Adoption of Contract Farming and Precautionary Savings to Manage the Catastrophic Risk of Maize Farming: Evidence from Bangladesh
Abstract
:1. Introduction
2. Literature Review and Theoretical Background
3. Materials and Methods
3.1. Study Area and Sampling
3.2. Empirical Specification
3.3. Variables and Their Descriptions
3.3.1. Dependent Variables
Contract Farming
Precautionary Savings
3.3.2. Independent Variables
Socio-Economic and Demographic Factors
Risk Perception
Risk Attitude
4. Analytical Models
4.1. Bivariate Probit Model
4.2. Multinomial Probit Model
5. Results of the Study
5.1. Summary Statisitics of Variables Used in Empirical Models
5.2. Results from Probit Models
5.2.1. Results of Individual and Bivariate Probit Models
5.2.2. Marginal Effects of the Estimations
5.3. Results of Multinomial Probit Models
6. Conclusions
Author Contributions
Funding
Acknowledgments
Conflicts of Interest
References
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RM Tools | Numbers of Respondent | Proportion (%) |
---|---|---|
No risk management tools used | 113 | 32.28 |
Only contract farming used | 99 | 28.29 |
Only precautionary savings used | 53 | 15.14 |
Both tools used | 85 | 24.29 |
Stage | Elicited CE | Utility Calculation (UC) |
---|---|---|
Pay/income scale | U (0) = 0 and U (30,000) = 1 | |
1 | (21,200; 1.0) ~ (0, 30,000; 0.5, 0.5) | U (21,200) = 0.5u (0) + 0.5u (30,000) = 0.5 |
2 | (11,600; 1.0) ~ (0, 21,200; 0.5, 0.5) | U (11,600) = 0.5u (0) + 0.5u (21,200) = 0.25 |
3 | (7000; 1.0) ~ (0, 11,600; 0.5, 0.5) | U (7000) = 0.5u (0) + 0.5u (11,600) = 0.125 |
4 | (4000; 1.0) ~ (0, 7000; 0.5, 0.5) | U (4000) = 0.5u (0) + 0.5u (7000) = 0.0625 |
5 | (28,000; 1.0) ~ (30,000, 21,200; 0.5, 0.5) | U (28,000) = 0.5u (30,000) + (0.5u (21,200) = 0.75 |
6 | (33,500; 1.0) ~ (30,000, 28,000; 0.5, 0.5) | U (33,500) = 0.5u (30,000) + (0.5u (28,000) = 0.875 |
7 | (38,000; 1.0) ~ (30,000, 33,500; 0.5, 0.5) | U (38,000) = 0.5u (30,000) + (0.5u (33,500) = 0.938 |
Variables | Explanation | Mean | Standard Deviation (SD) |
---|---|---|---|
Dependent variables | |||
Contract farming (CF) | 1, if doing contract farming and 0, otherwise | 0.56 | 0.51 |
Precautionary savings (PS) | 1, if doing precautionary savings and 0, otherwise | 0.41 | 0.50 |
Independent variables | |||
Farm and socioeconomic characteristics | |||
Age of farmer | Age of the respondent in years | 38.23 | 13.17 |
Education of farmer | Number of years of schooling | 4.05 | 6.01 |
Farming year | Number of farming experience years | 18.32 | 14.98 |
Household income | Monthly family income (farm and off-farm) in BDT | 24,535.54 | 14,999.35 |
Family size | No. of family fellows | 5.34 | 2.37 |
Farm size | Total farmstead area in acres | 6.04 | 2.39 |
Land ownership | 1, if the farmer is the possessor of the land | 0.475 | 0.50 |
Risk perception | |||
Flood risk | 1, risk factor score > 5 and 0, otherwise | 0.57 | 0.45 |
Heavy rain risk | 1, risk factor score > 5 and 0, otherwise | 0.71 | 0.44 |
Pest and disease risk | 1, risk factor score > 5 and 0, otherwise | 0.78 | 0.43 |
Drought risk | 1, risk factor score > 5 and 0, otherwise | 0.40 | 0.49 |
Heavy wind risk | 1, risk factor score > 5 and 0, otherwise | 0.77 | 0.43 |
Hailstorm risk | 1, risk factor score > 5 and 0, otherwise | 0.47 | 0.50 |
Risk attitude | |||
Risk Aversion | 1, if the farmer shows aversive attitude to the risk and 0, otherwise | 0.76 | 0.44 |
Sample size | 350 |
Independent Variables | Bivariate Probit model | Individual Probit Model | ||
---|---|---|---|---|
Contract Farming | Precautionary Savings | Contract Farming | Precautionary Savings | |
Farm and socioeconomic characteristics | ||||
Age of farmer | 0.0283 ** | –0.0289 ** | 0.0293 ** | –0.0287 ** |
(0.0116) | (0.0126) | (0.0117) | (0.0126) | |
Education of farmer | 0.0317 * | –0.0551 *** | 0.0319 * | –0.0580 *** |
(0.0187) | (0.0189) | (0.0184) | (0.0191) | |
Farming year | –0.0327 *** | 0.0107 | –0.0331 *** | 0.0099 |
(0.0109) | (0.0119) | (0.0110) | (0.0119) | |
Household income | 0.00001 *** | 0.00003 *** | 0.00001 *** | 0.00003 *** |
(0.0000007) | (0.000001) | (0.0000007) | (0.000001) | |
Family size | 0.0151 | –0.0143 | 0.0150 | –0.0138 |
(0.0241) | (0.0257) | (0.0242) | (0.0254) | |
Farm size | –0.01177 * | 0.0807 | –0.01116 * | 0.0846 |
(0.0666) | (0.0621) | (0.0664) | (0.0621) | |
Land ownership | 0.7873 *** | 0.6998 *** | 0.7769 *** | 0.6949 *** |
(0.1799) | (0.1842) | (0.1796) | (0.1839) | |
Risk perceptions | ||||
Flood risk | 0.2451 | 0.6621 | 0.2461 | 0.6583 |
(0.1873) | (0.1907) | (0.1877) | (0.1909) | |
Heavy rain risk | –0.1387 | 0.4527 | –0.1415 | 0.4393 |
(0.1857) | (0.1863) | (0.1847) | (0.1853) | |
Pest and disease risk | 0.2021 | – 0.5857 | 0.2029 | –0.5855 |
(0.1847) | (0.1922) | (0.1841) | (0.1919) | |
Drought risk | 0.1643 | 0.0309 | 0.1489 | 0.0219 |
(0.2835) | (0.2560) | (0.2829) | (0.2569) | |
Heavy wind risk | 0.2019 | – 0.5799 | 0.2017 | –0.5801 |
(0.1799) | (0.1889) | (0.1803) | (0.1807) | |
Hailstorm risk | –0.0141 | 0.1853 | –0.0059 | 0.1933 |
(0.2557) | (0.2389) | (0.2559) | (0.2398) | |
Risk attitude | ||||
Risk aversion | 0.9087 | 1.0123 | 0.8998 | 1.0731 |
(0.2267) | (0.2331) | (0.2259) | (0.2346) | |
Log-likelihood value | –351.0135 | –169.1571 | –179.5213 | |
Wald χ2 (28) | 139.87 *** | |||
LR test pkj | 3.19067 * | |||
LR test χ2 (14) | 105.79 *** | 78.09 *** | ||
Pscudo-R2 | 0.2177 | 0.1801 | ||
Correlation coefficient | 0.149 *** | |||
Total Sample size | 350 |
Independent Variables | Bivariate Probit Model | Individual Probit Model | ||
---|---|---|---|---|
Contract Farming | Precautionary Savings | Contract Farming | Precautionary Savings | |
Farm and socioeconomic characteristics | ||||
Age of farmer | 0.0121 *** | –0.0126 ** | 0.0109 ** | –0.0107 ** |
(0.0044) | (0.0049) | (0.0043) | (0.0044) | |
Education of farmer | 0.0151 ** | –0.0233 *** | 0.0126 * | –0.0217 *** |
(0.0070) | (0.0077) | (0.0071) | (0.0071) | |
Farming year | –0.0133 *** | 0.0055 | –0.0133 *** | 0.0037 |
(0.0043) | (0.0049) | (0.0045) | (0.0045) | |
Household income | 0.00002 *** | 0.00009 *** | 0.00003 *** | 0.00001 *** |
(0.0000003) | (0.000001) | (0.0000005) | (0.000001) | |
Family size | 0.0066 | –0.0063 | 0.0060 | –0.0054 |
(0.0091) | (0.0101) | (0.0094) | (0.0095) | |
Farm size | –0.0490 * | 0.0374 | –0.0443 * | 0.0323 |
(0.0255) | (0.0247) | (0.0259) | (0.0237) | |
Land ownership | 0.2593 *** | 0.2384 *** | 0.2989 *** | 0.2329 *** |
(0.0691) | (0.0701) | (0.0657) | (0.0613) | |
Risk perception | ||||
Risk of floods | 0.1247 | 0.2589 | 0.0959 | 0.2333 |
(0.0681) | (0.0670) | (0.0721) | (0.0613) | |
Risk of heavy rains | –0.0749 | 0.1800 | –0.0549 | 0.1599 |
(0.0689) | (0.0890) | (0.0719) | (0.0639) | |
Risk of pest and diseases | 0.0459 | –0.2118 | 0.0801 | –0.2069 |
(0.0740) | (0.0671) | (0.0729) | (0.0619) | |
Risk of drought | 0.0743 | 0.0089 | 0.0539 | 0.0087 |
(0.0679) | (0.0090) | (0.0707) | (0.0065) | |
Risk of heavy winds | 0.0733 | –0.1799 | 0.0529 | –0.1601 |
(0.0677) | (0.0879) | (0.0709) | (0.0641) | |
Risk of hailstorm | –0.0313 | 0.8990 | –0.0219 | 0.9011 |
(0.0121) | (0.0701) | (0.0109) | (0.0719) | |
Risk attitude | ||||
Risk aversion | 0.2959 | 0.3363 | 0.3447 | 0.3469 |
(0.0915) | (0.0659) | (0.0779) | (0.0553) | |
Total Sample size | 350 |
Independent Variables | Contract Farming | Precautionary Savings | Both Contract Farming and Precautionary Savings |
---|---|---|---|
Farm and socioeconomic characteristics | |||
Age of farmer | 0.0489 *** | –0.0241 | 0.0039 |
(0.0173) | (0.0249) | (0.0209) | |
Education of farmer | 0.0729 ** | –0.0401 | –0.0451 |
(0.0289) | (0.0388) | (0.0319) | |
Farming year | –0.0329 ** | 0.0221 | –0.0313 |
(0.0158) | (0.0239) | (0.0199) | |
Household income | 0.00003 *** | 0.00002 *** | 0.00007 *** |
(0.00001) | (0.00001) | (0.00001) | |
Family size | 0.0133 | –0.0107 | 0.0149 |
(0.0369) | (0.0489) | (0.0430) | |
Farm size | –0.2581 ** | –0.0148 | 0.0271 |
(0.1099) | (0.1179) | (0.1080) | |
Land ownership | 0.7873 *** | –0.6610 ** | 1.6499 *** |
(0.2877) | (0.3360) | (0.3201) | |
Risk perception | |||
Risk of floods | –0.3199 | 0.7079 | 0.4549 |
(0.2889) | (0.3850) | (0.3299) | |
Risk of heavy rains | –0.3109 | 1.6699 | –0.1099 |
(0.2859) | (0.4569) | (0.3041) | |
Risk of pest and diseases | 0.5809 | 1.1480 | 0.7310 |
(0.2969) | (0.3409) | (0.3210) | |
Risk of drought | 0.1720 | –0.0841 | –0.0701 |
(0.4999) | (0.6961) | (0.5269) | |
Risk of heavy winds | 0.4069 | –0.6829 | –0.1901 |
(0.5399) | (0.8969) | (0.5658) | |
Risk of hailstorm | –0.1816 | –0.3309 | 0.2730 |
(0.4670) | (0.6449) | (0.4889) | |
Risk attitude | |||
Risk aversion | 0.7730 | 0.8919 | 2.5839 |
(0.3399) | (0.4031) | (0.4620) | |
Log-likelihood value | –329.5451 | ||
Total Sample size | 350 |
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Adnan, K.M.M.; Ying, L.; Sarker, S.A.; Hafeez, M.; Razzaq, A.; Raza, M.H. Adoption of Contract Farming and Precautionary Savings to Manage the Catastrophic Risk of Maize Farming: Evidence from Bangladesh. Sustainability 2019, 11, 29. https://doi.org/10.3390/su11010029
Adnan KMM, Ying L, Sarker SA, Hafeez M, Razzaq A, Raza MH. Adoption of Contract Farming and Precautionary Savings to Manage the Catastrophic Risk of Maize Farming: Evidence from Bangladesh. Sustainability. 2019; 11(1):29. https://doi.org/10.3390/su11010029
Chicago/Turabian StyleAdnan, K M Mehedi, Liu Ying, Swati Anindita Sarker, Muhammad Hafeez, Amar Razzaq, and Muhammad Haseeb Raza. 2019. "Adoption of Contract Farming and Precautionary Savings to Manage the Catastrophic Risk of Maize Farming: Evidence from Bangladesh" Sustainability 11, no. 1: 29. https://doi.org/10.3390/su11010029
APA StyleAdnan, K. M. M., Ying, L., Sarker, S. A., Hafeez, M., Razzaq, A., & Raza, M. H. (2019). Adoption of Contract Farming and Precautionary Savings to Manage the Catastrophic Risk of Maize Farming: Evidence from Bangladesh. Sustainability, 11(1), 29. https://doi.org/10.3390/su11010029