India has been ‘limping behind’ in science publishing rankings over the past decade, a leading analyst of India’s scientific publication output has cautioned. The warning follows an analysis of the total number of science and social science papers published by countries during the period 1 January 1999–31 October 2008 in journals indexed in Web of Science. The analysis was published by Thomson Reuters earlier this year. India is ranked twelfth in the index. While China — ranked fifth in the index — has jumped from 1.5 per cent of the world share in 1988–1993 to 6.2 per cent between 1999 and 2008, “India has limped” from just 2.5 to 2.6 per cent during the same time frame, observes Subbiah Arunachalam, a scientist with the MS Swaminathan Research Foundation and former editor of one of the Council of Scientific and Industrial Research’s journals. Brazil, South Korea, and Taiwan have also recorded a much higher growth rate than India, he notes. “India has a long way to go. Mere ambition to become a knowledge power is not enough,” Arunachalam, who tracks India’s annual scientific publication performance, told SciDev.Net. “When we recruit new faculty we do not give them sufficient funds and other infrastructure such as lab space,” Arunachalam says. “Where will they get bright students unless the schools are strengthened? Processes take time and you cannot compress them into here and now. Long term planning is necessary.” Arunachalam told SciDev.Net he sounded the first warning of India’s stagnation in scientific publications as early as 2002 but it was largely ignored by the country’s science administrators. The country has now started to take remedial measures by announcing new institutes for science education and research, new Indian Institutes of technology, and polytechnic institutes (see Indian plans boost next generation of scientists). But these “will take at least a decade to make a difference”, says Arunachalam. But Padmanabhan Balaram, director of Indian Institute of Science and editor of Current Science — a journal of the Indian Academy of Sciences — cautions in a 25 May editorial against the growing over-emphasis on counting citations and impact factors by the scientific community worldwide. “Even as we [Indian scientists] collectively lament the lack of enthusiasm of young students of science, there is little discussion of how institutions and the researchers within them are perceived from outside. ‘Fun’ may be a word hard to associate with [the] scientific community, obsessed with quantitative performance parameters …”
Category Archives: Science Policy
University World News, 15 June 2008
The United Kingdom wants to strengthen its collaboration with India in research and higher education, says British High Commissioner to India Richard Stagg. Britain is willing to assist India in building world class universities and the two countries will collaborate in establishing a new Indian Institute of Technology, a new Institute of Science Education and Research and a new central university, Stagg says.
International cooperation in education and research is moving up the political agenda. It was then-Prime Minister Tony Blair who announced the UK-India Education and Research Initiative when he visited India in September 2005 and later launched it in April 2006.
Under this programme, the UK pledged £26 million (US$51 million) for research initiatives with India and will soon open Research Council offices in New Delhi to identify opportunities for collaboration.
Stagg describes the research initiative as one of Britain’s biggest commitments and says it signifies the importance of India as an education partner. Its two principal activities are promoting research partnerships between centres of excellence and developing joint and dual course delivery.
Following a meeting between British Prime Minister Gordon Brown and Indian Prime Minister Manmohan Singh in January, a delegation of British vice-chancellors visited India to discuss collaboration in higher education.
British universities see India as a pool of talent that can be tapped into. Through such collaboration, the universities will have access to a large number of students although Britain is already the second most favoured destination for Indians after the US.
Yet the last time the UK was involved in setting up a major educational institution in India was in 1961 when it assisted in establishing the Indian Institute of Technology in New Delhi. Now, if the Indian government give permission, British universities are ready to set up their own campuses in India.
“It would be much cheaper for students than to take huge loans to go abroad,” Stagg says. “Also, students would not feel homesick being away from their families. So it is a win-win situation where students would get quality education but at a lesser cost.”
Such collaborative initiatives are expected to have implications far beyond education and research. Tim Gore, British Council project manager in India, says the UK-India research initiative is “the key to building trust between the two countries”.
Similarly, British Education Minister Bill Rammell says it has made “a major contribution towards stimulating UK-India research collaboration at the cutting edge of scientific and technological innovation, as well as creating stronger higher education partnerships”.
“This closer collaboration is playing an important part in developing the wider strategic relationship between the UK and India,” Rammell says.
University World News 31 August 2008
Ever since Pakistan came into being 61 years ago, the country has been going through turbulent times. But the past six years have seen a remarkable change in the landscape of higher education, a silent revolution as a World Bank report refers to it, largely thanks to the six-year old Higher Education Commission and its extraordinarily capable chairman Professor Atta-ur-Rahman, an internationally renowned organic chemist. Rahman’s goal is to democratise quality education without diluting excellence.
Speaking at a meeting of the Academy of Sciences for the Developing World in Trieste, Italy, recently, Rahman noted that:
* Research funding had increased by 2,400% in the past five years, bringing the total amount of public funding for research to more than US$1 billion.
* There had been a 20-fold increase in the budget for higher education over the past seven years.
* Performance determines pay: Pakistan’s new tenure track system allows salaries up to $5,000 a month for really productive professors with evaluation by a committee of international experts working in the best universities.
* Maximum tax payable by academics is 5%, and a 75% tax waiver exists for university professors that allows them to keep much of their salaries.
* More than 500 scientists and professors have come from abroad to work in Pakistan; although many are Pakistanis, several are foreigners attracted by good salaries and other reasons.
* Twenty centralised laboratories provide analytical testing services to all researchers.
* The Higher Education Commission’s $1 billion foreign scholarship programme helps about 2,000 students each year attend foreign universities for higher studies.
* Between 2006 and 2010, more than 600 Pakistani students will have enrolled in masters and doctoral programmes in American universities as Fulbright scholars while 500 will go to Australia.
* PhD enrolment in Pakistani universities increased to 8,000. In the past five years as 56 new universities were set up, enrolments grew by 130%. PhD output doubled from 300 a year to 600, and is expected to double in the next four years.
* Full advantage is taken of developments in information technology to stimulate learning and creativity. The Pakistan Education and Research Network (PERN), a broadband fibre-optic network of 310 Mbps total bandwidth, currently links 97 universities and provides a platform for nation-wide data exchange and digital library service. PERN is now connected to the US as well to facilitate research collaboration.
* Students and faculty have access to more than 23,000 journals, and they downloaded more than 1.2 million articles in 2006. More than 40,000 textbooks and monographs published by 220 publishers are available as e-books.
* A mirror site facilitates access to the open courseware of the Massachusetts Institute of Technology.
* HEC has forged partnerships with reputed universities in Asia and Europe to set up campuses in Pakistan. Partners will come from Austria, China, France, Germany and Italy in the first phase. Japan, South Korea and Sweden will join later.
The Web of Science reveals that Rahman’s efforts have paid rich dividends. There has been a rapid rise in the number of papers published by Pakistani researchers in journals indexed in the Web of Science in the last few years. In 1999, Pakistan published more than 600 papers in a year for the first time. The number rose to 785 in 2002, 1,279 in 2005 and 2,457 in 2007.
Most of the papers are published in Pakistani journals and although a small number appear in overseas journals the number is increasing. Chemistry and plant science appear to be the dominant areas of research.
Social sciences seem to be lagging far behind. But, says Dr Sohail Naqvi, Executive Director of the HEC, efforts are afoot to secure 1,500 fellowships for social science students and researchers to go to foreign universities for higher studies.
The pace of progress is likely to fall this year. There is a ban on recruitment of staff although the rise in student admissions continues. A budget crunch means that of the total education budget of $3.4 billion, only $376 million, or 13%, is allocated to higher education compared with an international norm of 25%.
Addressing Pakistan’s vice chancellors, Rahman urged them to raise funds from sources other than the government, including sources outside Pakistan.
University World News, 20 July 2008
The Japanese government has drawn up a plan to promote exchanges of scientists and joint research among 16 Asian countries to boost the level of the region’s science and technology to that of the United States and Europe. The plan, proposed by Fumio Kishida, state minister in charge of science and technology policy, comes at a time when China and India are witnessing remarkable advances in both the economy and scientific research.
The plan will include the 10 member countries of the Association of Southeast Asian Nations and six others: Japan, Australia, China, India, New Zealand and South Korea, according to The Yomiuri Shimbun.
The plan envisages the creation of a unified database of scientists and researchers at universities and research bodies in the 16 countries. The database will help identify appropriate researchers for the planned collaborative projects. Databases on research projects carried out in the region and intellectual properties developed through the projects are also planned.
Although each of the 16 countries has its own database of domestic researchers, the databases are not interoperable. China, Indonesia and Cambodia operate their databases only in their own languages, and items listed in the databases cannot easily be cross-referenced. This has hindered the active exchange of scientists in the region.
Asia has great scientific and technological potential. There are about 1.8 million researchers in the 16 countries, compared with 1.4 million in the USA and 1.2 million in the European Union. Currently, international collaboration among the16 countries at best can be called modest as seen from the table below:
Only about 5% of the more than 35,000 papers from India and about 6% of the 97,500 papers from China in 2007, for example, have resulted from collaboration with five other leading countries of the region.
Mere number of researchers or papers is not a good indicator. What matters is how productive the scientists are and what impact their work has on science, industry and the economy. On these criteria, Asia has some way to go before it can challenge America and Europe.
The envisioned plan aims at strengthening Asia’s international competitiveness, under Japan’s initiative, as the third scientific and technological power after the United States and EU.
University World News, 14 September 2008
Indian and Chinese scientists are increasingly working together but it might take a few years before it becomes significant or sets the pace for South-South scientific collaboration. Until 2003, only a small percentage – around three-fourths of one per cent – of Indian papers were written in collaboration with Chinese authors, according to a report of a study published by Chennai-based Subbiah Arunachalam and IIT-Madras’ B Viswanathan.
Published in Current Science, a prominent Indian science publication, the study says that from 2004 onwards there has been a slow but perceptible rise in collaboration.
“International collaboration in scientific research is on the rise… The two great civilisations (of China and India) have learnt from each other for many centuries since the days of the Buddha and have had cultural and trade relations long before the well-documented travels in India by Fahian and Xuanzang,” note the authors.
But the past 50 years have seen the two Asian neighbours go through some border disputes and an uneasy peace. Yet, with doors open for improving ties, bilateral trade between the two countries has spurted in recent years.
In the study, South-South Cooperation: The case of Indo-Chinese collaboration in scientific research, Arunachalam and Viswanathan note that until a little over a decade ago, scientists in India were publishing a larger number of papers than those in China in journals indexed by the global Science Citation Index.
In 1997, China overtook India when Chinese scientists published 17,177 papers in SCI-indexed journals, as against 16,909 papers published by Indian scientists. Since then, China has accelerated the pace of R&D, and in 2007, China accounted for more than 2.76 times the number of papers from India, note the authors.
They found that in eight years from 2000, researchers from India and China have co-authored 1,807 papers. Of these, 1,682 were articles, 45 were reviews, 18 were letters, 36 were meeting abstracts and 26 concerned other issues.
“The number of Indo-Chinese papers has steadily increased over these eight years (from 124 in 2000 to 361 in 2007),” says the study.
Physics was found to be the most prominent area of India-China collaboration. Way behind came medicine. Multidisciplinary physics, physics of particles and fields, astronomy and astrophysics, nuclear physics and applied physics top the list with 468, 189, 181, 83 and 59 papers respectively
In many cases, India and China collaborated with partners from other countries, especially in areas like experimental high physics.
Other prominent nations on the global research scene considered collaboration with China to a much larger extent than with India, said the study. It noted that the ratio of preferring China over India for different countries was 4.2 for Japan, 3.52 for the US, 2.42 for South Korea, 2.30 for Russia and 1.95 for France.
CURRENT SCIENCE, VOL. 94, NO. 7, 10 APRIL 2008
The geography of science, technology and innovation is changing. It is no longer that the United States, western Europe and Japan are the only key players. Asia is emerging in a significant way. Not only China and India, but also South Korea and Singapore are moving forward rapidly. The growth of science in these countries and investments in research made in Brazil and South Africa are leading to a new equilibrium in global science and technology.
S. Arunachalam and S. Gunasekaran
CURRENT SCIENCE, VOL. 84, NO. 1, 10 JANUARY 2003
Production doctorates selected Asian countries can hardly disputed that science and technology have made the advanced countries the West what they are today Many developing countries recognized the importance science and technology soon they became independent and formulated science science and technology policies One important element nation scientific enterprise the production qualified manpower this brief note look the production doctorates five Asian countries viz India China Japan South Korea and Taiwan since The raw data were obtained from Science and Engineering Indicators ref Gangan Prathap has drawn attention the decline the production engineering doctorates India This note shows that India has produced much larger number doctorates science degrees awarded including mathematics computer science and agricultural sciences than any the other four countries This raises the question India producing more science than the other Asian countries why has India scientific output declined relative the other countries Are producing far more science than need However consider doctorates both science and engineering both Japan degrees awarded and China degrees are doing better than India degrees Figures and give data the numbers doctorates produced science and engineering and science alone including mathematics computer science and agricultural sciences respectively