Balancing research security and openness.
By Dr. Caroline S. Wagner
Professor of Public Affairs
John Glenn College of Public Affairs
The Ohio State University
Introduction
Amid heightened tensions between the United States and China, the two countries signed aย bilateral science and technology agreementย on Dec. 13, 2024. The event was billed as a โrenewalโ of a 45-year-old pact to encourage cooperation, but that may be misleading.
The revised agreement drastically narrows the scope of theย original agreement, limits the topics allowed to be jointly studied, closes opportunities for collaboration and inserts a new dispute resolution mechanism.
This shift is in line with growing global concern about research security. Governments are worried about international rivals gaining military or trade advantages or security secrets via cross-border scientific collaborations.
The European Union, Canada, Japan and the United States unveiled sweeping new measures within months of each other to protect sensitive research from foreign interference. But thereโs a catch: Too much security could strangle the international collaboration that drives scientific progress.
As aย policy analyst and public affairs professor, I research international collaboration in science and technology and its implications for public and foreign policy. I have tracked the increasingly close relationship in science and technologyย between the U.S. and China. The relationship evolved from one of knowledge transfer to genuine collaboration and competition.
Now, as security provisions change this formerly open relationship, a crucial question emerges: Can nations tighten research security without undermining the very openness that makes science work?
China’s Ascent Changes the Global Landscape
Chinaโs rise in scientific publishingย marks aย dramatic shift in global research. In 1980, Chinese authors produced less than 2% of research articles included in the Web of Science, a curated database of scholarly output. By my count, they claimed 25% of Web of Science articles by 2023, overtaking the United States and ending its 75-year reign at the top, which had begun in 1948 when it surpassed the United Kingdom.
In 1980, China had no patented inventions. By 2022, Chinese companies led in U.S. patents issued to foreign companies, receiving 40,000 patents compared with fewer than 2,000 for U.K. companies. In the many advanced fields of science and technology,ย China is at the world frontier, if not in the lead.
Since 2013, China has been the top collaborator in science with the United States. Thousands of Chinese students and scholars have conducted joint research with U.S. counterparts.
Most American policymakers who championed the signing of the 1979 bilateral agreement thoughtย science would liberalize China. Instead, China has used technology to shore upย autocratic controlsย and to build aย strong militaryย with an eye toward regional power and global influence.
Leadership in science and technology wins wars and builds successful economies. Chinaโs growing strength, backed by a state-controlled government, is shifting global power. Unlike open societies where research is public and shared, China often keeps its researchersโ work secret while also taking Western technology throughย hacking,ย forced technology transfersย andย industrial espionage. These practices are why many governments are now implementing strict security measures.
Nations Respond
Theย FBI claims Chinaย has stolen sensitive technologies and research data to build up its defense capabilities. Theย China Initiativeย under the Trump administration sought to root out thieves and spies. The Biden administration did not let up the pressure. The 2022 Chips and Science Act requires the National Science Foundation to establishย SECUREย โ a center to aid universities and small businesses in helping the research community make security-informed decisions. I am working with SECURE to evaluate the effectiveness of its mission.
Other advanced nations are on alert, too. Theย European Unionย is advising member states to boost security measures.ย Japanย joined theย United Statesย in unveiling sweeping new measures to protect sensitive research from foreign interference and exploitation. European nations increasingly talk aboutย technological sovereigntyย as a way to protect against exploitation by China. Similarly, Asian nations areย wary of Chinaโs intentionsย when it seeks to cooperate.
Australia has been especially vocalย about the threat posed by Chinaโs rise, but others, too, have issued warnings. The Netherlands issued a policy forย secure international collaboration.ย Sweden raised the alarmย after a study showed how spies had exploited its universities.
Canada has created theย Research Security Centre for public safetyย and, like the U.S., has established regionally dispersed advisers toย provide direct supportย to universities and researchers. Canada now requires mandatory risk assessment for research partnerships involving sensitive technologies. Similar approaches are underway inย Australia and the U.K.
Germanyโs 2023 provisions establish compliance units andย ethics committeesย to oversee security-relevant research. They are tasked with advising researchers, mediating disputes and evaluating the ethical and security implications of research projects. The committees emphasize implementing safeguards, controlling access to sensitive data and assessing potential misuse.
Japanโs 2021 policyย requires researchers to disclose and regularly update information regarding their affiliations, funding sources โ both domestic and international โ and potential conflicts of interest. A cross-ministerial R&D management system is unrolling seminars and briefings to educate researchers and institutions on emerging risks and best practices for maintaining research security.
Theย Organisation for Economic Co-operation and Developmentย keeps aย running databaseย with more than 206 research security policy statements issued since 2022.
Openness Waning
Emphasis on security canย strangle the international collaborationย that drives scientific progress. As much as 25% of all U.S. scientific articlesย result from international collaboration. Evidence shows that international engagement and opennessย produce higher-impact research. The most elite scientists work across national borders.
Even more critically, science depends on the free flow of ideas and talent across borders. After the Cold War, scientific advancement accelerated as borders opened. While national research output remained flat in recent years, internationalย collaborations showed significant growth, revealing scienceโs increasingly global nature.
The challenge for research institutions will be implementing these new requirements without creating a climate of suspicion or isolation. Retrenchment to national borders could slow progress. Some degree of risk isย inherent in scientific openness, but we may be coming to the end of a global, collaborative era in science.
Originally published by The Conversation, 01.03.2025, under the terms of a Creative Commons Attribution/No derivatives license.
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