Transdisciplinary Research: Collaborative Leadership and Empowerment Towards Sustainability of Push–Pull Technology
Abstract
:1. Introduction
The task of effective cognitive leadership is to provide a vision and commitment that link and motivate the scientific researchers to step beyond their disciplinary silos, relax old assumptions, and search for creative frame-breaking solution. Effective structural leadership adds value by breaking the gaps existing between science and practice through building bridges. Effective processual leadership task encourages trust and turns potentially destructive conflicts into constructive and participatory interactions.([18], p. 9)
1.1. The Operationalization of Key Terms Used in This Study
1.2. The push–pull Technology
2. Methodology: Transdisciplinary Action Research
2.1. Research Design and Data Collection Methods
2.1.1. Research Design
2.1.2. Data Collection
2.2. The Study Area
3. Findings
3.1. The Benefits
3.1.1. Transdisciplinary Collaboration as an Opportunity for Farmers Empowerment to Take Up Leadership Roles
The joint implementation of the PPT enhances participatory leadership in its approach whereby it enables everybody from farmers to researchers to participate in the technology. Thus, enabling all the participants (i.e., stakeholders) to develop and contribute skills to manage its implementation and also push the research agenda… Through this approach new players are attracted into the research process and contribute to good results, e.g., the private sector, youths and women…. all the players involved are able to learn new skills on PPT openly from each other and by drawing on own experiences.(Researcher, April 2015, EIAR, Bako center)
The DAs, researchers, visitors from overseas, Germany and Kenya, have been with us from the start to date … Team work always has positive outcomes…. The team has been around from sensitization, training, planning for all the implementation stages to now…This has formed a continuous interaction process for learning and appreciating the efforts of each other.(DA, Bako Tibe, March 2014)
icipe Director General is Ethiopian and she is supporting this technology…. She is fully aware of its benefits, so we shall fully embrace it and make it a model. What she thought for her country and population to come out of poverty and challenge of being faced with pests, erosion, and fodder. We are receiving this information through the extension and researchers at the local level.(The PPT farmer, Bako Tibe, April 2014)
The overgrown weeds are fodder for livestock. Immediately after the harvest of maize, animals are left to freely roam and feed on “weeds” plus the maize stovers. …Now with PPT, Desmodium does the same. Besides, it is a perennial crop which can be cut back and fed to livestock. It is a permanent source of fodder … this is good.(the PPT farmer, during FGD interviews, March 2014)
3.1.2. Farmers Leadership in Push–Pull Technology and Related Activities
The PPT has become like a “school feed”, produces a lot of knowledge, food to feed us humans and livestock… most farmers resist new technologies, but the model farmers accepted to lead the implementation of the PPT for the first time…. Other farmers from other Woredas will learn from their example by attending such field days’ events which is an important platform for learning and experience sharing.(Extension expert, Bako Tibet, during the PPT farmers’ field day Sedan Kite Kebele, March 2014)
Innovative/model farmer is the one who is ready to accept, learn lessons, pass lessons to other farmers, conduct own research and share with fellow farmers and researchers how technology works on reducing the losses due to stemborers pests.(Small scale irrigation and drainage expert, Bako Tibe, April 2015)
The technology is interesting for farmers, researchers and student learning. It addresses the complex challenge of stemborers simply (…) and has attracted many schoolchildren from around the village who are interested to learn how the PPT mechanism works in controlling pests in such a simple way. This is science-simplified and in the hands of farmers. This is because I am able to talk about science-based practice and practically implementing it in my own farm.(Interview with PPT farmer, Bako Tibe, March 2015)
Apart from pest control, food and fodder production to environmental conservation, the PPT is easy to understand and use despite the underlying scientific principles at play. The resource-constrained farmers are not able to afford expensive farming inputs aimed at increasing productivity such as fertilizers and pesticides.(Interview the PPT farmer, Bako Tibe, March 2015)
I have participated in other extension packages such as tomato, onion, and maize production. I am ready to make the PPT a model and aesthetic farm in my village. I previously learned from Sasakwa Global2000 farm extension model plot, so am determined. I have become a lead farmer through training and actively trying extension packages. Previously I was selected by the Kebele administrator as a model farmer in the village. I am happy with being model farmer, it is rewarding from the certificates of participation and sense of satisfaction either socially or economically.…. I have managed to invest in a new house, bought a mule and cart from increased farming income from being a model farmer.(Interview with the PPT farmer, Bako Tibe, March 2015)
3.2. The Challenges
3.2.1. The Spread of Negative Rumors Regarding Push–Pull Technology
I had many questions in my mind on the future and sustainability of this technology. Now slowly the questions are being answered (…) such as roaming of livestock immediately after harvesting maize, preparing land for planting maize in the next season in the presence of Desmodium and Brachiaria grass (…). Because of the interactions we have had together with other stakeholders over time, I have cleared some of my doubts.(PPT Follower farmer, FGD in Bako area, March 2014)
3.2.2. Emergence of New Conflicts as a Result of the Push-pull Technology Implementation
Initially we had an informal agreement on water use and allocation mainly for irrigation purposes. Now with the introduction of the PPT, some farmers who didn’t understand the technology started questioning why water was diverted to these plots…This caused us to have irrigation water use conflicts, forcing us to irrigate PPT plots at night with the aid of torch.(Interview with the PPT Farmer, sedan kite Kebele, Bako Tibe, March 2015)
3.2.3. Inconsistence of the Push-pull Technology with Locally Established and Traditional Farming Practices
What we have learned so far never existed before on intercropping cereals with Desmodium… The PPT implementation process brings on board other new players such as the farm input sellers, youths and women to contribute to agriculture…During dry season, farmers plant tomatoes, onions and cabbage as horticultural crops using furrow irrigation. This is a new custom of planting maize with Desmodium and Brachiaria grass during dry time.(Ministry of Agriculture extension expert, Bako Tibe, April 2015)
There is need for flexibility among the collaborative stakeholders. The actors have to understand the needs of each other, their potential strengths and capacities. Although understanding the needs of the people and working on their minds is challenging…. but, the leaders should be experts who are committed with a guided vision long into the future.(Agriculture extension expert, Bako Tibe Woreda, April, 2015)
3.2.4. Lack of Formal Stakeholders’ Memorandum of Understanding
4. Discussion
4.1. Opportunities for Interactions
The PPT is a unique technology. I think it is sustainable based on its integrated nature, and continuous learning on step by step basis (…) There are many questions which can be raised and answered with the introduction of the PPT on the farm. The major one being, it is addressing the serious challenge of stemborer pests in maize production (…), we can have the best breeder seed, best fertilizer, enough rainfall and well-prepared field, but without a sustainable, affordable pest control, still maize productivity will be affected or reduced. You may have all the capital, but if no effective pest control, you still have low crop yields. In the future, this technology has lots of potentials.(Interview with the Ethiopian Institute of Agricultural Researcher (EIAR) April 2015)
The PPT is a useful technology for the new generation of farmers. This is because it lasts longer in the field and provides opportunities for continuous learning and interaction […] and the farmers have started to understand how environmental factors contribute to pest problems and how the same can be used on their management.(Interview with the PPT farmer, Bako Tibe, March 2015)
Land for grazing is reducing and slowly in-door feeding is gaining currency in the district. Ethiopia has highest number of cattle in the region, but the quality and productivity is poor due to low quality feeding. Therefore, the PPT is part of the solution in terms of complementary fodder production for livestock in the area.(Interview, Ministry of Agriculture, livestock production expert, Bako Tibe, April 2015)
4.2. Promoting Push-pull Technology Based New Market Opportunities
For the sustainability of this technology, we need to supply seeds for planting and target young farmers and develop local structures on seed supply…… The PPT is setting up the pace for accepting other new technologies. We have to use the existing platforms for us to get maximum benefits and, for its sustainability, we have to ensure seed source from own production.(Interview, Women and youth affair affairs expert, Bako Tibe, April 2014)
Bako research center has no mandate to produce and sell the Desmodium seeds; we are only engaged in conducting research and producing breeder seeds. However, we can provide leadership on the distribution of the produced seed, i.e., support seed production and coordinate the distribution, but the government authorities should provide guidelines on production and distribution.(Interview, EIAR researcher Bako center, November 2014)
Farmers in the area know Desmodium as new crop which came from the research centers, it is not an indigenous crop. It was introduced as a fodder and cover crop for livestock and in coffee farms. Farmers at the same time had no knowledge on seed production, processing and selling as a source of income. This is an opportunity for learning and to meet the demands of the new and emerging Desmodium seed market.(Interview, EIAR researcher Matuu Center, March 2014)
4.3. Applying the Push-Pull Technology Knowledge as Training Content
The PPT is simple to implement, it is cheap, uses less expensive inputs, it is very important for the livelihood of the farmers. Bako College is a center of excellence for training DAs in plant science and animal health. Including the PPT in our curriculum will be an opportunity for information transfer to the students who will finally become Das….and will transfer the same knowledge to our farmers.(Interview, student Bako College, April 2015)
In our college, we provide DA’s training in two types. That is occupation-based and project-based. The former one is based on Ethiopian occupational standard prepared by Ministry of Education. For the second one, the projects are prepared based on the competencies or topics selected from list of occupations like crop production, animal production and natural resource conservation. The project-based training contains competence, entrepreneurship and technology. So, having our curriculum content with technologies like the PPT is important for our students who will eventually teach farmers.(Interview, Bako college tutor, April 2015)
The PPT field day provides an opportunity for the teachers to learn and have experience with the new technology. Now with practical knowledge, it is easy to read and understand and transfer to learners who will become Das…. This is a perfect opportunity for introducing the technology as a tool for training and for learning by various disciplines…. and seems to touch all the departments… from technology, trade, crops to livestock/health etc.(Comment by Bako college tutor during farmers’ field day, April 2015)
4.4. Mutual Trust in Transdisciplinary Stakeholder Interaction
I learnt that the Ethiopian farmers are interested to take up and adopt the PPT more than Kenyan and Ugandan farmers. It will take a short time to achieve the high adoption numbers due to the fact that we trust new information from competent sources so long as it addresses the problem at hand.(Comment by follower farmer who participated in exchange visit to Kenya and Uganda, FGD, May 2015)
I haven’t seen stemborer attack this time round in my maize field…. This is contrary to during the normal cropping season, the stemborer always infest stems and birds always attack the maize tassel…. I think birds are searching for stemborer eggs on the maize tassel, hence breaking it… I hope this Desmodium protects maize from stemborer and from birds…. I will continue to observe this trend in the coming seasons. In future I will make some conclusion.(The PPT Farmer interview, April 2015, Dembi Gobu, Bako Tibe)
5. Conclusions
Author Contributions
Funding
Acknowledgments
Conflicts of Interest
References
- Bracken, L.J.; Bulkeley, H.A.; Whitman, G. Transdisciplinary research: Understanding the stakeholder perspective. J. Environ. Plan. Manag. 2015, 58, 1291–1308. [Google Scholar] [CrossRef] [Green Version]
- Lang, D.J.; Wiek, A.; Bergmann, M.; Stauffacher, M.; Martens, P.; Moll, P.; Swilling, M.; Thomas, C.J. Transdisciplinary research in sustainability science: Practice, principles, and challenges. Sustain. Sci. 2012, 7, 25–43. [Google Scholar] [CrossRef]
- Wright Morton, L.; Eigenbrode, S.D.; Martin, T.A. Architectures of adaptive integration in large collaborative projects. Ecol. Soc. 2015, 20. [Google Scholar] [CrossRef] [Green Version]
- Hirsch Hadorn, G.; Hoffmann-Riem, H.; Biber-Klemm, S.; Grossenbacher-Mansuy, W.; Joye, D.; Pohl, C.; Wiesmann, U.; Zemp, E. (Eds.) Handbook of Transdisciplinary Research, Springer: Dordrecht, Netherlands; Springer: Berlin, Germany, 2008; ISBN 978-1-4020-6700-6. Available online: https://www.springer.com/gp/book/9781402066986 (accessed on 4 April 2018).
- Hoppe, R. Rethinking the Science-Policy Nexus: From Knowledge Utilization and Science Technology Studies to Types of Boundary Arrangements. Poiesis Prax. 2005, 3, 199–215. [Google Scholar] [CrossRef]
- Nowotny, H.; Scott, P.; Gibbons, M. Re-thinking science. In Re-Thinking Science: Knowledge and the Public in an Age of Uncertainty; Polity Press: Cambridge, UK, 2001. [Google Scholar]
- Stauffacher, M.; Flüeler, T.; Krütli, P.; Scholz, R. Analytic and Dynamic Approach to Collaboration: A Transdisciplinary Case Study on Sustainable Landscape Development in a Swiss Prealpine Region. Syst. Pract. Action Res. 2008, 21, 409–422. [Google Scholar] [CrossRef]
- Bunders-Aelen, J.G.F.; Broerse, J.E.W.; Keil, F.; Pohl, C.; Scholz, R.W.; Zweekhorst, M.B.M. How can transdisciplinary research contribute to knowledge democracy. In Knowledge Democracy—Consequences for Science, Politics and Media; In’t Veld, R., Ed.; Springer: Heidelberg, Germany, 2010; pp. 125–152. [Google Scholar]
- Popa, F.; Guillermin, M.; Dedeurwaerdere, T. A pragmatist approach to transdisciplinarity in sustainability research: From complex systems theory to reflexive science. Futures 2015, 65, 45–56. [Google Scholar] [CrossRef]
- Siebenhüner, B. Social learning and sustainability science: Which role can stakeholder participation play? Int. J. Sustain. Dev. 2004, 7, 146–163. [Google Scholar] [CrossRef]
- Mobjörk, M. Centrum för Urbana och Regionala Studier. In Crossing Boundaries: The Framing of Transdisciplinarity; Örebro Universitet: Örebro, Sweden, 2009. [Google Scholar]
- Mobjörk, M. Consulting versus participatory transdisciplinarity: A refined classification of transdisciplinary research. Futures 2010, 42, 866–873. [Google Scholar] [CrossRef]
- Harris, F.; Lyon, F. Transdisciplinary Environmental Research: A Review of Approaches to Knowledge Co-production. Available online: http://www.thenexusnetwork.org/wp-content/uploads/2014/08/Harris-and-Lyon_pg.pdf (accessed on 8 July 2018).
- Reid, R.S.; Nkedianye, D.; Said, M.Y.; Kaelo, D.; Neselle, M.; Makui, O.; Onetu, L.; Kiruswa, S.; Kamuaro, N.O.; Kristjanson, P.; et al. Evolution of models to support community and policy action with science: Balancing pastoral livelihoods and wildlife conservation in savannas of East Africa. Proc. Natl. Acad. Sci. USA 2016, 113, 4579–4584. [Google Scholar] [CrossRef] [PubMed] [Green Version]
- Schäpke, N.; Omann, I.; Wittmayer, J.M.; van Steenbergen, F.; Mock, M. Linking transitions to sustainability: A study of the societal effects of transition management. Sustainability 2017, 9, 737. [Google Scholar] [CrossRef]
- Crosby, B.C.; Bryson, J.M. Leadership for the Common Good: Tackling Public Problems in a Shared-Power World, 2nd ed.; Jossey-Bass: San Francisco, CA, USA, 2005. [Google Scholar]
- Bushe, G.R. Clear Leadership: Sustaining Real Collaboration and Partnership at Work; Davies-Black Pub: Mountain View, CA, USA, 2009. [Google Scholar]
- Gray, B. Enhancing Transdisciplinary Research through Collaborative Leadership. Am. J. Prev. Med. 2008, 35, 124–132. [Google Scholar] [CrossRef] [PubMed]
- Archer, D.; Cameron, A. Collaborative Leadership: How to Succeed in an Interconnected World; Elsevier/Butterworth-Heinemann: Amsterdam, The Netherland, 2009. [Google Scholar]
- Chrislip, D.D. The Collaborative Leadership Fieldbook: A Guide for Citizens and Civic Leaders; Jossey-Bass: San Francisco, CA, USA, 2002. [Google Scholar]
- Frydman, B.; Wilson, I.; Wyer, J. The Power of Collaborative Leadership: Lessons for the Learning Organization; Butterworth-Heinemann: Boston, MA, USA, 2000. [Google Scholar]
- Linden, R.M. Working across Boundaries: Making Collaboration Work in Government and Nonprofit Organizations, 1st ed.; Jossey-Bass: San Francisco, CA, USA, 2002. [Google Scholar]
- Stokols, D. Toward a Science of Transdisciplinary Action Research. Am. J. Commun. Psychol. 2006, 38, 79–93. [Google Scholar] [CrossRef] [PubMed]
- Pedrosa, A. Motivating stakeholders for co-created innovation. Open Sour. Bus. Resour. 2009. Available online: http://timreview.ca/article/311 (accessed on 4 April 2018).
- Siarta, S.; Blochb, R.; Knierima, A.; Bachingerb, J. Development of Agricultural Innovations in Organic Agriculture to Adapt to Climate Change–Results from a Transdisciplinary R&D Project in North-eastern Germany. In Proceedings of the 10th European IFSA Symposium, International Farming Systems Association, Aarhus, Denmark, 1–4 July 2012. [Google Scholar]
- Stokols, D.; Fuqua, J.; Gress, J.; Harvey, R.; Phillips, K.; Baezconde-Garbanati, L.; Unger, J.; Palmer, P.; Clark, M.A.; Colby, S.M.; et al. Evaluating transdisciplinary science. Nicot. Tob. Res. 2003, 5, S21–S39. [Google Scholar] [CrossRef] [PubMed]
- Pohl, C. What is progress in transdisciplinary research? Futures 2011, 43, 618–626. [Google Scholar] [CrossRef]
- Siebenhüner, B.; Romina, R.; Franz, E. Social Learning Research in Ecological Economics: A Survey. Environ. Sci. Policy 2016, 55, 116–126. [Google Scholar] [CrossRef]
- Godemann, J. Knowledge Integration: A Key Challenge for Transdisciplinary Cooperation. Environ. Educ. Res. 2008, 6, 625–641. [Google Scholar] [CrossRef]
- EU SCAR. Agricultural Knowledge and Innovation Systems in Transition—A Reflection Paper; Standing Committee on Agricultural Research (SCAR); Collaborative Working Group on Agricultural Knowledge and Innovation Systems (AKIS); European Commission & Directorate-General for Research and Innovation: Brussels, Belgium, 2012. [Google Scholar]
- Berhanu, K.; Poulton, C. The political economy of agricultural extension policy in Ethiopia: Economic growth and political control. Dev. Policy Rev. 2014, 32, 197–213. [Google Scholar] [CrossRef]
- Abate, T.; Shiferaw, B.; Gebeyehu, S.; Amsalu, B.; Negash, K.; Assefa, K.; Million, E.; Aliye, S.; Shiferaw, B.; Abate, T.; et al. A systems and partnership approach to agricultural research for development: Lessons from Ethiopia. Outlook Agric. J. 2011, 40, 213–220. [Google Scholar] [CrossRef]
- Ministry of Finance and Economic Development (MoFED). Federal Democratic Republic of Ethiopia: Sustainable Development and Poverty Reduction Program; MoFED: Addis Ababa, Ethiopia, 2002.
- United Nations Development Programme (UNDP). African Economic Outlook 2015: Regional Development and Spatial Inclusion; OECD Publishing: Paris, France, 2015. [Google Scholar]
- Elias, A.; Nohmi, M.; Yasunobu, K.; Ishida, A. Effect of Agricultural Extension Program on Smallholders’ Farm Productivity: Evidence from Three Peasant Associations in the Highlands of Ethiopia. J. Agric. Sci. 2013, 5, 163. [Google Scholar] [CrossRef]
- World Bank. Enhancing Agricultural Innovation: How to Go Beyond the Strengthening of Research Systems; The International Bank for Reconstruction and Development: Washington, DC, USA, 2006. [Google Scholar]
- Star, S.L.; Griesemer, J.R. Institutional Ecology, Translations and Boundary Objects: Amateurs and Professional in Berkeley’s Museum of Vertebrate Zoology, 1907-39. Soc. Stud. Sci. 1989, 19, 387–420. [Google Scholar] [CrossRef]
- Rosenfield, P. The potential of transdisiplinary research for sustaining and extending linkages between the health and social sciences. Soc. Sci. Med. 1992, 35, 1343–1357. [Google Scholar] [CrossRef]
- Ul-Hassan, M.; Hornidge, A.-K.; van Veldhuizen, L.; Akramkhanov, A.; Rudenko, I.; Djanibekov, N. Participatory Testing and Adaptation of Agricultural Innovations in Uzbekistan-Guidelines for Researchers and Practitioners; Center for Development Research (ZEF), University of Bonn: Bonn, Germany, 2011. [Google Scholar]
- Chamberlain, K.; Khan, Z.R.; Pickett, J.A.; Toshova, T.; Wadhams, L.J. Diel periodicity in the production of green leaf volatiles by wild and cultivated host plants of stemborer moths, Chilo partellus and Busseola fusca. J. Chem. Ecol. 2006, 32, 565–577. [Google Scholar] [CrossRef] [PubMed]
- Demeke, M. Analysis of Incentives and Disincentives for Maize in Ethiopia; Technical Notes Series; MAFAP, FAO: Rome, Italy, 2012. [Google Scholar]
- Statistical Central Agency (CSA). Agricultural Sample Survey 2010/2011 (September–December 2010); Report on Area and Production of Major Crops; CSA: Addis Ababa, Ethiopia, 2011.
- Smale, M.; Byerlee, D.; Jayne, T. Maize revolutions in sub-Saharan Africa. In An African Green Revolution; Springer: Berlin, Germany, 2013; pp. 165–195. Available online: http://link.springer.com/chapter/10.1007/978-94-007-5760-8_8 (accessed on 4 April 2018).
- Mantel, S.; Van Engelen, V.W.P. Assessment of the impact of water erosion on productivity of maize in Kenya: An integrated modelling approach. Land Degrad. Dev. 1999, 10, 577–592. [Google Scholar] [CrossRef]
- Oswald, A. Striga control Technologies and their dissemination. Crop Prot. 2005, 24, 333–342. [Google Scholar] [CrossRef]
- Kfir, R.; Overholt, W.A.; Khan, Z.R.; Polaszek, A. Biology and management of economically important lepidopteran cereal stemborers in Africa. Annu. Rev. Entomol. 2002, 47, 701–731. [Google Scholar] [CrossRef] [PubMed]
- Midega, C.A.O.; Bruce, T.J.A.; Pickett, J.A.; Pittchar, J.O.; Murage, A.; Khan, Z.R. Climate-adapted companion cropping increases agricultural productivity in East Africa. Field Crops Res. 2015, 180, 118–125. [Google Scholar] [CrossRef] [Green Version]
- Midega, C.A.O.; Pittchar, J.; Salifu, D.; Pickett, J.A.; Khan, Z.R. Effects of mulching, N-fertilization and intercropping with Desmodium uncinatum on Striga hermonthica infestation in maize. Crop Prot. 2013, 44, 44–49. [Google Scholar] [CrossRef]
- Midega, C.A.; Wasonga, C.J.; Hooper, A.M.; Pickett, J.A.; Khan, Z.R. Drought-Tolerant Desmodium Species Effectively Suppress Parasitic Striga Weed and Improve Cereal Grain Yields in Western Kenya. Crop Prot. 2017, 98, 94–101. [Google Scholar] [CrossRef] [PubMed]
- Khan, Z.R.; Midega, C.A.O.; Wadhams, L.J.; Pickett, J.A.; Mumuni, A. Evaluation of Napier grass (Pennisetum purpureum) varieties for use as trap plants for the management of African stemborer (Busseola fusca) in a push-pull strategy. Entomol. Exp. Appl. 2007, 124, 201–211. [Google Scholar] [CrossRef]
- Khan, Z.R.; Pickett, J.A.; Wadhams, L.J.; Hassanali, A.; Midega, C.A.O. Combined control of Striga hermonthica and stem borers by maize-Desmodium spp. intercrops. Crop Prot. 2006, 25, 989–995. [Google Scholar] [CrossRef]
- Tsanuo, M.K.; Hassanali, A.; Hooper, A.M.; Khan, Z.R.; Kaberia, F.; Pickett, J.A.; Wadhams, L.J. Isoflavanones from the allelopathic aqueous root exudates of Desmodium uncinatum. Phytochemistry 2003, 64, 265–273. [Google Scholar] [CrossRef]
- Khan, Z.R.; Pickett, J.A.; Van den Berg, J.; Wadhams, L.J.; Woodcock, C.M. Exploiting chemical ecology and species diversity: stem borer and striga control in maize in Kenya. Pest Manag. Sci. 2000, 56, 957–962. [Google Scholar] [CrossRef]
- Khan, Z.R.; Hassanali, A.; Overholt, W.; Khamis, T.M.; Hooper, A.M.; Pickett, A.J.; Wadhams, L.J.; Woodcock, C.M. Control of witchweed Striga hermonthica by intercropping with Desmodium spp., and the mechanism defined as allelopathic. J. Chem. Ecol. 2002, 28, 1871–1885. [Google Scholar] [CrossRef] [PubMed]
- Khan, Z.R.; Midega, C.A.O.; Amudavi, D.M.; Njuguna, E.M.; Wanyama, J.W.; Pickett, J.A. Economic performance of the “Push-pull” technology for stemborer and Striga control in smallholder farming systems in western Kenya. Crop Prot. 2008, 27, 1084–1097. [Google Scholar] [CrossRef]
- Habermann, B.; Misganaw, B.; Peloschek, F.; Dessalegn, Y.; Yihenew, G. Inter-and Transdisciplinary Research Methods in Rural Transformation Case Studies in Northern Ethiopia; BOKU: Vienna, Austria, 2013. [Google Scholar] [CrossRef]
- Hornidge, A.-K.; Ul-Hassan, M.; Mollinga, P.P. ‘Follow the Innovation’—A joint experimentation and learning approach to transdisciplinary innovation research. ZEF Work. Paper Ser. 2009, 39. [Google Scholar] [CrossRef]
- Hornidge, A.-K.; Ul-Hassan, M.; Mollinga, P.P. Transdisciplinary innovation research in Uzbekistan—One year of ‘Follow-the-Innovation’. Dev. Pract. 2011, 21, 834–847. [Google Scholar] [CrossRef]
- Allen, W.; Ogilvie, S.; Blackie, H.; Smith, D.; Sam, S.; Doherty, J.; McKenzie, D.; Ataria, J.; Shapiro, L.; MacKay, J.; et al. Bridging Disciplines, Knowledge Systems and Cultures in Pest Management. Environ. Manag. 2014, 53, 429–440. [Google Scholar] [CrossRef] [PubMed]
- Kohler, T.; Fueller, J.; Matzler, K.; Stieger, D. Co-creation in virtual worlds: The design of the user experience. MIS Q. 2011, 35, 773–788. [Google Scholar] [CrossRef]
- Bortz, J.; Döring, N. Forschungsmethoden und Evaluation für Human-und Sozialwis-Senschaftler; Springer: Berlin/Heidelberg, Germany, 2003. [Google Scholar]
- Miller, T.R.; Baird, T.D.; Littlefield, C.M.; Kofinas, G.; Chapin, F.; Redman, C.L. Epistemological pluralism: Reorganizing interdisciplinary research. Ecol. Soc. 2008, 13, 46. [Google Scholar] [CrossRef]
- Freeman, R.E. Strategic Management: A Stakeholder Approach; Pitman: Boston, MA, USA, 1984. [Google Scholar]
- Lundvall, B.-Å. (Ed.) National Systems of Innovation: Towards a Theory of Innovation and Interactive Learning; Frances Pinter: London, UK, 1992. [Google Scholar]
- Nelson, R.R. (Ed.) National Innovation Systems: A Comparative Analysis; Oxford University Press: Oxford, UK, 1993. [Google Scholar]
- Edquist, C. Systems of Innovation: Technologies, Institutions and Organizations; Pinter Publishers/Cassell Academic: London, UK, 1997. [Google Scholar]
- Abate, T.; Shiferaw, B.; Menkir, A.; Wegary, D.; Kebede, Y.; Tesfaye, K.; Kassie, M.; Bogale, G.; Tadesse, B.; Keno, T. Factors that transformed maize productivity in Ethiopia. Food Secur. 2015, 7, 965–981. [Google Scholar] [CrossRef]
- Abdissa, G.; Ethiopian Agricultural Research Organization; International Maize and Wheat Improvement Center (Eds.) Farmers’ Maize Seed Systems in Western Oromia, Ethiopia; International Maize and Wheat Improvement Center: Addis Ababa, Ethiopia, 2001. [Google Scholar]
- Stellmacher, T.; Grote, U. Forest Coffee Certification in Ethiopia: Economic Boon or Ecological Bane? ZEF Work. Paper Series No. 76; University of Bonn, Center for Development Research (ZEF): Bonn, Germany, 2011. [Google Scholar]
- Assefa, G.A. Development of maize stalk borer, Busseola fusca (Fuller), in wild host plants in Ethiopia. J. Appl. Entomol. 1998, 106, 390–395. [Google Scholar]
- Belay, D.; Foster, J.E. Efficacies of habitat management techniques in managing maize stemborers in Ethiopia. Crop Prot. 2010, 29, 422–428. [Google Scholar] [CrossRef]
- Getu, E.; Overholt, W.A.; Kairu, E.; Omwega, C.O. Status of stemborers and their management in Ethiopia. In Proceedings of the Integrated Pest Management, Kampala, Uganda, 8–12 September 2002. [Google Scholar]
- Hurni, H. Agroecological Belts of Ethiopia. Explanatory Notes on Three Maps at a Scale of 1, 1. Soil Conservation Research Programme, Research Report. J. Technol. Glob. 1998, 2, 279–287. [Google Scholar]
- Deneke, T.T.; Gulti, D. Agricultural Research and Extension Linkages in the Amhara Region, Ethiopia. In Technological and Institutional Innovations for Marginalized Smallholders in Agricultural Development; Gatzweiler, F.W., von Braun, J., Eds.; Springer: Cham, Switzerland, 2016; pp. 113–124. [Google Scholar]
- Wenger, E.; McDermott, R.; Snyder, W. Cultivating Communities of Practice: A Guide to Managing Knowledge; Harvard Business School Press: Boston, MA, USA, 2002. [Google Scholar]
- Amudavi, D.M.; Khan, Z.R.; Wanyama, J.M.; Midega, C.A.O.; Pittchar, J.; Hassanali, A.; Pickett, J.A. Evaluation of farmers’ field days as a dissemination tool for push-pull technology in Western Kenya. Crop Prot. 2009, 28, 225–235. [Google Scholar] [CrossRef]
- Amudavi, D.M.; Khan, Z.R.; Wanyama, J.M.; Midega, C.A.O.; Pittchar, J.; Nyangau, I.M.; Hassanali, A.; Pickett, J.A. Assessment of technical efficiency of farmer teachers in the uptake and dissemination of push–pull technology in Western Kenya. Crop Prot. 2009, 28, 987–996. [Google Scholar] [CrossRef] [Green Version]
- Rogers, E.M. Diffusion of Innovations, 5th ed.; Free Press: New York, NY, USA, 2003. [Google Scholar]
- Akkerman, S.F.; Bakker, A. Boundary Crossing and Boundary Objects. Rev. Educ. Res. 2011, 81, 132–169. [Google Scholar] [CrossRef]
- Anseeuw, W.; Boche, M.; Breu, T.; Giger, M.; Lay, J.; Messerli, P. Transnational Land Deals for Agriculture in the Global South: Analytical Report Based on the Land Matrix Database; Geographica Bernensia; CDE/CIRAD/GIGA: Bern/Montpellier/Hamburg, Germany, 2012. [Google Scholar]
- Medlin, B.D. The Factors that May Influence a Faculty Member’s Decision to Adopt Electronic Technologies in Instruction. Ph.D. Thesis, Virginia Polytechnic Institute and State University, Blacksburg, VA, USA, 2001. [Google Scholar]
- Cross, R.L.; Parker, A.; Sasson, L. (Eds.) Networks in the Knowledge Economy; Oxford University Press: New York, NY, USA, 2003. [Google Scholar]
- Suchman, L. Working relations of technology production and use. Comput. Supported Cooperative Work 1994, 2, 21–39. [Google Scholar] [CrossRef]
- Cundill, G.; Roux, D.J.; Parker, J.N. Nurturing communities of practice for transdisciplinary research. Ecol. Soc. 2015, 20, 22. [Google Scholar] [CrossRef]
- Berger-González, M.; Stauffacher, M.; Zinsstag, J.; Edwards, P.; Krütli, P. Transdisciplinary Research on Cancer-Healing Systems between Biomedicine and the Maya of Guatemala: A Tool for Reciprocal Reflexivity in a Multi-Epistemological Setting. Qual. Health Res. 2016, 1, 77–91. [Google Scholar] [CrossRef] [PubMed]
Study Area and Location of the PPT Demonstration Plots | |||||||
---|---|---|---|---|---|---|---|
Zone | Woreda | Kebele | AEZ | Location of the Plots | Altitude | Longitude (N) | Latitude (E) |
West Shawa | Bako Tibe | Dembi Gobu | Mid-land | Gibe river | 1660 | 09°09.173′ | 037°02.131′ |
Seden Kite | Mid-land | Leku river | 1648 | 09°05.331′ | 037°09.847′ | ||
East Wollega | Jima Arjo | Wayu Kumba | High land | Nageso river | 1990 | 08°46.442′ | 036°31.616′ |
Wayu Kumba | High land | Nageso river | 1986 | 08°46.582′ | 036°32.554′ | ||
Ilu-Ababora | Yayu | Jame Shono | High land | Sky-sky | 1904 | 08°21.353′ | 035°36.584′ |
Jame Shono | High land | Jame-Bone | 1870 | 08°21.351′ | 035°57.736′ |
© 2018 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
Share and Cite
Nyang’au, I.M.; Kelboro, G.; Hornidge, A.-K.; Midega, C.A.O.; Borgemeister, C. Transdisciplinary Research: Collaborative Leadership and Empowerment Towards Sustainability of Push–Pull Technology. Sustainability 2018, 10, 2378. https://doi.org/10.3390/su10072378
Nyang’au IM, Kelboro G, Hornidge A-K, Midega CAO, Borgemeister C. Transdisciplinary Research: Collaborative Leadership and Empowerment Towards Sustainability of Push–Pull Technology. Sustainability. 2018; 10(7):2378. https://doi.org/10.3390/su10072378
Chicago/Turabian StyleNyang’au, Isaac Mbeche, Girma Kelboro, Anna-Katharina Hornidge, Charles A. O. Midega, and Christian Borgemeister. 2018. "Transdisciplinary Research: Collaborative Leadership and Empowerment Towards Sustainability of Push–Pull Technology" Sustainability 10, no. 7: 2378. https://doi.org/10.3390/su10072378
APA StyleNyang’au, I. M., Kelboro, G., Hornidge, A. -K., Midega, C. A. O., & Borgemeister, C. (2018). Transdisciplinary Research: Collaborative Leadership and Empowerment Towards Sustainability of Push–Pull Technology. Sustainability, 10(7), 2378. https://doi.org/10.3390/su10072378