Correo Electrónico
DNINFOA - SIA
Bibliotecas
Convocatorias
Identidad U.N.
Publicado
Reference framework for capabilities development in agricultural innovation systems
Marco de trabajo para el desarrollo de capacidades en sistemas de innovación agrícola
DOI:
https://doi.org/10.15446/dyna.v86n210.74475Palabras clave:
Agricultural innovation systems, capability development, collaborative networks, network analysis (en)Sistemas de innovación agrícola, desarrollo de capacidades, redes de colaboración, análisis de redes (es)
Descargas
Agricultural Innovation Systems (AIS) approach, arise as tool for better understanding dynamics and complexity of agricultural innovation. The dynamic approach of organizational capabilities development, is consolidated as a conceptual lens for AIS analysis, but not the systemic approach, which is considered emerging. The objective of this article is present a framework for AIS capability development, taking as a scientific reference, emerging economy countries experiences. A multi-dimensional methodology of literature review and content analysis is implemented, supported in bibliometric and data mining techniques. The networks analysis, the nonlinear perspective of innovation process and research, training, policy and brokering incidence over performance, are some of the main topics in common between AIS and capability development.
Los Sistemas de Innovación Agrícola (SIA) se consolidan como un enfoque para analizar y comprender la dinámica y la complejidad de la innovación agrícola. La orientación dinámica del desarrollo de capacidades organizacionales, está consolidada como lente conceptual para el análisis de los SIA, no así el enfoque sistémico, el cual se considera emergente. El objetivo de este artículo es presentar un marco para el desarrollo de capacidades en SIA, tomando como referente científico, las experiencias de países de economía emergente. Se implementa una metodología multidimensional de revisión de literatura y análisis de contenido, soportado en técnicas de bibliometría y minería de datos. El análisis de las redes, la perspectiva no lineal del proceso de innovación y la iniciación de la investigación, capacitación, política e intermediación, son los principales temas en común entre los SIA y el desarrollo de capacidades.
Referencias
World Bank, Agricultural Innovation Systems: An Investment Sourcebook. 2012.
L. Klerkx, B. Van Mierlo, and C. Leeuwis, “Evolution of systems approaches to agricultural innovation: concepts, analysis and interventions.,” Farming Syst. Res. into 21st century new Dyn. Springer Netherlands, pp. 457–483, 2012.
P. de A. Tropical, Marco Común sobre Desarrollo de Capacidades para los Sistemas de Innovación Agrícola. 2017.
D. J. Spielman, J. Ekboir, K. Davis, and C. M. O. Ochieng, “An innovation systems perspective on strengthening agricultural education and training in sub-Saharan Africa,” vol. 98, pp. 1–9, 2008.
J. Ekboir, “Why impact analysis should not be used for research evaluation and what the alternatives are.,” Agric. Syst., vol. 78, no. 2, pp. 166–184, 2003.
B. Douthwaite and E. Ho, “Towards a complexity-aware theory of change for participatory research programs working within agricultural innovation systems,” vol. 155, no. May, pp. 88–102, 2017.
OCDE, “Revisión de la OCDE de las políticas Agrícolas: Colombia 2015,” Revis. sobre políticas Agric., p. 27, 2015.
M. J. Leiblein, “What do resource- and capability-based theories propose?,” J. Manage., vol. 37, no. 4, pp. 909–932, 2011.
C. E. and M. P. Helfat, “The dynamic resource-based view: capability lifecycle,” Strateg. Manag. J., pp. 997–1010, 2003.
V. Harmaakorpi and T. Uotila, “Building regional visionary capability. Futures research in resource-based regional development,” Technol. Forecast. Soc. Change, vol. 73, no. 7, pp. 778–792, 2006.
T. de Noronha Vaz, T. de Noronha Vaz, P. V Galindo, P. V Galindo, E. de Noronha Vaz, and P. Nijkamp, “Innovative firms behind the regions: Analysis of regional innovation performance in Portugal by external logistic biplots,” Eur. Urban Reg. Stud., vol. 22, no. 3, pp. 329–344, 2015.
F. Tödtling, L. Lengauer, and C. Höglinger, “Knowledge sourcing and innovation in ‘thick’ and ‘thin’ regional innovation systems-comparing ICT firms in two austrian regions,” Eur. Plan. Stud., vol. 19, no. 7, pp. 1245–1276, 2011.
P. Ollonqvist, “Innovations in wood-based enterprises, value chains and networks: An introduction,” in Innovation in Forestry: Territorial and Value Chain Relationships, Finnish Forest Research Institute, PO Box 18 (Jokiniemenkuja 1), FI 01301 Vantaa, Finland, 2011, pp. 189–203.
J. Rodenburg et al., “Systems approaches to innovation in pest management: Reflections and lessons learned from an integrated research program on parasitic weeds in rice,” Int. J. Pest Manag., vol. 61, no. 4, pp. 329–339, 2015.
E. Garfield, “Bibliometric Analysis as a Tool in Journal Evaluation,” Science (80-. )., pp. 471–479, 1972.
H.-F. H. S. E. Shannon, “Three Approaches to Qualitative Content Analysis,” Qual. Health Res., vol. 15, no. 9, pp. 1277–1288, 2005.
S. M. Takey and M. M. Carvalho, “Fuzzy front end of systemic innovations: A conceptual framework based on a systematic literature review,” Technol. Forecast. Soc. Change, vol. 111, pp. 97–109, Oct. 2016.
W. T. Chiu and Y. S. Ho, “Bibliometric analysis of tsunami research,” Scientometrics, vol. 73, no. 1, pp. 3–17, 2007.
Z. J. Acs, L. Anselin, and A. Varga, “Patents and innovation counts as measures of regional production of new knowledge,” Res. Policy, vol. 31, no. 7, pp. 1069–1085, 2002.
A. I. Pudovkin and E. Garfield, “Algorithmic procedure for finding semantically related journals,” J. Am. Soc. Inf. Sci. Technol., vol. 53, no. 13, pp. 1113–1119, 2002.
F. Narin, “Bibliometric techniques in the evaluation of research programs ,” Sci. Public Policy , vol. 14, no. 2, pp. 99–106, 1987.
C. T. Bergstrom, J. D. West, and M. A. Wiseman, “The EigenfactorTM Metrics,” J. Neurosci., vol. 28, no. 45, pp. 11433–11434, 2008.
A. . Carvalho, M.M., Fleury, A., Lopes, “An overview of the literature on technology roadmapping (TRM): contributions and trends,” Technol. Forecast. Soc. Chang, vol. 80, no. 7, pp. 1418–1437, 2013.
P. Cooke, “Regional innovation systems: origin of the species,” Int. J. Technol. Learn. Innov. Dev., vol. 1, no. 3, pp. 393–409, 2008.
C. Freeman, “The ‘national system of innovation’ in historical perspective,” Cambridge J. Econ., vol. 19, no. 1, pp. 5–24, 1995.
A. Hall, W. Janssen, E. Pehu, and R. Rajalahti, “Enhancing agricultural innovation: How to go beyond the strenghthening of research systems.,” World Bank, Washingt. DC., 2006.
S. Wolfert, L. Ge, C. Verdouw, and M. Bogaardt, “Big Data in Smart Farming – A review,” vol. 153, pp. 69–80, 2017.
S. Morriss, C. Massey, R. Flett, F. Alpass, and F. Sligo, “Mediating technological learning in agricultural innovation systems,” vol. 89, pp. 26–46, 2006.
B. T. Asheim and L. Coenen, “Knowledge bases and regional innovation systems: Comparing Nordic clusters,” Res. Policy, 2005.
D. J. Spielman, J. Ekboir, and K. Davis, “The art and science of innovation systems inquiry: Applications to Sub-Saharan African agriculture,” Technol. Soc., vol. 31, no. 4, pp. 399–405, 2009.
R. G. Echeverría, “Agricultural research policy issues in Latin America: an overview,” World Dev., vol. 26, no. 6, pp. 1103–1111, 1998.
F. Hermans, M. Stuiver, P. J. Beers, and K. Kok, “The distribution of roles and functions for upscaling and outscaling innovations in agricultural innovation systems,” Agric. Syst., vol. 115, pp. 117–128, 2013.
S. Brooks and M. Loevinsohn, “Shaping agricultural innovation systems responsive to food insecurity and climate change,” Nat. Resour. Forum, vol. 35, no. 3, pp. 185–200, 2011.
A. Dolinska and P. d’Aquino, “Farmers as agents in innovation systems. Empowering farmers for innovation through communities of practice,” Agric. Syst., vol. 142, pp. 122–130, 2016.
B. Pelletier, G. M. Hickey, K. L. Bothi, and A. Mude, “Linking rural livelihood resilience and food security: an international challenge,” Food Secur., vol. 8, no. 3, pp. 469–476, 2016.
S. Hudson, N. Krogman, and M. Beckie, “Social practices of knowledge mobilization for sustainable food production: nutrition gardening and fish farming in the kolli hills of India.,” Food Secur., vol. 8, no. 3, pp. 523–533, 2016.
A. Toth, S. Rendall, and F. Reitsma, “Resilient food systems: a qualitative tool for measuring food resilience,” Urban Ecosyst., vol. 19, no. 1, pp. 19–43, 2016.
J. A. Turner et al., “Unpacking systemic innovation capability as strategic ambidexterity: How projects dynamically configure capabilities for agricultural innovation,” Land use policy, vol. 68, pp. 503–523, 2017.
C. Leeuwis, “Communication for rural innovation: Rethinking agricultural extension,” Blackwell Sci. Oxford, 2004.
L. Klerkx, N. Aarts, and C. Leeuwis, “Adaptive management in agricultural innovation systems: The interactions between innovation networks and their environment,” Agric. Syst., vol. 103, no. 6, pp. 390–400, 2010.
N. Botha, L. Klerkx, B. Small, and J. A. Turner, “Lessons on transdisciplinary research in a co-innovation programme in the New Zealand agricultural sector,” Outlook Agric., vol. 43, no. 3, pp. 219–223, 2014.
C. Lamprinopoulou, A. Renwick, L. Klerkx, F. Hermans, and D. Roep, “Application of an integrated systemic framework for analysing agricultural innovation systems and informing innovation policies: Comparing the Dutch and Scottish agrifood sectors,” Agric. Syst., vol. 129, pp. 40–54, 2014.
P. Drechsel, L. Gyiele, D. Kunze, and O. Cofie, “Population density, soil nutrient depletion, and economic growth in sub-Saharan Africa,” Ecol. Econ., vol. 38, pp. 251–258, 2001.
B. Vanlauwe et al., “Sustainable intensification and the African smallholder farmer,” Curr. Opin. Environ. Sustain., vol. 8, pp. 15–22, 2014.
M. Schut et al., “Sustainable intensification of agricultural systems in the Central African Highlands: The need for institutional innovation,” Agric. Syst., vol. 145, pp. 165–176, 2016.
C. . Uphoff, N., Wijayaratna, “Demonstrated benefits from social capital: the productivity of farmer organizations in Gal Oya, Sri Lanka.,” World Dev., vol. 28, no. 11, pp. 1875–1890, 2000.
P. C. Struik, L. Klerkx, and D. Hounkonnou, “Unravelling institutional determinants affecting change in agriculture in West Africa,” Int. J. Agric. Sustain., vol. 12, no. 3, pp. 370–382, 2014.
S. Morriss, C. Massey, R. Flett, F. Alpass, and F. Sligo, “Mediating technological learning in agricultural innovation systems,” Agric. Syst., vol. 89, no. 1, pp. 26–46, 2006.
L. Klerkx, M. Schut, C. Leeuwis, and C. Kilelu, “Advances in knowledge brokering in the agricultural sector: Towards innovation system facilitation,” IDS Bull., vol. 43, no. 5, pp. 53–60, 2012.
C. Kilelu, L. Klerkx, C. Leeuwis, and A. Hall, “Beyond knowledge brokering: an exploratory study on innovation intermediaries in an evolving smallholder agricultural system in Kenya.,” Knowl. Manag. Dev. J., vol. 7, no. 1, pp. 84–108, 2011.
L. Klerkx and R. Nettle, “Achievements and challenges of innovation co-production support initiatives in the Australian and Dutch dairy sectors: A comparative study,” Food Policy, vol. 40, pp. 74–89, 2013.
R. M. Grant, “The resource-based theory of competitive advantage: Implications for strategy formulation,” Calif. Manage. Rev., pp. 114–135, 1991.
K. Hafeez, K. Hafeez, Y. Zhang, Y. Zhang, N. Malak, and N. Malak, “Determining key capabilities of a firm using analytic hierarchy process,” Int. J. Prod. Econ., vol. 76, pp. 39–51, 2002.
K. Hafeez, Y. B. Zhang, and N. Malak, “Core competence for sustainable competitive advantage: A structured methodology for identifying core competence,” IEEE Trans. Eng. Manag., vol. 49, no. 1, pp. 28–35, 2002.
A. Parmigiani, R. D. Klassen, and M. V. Russo, “Efficiency meets accountability: Performance implications of supply chain configuration, control, and capabilities,” J. Oper. Manag., vol. 29, no. 3, pp. 212–223, 2011.
L. M. Corbett and G. S. Claridge, “Key manufacturing capability elements and business performance,” Int. J. Prod. Res., vol. 40, no. 1, pp. 109–131, 2002.
A. O’Cass and J. Weerawardena, “The effects of perceived industry competitive intensity and marketing-related capabilities: Drivers of superior brand performance,” Ind. Mark. Manag., vol. 39, no. 4, pp. 571–581, 2010.
M. G. Jacobides and S. G. Winter, “The co-evolution of capabilities and transaction costs: Explaining the institutional structure of production,” Strateg. Manag. J., vol. 26, no. 5, pp. 395–413, 2005.
M. C. Lacity, S. A. Khan, and L. P. Willcocks, “A review of the IT outsourcing literature: Insights for practice,” J. Strateg. Inf. Syst., vol. 18, no. 3, pp. 130–146, 2009.
G. George, “Learning to be capable: Patenting and licensing at the Wisconsin Alumni Research Foundation 1925-2002,” Ind. Corp. Chang., vol. 14, no. 1, pp. 119–151, 2005.
D. Miller and I. Le Breton-Miller, “Family governance and firm performance: Agency, stewardship, and capabilities,” Fam. Bus. Rev., vol. 19, no. 1, pp. 73–87, 2006.
G. Gavetti, “Cognition and Hierarchy: Rethinking the Microfoundations of Capabilities’ Development,” Organ. Sci., vol. 16, no. 6, pp. 599–617, 2005.
Iizuka, M., and Gebreeyesus, M, “Using Functions of Innovation Systems to Understand the Successful Emergence of Non-traditional Agricultural Export Industries in Developing Countries: Cases from Ethiopia and Chile,” Eur. J. Dev. Res., vol. 29, no. 2, pp. 384-403, 2017.
Cómo citar
IEEE
ACM
ACS
APA
ABNT
Chicago
Harvard
MLA
Turabian
Vancouver
Descargar cita
CrossRef Cited-by
1. Maria de Jesus Diaz Lara, Jessica Garizurieta Bernabe, Ruben Alvaro Gonzalez Benitez, Jazmin Morales Toxqui, Monica Karel Huerta. (2021). Bibliometric Analysis of the Use of the Internet of Things in Precision Agriculture. 2021 IEEE International Conference on Engineering Veracruz (ICEV). , p.1. https://doi.org/10.1109/ICEV52951.2021.9632663.
2. Efren Romero-Riaño, Claudia Jazmin Galeano-Barrera, Iván Andrés Londoño-Gonzáles, Cesar Dario Guerrero-Santander, Hugo Ernesto Martínez-Ardila. (2022). 20 años de investigación en desempeño de los sistemas de innovación: un análisis de la estructura conceptual. Revista Ingenio, 19(1), p.1. https://doi.org/10.22463/2011642X.2680.
3. Isabel Cristina Alzate Rendón, Antonio Boada. (2024). Redes colaborativas horizontales en micro y pequeñas cadenas productivas de mercados emergentes. Revista Venezolana de Gerencia, 29(106), p.623. https://doi.org/10.52080/rvgluz.29.106.11.
4. Md Kamruzzaman, Katherine Anne Daniell, Ataharul Chowdhury. (2023). Developing the capacity of extension and advisory organizations to support flash flooding adaptation: A case study from Bangladesh. Environmental Challenges, 11, p.100723. https://doi.org/10.1016/j.envc.2023.100723.
5. Fernando Gutiérrez-Portela, Florina Almenares-Mendoza, Liliana Calderón-Benavides, Efren Romero-Riaño. (2021). Prospectiva de seguridad de las redes de sensores inalámbricos. Revista UIS Ingenierías, 20(3) https://doi.org/10.18273/revuin.v20n3-2021014.
6. Edison Suárez-Ortiz, Jean François Le-Coq. (2024). Territorial capacities for the scaling of agroecological innovations. Revista de Investigación, Desarrollo e Innovación, 14(2) https://doi.org/10.19053/uptc.20278306.v14.n2.2024.18159.
7. Claudia Jazmín Galeano-Barrera, María Eugenia Arango Ospina, Edgar Mauricio Mendoza García, Dewar Rico-Bautista, Efrén Romero-Riaño. (2022). Exploring the Evolution of the Topics and Research Fields of Territorial Development from a Comprehensive Bibliometric Analysis. Sustainability, 14(11), p.6515. https://doi.org/10.3390/su14116515.
8. Claudia Jazmin Galeano-Barrera, Edgar Mauricio Mendoza-García, Alejandro David Martínez-Amariz, Efrén Romero-Riaño. (2022). Theoretical model of territorial agro-industrial development through multi-focus research analytics. Journal of Rural Studies, 94, p.295. https://doi.org/10.1016/j.jrurstud.2022.06.014.
9. Nayibe Chio, Eduardo Quiles-Cucarella. (2024). A Bibliometric Review of Brain–Computer Interfaces in Motor Imagery and Steady-State Visually Evoked Potentials for Applications in Rehabilitation and Robotics. Sensors, 25(1), p.154. https://doi.org/10.3390/s25010154.
10. Efrén Romero-Riaño, Cesar Darío Guerrero-Santander, Hugo Ernesto Martínez-Ardila. (2020). Redes de coautoría en investigación sobre agronomía en sistemas de innovación agrícola. Revista UIS Ingenierías, 20(1) https://doi.org/10.18273/revuin.v20n1-2021015.
11. E Romero-Riaño, D Rico-Bautista, M Martinez-Toro, Y Medina-Cárdenas, N Rico-Bautista. (2021). Artificial intelligence theory: a bibliometric analysis. Journal of Physics: Conference Series, 2046(1), p.012078. https://doi.org/10.1088/1742-6596/2046/1/012078.
Dimensions
PlumX
Visitas a la página del resumen del artículo
Descargas
Licencia
Derechos de autor 2019 DYNA
Esta obra está bajo una licencia internacional Creative Commons Atribución-NoComercial-SinDerivadas 4.0.
El autor o autores de un artículo aceptado para publicación en cualquiera de las revistas editadas por la facultad de Minas cederán la totalidad de los derechos patrimoniales a la Universidad Nacional de Colombia de manera gratuita, dentro de los cuáles se incluyen: el derecho a editar, publicar, reproducir y distribuir tanto en medios impresos como digitales, además de incluir en artículo en índices internacionales y/o bases de datos, de igual manera, se faculta a la editorial para utilizar las imágenes, tablas y/o cualquier material gráfico presentado en el artículo para el diseño de carátulas o posters de la misma revista.
