The Influence of Infrastructure on The Economic Growth of
Regencies/Cities in The Province of South Sumatera
Dede Mardhian, Syamsurijal A. Kadir, and Muhammad Subardin
Faculty of Economics, Universitas Sriwijaya, Palembang, Indonesia
Keywords: Length of Road Infrastructure, Electric Power, Clean Water, Economic Growth.
Abstract: This study aims to determine the effect of infrastructure which consists of the length of the road, electric
power and clean water for the economic growth of the regencies/city in South Sumatra Province. The data
used in this study is panel data consisting of 15 regencies/cities from 2008-2015. Data were obtained from
the publication of the regencies/city Statistics Center in South Sumatra Province. The model used in this study
is the Fixed Effect model. The estimation results show that the variables of road length, electricity, and clean
water together and partially have a significant effect on economic growth variable at a significant level of 5
percent. More than 99 percent of the variation in economic growth variables can be explained by variations
in road length, electricity, and clean water variables.
1 INTRODUCTION
One of the government's objectives listed in the
opening of the 1945 Constitution is to promote the
general welfare and standard of living of its people.
In an effort to achieve prosperity, the government is
trying to accelerate economic growth through various
policies and development, including building
infrastructures such as roads and bridges, power
plants and clean water treatment facilities. With the
increase in infrastructure, it is expected that the ability
of a country or region to produce goods and services
will increase. The increase in goods and services that
can be produced by a country or region is reflected by
changes in Gross National/Regional Domestic
Products which are calculated based on constant
prices for a given base year. The development of
Gross Regional Domestic Product (GRDP) for
Regencies/Cities in South Sumatra Province in the
period of 2008 - 2015 can be seen in Figure 1 below.
Figure 1: PDRB City Regencies in South Sumatra Province at Constant Prices of 2010 during the period 2008-2015 (in
billion rupiah).
0
100000
Gross Regional Domestic Product (PDRB) Based at
Constant Prices of Regency / City in South Sumatra
Province
2008 2009 2010 2011
2012 2013 2014 2015
484
Mardhian, D., A. Kadir, S. and Subardin, M.
The Influence of Infrastructure on The Economic Growth of Regencies/Cities In The Province of South Sumatera.
DOI: 10.5220/0008441604840491
In Proceedings of the 4th Sriwijaya Economics, Accounting, and Business Conference (SEABC 2018), pages 484-491
ISBN: 978-989-758-387-2
Copyright
c
2019 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
Figure 1 shows that the GRDP of Regency/City in
South Sumatra Province has always experienced an
increase during 2008-2015. In that period, the city of
Palembang became the largest contribution to the
GRDP of South Sumatra Province, followed by Musi
Banyuasin Regency in the second place. While
regencies/cities that contribute the least in the GRDP
of South Sumatra Province are the City of Pagaralam.
According to Todaro (2009: 170) there are three
most important components in increasing economic
growth including: (1) capital accumulation, which
includes all new investments in land, physical
equipment and natural resources through various
improvements in health, education and quality of
resources; (2) Growth of population and labor force
as well; (3) Technological progress.
The capital in question is one of them comes from
the infrastructure sector or physical investment. The
existence of infrastructure will encourage an increase
in productivity for production factors. Wahyuni,
(2009: 4) said that infrastructure development such as
roads and bridges, electricity generation, and clean
water are very important roles in efforts to improve
the economy and living standards of people in a
region. Therefore, based on the explanation above,
one of the factors influencing economic growth in
South Sumatra Province is infrastructure.
Road infrastructure is a means of connecting from
one region to another and has an important role in
accelerating the flow of goods and services
distribution. Research by Iskarno, Kuncara, and
Irianto (2014) and Suminar, Hanim, and Prianto
(2016) stated that road length infrastructure had a
positive and significant impact on economic growth,
but different results were revealed in the research of
Sumadiasa, Tisnawati, and Wirathi (2015), road
infrastructure has an influence positive but not
significant to economic growth.
Variable electric power is a very important energy
for the household and industrial life. Electricity is not
only used by the household but can also be used by
the private sector as a factor of production. Putri's
research (2014) revealed that electricity has a positive
and significant influence on economic growth.
However, according to Chaerunnisa's research
(2014), electricity has a negative and insignificant
effect on economic growth. Furthermore, clean water
as a variable that can affect economic growth has
been investigated by Warsilan and Noor (2015). In
this study revealed that the variable clean water has a
positive and significant influence on economic
growth.
Basically, infrastructure is one of the keys to
supporting economic growth, effective infrastructure
development is expected to accelerate economic
growth and increase community prosperity. Based on
the description above, this study will discuss how
infrastructure influences such as road length,
electricity and clean water to the economic growth of
Regencies/Cities in South Sumatra Province.
2 LITERATURE REVIEW
2.1 Endogenous Growth Theory
This theory assumes that public and private sector
investment in human resources results in an external
economy and increased productivity which reverses
the tendency for natural decline. This theory explains
the existence of increasing scale of returns and long-
term growth patterns that vary between countries.
Because technology still plays an important role in
these models, exogenous change is no longer needed
to explain long-term growth (Todaro, 2009: 183).
According to Mankiw (2010;223) endogenous
growth theory rejects Solow's basic assumption of
changes in exogenous technology (which comes from
outside). Start with a simple production function: Y =
AK, where Y is output, K is a capital stock, and A is a
constant that measures the amount of output produced
by each unit of capital (note that this production
function does not have a declining return on capital).
An additional unit of capital produces an additional
unit of output regardless of the available capital. The
absence of this declining return on capital is a key
difference between this endogenous growth model
and the Solow model. Capital accumulation can be
described by the equation: ΔK= sY-δK. This equation
states that changes in capital stock (ΔK) are equal to
investment (sY) minus depreciation K). We
combine this equation with the production function
above and get it:
ΔY/Y = ΔK/K = sA – δ
(1)
The above equation shows what determines the
rate of growth of output ΔY/Y. As long as sA>δ,
economic income grows forever, even without the
assumption of exogenous technological progress. In
the Solow model, savings encourages temporary
growth, but increasingly declining capital returns
ultimately drive the economy closer to a steady state
where growth depends only on exogenous
technological progress. Conversely, in the
endogenous growth model, savings and investment
can drive sustainable growth.
The Influence of Infrastructure on The Economic Growth of Regencies/Cities In The Province of South Sumatera
485
2.2 Infrastructure
According to the Grand Indonesian Dictionary
(2008), infrastructure can be interpreted as public
facilities and infrastructure. Public facilities are
known as infrastructures such as hospitals, roads,
bridges, sanitation, telephone, and other facilities. In
the World Bank Report infrastructure is divided into
3 groups, namely; (1) Economic infrastructure, is a
physical asset that provides services and is used in
production and final consumption including public
utilities (telecommunications, drinking water,
sanitation and gas), public works (dams, irrigation
and drainage channels) and the transportation sector
(roads, trains, port transport and airfields). (2) Social
infrastructure is an asset that supports the health and
expertise of the community including education
(schools, and libraries), health (hospitals, health
centers) and for recreation (land, museums, etc.). (3)
Administrative / agency infrastructure, including law
enforcement, administrative control and coordination
and culture (The World Bank, 1994: 13). While
Todaro (2009: 170) explained that economic
infrastructure is the amount of physical and financial
capital that takes the form of highways, railway
facilities, water transportation facilities, air force
facilities, and means of transportation and
communication, plus various other facilities such as
water supply, financial institutions, electricity, and
public services such as health and education.
2.3 Previous Research
Many studies have been conducted to see the
influence of infrastructure on economic growth.
Winanda (2016) in his study discussing electricity
infrastructure, clean water infrastructure and Length
of Road infrastructure that is linked to economic
growth, concluded that the variables of electricity
infrastructure and clean water infrastructure have a
positive and significant influence on economic
growth, while the Length of Road infrastructure
variable has a negative relationship and significant to
economic growth in Bandar Lampung City. While the
research by Prasetyo and Firdaus (2009) on the
relationship of electricity infrastructure, road length
and clean water to regional economic growth showed
slightly different results. The study shows that
electricity infrastructure, road length and clean water
have a positive influence on the economy in
Indonesia.
Sumadiasa, Tisnawati and Wirathi (2015)
conducted a study using variable lengths of road
infrastructure, electricity and PMA to see its effect on
GRDP growth. The study concluded that the road
length variable had a positive but not significant
effect on GRDP growth, while the variables of
electric power and foreign investment (PMA) had a
positive and significant influence on the growth of
GRDP in Bali Province.
According to Pranessy, Nurazi and Anitasari
(2010) in their study of the influence of infrastructure
development on economic growth, based on the
results of their study indicate that electrical energy,
the number of health centers and the number of
schools have a positive and significant effect on
economic growth in Bengkulu Province.
Morimoto and Hope (2001) examine the impact
of electricity supply on economic growth. The results
of the study explain that flows and changes in
electricity supply have a significant impact on
changes in real GDP in Sri Lanka, any increase in 1
MWh of electricity supply will increase GDP
between 88,000 to 137,000 Sri Lankan Rupees.
Furthermore, Worku (2010) and Peter, Rita and Edith
(2015) analyzed the relationship between road
infrastructure and economic growth, the results of
these studies indicate that road infrastructure has a
positive impact on economic growth.
3 METHODOLOGY
This study is a causality study that analyzes the
effect of infrastructure which consists of the length of
the road, the amount of electricity sales and the
amount of clean water channeled to the economic
growth of the Regency / City in South Sumatra
Province for the period 2008-2015. The data used is a
panel data consisting of 8 years time series data and
15 cross-section data in South Sumatra Province.
The data analysis method used in this study is a
multiple regression analysis technique with a panel
data regression model to measure the influence of
infrastructure which consists of the length of the road,
the amount of electricity sales and the amount of
clean water distributed to the economic growth of
regencies / cities in South Sumatra Province.
This test is done with the following equation
model:
PE
it
= ɑ
i
+ ß
1
PJ
it
+ ß
2
L
it
+ ß
3
A
it
+e
it
(2)
Where:
PE
it
= Log PDRB (in miryar rupiah)
ɑ
i
= Constants
ß
1
- ß
3
= The regression coefficients of each
independent variable
PJ
it
= Log Road Length by Regency / City in
South Sumatra (in kilometres)
SEABC 2018 - 4th Sriwijaya Economics, Accounting, and Business Conference
486
L
it
= Log of electricity sold by regencies / cities
in South Sumatra (in GWh)
A
it
= Log The amount of water distributed
according to regencies / cities in South
Sumatra (in Dam
3
)
i = Regency / city
t = Year
e
it
= Standard error
4 RESULTS AND DISCUSSION
4.1 Selection of Final Estimation Model
To determine the best model to be chosen in this
study, two tests were tested, namely Chow Test and
Hausman Test. Here are the results and explanations
of the Chow Test and the Hausman Test:
Table 1: Regression Results with Chow Test
Effects Test
Statistic
Prob.
Cross-section F
210.554563
0.0000
Cross-section Chi-square
407.741597
0.0000
Source: Chow Test Regression Results, Data processed in 2018
The Chow test (Table 1) is used to determine
whether the model is either an ordinary OLS model,
a fixed effect model or random effect. Based on the
Chow Test results show that the Chi-square Cross-
Section value is 407.74 with a probability of <0.05
which indicates that Ho is rejected because the
probability value of this test is smaller than the five
percent error level with a 95 percent confidence level
which means the Fixed Effect model is accepted.
The Hausman test (table 4.2) is then carried out to
determine whether a suitable model is a random
model or a fixed effect model. Based on the results of
the Hausman test the results are as follows:
Table 2: Regression Results with Hausman
Test Summary
Chi-Sq. Statistic
Chi-Sq. d.f.
Prob.
Cross-section random
42.805346
3
0.0000
Source : Hausman Test Regression Results, Data processed in 2018
Table 2 explains that the value of the random
chi-square cross section is 42.81 with a probability of
<0.05, indicating that Ho is rejected because the
probability value of this test is smaller than the five
percent error level with a 95 percent confidence level,
in other words the Fixed Effect model cannot be
rejected. The choice of the best model chosen for this
study is based on the regression results of the Chow
Test and the Hausman Test using the Fixed Effect
Model method
4.2 Fixed Effect Model
The final model used in this study is the Fixed
Effect model as indicated by the Chow Test and
Hausman Test. Following is the panel data regression
calculation with the Fixed Effect method:
The Influence of Infrastructure on The Economic Growth of Regencies/Cities In The Province of South Sumatera
487
Table 3: Regression Estimation Results with Fixed Effect Method
Dependent Variable: LOG(PDRB?)
Method: Pooled Least Squares
Date: 09/14/18 Time: 09:58
Sample: 2008 2015
Included observations: 8
Cross-sections included: 15
Total pool (balanced) observations: 120
Variable
Coefficient
Std. Error
t-Statistic
Prob.
C
6.413240
0.344284
18.62776
0.0000
LOG(PJ?)
0.269324
0.050877
5.293609
0.0000
LOG(L?)
0.059076
0.017128
3.449013
0.0008
LOG(A?)
0.056606
0.016967
3.336202
0.0012
Fixed Effects (Cross)
_OKU--C
-0.117824
_OKI--C
0.428600
_ME--C
0.922610
_LHT--C
0.059228
_MURA--C
-3.78E-05
_MUBA--C
1.340158
_BA--C
0.464593
_OKUS--C
-0.593517
_OKUT--C
-0.079937
_OI--C
-0.521910
_EL--C
-0.913989
_PLG--C
1.775525
_PRA--C
-0.564022
_PGA--C
-1.281303
_LLG--C
-0.918175
Effects Specification
Cross-section fixed (dummy variables)
R-squared
0.991720
Mean dependent var
8.980140
Adjusted R-squared
0.990340
S.D. dependent var
1.015699
S.E. of regression
0.099831
Akaike info criterion
-1.633201
Sum squared resid
1.016549
Schwarz criterion
-1.215077
Log likelihood
115.9921
Hannan-Quinn criter.
-1.463399
F-statistic
718.6030
Durbin-Watson stat
0.473119
Prob(F-statistic)
0.000000
Source :Fixed Effect Method Result, Data processed in 2018
By using a confidence level of 95 percent ( =
0.05) with df1 (nominator) = 3 and df2 (denominator)
= 116, the F-table value is 2.68. Whereas in this study
the F-count value is 718.6030 which means that the
significance level is much smaller than 0.05 (F-count
= 718.6030> F-table = 2.68). The results of this test
indicate that the variable length of road infrastructure,
electricity infrastructure and clean water
infrastructure for 15 regencies/cities in South
Sumatra Province together significantly affect
economic growth at a 95 percent confidence level.
Furthermore, based on the estimation results obtained
the coefficient of determination (R2-adjusted) of 0.99
which means that the variation in the variable Gross
Regional Domestic Product is determined by the
variation in the variable length of the road, the
variable electric power and the variable clean water
by 99 percent, while the remaining one percent is
determined by other variables outside the model.
SEABC 2018 - 4th Sriwijaya Economics, Accounting, and Business Conference
488
To see which variables partially affect economic
growth, 95 percent confidence level ( = 0.05) is also
used. Based on the estimation results with the above
Fixed Effect method, with degree of freedom (n-k) =
120-4 = 116 obtained t-table of 1.98, which means
that there is a positive and significant relationship
between the variable Length of Road (PJ), variable
Electricity ( L) and the variable Clean Water (A) with
the variable Economic Growth, which is indicated by
the coefficient of the variable Length of the Road of
0.27 (t-count = 5.29), then the variable coefficient of
Electricity is 0.06 (t-count = 3.45) and the variable
coefficient of Clean Water equal to 0.06 (t-count =
3.33) with each probability far smaller than one
percent.
5 DISCUSSION
The estimation results are carried out using the
fixed effect method theoretically in accordance with
expectations, all coefficients for each variable show a
positive sign. This sign can be interpreted that the
Length of Road infrastructure has a positive effect on
the Economic Growth of Regency / City in South
Sumatra Province with a variable coefficient value of
0.27. This means that every time there is a one-
percent increase in road length, the GRDP will
increase by 0.27 percent.
Although the road infrastructure in the Regency /
City of South Sumatra Province there are still some
roads that are not good and there are still many roads
that are in damaged condition, besides the mode of
transportation in the province of South Sumatra not
only uses land transportation but also uses river and
rail transport but can still encourage mobility of
economic activity. The results of this study are
different from the research conducted by Sumadiasa,
Tisnawati, and Wirathi (2015), where road
infrastructure has a positive but not significant effect
on the growth of Bali Province GRDP in 1993-2014.
Estimation results conducted using fixed-effect
method theoretically correspond to expectations, all
coefficients for each variable show a positive sign.
This sign can be interpreted that the Length of Road
infrastructure has a positive effect on the Economic
Growth of Regency / City in South Sumatra Province
with a variable coefficient value of 0.27. This means
that every time there is a one-percent increase in road
length, the GRDP will increase by 0.27 percent.
Furthermore, it can also be seen that the variable
electric power has a positive coefficient that is equal
to 0.06, which means that every electrical energy sold
increases by one percent, it will increase the GDP by
0.06 percent. Therefore statistically the electricity
variables significantly affect economic growth, so
that from the estimation results of the model it can be
concluded that the electricity infrastructure in the
regencies/cities in the province of South Sumatra
between 2008 and 2015 had a positive and significant
influence on economic growth. The results of this
study are in line with the results of research conducted
by Pranessy, Nurazi, and Anitasari (2010) and
Winanda (2016).
Then, the results of panel data regression using the
fixed effect method also shows that the variable clean
water has a positive and significant effect on the
economic growth of the regencies/city in South
Sumatra Province with a variable coefficient value of
0.06, which means that every one percent increase of
the variable of clean water will increase GDP growth
by 0.06 percent. The results of this study are in line
with the results of research conducted by Prasetyo
and Firdaus (2009) which examined the influence of
infrastructure on regional economic growth in
Indonesia, which shows that clean water
infrastructure has a positive and significant influence
on the economy in Indonesia.
Based on the results of the estimation of the Fixed
Effect model, the intercept value of the Regency/city
in South Sumatra Province is known as follows at
Table 4.
The Influence of Infrastructure on The Economic Growth of Regencies/Cities In The Province of South Sumatera
489
Table 4: Regression Intercept of Regency / City in South Sumatra Province
Kab/Kota
Effect
C
C + C Wilayah
Peringkat
_OKUC
-0.117824
6.41324
6.29542
9
_OKIC
0.428600
6.41324
6.84184
5
_MEC
0.922610
6.41324
7.33585
3
_LHTC
0.059228
6.41324
6.47247
6
_MURA--C
-3.78E-05
6.41324
6.4132
7
_MUBA--C
1.340158
6.41324
7.7534
2
_BAC
0.464593
6.41324
6.87783
4
_OKUS--C
-0.593517
6.41324
5.81972
12
_OKUT--C
-0.079937
6.41324
6.3333
8
_OI--C
-0.521910
6.41324
5.89133
10
_EL--C
-0.913989
6.41324
5.49925
13
_PLG--C
1.775525
6.41324
8.18877
1
_PRA--C
-0.564022
6.41324
5.84922
11
_PGA--C
-1.281303
6.41324
5.13194
15
_LLG--C
-0.918175
6.41324
5.49507
14
Table 4 shows the differences in economic growth
rates for each regencies/cities in the province of South
Sumatra. The calculation results show that
Palembang City ranks first with an intercept of 8.19,
while the last rank is the City of Pagaralam with an
intercept of 5.13. Based on the calculation results
above indicate that during the period 2008-2015 the
economic growth between regencies/cities in the
province of South Sumatra varied greatly.
6 CONCLUSION
The suitable estimation model in this study is the
fixed effect model. Estimation results show that the
variable length of the road, variable electric power
and variable clean water together and partially have a
positive and significant influence on the economic
growth of the Regency / City in South Sumatra
Province. The estimation results also show that there
are differences in growth between regencies/cities in
the province of South Sumatra.
Based on the results of this study that the
economic growth of an area cannot be separated from
the availability of infrastructure, the local government
in implementing development is expected to improve
the quality and quantity of road infrastructure,
provision of electricity and drinking water
infrastructure and other infrastructure in efforts to
achieve economic growth between regencies / cities
in the province of South Sumatra.
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