The role of external forces in the adoption of aquaculture innovations: An ex-ante case study of fish farming in Colombia's southern Amazonian region
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The role of external forces in the adoption of aquaculture innovations : An ex-ante case study of fish farming in Colombia's southern Amazonian region. / Quevedo Cascante, Mónica; Acosta García, Nicolás; Fold, Niels.
In: Technological Forecasting and Social Change, Vol. 174, 121185, 01.2022.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - The role of external forces in the adoption of aquaculture innovations
T2 - An ex-ante case study of fish farming in Colombia's southern Amazonian region
AU - Quevedo Cascante, Mónica
AU - Acosta García, Nicolás
AU - Fold, Niels
N1 - Funding Information: We are grateful to farmers and local residents in Caquetá for participating in this research. This study was funded by the Ministry of Foreign Affairs of Denmark (Grant No 17-M11-DTU ) and supported by an International Mobility Stipend from EIT Climate-KIC's Master Label Program. Publisher Copyright: © 2021
PY - 2022/1
Y1 - 2022/1
N2 - Several adoption models have been developed to explain the dynamics behind the uptake of new technologies in food-production systems. However, the literature has yet to consider a range of external forces that affect farmers’ decision-making processes. We argue that climate change and institutions are latent explanatory variables that require attention in the literature on aquatic-based innovations. Our aim is to conduct an ex-ante analysis focusing on these two external forces in the context of aquaculture and the adoption of aquaponics technology in Colombia. We use an embedded case-study design incorporating a qualitative and exploratory approach and employ two categories of fish-farming production systems as units of analysis. We triangulate our findings using non-probability sampling techniques and use our findings as a benchmark to discuss the potential adoption of aquaponics technology. Our findings suggest that fluctuations in rainfall and drought are the most important climate variables influencing negatively fish farming activities. Furthermore, we find that the complex institutional structures involved create unequal informal mechanisms among fish-farming production systems. We argue for context-specific designs when considering the adoption of aquaponics and conclude that, while fish-farming production systems encounter these external forces differently, heterogeneity also exists within systems, revealing intricacies worth considering.
AB - Several adoption models have been developed to explain the dynamics behind the uptake of new technologies in food-production systems. However, the literature has yet to consider a range of external forces that affect farmers’ decision-making processes. We argue that climate change and institutions are latent explanatory variables that require attention in the literature on aquatic-based innovations. Our aim is to conduct an ex-ante analysis focusing on these two external forces in the context of aquaculture and the adoption of aquaponics technology in Colombia. We use an embedded case-study design incorporating a qualitative and exploratory approach and employ two categories of fish-farming production systems as units of analysis. We triangulate our findings using non-probability sampling techniques and use our findings as a benchmark to discuss the potential adoption of aquaponics technology. Our findings suggest that fluctuations in rainfall and drought are the most important climate variables influencing negatively fish farming activities. Furthermore, we find that the complex institutional structures involved create unequal informal mechanisms among fish-farming production systems. We argue for context-specific designs when considering the adoption of aquaponics and conclude that, while fish-farming production systems encounter these external forces differently, heterogeneity also exists within systems, revealing intricacies worth considering.
KW - Aquaponics
KW - Climate change
KW - Colombia
KW - Fish farmers
KW - Institutions
KW - Technological innovation
U2 - 10.1016/j.techfore.2021.121185
DO - 10.1016/j.techfore.2021.121185
M3 - Journal article
AN - SCOPUS:85114992000
VL - 174
JO - Technological Forecasting and Social Change
JF - Technological Forecasting and Social Change
SN - 0040-1625
M1 - 121185
ER -
ID: 281982921