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Embodied interdisciplinarity: what is the role of polymaths in environmental research?

Published online by Cambridge University Press:  30 July 2010

JULIETTE C. YOUNG*
Affiliation:
NERC Centre for Ecology and Hydrology, Bush Estate, Penicuik EH26 0QB, UK
MARIELLA MARZANO
Affiliation:
Forest Research, Centre for Human and Ecological Sciences, Forest Research Northern Research Station, Roslin, Midlothian EH25 9SY, UK
*
*Correspondence: Dr Juliette C. Young Tel: +44 131 445 8522 Fax: +44 131 445 3943 e-mail: j.young@ceh.ac.uk

Summary

Interdisciplinarity can be interpreted broadly as an active, multi-faceted learning process between researchers from different disciplines to create a common ground for a special purpose. Interdisciplinary approaches are regarded as necessary in environmental research, especially in view of global environmental change. However, some argue there is a lack of genuine interdisciplinarity in environmental research. Polymaths can play a potentially important role in environmental research. Environmental polymaths can enhance the effectiveness of interdisciplinarity through their knowledge and understanding of different disciplinary languages, epistemologies and methodologies, and as such, should be acknowledged more explicitly in interdisciplinary discussions.

Type
THEMATIC ISSUE: Interdisciplinary Progress in Environmental Science & Management
Copyright
Copyright © Foundation for Environmental Conservation 2010

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References

Anbar, M. (1973) The ‘bridge scientist’ and his role. Research/Development 24: 3034.Google Scholar
Baumann, H. (2009) Don't fence me in . . . In: The Social Embeddedness of Industrial Ecology, ed. Boons, F. & Howard-Grenville, J., pp. 4864. Cheltenham, UK: Edward Elgar.Google Scholar
Bell, S., Carss, D.N. & Marzano, M. (2005) Calming troubled waters: making interdisciplinarity work. Final report to RELU (Project No. ESRC: RES-224–25–0110) [www document]. URL http://www.forestry.gov.uk/pdf/Marzano-RES-224-25-0110.pdf/$FILE/Marzano-RES-224-25-0110.pdfGoogle Scholar
Bradshaw, G.A. & Bekoff, M. (2001) Ecology and social responsibility: the re-embodiment of science. Trends in Ecology and Evolution 16: 460465.Google Scholar
Bruce, A., Lyall, C., Tait, J. & Williams, R. (2004) Interdisciplinary integration in Europe: the case of the Fifth Framework programme. Futures 36 (4): 457470.Google Scholar
Carpenter, S.R., De Vries, R., Dietz, T., Mooney, H.A., Polasky, S., Reid, R.V. & Scholes, R.J. (2006) Millennium Ecosystem Assessment: research needs. Science 314: 257258.Google Scholar
Daily, G.C. & Ehrlich, P.R. (1999) Managing Earth's ecosystems: an interdisciplinary challenge. Ecosystems 2: 277280.Google Scholar
Ewel, K.C. (2001) Natural resource management: the need for interdisciplinary collaboration. Ecosystems 4: 716722.Google Scholar
Fazey, I., Fischer, J. & Lindenmayer, D.B. (2005) What do conservation biologists publish? Biological Conservation 124: 6373.Google Scholar
Funtowicz, S.O. & Ravetz, J.R. (1993) Science for the post-normal age. Futures 25 (7): 739755.Google Scholar
Gibbons, M. (2000) Mode 2 society and the emergence of context-sensitive science. Science and Public Policy 27 (3): 159163.Google Scholar
Janssen, W. & Goldsworthy, P. (1996) Multidisciplinary research for natural resource management: conceptual and practical implications. Agricultural Systems 51: 259279.Google Scholar
Karlqvist, A. (1999) Going beyond disciplines: the meanings of interdisciplinarity. Policy Sciences 32 (4): 379383.Google Scholar
Kinzig, A.P. (2001) Bridging disciplinary divides to address environmental and intellectual challenges. Ecosystems 4: 709715.Google Scholar
Klein, J.T. & Porter, A.L. (1990) Preconditions for interdisciplinary research. In: Studies in Interdisciplinary Methods from Business, Government and Academia, ed. Birnbaum-More, P.H., Rossini, F.A. & Baldwin, D.R., pp. 1119. Oxford, UK: Oxford University Press.Google Scholar
MacLachlan, M. (2009) Rethinking global health research: towards integrative expertise. Globalization and Health 5: 6.Google Scholar
Marzano, M., Carss, D.N. & Bell, S. (2006) Working to make interdisciplinarity work: investing in communication and interpersonal relationships. Journal of Agricultural Economics 57 (2): 185197.Google Scholar
Nissani, M. (1997) Ten cheers for interdisciplinarity. Social Science Journal 32 (2): 201216.Google Scholar
Qin, J., Lancaster, F.W. & Allen, B. (1997) Types and levels of collaboration in interdisciplinary research in the sciences. Journal of the American Society for Information Science 24 (10): 893916.Google Scholar
Rhoten, D. & Parker, A. (2004) Risks and rewards of an interdisciplinary research path. Science 306: 2046.Google Scholar
Robinson, A. (2005) A polymath's dilemma. Nature 438: 291.Google Scholar
Sillitoe, P. (2004) Interdisciplinary experiences: working with indigenous knowledge in development. Interdisciplinary Science Reviews 29 (1): 623.Google Scholar
Stevens, C.J., Fraser, I., Mitchley, J. & Thomas, M.B. (2007) Making ecological science policy-relevant: issues of scale and disciplinary integration. Landscape Ecology 22 (6): 799809.Google Scholar
Vedeld, P.O. (1994) The environment and interdisciplinarity: Ecological and neoclassical economical approaches to the use of natural resources. Ecological Economics 10: 113.Google Scholar
Wear, D.N. (1999) Challenges to interdisciplinary discourse. Ecosystems 2: 299301.Google Scholar
Winnacker, E.-L. (2003) Interdisciplinary sciences in the 21st century. Current Opinion in Biotechnology 14 (3): 328331.Google Scholar
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