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OECD GLOBAL SCIENCE FORUM. Workshop on Best Practices for Ensuring Scientific Integrity and Preventing Misconduct. Introductory remarks. Makoto Asashima Professor, The University of Tokyo Chair, Committee on Code of Conduct for Scientist, Science Council of Japan.
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OECD GLOBAL SCIENCE FORUM Workshop on Best Practices for Ensuring Scientific Integrity and Preventing Misconduct Introductory remarks Makoto Asashima Professor, The University of Tokyo Chair, Committee on Code of Conduct for Scientist, Science Council of Japan 22 February, 2007 Mita Conference Hall, Tokyo, Japan
Science Council of Japan (SCJ) • Community contains 760,000 scientists. • Transition of SCJ from Ministry of Internal Affairs and Communications to Cabinet Office. • Partnership of SCJ with Council for Science and Technology Policy. • Reformation since the 20th Assembly of the SCJ. • Collaboration with international science communities. • Policy recommendation for Japanese government.
Reports on code of conduct for scientists by Science Council of Japan (SCJ) 1. 2003, June Report by the 18th Assembly of the Science Council of Japan and the Permanent Committee on Academic Affairs in Society. “Misconduct in science and its prevention” 2. 2004, March Public information pamphlet, Vol. 1 “On misconduct in science and its prevention” 3. 2005, July Report by the 19th Assembly of the Science Council of Japan and the Permanent Committee on Academic Affairs in Society “The current state of misconduct and measures to combat it: Toward an autonomous community of scientists” 4. 2006, April Official statement by the 20th Assembly of the Science Council of Japan and Committee on the Code of Conduct for Scientists. “Improving Self-Discipline by Scientists ”
RCR=Responsible Conduct of Research QRP=Questionable Research Practices Nicholas H. Steneck (2006) Science and EngineeringEthics 12, 53-74
Code of conduct for scientists Science is a system of knowledge based on the principles of reason and empirical proof that is assiduously built up over time, and constitutes an irreplaceable common asset of all humanity. Scientific research is an act that creates new knowledge by boldly pursuing the challenges of unknown fields.
Regulation of Scientists’ Code of Conduct in Japan Science Council of Japan - “Scientific Misconduct and its Prevention” (2003) - “Current Status of, and Countermeasures against Misconduct in Science” (2005) and other reports The Institute of Physical and Chemical Research (RIKEN) - “Statement on Scientific Misconduct and its Prevention” (2004) - “Basic Policies Regarding Research Misconduct” (2004) National Institute of Advanced Industrial Science and Technology (AIST) - “Regulations regarding Research Misconduct at the National Institute of Advanced Industrial Science and Technology (AIST)” (2005) - “Report on Research Misconduct and Future Measures envisaged” (2006) Ministry of Education, Culture, Sports, Science and Technology - Establishment of “Special Committee on Misconduct in Research Activities” (first meeting held in March 2006) The University of Tokyo - Presentation of “Code of Conduct in Scientific Research” (March 2006) Other academic societies (from the presentation given by Prof. Shigeaki Yamazaki, Faculty of Letters, Aichi Shukutoku University, at the BTJ Journal Seminar - 24 February 2006)
1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. Responsibilities of Scientists Conduct of Scientists Continuous Professional Development Accountability and Disclosure Research Activities Establishing Sound Research Environments Compliance with Laws and Regulations Consideration for Research Subjects. Relations with Others Rejection of Discrimination Avoiding Conflicts of Interest Code of Conduct consisting of ethical principles
Toward Autonomous Implementation of the Code of Conduct for Scientists 1. The Responsibility of Organizational Managers 2. The Need for Education on Research Ethics 3. Important Points for Research Groups 4. Important Points for Research Processes 5. Dealing with Misconduct in Research 6. Establishing a Self-monitoring System
“Blue Note Book”of Kyowa Hakko Co., Ltd “For the researchers, everything should be written on this notebook including ideas, results and discussions” Since July, 1953 (2006年2月24日 BTJジャーナルセミナー協和発酵バイオフロンティア研究所 リサーチフェロー 中野洋文氏報告資料より)
Dealing with Misconduct in Research To deal with possible misconduct such as fabrication, falsification or plagiarism, the following measures should be taken at the earliest possible date: 1. A proper channel should be set up for consultation on suspected misconduct. At the same time, particular attention should be paid to the importance of ascertaining whether the suspicion is false. 2. All due consideration should be made to ensure that anyone reporting misconduct should not suffer disadvantage as a result thereof. 3. When there is suspicion of misconduct, relevant facts should be promptly investigated in accordance with due procedures, necessary measures should be taken with impartiality, and the result should be made public. Particularly strict measures should be taken in the case of fabrication, falsification or plagiarism. 4. Everyone in the organization should be reminded of relevant laws, ordinances and regulations in carrying out research and using research funds. 5. Due consideration should be given to prevent research activity from becoming unduly constricted, while appropriate rules should be worked out to deal with conflicts of interests.
Recent scientific situation in Japan 1. University research environment, especially in the area of basic research, has become increasingly restrictive. 2. Reductions in allocation of resources to universities have made it increasingly difficult to pursue autonomous/independent research. At the same time, competition for decreasing resources has increased the occurrence of misconduct. 3. Prioritization of the distribution of research funds is necessary, but it is also important to widen the range of distribution in order to nurture new studies. Suitable measures are required.
4. Universities have been bearing an increasing burden to maintain facilities, educate students, provide a suitable research environment, and support advanced studies. 5. Teaching staff are overstretched with evaluations, management, applications for research funds, coping with the evolving attitudes of students and other miscellaneous tasks. These are a few examples of the many problems universities face in Japan. In order to solve these problems, it is essential to have governmental support, increased resource allocation, and cooperation between universities.
Bedrock of the Nation is “Building People” • Strategic Use of Science and Technology • Achieve the targeted mission • Handling state issues • (2006-2020: 5 years x 3 terms) • Realize the National Vision (1)Place top priority on harmonizing the environment and the economy (2)Place emphasis on programs that attach importance to soft power (3)Management based on appropriate research and a high degree of transparency (1) Nurture individuals to develop a historical view of civilization so that they will be able to think strategically (2) Switch from a career formed through ”mono culture” to one formed through “blending” (3) Get rid of the insular mindset and replace it with an open mindset • Educational reform • Realize a society of equal partnership • Realize a convivial society • Social infrastructure for a healthy, secure life • Industry, economy, labor and employment policies • Co-existence with nature and rejuvenation of nature • Rejuvenation of the country and region • Develop an information communication system • Energy and the environment • Handle common global issues • State with a Sense of Dignity • Asian Trust • Coexistence of the environment and the economy • Degradation of Earth’s environment • Popular growth • Expanding North-South Disparity Global issues "Sustainability of human society" Japan Vision 2050 Principles of Strategic Science and Technology Policy toward 2020 Beginning of the 21st Century 2006⇒2020⇒2050 2050
日本国内での科学者行動規範に関する動き 日本学術会議 ・「科学における不正行為とその防止について(2003)」 ・「科学におけるミスコンダクトの現状と対応策(2005)」 等の報告 理化学研究所 ・「科学研究における不正行為とその防止に関する声明(2004)」 ・「科学研究上の不正行為への基本的対応方針(2004)」 産業技術総合研究所 ・「独立行政法人産業技術総合研究所における研究ミスコンダクトへの対応に関する規程(2005)」 ・「研究ミスコンダクトに関する調査結果報告と今後の措置について(2006)」 文部科学省 ・「研究活動の不正行為に関する特別委員会(第1回 2006年3月)」の開催 東京大学 ・「科学研究における行動規範」の提示 その他学会 (2006年2月24日 BTJジャーナルセミナー 愛知淑徳大学文学部 山崎茂明氏報告資料より)
日本の大学の現状 1.法人化後の環境の変化 法規の導入(労安法、消防法、セキュリティー安全性の確保など) による 2.資源配分のあり方 ・科学研究費、人数、研究費、スペース、ポストの減少等 ・運営交付金 ・集中型と裾野の拡がりの減少 3.少子化と大学間競争 4.評価制度と雑務の負担 5.学生の意識の変化 - ゆとり教育の弊害 - 資格をとれる分野 役立つ分野 基礎学問への減少など
日本の大学の現状 6.第三期科学技術基本政策と今後の展望 イノベーション25など 7.世界と日本の大学の比較 8.研究者、科学者、大学に今問われているもの 9.次世代の若い人が魅力ある大学に思えるか 現状は必ずしもそうではない 10.その他
Summary 1.大学において研究する環境、とりわけ基礎研究はだんだんと厳しい状態に置かれている。 2.大学にとって資源配分の減少により、大学での自由な学問がしにくくなっている。また、資源配分の獲得の競争が起こっており、それがミスコンダクトを生み出す一因にもなっている。 3.研究費の配分において、重点化することは必要であるが、裾野を拡げておくことが新しい学問を育てることであり、その方策を考えなければならない。 4.大学にとって、施設の維持・学生への教育と研究環境の整備、 最先端の研究を行う時、かなり負担が増えてきている。 5.教員にとってみると、評価や運営、研究資金の獲得、学生の気質の変化への対応など雑事も含めて忙しくなりすぎている。 など、多くの問題を大学では抱えてきている。これを解決するには、国の支援、資源配分の拡大、大学間の協力関係なども欠かすことができない。
原因は個人かシステムか? 研究者を取り巻く圧力 成果主義:特許・一流誌へのaccept 利害の衝突 競争的資金の増加 スター研究者の必要性 任期制 大規模研究・共同研究の増加 研究組織にゆとりがなくなる 人間関係が競争的になる 充分な検証なしに発表を急ぐ (2006年2月24日 BTJジャーナルセミナー 愛知淑徳大学文学部 山崎茂明氏報告資料より)
研究公正局(ORI):不正行為への対処 科学界の警察としてではなく、 ① 教育・啓蒙活動 ② 積極的な情報公開 ③ 責任ある科学研究をテーマにした 研究活動への助成 等の活動を通して、研究環境・風土の改善を促す。 (2006年2月24日 BTJジャーナルセミナー 愛知淑徳大学文学部 山崎茂明氏報告資料より)