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Volume
8, Issue 2
Spring 2005 Determinants of Rural Labor Market Participation in Tanzania Abstract: Participation in rural off-farm activities (outside a household's own farm) is one of the livelihood strategies among poor rural households in many developing countries. One component of off-farm activities accessible to the very poor is wage labor because it does not require any complementary physical capital. A household’s ability to participate in the rural labor market depends on the characteristics of the household itself and the local labor markets conditions. This study examines the factors that determine the number of households supplying labor to a particular rural local labor market in rural areas of Tanzania and the share of labor income in total cash income. The study finds that education level, availability of land, and access to economic centers and credit are the most important factors in determining the number of households that participate in a particular rural local labor market and the share of labor income in total cash income. MOTIVATION Many studies show that participation in rural labor markets is an important strategy for poverty alleviation and food security in developing countries.[1] In Sub-Saharan Africa, rural households commonly depend on off-farm sources for 30-50 percent of their income.[2] Defined in terms of function, off-farm employment has two major components, namely wage employment and self-employment.[3] The component of rural off-farm employment, in which the poor can participate because it does not require any complementary physical capital, is wage labor (i.e. to supply their labor for wage in the rural labor markets). A corresponding Kiswahili saying goes: “mtaji wa maskini ni nguvu zake mwenyewe,” which translates “the asset of the poor is his/her labor power.” The report on Tanzania’s Household Budget Survey (HBS) of 2000/01 shows that the poverty rate of the households that participated in the rural labor markets were slightly lower than those which did not. However, the most recent national Labor Force Survey (LFS) in Tanzania shows that only 11 percent of the poor households participated (supplied labor) in the rural labor markets in 2000/01.[4]Studies elsewhere have shown that the capacity of households or individuals to participate in rural off-farm activities varies significantly across countries and within countries. In their analysis of 100 farm household studies, Reardon et al. in 2001 find that this variation is partly due to high entry barriers to certain rural off-farm activities, which makes certain activities accessible only to higher income groups.[5] The 'entry barrier' hypothesis is particularly important in the case of off-farm self-employment. For the poor rural wage labor supplier, however, the main problem is the availability of wage employment in areas close to his/her homestead. In other words, with high entry barriers in off-farm employment such as off-farm self-employment, very poor households have no other option but to participate in rural off-farm wage employment, which in turn is only possible if there is sufficient demand for their labor nearby. Thus, concerning these very poor households an important policy question arises: what factors determine the total participation of individuals/households in the rural labor markets? Equally important is the question of factors that determine the share of labor income in total income. Few studies of rural labor markets in Africa focus on the non-farm sector. although wage employment can be provided by both farm and non-farm sector.[6] Furthermore, these studies concentrate on the individual/household level. However, the proponents of the importance of “spatial targeting” for poverty reduction argue that most micro-policies first target particular areas/locations and then households located therein.[7] This paper answers the question of what determines the number of households in a village that participate in the rural labor market and the share of income derived from these markets (in the households total cash income) using a modified farm household model, aggregated to the village level. The rest of the paper is organized as follows: Section 2 presents the theoretical framework of the agricultural household model with transaction costs and liquidity constraints; Section 3 describes the econometric models and the estimation strategies. Section 4 discusses the results of the analysis; and Section 5 provides conclusions of the paper. THEORETICAL FRAMEWORK In finding the determinants of the number of households which participate in a certain rural local labor market and the share of labor income in total income, it is important to address the spatial dependence in the development of one rural market on the other. For example, the study by Bryceson in 2000 shows that development of other markets such as credit markets in the rural areas may have significant impacts on rural labor markets.[8] This argument is theoretically based on the proposition that households participating in rural credit markets may offer jobs to other households, thus, increasing the number of households participating in the rural labor markets and the contribution of income derived from the rural labor markets. As most of the rural credit is directed to agricultural activities, for example season credit for purchasing fertilizers and pesticides, the link of credit availability and rural labor market is likely to work through the farm sector.[9] However, due to transportation and other transaction costs, the spatial dependence effects dissipate as distance increases, i.e. the strength of the connection between the two markets is expected to diminish with distance.[10] This argument is in line with most spatial econometric analysis and regional sciences in general that indicate spatial dependence is a declining function of distance. Thus, high transaction costs cause localization of rural labor markets because it becomes costly to sell labor to distant places.[11] As such, transaction costs is one of the factors that may result in disequilibrium in the rural markets as discussed in the recent study by Kanwar in 2004 for the case of rural India. As in many studies of rural economies, the starting point of our theoretical framework is the Farm Household Model (FHM).[12] This model is preferred to, for example, the occupational choice models, because of its flexibility to analyze economic aspects for a range of different household types -- from pure subsistence to commercial farm households. The FHM can readily be extended to accommodate incomplete markets and market imperfections such as differential accessibility to rural labor markets and other off-farm activities due to differences in transaction costs, rationing, and entry barriers.[13] Some studies of rural labor markets assumed that
the rationing and transaction costs apply to each household differently.[14] When the emphasis is on
spatial targeting, this assumption may not be realistic because households
in one village are likely to be rationed in wage labor markets by their
access to infrastructure, information costs, and credit availability. This
is particularly important when modeling village labor markets because farmers
in We impose some regularity conditions, namely the quasi-concavity of the household preference, convex agricultural production frontier, and linearity in all constraints in the model. Woldehanna and Mduma show that, under these assumptions, the Kuhn-Tucker first order conditions for utility maximization are both necessary and sufficient for a household’s utility maximization problem. They also show that the propensity to participate in the rural labor markets declines with the increase in marginal value of time, the extent of rationing in the rural labor markets, and the transaction costs of participating in the rural labor markets.[17] Furthermore, from the assumptions of rationing, search, and other transaction costs, the model implies that access to information and markets will influence participation rate in the village. Also from the assumptions of household characteristics, labor endowment and stock of human capital in the villages are some of the factors that have bearing on the rural labor markets. Although the focus of this study is mainly on the
supply side of the rural labor market, the comparative statics behavior
discussed above needs to be qualified by also looking at some aspects of
the demand side in order to enable a village level analysis. This is particularly
needed because the presence of 8.4% of unemployment rate in rural areas
of With respect to agricultural land, we note that land is likely to be complimentary to wage labor. However, even though large landholdings may reduce the need for seeking for wage employment, households with large amount of land (relative to their labor endowment) are likely to demand labor from the rural labor markets. Thus, at the village level, the effect of the land availability on rural labor markets is also likely to manifest itself through inequality in landholdings. In other words, those with relatively large amount of land will demand labor in the rural labor market and those with relatively low amount of land will sell their labor in the rural labor markets. The same argument is made with respect to the per capita village income: households with relatively higher per capita income are likely to be employers in the rural labor markets. Thus, it is likely that for the kind of off-farm employment we analyze, the village income inequality is an important factor in influencing the availability of wage employment to the relatively poor households. In the next section we describe how these theoretical implications were operationalized for empirical estimation. VARIABLES AND ECONOMETRIC ESTIMATIONS(a) Dependent variables As in Isigut’s 2004 work, we use the share of village income from labor markets over total cash income (SHARE) as the first dependent variable that indicates the extent of participation in the rural labor markets. We also take the number of households in a village who reported to have supplied their labor to the rural labor markets (ACT_W) in the survey year as another dependent variable.[19] From a policy perspective, while the former dependent variable is relevant in indicating the extent to which rural poor households depend on the income derived from the rural labor markets, the latter gives an overview of the participation rate in the supply side of these markets. (b) Predictor variables (i) Development in other rural markets: To capture the interconnectedness of rural labor markets with other markets, we focus on the rural credit market because it is assumed to relax the cash constraints at the village level. The indicator of the village cash constraint is measured by the proportion of households which have at least one member who participated in formal financial and/or informal financial arrangements (CREDIT)[20]. As derived in the theoretical framework, the relaxation of cash constraints reduces participation in rural wage employment at household level. However, we note that the relaxation of cash constraints may have an opposite effect on labor supply in case of unemployment, through its positive effects on the labor demand. Therefore, the square of this variable (CREDIT_SQ) is included to capture this complex relationship. (ii) Agricultural assets: As pointed out in the section 2, labor allocation
is likely to be affected by land availability. Thus, we include the per
capita cultivated land in the survey year (PER_LAND). According to Yao’s
study of rural (iii) Infrastructure development and transaction costs: We include proximity to important economic centers (including main roads) to capture costs related to marketing, transaction, rationing, and information. We tried two proxies to capture these aspects. The first proxy used was the average distance, in kilometers, to the nearest major/essential economic center, such as shops, market place, main road, and health centers.[22] The alternative proxy is the average travel time (DISTC_HRS) to the nearest economic center. In the course of estimation, the travel time was found to be more appropriate than distance measured in kilometers. The travel time approach tended to fit the data better than distance in kilometers because travel time captures both the differences in terrain and the quality of the paths/roads. (iv) Human capital stock and labor resources: We use education indicators as proxies for the stock of skills in the village. For most studies in Sub-Saharan Africa, the cut off point has been primary education (and above) vs. no education. Thus we use the proportion of those who have primary education and above (PR_EDUC) in the population of individuals above 15 years of age. The square of this variable (EDUC_SQ) has also been included to capture the nonlinearity of the relationship, for the kind of wage employment analyzed here is expect to decline with the increase in education (as households shift to other preferred form of off-farm employment, e.g. self-employment). Thus, we expect the square of education to have significant negative effects on the participation and the share of labor income in the total cash income. As indicated in the theoretical framework at household level, we include the average age (AGE) of the population between 15 and 65 years in the village. We have also included the square of age (AGE_SQ) to capture the lifecycle in the participation in the rural labor markets. Moreover, the average household size (HH_TOTAL) in the village was included as an indicator of the available labor resources in the village. However, to account for a non-working population in the village, we also included the average dependency ratio (DEP_RATIO) within the village, which is expected to reduce the rate of participation in rural labor markets. The dependency ratio was computed as the ratio of the population below 5 years plus above 65 years to the population between 15 and 65 years. The square of dependency ratio (DRATIO_SQ) was also included to capture possible non-linearity. (v) Economic development and diversification: Average time used per week on the primary activities (ACT_HRS1) and the secondary activities (ACT_HRS2) in the village are included as measure of rural economy diversification. The primary activities are essentially farm and livestock activities. The secondary activities are mainly off-farm activities such as fishing, mining, tourism, construction, and employment in the government and parastatals. However, a large proportion of the secondary activities take the form of off-farm self-employment. As an alternative way of including the proxies for economic diversification in the village, we also include the ratio of average time per week used in the primary activities to average time per week used in the secondary activities (denoted as ACT1_to_2). Furthermore, we include the number of petty traders in the villages (TRADE) and its square (TRADE_SQ), to capture wage employment generated by expansion in other off-farm activities, particularly off-farm self-employment. To control for differences in well-being of the people across villages, we include the proportion of households in the village that have access to safe water (SAF_WATE) as computed by Tanzania’s National Bureau of Statistics. The square of this variable (WATER_SQ) is included to capture the nonlinearity of this relationship. We also include the proportion of households in the village that are connected to the national power grid (ELEC_PW), expecting that the villages with high proportions of their households connected to the national power grid will have better developed rural labor markets. Further, we include the square of this variable (ELEC_SQ) to capture nonlinear relationship. By including access to water and electricity as proxies of the village development level, we avoid the endogeneity problem that would be caused by the direct inclusion of per capita income (because income reported in the survey is necessarily a function of labor allocation in that year). However, we have included the gini coefficient of per capita expenditure (GINI_EXP) to capture possible wage employment provided by relatively rich households to the poor households in the village. This is a particularly important aspect when a substantial portion of the inequality is generated by incomes derived from activities located in the rural areas (thus increased labor demand). However, if a substantial portion of the inequality is generated by incomes from outside the rural areas, the effects of inequality on the rural labor markets remain ambiguous. Data source and descriptive statistics The data used in this study represents 519 ‘true
rural’ villages (the enumeration areas) used in the 2000/01 Household Budget
Survey (HBS) in
It is apparent from Table 1 that about 8% of total cash income comes form the rural labor markets. This is a substantial amount as most of the rural wage labor incomes are intended to relax cash constraints when other sources of cash income, e.g. from selling agricultural products, are not available (as noted by the latest USAID report on the state of food security in 2004). Table 1 also shows that on average, 10% of the households interviewed reported participating in off-farm wage employment. In general, this is a relatively low rate of participation as compared to in some other countries in Sub-Saharan Africa as shown in a recent study by Mduma and Wobst published in 2005. Figure 1 also shows geographical distribution of the importance of labor income in the rural areas. The lowest shares are in Dodoma, Lindi, Mtwara, Ruvuma, and Rukwa regions. These regions are known for their relative lag in many economic aspects such as transport infrastructure. The relatively large share in the Coastal region (Pwani) could probably be explained by the influence of being close to Dar es Salaam.
It is important to emphasize that rural labor markets
in
Estimation techniques For the first dependent variable SHARE (the share of labor income in total cash income), we use a truncated regression because the distribution of the variable is bounded between zero and one. Furthermore, given the discrete (count) nature of the second dependent variable (the number of households which sold labor in the rural labor markets, ACT_W), the empirical model was estimated using a negative binomial model. The reason for using the negative binomial regression is that, although ordinary least squares (OLS) could be used, the preponderance of zeros and small and discrete values of the dependent variable poses econometric problems.[23] Alternatively, we could have used standard Poisson regression. However, one restrictive assumption of the standard Poisson model is that the mean and the variance are equal.[24] Often, this restriction may not agree with sample data and may cause an “over-dispersion” problem (i.e. the mean deviates from the variance). RESULTS AND DISCUSSION (a) Model diagnostics: The overall results of our estimations are presented in Table 3. The last three rows in the table show the model diagnostics. The two estimations, namely the share of labor income and the number of households supplying labor in rural labor markets, fit the data fairly well. The null hypothesis that all coefficients are zero is rejected at one percent significance level in the two estimations. Furthermore, several regressors are individually significant at the conventional levels as indicated by an asterisk (*) in Table 3. The test for over-dispersion shows that there is significant over-dispersion, which justifies the use of the negative binomial model. (b) Estimated coefficients and their implications It is apparent from Table 3 that average household size (HH_TOTAL) in the village, age (AGE), and the dependency ratio (DEP_RATIO) are among the variables that are not significant. Although this could be a result of aggregation to the village level, the most likely reason is the theoretical indeterminacy of some of these variables, for example household size. However, many regressors have the expected signs and are significant. As expected, costs related to marketing, transaction, rationing, and information (DISTC_HRS) — the average travel time to the nearest economic center — has a negative effect on the number of households participating in the rural labor markets. Although it has the expected sign, it is not significant in influencing the share of rural labor income in total cash income. The non-significant effects on the share of labor income could mean that this variable will have similar effects on other sources of cash income (e.g. off-farm self-employment, leaving the composition of different sources unchanged). Thus, this result is supported by the findings of many other studies that conclude access to markets plays a significant role in enhancing development in off-farm employment and in improving the welfare of the rural poor.[25] Relaxation of the cash constraint (CREDIT) has a
positive and significant effect on the number of households participating
in rural labor markets. However, this variable is not significant in influencing
the share of labor income in the cash income of the village. Even though
the participation rate increases, this finding could imply that relaxation
of cash constraints increases income from off-farm self-employment faster
than it increases the wage income. In general therefore, this finding is
contrary to Woldehanna’s 2000 findings at household level, which show that
the relaxation of cash constraints reduced participation in the rural labor
markets in
The indicator of wellbeing at village level, safe water availability (SAF_WATE), is positively associated with the number of households supplying labor in rural labor markets in a village and the share of labor income in total income. The square of this variable also is negative and significant, indicating that wage employment and safe water availability are not necessarily linearly related. Furthermore, the other wellbeing-related indicator, access to electrical power (ELEC_PW) is positively related to the number of households supplying labor in the rural labor markets and the share of income derived from these markets in the total cash income. We find that, contrary to our expectation, inequality in per capita expenditure has negative effects on the share of labor income in the total cash income. This partly implies that the inequality in the rural areas (Gini coefficient of 0.39) is a result of incomes generated from outside the rural areas such as remittances. Note, however, that there is significant evidence that land inequality is positively associated with the number of households that supplied labor in the rural labor markets. Moreover, as expected, per capita land has negative effects on the participation in rural labor markets as a supplier. Thus, these results in general imply that past policies in Tanzania that have favored egalitarian land holding/distribution partly explain the relatively low development of rural labor markets in Tanzania as compared to some other countries in the region, for example Malawi.[27] Indicators of economic diversifications in the rural
economy, the hours worked in the main activity (ACT_HRS1) and in the secondary
activity (ACT_HRS2) do have the expected effects. We find that the number
of hours worked on the main activities in rural The implication of this finding is that agriculture
still has the dominating role in the rural economy of The results with respect to education are as expected. We find that this type of labor market participation declines with education (the square of education is negative). As the type of wage labor analyzed here is predominately for the poor and less educated, our results indicate that education empowers rural households in their search and participation in other off-farm employment such as self-employment. Furthermore, a positive and significant coefficient of education implies that even for this inferior form of rural wage labor, education is important. It emphasize that villages with a relatively educated population will offer more wage opportunities than villages a with relatively uneducated population. SUMMARY AND CONCLUDING REMARKS This paper has considered factors that determine
the number of households that supply labor in the rural labor markets at
village level in We have shown that the factors significant in determining the development of village labor markets are access to credit, education level, per capita agricultural land, and market access. Thus, interventions that relax cash constraints through increased access to credit for some households are likely to indirectly increase the participation of other households in the rural labor markets. For the case of education, we however noted that even though education is important for the development of rural labor markets, relatively high education (in the rural context) is likely to induce participation in self-employment because it is generally considered superior to rural wage employment. Other factors that are significant in determining
the development of village labor markets are diversification of economic
activities in the village and inequality in both per capita expenditure and
landholding. Economic diversification occurs mainly in the form of off-farm
self-employment. As most of these self-employment enterprises do not have
employees apart from their sole proprietors, we found that they have negative
impacts on the number of participants in wage labor markets. As such, we
found that in the current rural setting in Therefore, we argued that since a substantial portion of labor supplied in the rural labor markets is a result of economic distress, the promotion of off-farm self-employment is likely to reduce distress-push participation in the wage labor markets. If the promotion of the rural self-employment can bid up wages in the rural labor markets, then it can be welfare enhancing for both sub-sectors of rural off-farm employment (i.e. wage and self-employment). NOTES: [1] See Leavy and White 2003; Ruben and Berger 2001; FAO 1998; and Lanjouw 1998. [2] World Bank, 2000. See Barrett et al. 2002, for recent review of the importance on non-farm employment in Sub-Saharan Africa. [3] This classification is based on Barrett et al. (2001) in which they present the components of rural household in income a three-way classification. The classification may be based on (i) earned income (income from productive assets); (ii) type of the sector (farm vs non-farm); (iii) function (wage vs. self-employment); (iv) space (local vs. migratory). [4] The two findings based on the two national surveys reported in NBS, 2002a and NBS, 2002b. [5] Reardon et al. 2001. [6] Reardon, 1997, is one of those few studies of rural labor markets in Africa but concentrated mainly on wage employment in the non-farm sector. Leavy and White, 2003, argue, however, that a substantial amount of wage employment is obtained from the farm sector. [7] See Bigman and Fofack, 2000, in their excellent book on methodology and applications of geographical targeting for poverty reduction. [8] Bryceson, 2000. [9] See for example Temu et al. 2001. [10] Anselin, 2002. [11] Rosenzweig, 1988. [12] Singh at el. 1886; Lofgern and Robinson 1999; Taylor and Adelman 2003. [13] Reardon et al. 2001. [14] See, for example, studies cited in Woldehana, 2000. [15] Ferriera, 1996. [16] Woldehanna, 2000 and Mduma, 2003. [17] Woldehanna, 2000 and Mduma, 2003. [18] Mduma, 2003. [19] Isguti, 2004. [20] In general, most of the credit that has been made available to rural households is intended to facilitate purchase of commercial farm inputs (e.g. fertilizers and pesticides) and is typically extended on the basis of cropping seasons (Temu et al. 2001). [21] Yao, 2001. [22] The 2000/01 HBS collected information on distances to 20 socio-economic centers/points which we consider as measuring access to markets and information. In this study, we have only dealt with the average of all of them. The full discussion of each component in found in NBS, 2002b. [23] Wooldridge, 2001. [24] Greene, 2001. [25] See also the review in Reardon et al. 2001. [26] Woldehanna, 2000. [27] See for example,
Edris et al. 2004 for the case of [28] Other results for this regression are omitted because they are similar to those discussed here. [29] Islam, 1997. REFERENCES: Anselin, L. (2003). “Spatial Externalities.” International Regional Science Review, Vol. 26, No. 2, pp. 147-152. Baier, E.G. (1997). The impact of HIV/AIDS on rural communities and the need for multi-sectoral prevention and mitigation strategies to combat the epidemic in rural areas. Rome: Food and Agriculture Organization of the United Nations (FAO). Barrett, C. B., T. Reardon, and P. Webb (2001). “Nonfarm income diversification and household livelihood strategies in rural Africa: concepts, dynamics, and policy implications.” Food Policy, Vol. 26, No. 4, pp. 315-331. Bigman, D. and H. Fofock (2000). Geographical Targeting for Poverty Alleviation: Methodology and Applications. Washington DC: World Bank. Bright, H. et al. (2000). “Rural Non-Farm Livelihoods in Central and Eastern Europe and Central Asia and the Reform Process: A Literature Review.” World Bank Natural Resources Institute Report No. 2633. http://www.nri.org/work, accessed on May 6, 2004. Bryceson, D. (2000). “Rural Africa at the crossroads: Livelihood practices and policies.” Natural Resources Perspective No. 52. London: Overseas Development Institute. FAO (1998). “The State of Food and Agriculture. Part 3: Non-farm income in developing countries.” Rome: Food and Agriculture Organization of the United Nations (FAO). www.fao.org, accessed on January 20, 2003. Edriss,
A., H. Tchale and P. Wobst (2004). “The Impact of Labour Market Liberalization
on Maize Productivity and Rural Poverty in Ferreira,
L. (1996). “Poverty and Inequality During Structural Adjustment in Rural
Greene, W. (2001). Econometric Analysis. Upper Saddle River, NJ: Prentice-Hall. Isigut, A. (2004). “Nonfarm income and employment
in rural Islam, N. (1997). “The non-farm sector and rural development – review of issues and evidence.” Food, Agriculture and the Environment Discussion Paper 22. IFPRI, Washington D.C. Kanwar, S. (2004). “Seasonality and Wage Responsiveness in a Developing Agrarian Economy.” Oxford Bulletin of Economics and Statistics, Vol. 66, No. 2, pp. 189-204. Lanjouw, P. (1998). “Rural Nonfarm Employment and Poverty: Evidence from Household Survey Data in Latin America.” Development Research Group, World Bank, Washington, D.C. Leavy, J. and H. White (2003). “Rural labor markets and poverty in Sub-Saharan Africa.” Working paper, Institute of Development Studies, University of Sussex. Lofgren, H. and S. Robinson (1999). “To Trade or not to Trade: Non-separable Farm Household Models in Partial and General Equilibrium.” TMD Discussion Paper 37. IFPRI, Washington, DC. Mduma,
J. (2003). “Village Level Analysis of the Factors Affecting Households'
Participation in Rural Labor Markets in Mduma,
J. and P. Wobst (2005). Village Level Labor Market Development in NBS
(2002a). The Integrated Labor Force Survey, 2000/2001. NBS
(2002b). Household Budget Survey 2000/01. Reardon, T. (1997). “Using evidence of household income diversification to inform study of the rural nonfarm labor market in Africa.” World Development, Vol. 25, No. 5, pp. 735-748. Reardon, T., J. Berdegué, and G. Escobar (2001). “Rural Nonfarm Employment and Incomes in Latin America: Overview and Policy Implications.” World Development, Vol. 29, No. 3, pp. 395-409. Rosenzweig, M.R. (1988). “Labor Markets in Low Income Countries.” In H. Chenery and T.N. Srinivasan (eds), Handbook of Development Economics, Volume 1. Amsterdam: Elsevier Science Publisher B.V. pp 713-762. Ruben,
R. and M. Berg (2001). “Nonfarm employment and poverty alleviation of rural
farm households in Singh, I., L. Squire, and J. Strauss (1986). Agricultural Household Models: Extensions, Applications, and Policy. Baltimore and London: Johns Hopkins University Press. Taylor, J. E. and I. Adelman (2003). “Agricultural Household Models: Genesis, Evolution, and Extensions.” Review of Economics of the Household, Vol. 1 No. 1-2, pp. 33 – 58. Temu, A. E., M. Mwachang'a, and K. Kilima (2001). “Agriculture Development Intervention and Smallholder Farmers Credit in Southern Tanzania: An Assessment of Beneficiaries.” African Review of Money, Finance and Banking, Supplement: pp.119-41. USAID
(2004). “ Woldehanna, T. (2000). “Economic Analysis and Policy Implications of Farm and Off-farm Employment: A Case Study in the Tigray Region of Northern Ethiopia.” Ph.D. Thesis, Wageningen University. Wooldridge, J.M. (2001). Econometric Analysis of Cross Section and Panel Data. Cambridge, MA: MIT Press. World
Bank (2000). “Plenary Session Materials to the Internet Forum.” Africa Poverty
Forum on Poverty Reduction Strategies, Yamoussoukro, Yao,
Y. (2001). “Egalitarian Land Distribution and Labor Migration in Rural John K. Mduma is a lecturer of Economics at the Economics Department, University of Dar es Salaam & Junior Research Fellow at the Center for Development Research (ZEF), University of Bonn. Peter Wobst is a Senior Research Fellow at ZEF & Research Fellow at the International Food Policy Research Institute (IFPRI), Washington, D.C. The research was made possible by the Robert Bosch Foundation under the Policy Analysis for Sustainable Agricultural Development (PASAD) Project at ZEF. John K. Mduma is a lecturer of Economics at the Economics Department, University of Dar es Salaam & Junior Research Fellow at the Center for Development Research (ZEF), University of Bonn. Peter Wobst is is a Senior Research Fellow at ZEF & Research Fellow at the International Food Policy Research Institute (IFPRI), Washington, D.C. The research was made possible by the Robert Bosch Foundation under the Policy Analysis for Sustainable Agricultural Development (PASAD) Project at ZEF. Reference Style: The following is the suggested format for referencing this article: John K. Mduma and Peter Wobst. " Determinants of Rural Labor Market Participation in Tanzania " African Studies Quarterly 8, no.2: (2005) [online] URL: http://web.africa.ufl.edu/asq/v8/v8i2a2.htm |
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