Climbing bean as a solution to increase productivity in land-constrained environments: Evidence from Rwanda

被引:7
作者
Katungi, Enid [1 ]
Larochelle, Catherine [2 ]
Mugabo, Josephat [3 ]
Buruchara, Robin [4 ]
机构
[1] Uganda Off, Int Ctr Trop Agr, PABRA, Kampala, Uganda
[2] Virginia Tech, Dept Agr & Appl Econ, 315 Hutcheson Hall, Blacksburg, VA 24061 USA
[3] Rwanda Agr Board, Div Socioecon, Kigali, Rwanda
[4] Int Ctr Trop Agr, Nairobi, Kenya
关键词
climbing bean; technological adoption; yield; endogenous switching regression; Rwanda; FOOD SECURITY; ADOPTION; IMPACTS;
D O I
10.1177/0030727018813698
中图分类号
S [农业科学];
学科分类号
09 ;
摘要
Climbing bean is a potential solution to increase the agricultural sector productivity and sustainability. Using nationally representative bean-producing household data collected in Rwanda, this study identifies factors that influence the decision to switch from cultivating bush to climbing bean and quantifies the impact of climbing bean adoption on yield. About 50% of bean-producing households grow climbing bean, a substantial increase over the past 15 years. Elevation, population pressure, and drought shocks are important drivers of climbing bean adoption. Adoption of climbing bean increases yield by 23% among adopters and has the potential to increase yield by 48% for non-adopters. Findings from this study provide important information for the development of agricultural policies and programs in Rwanda and elsewhere.
引用
收藏
页码:28 / 36
页数:9
相关论文
共 19 条
[1]   Welfare impacts of maize-pigeonpea intensification in Tanzania [J].
Amare, Mulubrhan ;
Asfaw, Solomon ;
Shiferaw, Bekele .
AGRICULTURAL ECONOMICS, 2012, 43 (01) :27-43
[2]   Impact of modern agricultural technologies on smallholder welfare: Evidence from Tanzania and Ethiopia [J].
Asfaw, Solomon ;
Shiferaw, Bekele ;
Simtowe, Franklin ;
Lipper, Leslie .
FOOD POLICY, 2012, 37 (03) :283-295
[3]   A note on the estimation of Cobb-Douglas production functions when some explanatory variables have zero values [J].
Battese, GE .
JOURNAL OF AGRICULTURAL ECONOMICS, 1997, 48 (02) :250-252
[4]  
Baum C. F., 2010, ivreg2: Stata module for extended instrumental variables/2SLS, GMM and AC/HAC, LIML and k-class regression
[5]  
Beebe S., 2012, Issues in tropical agriculture. I. Eco-efficiency: From vision to reality, P117
[6]   Does Adaptation to Climate Change Provide Food Security? A Micro-Perspective from Ethiopia [J].
Di Falco, Salvatore ;
Veronesi, Marcella ;
Yesuf, Mahmud .
AMERICAN JOURNAL OF AGRICULTURAL ECONOMICS, 2011, 93 (03) :825-842
[7]  
Graf W, 1991, PLANNED CHANGE FARMI, P348
[8]  
Johnson N. L., 2003, P257, DOI 10.1079/9780851995496.0257
[9]   Yield Effects of Tissue Culture Bananas in Kenya: Accounting for Selection Bias and the Role of Complementary Inputs [J].
Kabunga, Nassul S. ;
Dubois, Thomas ;
Qaim, Matin .
JOURNAL OF AGRICULTURAL ECONOMICS, 2012, 63 (02) :444-464
[10]  
Kalyebara R, 2008, 41 CIAT AFR