Rural market access and nutritional outcomes in
farm households
William A. Masters http://sites.tufts.edu/willmasters
Amelia F. Darrouzet-Nardi http://sites.tufts.edu/ameliadarrouzetnardi
Friedman School of Nutrition, Tufts University
Joint A4NH/ISPC workshop on agriculture-nutrition linkages
22-23 September 2014
How do rural markets influence nutrition outcomes in farm households?
1. Could improve or worsen nutrition, by various direct channels a) Household income, wealth and purchasing power
b) Time allocation especially for women and children
c) Relative cost of access to safe and nutritious foods
2. Could alter the ag-nutrition relationship, by effect modifiers a) Separates decision-making between farm and household
b) Alters resilience and consumption smoothing
3. Here we add to the long and old literature on #1
and introduce new work on #2b
4. Will present empirical results then implications
and start with a hypothesized causal model
Market access and farm household nutrition motivation | the global study | the DRC study
A causal model of farm household decision-making
Market access and farm household nutrition motivation | the global study | the DRC study
Qty. of nutritious foods
(kg/yr)
Qty. of farm household’s labor time
(hrs/yr)
Qty. of farm household’s other goods
(kg/yr)
Other employment
(allows sale of labor to buy food)
Rural markets give households additional options, allowing them to overcome diminishing returns in working their own land
Qty. of nutritious foods
(kg/yr)
Once farmers are actively trading, production decisions are “separable”
from consumption choices, linked only through purchasing power
Rural food markets
(allows sale of other goods to buy food)
In self-sufficiency, production =consumption
Consumption
Production
Consumption
Production
That same separability applies whether households are buying or selling,
and allows consumption smoothing over time
Empirical identification of causal effects is difficult
• Market access tends to be closely correlated with productivity and purchasing power, but relationship may not be causal – Markets may arise and grow where people can use them
– People who can use them may move towards markets
• Here, we report on two ways to identify potentially causal links between rural market access and farm household nutrition – Globally, do subnational administrative regions with an earlier history of
urbanization have healthier maternal and child heights and weights?
– Within DRC, do farm households located closer to rural towns have more resilience against seasonal shocks to child heights and weights?
• Both studies construct natural experiments, using time lags and spatial variation in risk exposure to identify effects
Market access and farm household nutrition motivation | the global study | the DRC study
The global study: Does past urbanization help rural farmers today?
Market access and farm household nutrition motivation | the global study | the DRC study
02
04
06
08
0
num
be
r of re
gio
ns
-2 0 2 4 6log(years before 2000 that the average cell in a region reached 25% urbanization)
(with normal distribution superimposed, N=756 region-year observations, of regions that had reached 25% urbanization by 2000)
Log duration of urbanization around rural farm households
Note: Data shown are for 756 subnational regions in 53 countries with DHS surveys, using urbanization data from Motamed, Florax & Masters (2014)
(Mean year is 1988, earliest quartile is 1970)
Markets take time to develop, and farmers’ regions vary widely
in how long they’ve had access to towns and cities
Regions with earlier urbanization have taller children now
Market access and farm household nutrition motivation | the global study | the DRC study
-1.6
-1.5
5-1
.5-1
.45
-1.4
-1.3
5
Child
me
an
HA
Z
6 6.5 7 7.5 8 8.5 9Log of World Bank GNI at PPP prices
(N=1171 observations from 143 DHS surveys in 57 countries with 520 subnational regions;dashed line shows subnational regions that reached 25% urbanization before 1995
Mean HAZ for rural farm children at each level of national income, by timing of urbanization
Regions with earlier urbanization have heavier children now
Market access and farm household nutrition motivation | the global study | the DRC study
-.6
-.4
-.2
0
Child
me
an
WH
Z
6 6.5 7 7.5 8 8.5 9Log of World Bank GNI at PPP prices
(N=1171 observations from 143 DHS surveys in 57 countries with 520 subnational regions;dashed line shows subnational regions that reached 25% urbanization before 1995
Mean WHZ for rural farm children at each level of national income, by timing of urbanization
For rural farm children, being in a region with more established towns and cities is associated with
a very large weight advantage, and a small significant height advantage
The DRC study: Does proximity to town confer resilience
against seasonal shocks?
• At each farm location, the timing of a child’s birth exposes them differently to agroclimatic risk factors for malnutrition and disease
• The DRC is distinctive in that households vary widely in distance to towns and also in exposure to seasonal risks
– We ask whether birth during and after wet seasons is harmful, • For more remote households with less access to markets and services,
• In regions with more seasonal variation in rainfall
– Birth timing in “placebo” regions without seasons should have no effect
Market access and farm household nutrition motivation | the global study | the DRC study
Birth timing creates a natural experiment
• The “treatment” is having a distinct wet season (if there is one) occur during late pregnancy and early infancy – This is a particularly sensitive time for child development
– Wet seasons are a hungry period with poorer diets
– Wet seasons facilitate water- and vector-borne disease
• Market access may be protective – Households can trade to smooth consumption
– Households can access health and other services
• We expect no effect of birth timing, and no protection from market access, in regions with uniform rainfall
Market access and farm household nutrition motivation | the global study | the DRC study
Analytical design: Spatial difference-in-difference
Household location and child birth timing
Region has a distinct wet season? (= farther from the equator)
Yes No
(“placebo”)
Child was born in or after wet season? (=Jan.-Jun. if lat.<0, Jul.-Dec. otherwise)
Yes (at risk)
No Yes No
Household is closer to town? (=closer to major town)
Yes (protected?)
No Yes No Yes No Yes No
Hypothesized effect of birth timing: Neg. None
Note: To test our hypothesis that market access protects against seasonality, the identifying assumptions are that birth timing occurs randomly between seasons (tested), and that seasonal risk factors would have been similar in the absence of towns (untestable).
Market access and farm household nutrition motivation | the global study | the DRC study
Darker cells (100m2) have better market access.
Market access is measured by travel cost weighted distance to the nearest major town
Market access and farm household nutrition motivation | the global study | the DRC study
Seasons depend on rainfall and temperature
equator
At the equator, average monthly rainfall fluctuates from 100 to 200 mm, and average monthly temperature fluctuates from 24 to 26 degrees Celsius.
Market access and farm household nutrition motivation | the global study | the DRC study
“Winter” is a drier period, farther from the equator
equator
Away from the equator, there is a drier, colder winter, here May through August.
Latitude -6
Market access and farm household nutrition motivation | the global study | the DRC study
In the other hemisphere, winter is 6 months later
equator
Here in the Northern Hemisphere, the drier season occurs from November through February.
Latitude +4
Market access and farm household nutrition motivation | the global study | the DRC study
All Children N=2806
Jan.-June No Seasons N=650
Jan.-June Seasons N=903
July-Dec. No Seasons N=563
July-Dec. Seasons N=690
Child status
HAZ -1.47 (1.86) -1.51 (2.02) -1.51 (1.75) -1.61 (1.92) -1.26 (1.80)
WAZ -1.20 (1.38) -1.09 (1.42) -1.34 (1.31) -1.17 (1.46) -1.13 (1.34)
WHZ -0.38 (1.33) -0.22 (1.39) -0.53 (1.21) -0.24 (1.41) -0.45 (1.31)
Age (mos.) 29.16 (16.53) 28.81 (16.82) 28.53 (15.80) 29.70 (17.10) 29.88 (16.69)
Sex (% boys) 49.4% 47.8% 49.8% 47.9% 51.4%
Household
Wealth quint. 2.9 (1.42) 2.61 (1.25) 3.02 (1.48) 2.67 (1.26) 3.19 (1.51)
Dist. to town (km) 64.8 (52.1) 70.1 (47.9) 59.6 (51.9) 71.6 (45.3) 60.8 (59.8)
Environment
Conflicts 31.28 (66.9) 66.53 (97.82) 9.29 (19.47) 48.57 (84.24) 12.74 (22.99)
Lat. (abs val.) 4.31 (2.64) 1.99 (1.16) 6.14 (2.01) 1.98 (1.17) 5.99 (2.02)
Note: Mean (standard deviation). Jan-June births are actually Jul.-Dec. births if the child was born in the Northern Hemisphere (N=418). Conflicts are total number of incidents between 2001 and 2007 in the respondent’s grid-cell of residence.
We split the data into groups by risk exposure..
Note: Age controls suppressed; Jan-June births are actually Jul.-Dec. births if the child was born in the Northern Hemisphere (N=418); robust pval in parentheses; errors clustered by region (N=11); *** p<0.01, ** p<0.05, * p<0.1
(1) (2) (3) (4)
VARIABLES Units/type HAZ Seasons
HAZ No Seasons
WHZ Seasons
WHZ No Seasons
Conflicts Cumulative days 0.005** 0.000 0.002 -0.000
Wealth quintile Categorical 0.152** 0.165** 0.102*** -0.010
Remote Binary -0.434** 0.338 0.010 0.353
Born Jan.-June Binary -0.363*** 0.141 -0.0534 0.297*
Born Jan.-June*Remote Interaction -0.407** 0.407* -0.144** 0.075
Child is male Binary -0.192* -0.192** -0.097 -0.195**
Constant Constant -0.149 0.043 0.520* 0.490
Observations N 1,593 1,213 1,593 1,213 R-squared R2 0.154 0.155 0.082 0.035 Number of regions N 10 7 10 7
We see a strong and significant “treatment effect” of household remoteness in areas with seasons.
Note: Data shown are coefficient estimates and 95% confidence intervals for average treatment effects in our preferred specification (Table 5), for our two dependent variables of interest followed by seven placebo variables for which no effect is expected, due to the absence of any plausible mechanism of action.
Among our robustness checks, we do placebo tests for desirable outcomes that could not be caused by birth timing
-1.5
-1
-0.5
0
0.5
1
1.5
HAZ WHZ mother's
education (yrs)
mother
currently
working?
(binary)
mother's
weight (kg)
father's
education (yrs)
years lived in
interview
location
size of
household (#
of people)
altitude (m)
No effects and large variances where no effect is expected
Conclusions • From these data,
– Globally, farm households in subnational regions with a longer history of urbanization have better nutritional status
– Within DRC, farm households that are closer to towns are more protected from seasonal shocks to nutritional status
• These results add to the large and diverse literature on farmers’ use of markets – New data will permit many new tests to refine results – But the importance of market access has strong
implications for agriculture-nutrition actions
Market access and farm household nutrition motivation | the global study | the DRC study
Implications for policies and programs
• At a given level of household and community resources, facilitating market access can – Raise levels of nutritional status – Improve resilience to shocks
• Farm households can use markets in many different ways – Specialization and trade, to overcome diminishing returns on the farm – Consumption smoothing, via separability of production & consumption – Access to public services
• Future work may be able to distinguish among uses – But various uses are naturally bundled together in related transactions – And in any case policies and programs to ease market access cannot
prescribe what households do, just allow them to do it more easily!
Market access and farm household nutrition motivation | the global study | the DRC study
Top Related