton (M/t), while for American farmers in Idaho it is only $863M/t and in North Dakota it is $838M/t.29 Monsanto, meanwhile, is confident that the project will create the conditions for its seed interests. According to Rob Horsch of Monsanto, "The smaller benefit of the virus resistance will be the catalyst to . . . the development of an infrastructure to supply clean certified seed of the best germplasm with improved traits."30 The Tomato Spotted Wilt Virus project in Indonesia ISAAAs emphasis on "capacity building" and, in particular, the determination to build partnerships between industry and public institutions can make the stated objective of assisting poor farmers meaningless. This is what has happened with ISAAAs Tomato Spotted Wilt Virus (TSWV) project in Indonesia. In 1997, ISAAA initiated a collaborative project between Indonesias Central Research Institute for Horticulture Crops (CRIH), Novartis Seeds and Wageningen Agricultural University (Netherlands). Two CRIH scientists were sent on a five-week "intensive" fellowship to learn how to use techniques developed by Novartis. For ISAAA, the project, like all diagnostic projects, is considered a "stepping-stone" to more advanced applications of biotechnology. Perhaps the project will improve CRIHs capacity to manage the disease, but more significantly, it opens the door in Indonesia for the deployment of crops genetically engineered for resistance to TSWV, particularly those developed by Novartis and Wageningen. Wageningen has a patent for genetically-engineered TSWV-resistant plants31 and Novartis Seeds has already filed an application to test its genetically engineered TSWV-resistant tomatoes in the US. But how will the technology benefit small farmers? ISAAA can only say that the "training also strengthens Indonesias national agriculture program by establishing a solid biotechnology infrastructure."32 But the intrusion of a seed giant such as Novartis is no help and almost certainly a disbenefit to small farmers in the region. The Papaya Biotechnology Network According to ISAAA:
The only means that the project considers for accomplishing this objective is the development and introduction of papayas genetically engineered for resistance to the papaya ringspot virus (PRSV). Although, the transgenic papayas have yet to be released to farmers, Dr. Hautea champions the Papaya Biotechnology Network as "a model that proves biotechnology works in developing countries."34 But who is it working for? The transgenic papayas were originally developed for the export industry in Hawaii, where papaya is grown on relatively large farms. It is logical, then, that Malaysia, with a million dollar papaya export industry, is most interested in the technology transfer. Malaysias industry took off at the beginning of the 1990s, when the Malaysia Agricultural Research and Development Institute (MARDI) introduced its two Eksotika varieties.35 , 36 Before their introduction, papaya was grown in backyards or as a cash crop during the early establishment of rubber or oil palm plantations. With Eksotika, permanent papaya farms were established to cater to the new export markets, ranging in size from 1-2 ha monoculture farms to large-scale plantations of 500 ha. Since the Eksotika varieties are extremely susceptible to PRSV, and disease pressure is enhanced by monoculture cultivation practices, problems with PRSV rapidly emerged. The disease devastated papaya production in 1991 the first year it was detected in Malaysia.37 According to scientists at MARDI, PRSV "is the most important constraint that has curbed the development of the papaya industry in ASEAN countries."38 The project is more likely to reach small farmers in Thailand than in Malaysia, since papaya remains a backyard crop, with 100,000 families engaged in production and only 0.6% of papaya production exported. PRSV is a major problem for papaya production in the North of the country and Thai researchers and farmers have had moderate success with a number of strategies to combat the disease, including resistant varieties and cultural practices. Thailand has worked on biotechnology applications for PRSV since 1995, when the Plant Genetic Engineering Unit of Kasetsart University participated in a project with Queensland University of Technology with support from the Australian Centre for International Agricultural Research. ISAAA helps with biosafety and intellectual property rights issues. It brokered a deal with Monsanto, which owns the 35s promoter gene used in the gene construct, and other patent owners to permit Thai scientists to use the technology for research and development purposes alone. So far, ISAAA has made no attempts to broker a deal for the commercialization of the papaya. In Hawaii, where the technology was donated for free, the Papaya Administrative Committee incurred at least $100,000 in legal expenses trying to secure the patent licenses. 39 The mire of license agreements is not the only problem with the transgenic varieties. The technology itself may be a dud, as growers in Hawaii are already suggesting. According to the Hawaii Tribune-Herald, the papayas have a short shelf-life before turning mushy and they tend to be oversized, making them more expensive to ship. Growers say they get three times the price for older varieties and that the important Japanese market has banned genetically-engineered varieties.40 Fruit producers in Southeast Asia voice similar concerns. At a meeting in June 2000 with Thailand's Ministry of Agriculture, Mrs. Pranee Srisomboon, the general manager of the Thai Food Processors Association, argued that growing genetically-engineered papayas would have negative effects on the industry's exports of canned fruit salad to Japan, USA and Europe.41 The transgenic papayas also raise important biosafety concerns. According to Dr Peter Palukaitis of the Scottish Crop Research Institute, the genetically-engineered virus gene inserted in the papaya "may end up mixing with DNA from other viruses that infect these papaya plants, possibly resulting in the creation of new, potentially more virulent disease-causing viruses." Other risks include what is known as "synergy," in which the mere presence of the genetically engineered virus in the plants DNA makes it sicker than it would otherwise be when infected by another plant virus.42 In Hawaii, the widespread use of the transgenic papaya has created considerable virus pressure and there are already signs that the papaya is "less disease-resistant than advertised." 43 For whom does the biotech bell toll? Without having produced tangible benefits for small farmers, the connection between ISAAAs technology transfer projects and the well-being of small farmers is a leap of faith. It is based on the assumption that biotechnology per se is good for small farmers. According to Dr Krattiger, "Feeding the worlds rapidly growing population and stopping environmental degradation will require agri-biotechnology."44 Yet many small farmers in Asia, such as those consulted about ISAAAs work for the purpose of this paper,45 do not share this perspective at all (see box). Orly Marcellana, a farmer from Quezon, the Philippines, echoes the cynicism that many farmers share:
The examples above illustrate ISAAAs most critical failing: it has never stopped to ask small farmers its target group what they think the problems and solutions are, and what role, if any, biotechnology can play. This raises fundamental questions about ISAAAs accountability and legitimacy.
3. The business of charity ISAAAs projects aim to bring the benefits of biotechnology to where they are purportedly needed most developing countries. "Need", in ISAAAs logic, refers at once to poverty, which biotechnology is supposed to help alleviate, and a lack of access to biotechnology, which ISAAA will rectify by "contribut[ing] to self-reliance and sustainability through national capacity building for the long term."46 Despite the rhetoric, ISAAAs projects show a remarkable lack of concern for either the needs of the poor, as it would define them, or national self-reliance and sustainability. ISAAA is all about a big business agenda the integration of Third World economies into a biotechnology-driven market controlled by the North. This is best seen at work in the way ISAAA handles the intellectual property hurdle of technology transfer. Under its intellectual property rights (IPR) program, ISAAA has a straightforward agenda that follows a simple rationale: biotechnology is largely the subject of private intellectual property rights in the industrialized countries and therefore developing countries need to honor these ownership rights if they want to access the technology. ISAAA cannot succeed in its mission in Asia unless governments adopt stronger intellectual property laws and unless scientists are willing to negotiate licenses. So the task for ISAAA is to stimulate policy reform and teach research administrators how to manage IPR in its target countries.
This is not an easy task. The issue of IPRs in relation to plant, animal and human genes is becoming a minefield for policy makers. In Europe, such debates have the highest level policymakers in a quandary and political commitments frozen in their tracks.47 Meanwhile, developing countries are fighting to reframe global IPR obligations in relation to genetic resources under the World Trade Organizations agreement on Trade-Related Aspects of Intellectual Property Rights (TRIPS). For Northern governments and the biotech industry that ISAAA works with, the TRIPs agreement means as a minimum granting patents on microorganisms and microbiological processes, as well as some kind of legal protection over new plant varieties. Few developing countries at WTO have fully implemented TRIPS because they see it as a threat to food security and biodiversity. In the absence of what it sees as adequate legislation, ISAAA focuses on licensing strategies to facilitate access to proprietary technology outside of the IPR system. This means that until the intellectual property systems are in place in the poor countries, to protect the rights of biotechnology patent holders in the rich countries, contract law will have to prevail. In the words of Dr Krattiger:
The complexity of moving proprietary technology around the life industry is mind-boggling. The infamous pro-Vitamin A rice which is being promoted as salvation for millions of malnourished women and children across the Third World purportedly carries no less than 70 patents on it.49 By the time it moves from Switzerland, where it was developed, to a country like Bangladesh, where it is supposed to be commercialized for free, a huge number of licenses and agreements must be negotiated, according to ISAAA, to prevent Bangladeshi farmers from having to pay all the costs of research that went into it. Quite apart from the headaches a process like this entails, no one involved in promoting this technology is asking the farmers if they want it in the first place, and few are questioning whether this kind of intellectual property tangle is legitimate at all. More fundamentally, there is a profound mismatch between the privatization of agricultural research and the pursuit of the public good. Achieving one through the other is essentially impossible. But ISAAA is attempting it anyway. It trains people how to buckle up, face the music of the TNCs who demand the kind of market control afforded to them through IPR, and tries to support them in the IPR quagmire. In so doing, ISAAA actively promotes the expansion of the patent system to the life sciences. ISAAA has gone a step further than simply dealing with licenses and transfer agreements. It is also taking it upon itself to secure its own intellectual property rights over technologies it deems relevant for Asias poor in the name of Asias poor. In April and August of this year, ISAAA filed two separate US trademark applications on the words "Golden Rice". It claims to have done this "to ensure that the name GoldenRiceä remains in the public domain for the benefit of resource-poor farmers."50 Who in the community of nations authorized an entity like ISAAA to secure private rights over the Golden Rice name for the purpose of ensuring its public domain status if that makes sense is a mystery. How resource-poor farmers will benefit from this operation is even more obscure. Conclusion ISAAA appears to be successfully influencing the development of biotechnology in Asia. It has brought together a large number of scientists and officials, generated enthusiasm among them for biotechnology by sending them to cutting-edge US facilities, and then trained them to be excellent spokespersons for the needs of this industry. This advocacy network is active in science, government, business, education and media throughout the region. ISAAA is influencing the course of public policy development related to genetic engineering in the region, encouraging US-style biosafety and intellectual property regimes. ISAAA is a valuable tool for the biotech industry. On the one hand, it supports a constant stream of public relations exercises to propagate hype about humanitarian motives behind biotechnology. On the other hand, it concentrates on generating the proper business climate for the biotech industrys market expansion in important developing countries. It is not surprising, then, that the industry provides funding and other resources to ISAAA and plays an important role in directly governing the institution. From the standpoint of farmers in the region however, ISAAAs operation suffers from numerous drawbacks. Too many of ISAAAs premises are based on vested interests. If the problem ISAAA seeks to address is poverty in Asias farming sector, biotechnology is not the right starting point. Many farmers do not believe that biotech will improve their conditions at all. ISAAAs suggestion that North and South, private and public can be treated as "equal partners"51 is strategically erroneous. As Perfecto Vicente, a farmer from Davao del Norte in the southern Philippines, explains:
ISAAAs agenda will only make conditions worse for small farmers. Biotechnology is controlled by foreign agribusiness whose interests are diametrically opposed to the needs of small farmers. Small farmers need sustainable, inexpensive technologies that do not come with high risks, or generate dependency on foreign companies. ISAAAs technology projects, despite their modest nature and especially because of their larger intent, offer no practical help to small farmers. Finally, there is a very serious problem of accountability permeating ISAAAs operations. ISAAA uses the poverty of small farmers in Asia to pursue its own agenda. The institution is not transparent and cannot be since it carries responsibility for corporate security, both in its constitution and in the deals it brokers. What it boils down to is that, through ISAAA, industry is using local people from illustrious scientists to anonymous small farmers across Asia to promote biotechnology and expand markets for its own benefit. Unfortunately, more than just being used by ISAAA, small farmers are also being put at risk. Biotechnology comes packed with both environmental and socioeconomic threats that will be borne primarily by the farmers. They are the ones who will feel any negative health or ecological impacts most acutely and they are the ones who will face the consequences if the crops fail or promised markets disappear. ISAAA is pushing a much broader agenda than the donation of private technology one that benefits industry from the North while offering no clear benefits to the South. Rather than accept the gifts of high-tech papayas, people of all walks in Asia should filter out the hype and make a much more critical assessment of what biotechnology, and its agents like ISAAA, really have to do with "development".
APPENDIX ISAAA Donors
ISAAA Current Board of Directors
Former Directors
Patrons
Participants from Southeast Asia Involved in ISAAAs activities Indonesia:
Malaysia:
The Philippines:
Thailand:
Vietnam:
Footnotes: 1.
Based on the sales (within the respective sectors) of the top 100 food
and beverage companies, the top 10 agrochemical companies, and the top
10 seed companies in the world. Sources: Seymour Cooke Food Research International,
"The Worlds 100 Food and Beverage Corporations", 2000;
Agrow, World Crop Protection News, April 16, 1999 and September
17, 1999; and RAFI. |
https://grain.org/e/35
ISAAA in Asia: Promoting corporate profits in the name of the poor
by Devlin Kuyek, Biothai (Thailand), GRAIN, KMP (Philippines), MASIPAG (Philippines), PAN Indonesia, Philippine Greens and UBINIG (Bangladesh), Dr Romeo Quijano and Dr Oscar B. Zamora | 25 Oct 2000Author: Devlin Kuyek, Biothai (Thailand), GRAIN, KMP (Philippines), MASIPAG (Philippines), PAN Indonesia, Philippine Greens and UBINIG (Bangladesh), Dr Romeo Quijano and Dr Oscar B. Zamora
Links in this article:
- [1] mailto:[email protected]
- [2] http://www.isaaa.org/EXR95.htm
- [3] http://www.isaaa.org/dlumali/dlumalilectweb/closing_remarks.htm
- [4] http://gov.state.hi.us/News/98_210.html