TY - JOUR
T1 - FROM BEST FIT TECHNOLOGIES to BEST FIT SCALING
T2 - INCORPORATING and EVALUATING FACTORS AFFECTING the ADOPTION of GRAIN LEGUMES in SUB-SAHARAN Africa
AU - Farrow, Andrew
AU - Ronner, Esther
AU - Van Den Brand, Greta J.
AU - Boahen, Stephen K.
AU - Leonardo, Wilson
AU - Wolde-Meskel, Endalkachew
AU - Adjei-Nsiah, Samuel
AU - Chikowo, Regis
AU - Baijukya, Fredrick
AU - Ebanyat, Peter
AU - Sangodele, Emmanuel A.
AU - Sanginga, Jean Marie
AU - Kantengwa, Speciose
AU - Phiphira, Lloyd
AU - Woomer, Paul
AU - Ampadu-Boakye, Theresa
AU - Baars, Edward
AU - Kanampiu, Fred
AU - Vanlauwe, Bernard
AU - Giller, Kenneth E.
N1 - Publisher Copyright:
© 2016 Cambridge University Press.
PY - 2019/6/1
Y1 - 2019/6/1
N2 - The success of scaling out depends on a clear understanding of the factors that affect adoption of grain legumes and account for the dynamism of those factors across heterogeneous contexts of sub-Saharan Africa. We reviewed literature on adoption of grain legumes and other technologies in sub-Saharan Africa and other developing countries. Our review enabled us to define broad factors affecting different components of the scaling out programme of N2Africa and the scales at which those factors were important. We identified three strategies for managing those factors in the N2Africa scaling out programme: (i) testing different technologies and practices; (ii) evaluating the performance of different technologies in different contexts; and (iii) monitoring factors that are difficult to predict. We incorporated the review lessons in a design to appropriately target and evaluate technologies in multiple contexts across scales from that of the farm to whole countries. Our implementation of this design has only been partially successful because of competing reasons for selecting activity sites. Nevertheless, we observe that grain legume species have been successfully targeted for multiple biophysical environments across sub-Saharan Africa, and to social and economic contexts within countries. Rhizobium inoculant and legume specific fertiliser blends have also been targeted to specific contexts, although not in all countries. Relatively fewer input and output marketing models have been tested due to public-private partnerships, which are a key mechanism for dissemination in the N2Africa project.
AB - The success of scaling out depends on a clear understanding of the factors that affect adoption of grain legumes and account for the dynamism of those factors across heterogeneous contexts of sub-Saharan Africa. We reviewed literature on adoption of grain legumes and other technologies in sub-Saharan Africa and other developing countries. Our review enabled us to define broad factors affecting different components of the scaling out programme of N2Africa and the scales at which those factors were important. We identified three strategies for managing those factors in the N2Africa scaling out programme: (i) testing different technologies and practices; (ii) evaluating the performance of different technologies in different contexts; and (iii) monitoring factors that are difficult to predict. We incorporated the review lessons in a design to appropriately target and evaluate technologies in multiple contexts across scales from that of the farm to whole countries. Our implementation of this design has only been partially successful because of competing reasons for selecting activity sites. Nevertheless, we observe that grain legume species have been successfully targeted for multiple biophysical environments across sub-Saharan Africa, and to social and economic contexts within countries. Rhizobium inoculant and legume specific fertiliser blends have also been targeted to specific contexts, although not in all countries. Relatively fewer input and output marketing models have been tested due to public-private partnerships, which are a key mechanism for dissemination in the N2Africa project.
UR - http://www.scopus.com/inward/record.url?scp=85007199705&partnerID=8YFLogxK
U2 - 10.1017/S0014479716000764
DO - 10.1017/S0014479716000764
M3 - Article
AN - SCOPUS:85007199705
SN - 0014-4797
VL - 55
SP - 226
EP - 251
JO - Experimental Agriculture
JF - Experimental Agriculture
IS - S1
ER -