The Impact of Green Investment on the Upgrading of Industrial
Structure in China: Analysis Based on Panel Data Techniques
Heyuan Wang
1,* a
and Ran Jin
2b
1
Wuhan University of Technology, Wuhan, China
2
Changchun Normal University, Changchun, China
Keywords: Green Investment, Upgrading of Industrial Structure, China, Panel Data Techniques.
Abstract: The report of the 19th National Congress of the CPC have proposed to establish and improve a sound
economic system for green, low-carbon and circular development. Developing green economy has become
the national strategy, and green investment (GIP) will play an important role in developing the green economy.
From a global, long-term and strategic perspective, the green economy and the digital economy are mutually
reinforcing. The continuous development of the digital economy in recent years has also led to further
optimization and upgrading of the industrial structure (ISU). The important role of GIP for ISU in the context
of the mutual integration of greening and digitalization has thus emerged. This paper makes full use of panel
data techniques and combines with the computer software STATA to empirically test the influence mechanism
of GIP on ISU, using 30 provincial panel data of China from 2003 to 2020.The results reflect that GIP has
obvious inhibitory effect on ISU. At the meantime, after the 2008 financial crisis, GIP has a more significant
inhibitory effect on the ISU. The GIP mainly restrains ISU in the eastern region. In addition, the GIP
significantly inhibits the development of primary and tertiary industries but promotes the development of
secondary industry.
1 INTRODUCTION
In recent years, the global ecological and
environmental problems has become increasingly
prominent. Environmental pollution, ecological
deterioration and other problems have brought great
challenges and threats to human survival and
development. Therefore, it is urgent to protect the
ecological environment and promote green
transformation. On a global scale, developing the
green economy is an important part of sustainable
development. The data show that GIP has developed
rapidly, showing great growth potential in the deep
adjustment of the global economy. The data from the
United Nations Trade Conference show that global
GIP reached $5.2 trillion in 2021, up 63%. The vision
of green development has become a goal-oriented and
path mode to guide the ISU and achieve high-quality
development. Since the 18th National Congress of the
CPC, China has incorporated "ecological civilization"
a
https://orcid.org/0000-0003-0341-4092
b
https://orcid.org/0000-0001-6100-9242
into the "five-in-one" overall layout of the socialist
cause with Chinese characteristics. As China's
economy has shifted from rapid growth to high-
quality development, showing leaps and bounds,
problems such as irrational industrial structure and
inefficient allocation of industrial factors have begun
to plague us. The emergence and development of the
digital economy has become a new breakthrough in
economic development to promote ISU and improve
resource allocation efficiency. The digital economy,
supported by the development of digital technology
and data as an important production factor, has
become a new economic form that promotes the
development of high-tech industries, the renewal of
business models, the comprehensive flow of
production factors and the realization of high-quality
development. At the same time, technologies such as
cloud computing and artificial intelligence in the
digital economy can transform the production and
operation methods of traditional industries, making
energy and electricity, transportation, industrial
160
Wang, H. and Jin, R.
The Impact of Green Investment on the Upgrading of Industrial Structure in China: Analysis Based on Panel Data Techniques.
DOI: 10.5220/0012027300003620
In Proceedings of the 4th International Conference on Economic Management and Model Engineering (ICEMME 2022), pages 160-167
ISBN: 978-989-758-636-1
Copyright
c
2023 by SCITEPRESS – Science and Technology Publications, Lda. Under CC license (CC BY-NC-ND 4.0)
production and other fields The operational efficiency
and energy efficiency of these industries have been
greatly improved, reducing energy and resource
consumption, promoting industrial structure
optimization and upgrading, and promoting green
economic development. The digital economy not only
plays a positive role in promoting the improvement of
production efficiency and optimizing industrial
structure, but also is becoming a "major carbon
emitter" due to factors such as the construction of new
infrastructure based on digital technology and the
upgrading of data centers, which results in the
elimination of old equipment. According to the Index
Climate Action Roadmap released by the 2020 Global
Climate Action Summit, digital technology solutions
in the fields of energy, manufacturing, agriculture,
land, construction, services, transportation and traffic
management can help reduce global carbon emissions
by 15%. Green and low-carbon development is the
choice of industrial development direction, and it is
also a fundamental issue related to the development of
industrial clusters. As an important driving force for
energy conservation, emission reduction and green
development, GIP will inevitably affect the
adjustment of industrial structure in the era of digital
economy,. From this point of view, there is a close
relationship between ISU and green development.
This paper further reveals the relationship between
ISU and GIP, and provides new ideas for the green and
high-quality economic development, which has
important practical significance.
2 LITERATURE REVIEW
The literature closely bound to this paper mainly
includes the following two aspects. One is the factors
affecting the ISU; the other is the research on green
finance and green credit, which are closely related to
GIP. Since the reform and opening up, China has
comprehensively deepened reform, the innovation-
driven strategy has been effectively implemented, the
industrial structure has been continuously optimized,
and the resilience and advantages of the industrial
chain have been improved. As an important way to
improve productivity, the adjustment and ISU is of
great practical significance to promote economic
development (Lv and Zhou, 1999). Therefore, many
scholars study how to promote the ISU. Lan and Chen
(2013) found that new urbanization has a strong
spatial impact on the ISU and can significantly
improve the level of industrial development.
Moreover, Wang and Zhao (2015) believed that the
scale and rationalization of the financial development
also promote ISU so it is necessary to build a
diversified financial service system, accelerate the
reform of the financial system and give play to the
guidance of policy-based finance. From the
perspective of geography and economy, Guo and
Wang (2021) used spatial Dubin model to conclude
that the influence of financial agglomeration and
housing price on ISU has industry heterogeneity and
spatial difference. Liu (2021) discussed the impact
mechanism of population aging on the industrial
structure from the perspective of the upgrading and
rationalization of industrial structure, and concluded
that the impact effect of population aging on the ISU
and rationalization of industrial structure was
significantly positive.
With the aggravation of the world's environmental
pollution and energy crisis, energy conservation,
emission reduction and the green economic
development have become the focus of global
attention, and the research on GIP and green finance
has become increasingly rich. Zhou et al. (2021)
empirically found that green finance improved the
comprehensive level of high-quality economic
development, promoted the optimization of economic
structure and the innovative development of economy,
but inhibited the stable development of economy. In
addition, other scholars have found that green finance
does not simply promote economic development. Shi
and Shi (2022) used green total factor productivity to
measure the quality of economic development, and
concluded that green finance has a threshold effect on
green total factor productivity rather than a linear
relationship. Only when the development level of
green finance was higher than the threshold value
could GIP play a significant role in promoting
economic development. Zhao and Wang (2022)
empirically analyzed the data of listed enterprises in
heavy pollution industries in China and concluded
that the influence of GIP on business performance of
enterprises showed a U-shaped relationship, and the
increase of green expenses would reduce business
performance of enterprises. On the theme of green
development, the influencing factors of GIP are also
a hot research topic. Yang (2022) concluded based on
the panel data of Shenzhen listed enterprises that after
the launch of the carbon trading system, enterprises
would enhance their awareness of environmental
protection and thus increase their GIP. Xie and Zou
(2021) believed that government environmental
protection subsidies played an incentive effect on
enterprises' GIP, and the promoting effect of market-
oriented environmental regulation represented by
government environmental subsidies was more
obvious in non-state-owned enterprises. Wang and
The Impact of Green Investment on the Upgrading of Industrial Structure in China: Analysis Based on Panel Data Techniques
161
Hou (2021) made further empirical research and
concluded that command-and-control, market-
incentive and voluntary environmental regulation
tools can all promote GIP of industrial enterprises,
and command-and-control environmental regulation
tools have the best effect at present.
In summary, there are abundant studies on the two
single directions of ISU and GIP, but few studies on
the relationship between them. Compared with
previous studies, the contributions of this paper are
mainly showed in the following aspects. Firstly, the
existing literature mainly focuses on the impact of
GIP on energy conservation and emission reduction,
ignoring the negative impact of GIP on the ISU. The
combination of GIP and ISU in this paper is
conducive to a more scientific understanding of the
impact mechanism of GIP. Secondly, this paper not
only studies the direct impact of GIP on ISU from the
macro level, but also analyzes the heterogeneity and
discusses the impact mechanism, which provides a
rich reference for subsequent research. Thirdly, it
provides some policy enlightenment for GIP and
green development. It is of immediate significance to
promote high-quality development of GIP.
3 DATA AND EMPIRICAL
MODELS
3.1 Models
In order to study the impact of GIP on ISU, this paper
first constructs a panel fixed effect model as shown in
Eq. (1).
ititit
itit
cityyearTFPD
RMTRADEGIGIPISU
εββ
β
β
β
β
β
++++
+++++=
65
43it2it10it
(1)
Where, 𝐼𝑆𝑈 is the explained variable, namely
the industrial structure upgrading index in this paper.
𝛽0 is a constant term, and 𝐺𝐼𝑃 is the core
explanatory variable, namely GIP.
𝐺𝐼
、
𝑇𝑅𝐴𝐷𝐸
、
𝑅𝑀
、
𝑃𝐷
、
𝑇𝐹 indicate that control
variables affecting the ISU are added into the model,
which respectively represent government
intervention, trade openness, highway mileage,
population density and R&D input intensity. year
and city represent the characteristics of time trend
and individual differences, respectively. 𝜀 is the
random disturbance term.
3.2 Variables
The level of industrial structure upgrading. This paper
draws on the calculation method of Wang (2015) to
measure the ISU. The specific formula is as follows.
ixi ×=
ISU
Where, xi represents the proportion of added
value of the ith industry in GDP.
Since the research on GIP theory is still in its
infancy, the theoretical interpretation of GIP is
diverse and not unified, and there is a lack of relevant
research and data. In this paper, the sum of urban
environmental infrastructure investment, industrial
governance investment, forestry investment and
water conservancy construction investment is
selected to measure GIP.
In order to control the endogeneity problem
caused by omitted variables, government intervention,
trade factors, highway mileage, demographic factors
and technological factors are introduced into the
model as control variables. Government intervention
(GI), TRADE (TRADE) and technical factor (TF) are
the proportions of fiscal expenditure, total import and
export TRADE and R&D internal expenditure in total
GDP, highway mileage (RM) is the total mileage of
highway construction, and population factor (PD) is
calculated by population density.
3.3 Data
Considering the availability of data, the sample in this
paper is the panel data from 30 provinces in China
from 2003 to 2020, with a total of 540 observation
samples. Tibet, Hong Kong, Macao and Taiwan are
not included due to the lack of data. In order to reduce
the influence of heteroscedasticity, all variables are in
logarithmic form. The data involved in the following
variables are from China Statistical Yearbook and
China Environmental Statistical Yearbook. The
descriptive statistics of each variable are shown in
Table 1, and the data processing is implemented in
STATA 11 software.
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162
Table 1: Descriptive statistics of variables.
Obs Mean Std.dev Min Max
GIP 540 897.2292 776.4135 67.9708 7996.259
GI 540 0.2189 0.0977 0.07678 0.6430
TRADE 540 0.3097 0.3815 0.0076 1.8432
RM 540 3373.079 2087.735 200 14190
PD 540 449.0474 665.6252 7.3931 3949.206
TF 540 0.0147 0.0113 0.0018 0.0741
4 EMPIRICAL RESULTS AND
DISCUSSION
4.1 Full Sample Analysis
To study the impact of GIP on ISU, this paper
estimates the regression model shown in Equation (1),
and the regression results are reflected in Table 2.
From columns (1), (2) to (3), we gradually add control
variables, and the regression results show that the
coefficient of GIP is always significantly negative at
the 1% level, which indicates that GIP significantly
inhibits the ISU. In conclusion, GIP has a
comprehensive inhibitory effect on ISU of China.
In-depth investigation of its reasons, we
summarize the following two points. First, although
the input of GIP has been continuously increased, the
growth of GIP in some regions has been slow or even
fallen after 2008. Overall, the total amount of GIP in
China is small, so it has not played a vital role in
promoting the ISU. Second, with the economic
development, some regions put economic benefits
first and put most GIP into high energy consumption
and high pollution enterprises, which will bring GDP
and tax revenue in the short term. This will not only
inhibit the ISU, but also may cause environmental
pollution.
Table 2: Full sample regression.
(1) (2) (3)
GIP
-0.005
***
(-2.60)
-0.006
***
(-3.27)
-0.006
***
(-3.18)
GI
0.002
(0.26)
0.002
(-0.39)
-0.003
(-0.51)
TRADE
0.006
***
(3.08)
0.006
***
(2.75)
RM
0.022
***
(4.83)
0.020
***
(3.97)
PD
0.0009
(0.07)
TF
0.004
(1.07)
R
2
0.8631 0.8713 0.8716
N 540 540 540
cons
0.831
***
(56.22)
0.672
***
17.73
0.701
***
8.85
Year effects yes yes yes
Province effects yes yes yes
Notes: *** p < 0.01, ** p < 0.05, and * p < 0.1.
The Impact of Green Investment on the Upgrading of Industrial Structure in China: Analysis Based on Panel Data Techniques
163
4.2 Heterogeneity Test
In order to test the impact of heterogeneity, we
conducted the test again from the two aspects of time
and space, and the regression results are shown in
Table 3. Considering the slowdown of economic
growth in China's economic development after the
2008 financial crisis, we divided the full sample into
two sub-samples from 2003-2008 and 2009-2020 for
regression based on the 2008 financial crisis. Column
(1) lists the regression results of the data from 2003
to 2008. Column (2) shows the regression data results
from 2009 to 2020. The results show that the GIP
coefficient from 2003 to 2008 is not significant, and
the GIP coefficient from 2009 to 2020 is negative at
the significance level of 0.5%. This reveals that GIP
has a significant negative impact on the ISU after the
financial crisis. After the financial crisis, in order to
deal with the negative impact of the financial crisis
and change the situation of economic downturn, the
Chinese government put GIP into low-end industries
to satisfy the demand of economic development and
improve economic benefits, thus showing a
significant inhibitory effect.
In order to study the impact of GIP on industrial
structure in different regions, we divided the whole
sample into three sub-samples: eastern, central and
western region. Column (3), (4) and (5) in Table 3
show the impact of GIP on ISU in eastern region,
central region and western region, respectively. The
results reflect that the coefficient of GIP in the eastern
region is significantly negative, the coefficient of GIP
in the central region is insignificant, and the
coefficient of GIP in the western region is
significantly positive. In general, GIP mainly inhibits
the ISU in the eastern region, has no significant
impact on the central region, and significantly
promotes the ISU in the western region. This is
because the level of ISU in the eastern region is
relatively high, whereas the total amount of GIP is
insufficient and the investment efficiency is not high,
which cannot satisfy the needs of industrial
optimization in the eastern region. However, the
industrial structure of western China is relatively
backward and the level of economic development is
not high, so the driving effect of GIP on the ISU is
more obvious.
Table 3: Heterogeneity analysis.
(1) (2) (3) (4) (5)
GIP
0.005
(0.96)
-0.005
**
(-2.18)
-0.004
*
(-1.66)
0.002
(0.50)
0.016
***
(-4.12)
GI
-0.046
***
(-3.50)
0.002
(0.28)
0.016
(1.56)
-0.036
**
(-2.34)
-0.005
(-0.48)
TRADE
0.006
(0.83)
0.006
**
(2.38)
0.016
**
(2.35)
0.011
**
(2.11)
-0.001
(-0.19)
RM
0.008
(0.90)
0.020
**
(2.52)
0.035
***
(5.49)
0.033
**
(-2.08)
-0.010
(-1.02)
PD
-0.020
(-0.53)
-0.031
(-1.37)
0.029
(1.58)
0.182
***
(3.65)
-0.111
***
(-3.49)
TF
-0.006
(-0.80)
0.002
(0.35)
-0.009
(-1.15)
0.015
**
(-1.98)
0.009
(1.50)
R
2
0.5205 0.8470 0.9143 0.9275 0.8682
N 180 360 198 144 198
cons
0.724
***
(3.43)
0.898
***
(6.62)
0.423
***
(3.33)
-0.848
(-0.34)
1.464
***
(9.15)
Year
effects
yes yes yes yes yes
Province
effects
yes yes yes yes yes
Notes: *** p < 0.01, ** p < 0.05, and * p < 0.1.
We further test the internal impact of GIP on
industrial structure and examine the different impacts
of GIP on primary industry, secondary industry and
tertiary industry. Column (1), column (2) and column
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(3) in Table 4 respectively show the impact of GIP on
primary, secondary and tertiary industries. As can be
seen in Table 4, GIP has a significantly positive
impact on the secondary industry, whereas it has a
significant inhibitory effect on the primary and
tertiary industries. The secondary industry is mostly
low-end industry with high energy consumption and
emission, while the tertiary industry is mostly high-
tech industry and service industry. Local governments
choose to invest GIP in the secondary industry in the
cause of obtaining short-term economic benefits. This
proves once again that GIP can inhibit the ISU
because it hinders the development of the tertiary
industry.
Table 4: Industrial heterogeneity.
(1) (2) (3)
GIP
-0.034
*
(-1.91)
0.076
***
(7.16)
-0.062
***
(-6.99)
GI
0.506
***
(8.20)
-0.163
***
(-4.47)
0.064
**
(2.12)
TRADE
-0.077
***
(-3.61)
0.048
***
(3.79)
0.00004
(0.00)
RM
0.134
***
(2.64)
0.193
***
(6.43)
-0.013
(0.52)
PD
-1.600
***
(-12.70)
-0.350
***
(-4.69)
-0.043
(-0.70)
TF
-0.010
(-0.25)
0.072
***
(3.16)
0.010
(0.55)
R
2
0.7799 0.7075 0.8222
N 540 540 540
cons
6.501
***
(8.17)
-0.651
(-1.39)
-0.133
(-0.34)
Year effects yes yes yes
Province effects yes yes yes
Notes: *** p < 0.01, ** p < 0.05, and * p < 0.1.
4.3 Robustness Test
In order to verify the robustness of the above
conclusions, this paper chooses to test the explanatory
variables with one-period lag and two-period lag
respectively. Column (1) reveals the results of one
period lag, and column (2) reveals the results of two
periods lag. The regression results are reflected in
Table 5, and the coefficients of the core variables are
all significantly negative, consistent with the previous
results, indicating that the inhibitory effect of GIP on
the ISU is sustainable. At the same time, endogeneity
problems may arise due to omitted variables and
reverse causality. For example, there may be some
factors that are difficult to quantify that affect the ISU.
Therefore, this paper adopts the instrumental variable
method for further testing. We choose the lagged one
period of GIP as its own instrumental variable. The
regression results in column (3) of Table 5 reveal that
the coefficient of the core explanatory variable is still
significantly negative, indicating that GIP still has an
inhibitory effect on ISU. Therefore, after overcoming
the endogeneity problem, the core results are robust.
Combining the robustness analysis results of the
above two different methods shows that the core
conclusion of this paper is robust.
The Impact of Green Investment on the Upgrading of Industrial Structure in China: Analysis Based on Panel Data Techniques
165
Table 5: Robustness test.
(1) (2) (3)
GIP
-0.004
**
(-2.39)
-0.006
***
(-3.01)
-0.006
**
(-1.97)
GI
-0.002
(-0.27)
0.001
(0.15)
0.0006
(0.08)
TRADE
0.005
**
(2.10)
0.005
**
(2.17)
0.007
***
(3.42)
RM
0.016
***
(3.03)
0.011
**
(2.21)
0.020
***
(3.17)
PD
0.006
(-0.49)
-0.015
(-1.15)
-0.0003
(-0.02)
TF
0.010
**
(2.33)
0.014
***
(3.52)
0.004
(0.89)
R
2
0.8729 0.8702 0.9590
N 510 480 510
cons
0.783
***
(9.59)
0.918
***
(10.86)
0.881
***
(5.83)
Year effects yes yes yes
Province effects yes yes yes
Notes: *** p < 0.01, ** p < 0.05, and * p < 0.1.
5 CONCLUSION AND
ENLIGHTENMENT
Based on China's provincial panel data from 2003 to
2020, this paper empirically tests the influence of GIP
on ISU, and the main conclusions are as follows. First,
GIP has a inhibitory effects on ISU, which still
supports this result after robustness check. Second,
the impact of GIP on ISU has the characteristics of
spatial and temporal heterogeneity. The regional
results show that GIP has a different impact on the
ISU in different regions of China. Specifically, GIP in
the eastern region has a significant inhibiting effect,
and the positive effect of GIP in the western region is
significant, while the positive effect of GIP in the
central region is not obvious. Secondly, taking the
2008 financial crisis as the time demarcating point,
GIP has no significant influence on the industrial
structure adjustment before 2008, but has a
significant inhibition effect on the ISU after the
financial crisis. Third, GIP will inhibit the ISU by
hindering the development of tertiary industry.
On the basis of the foregoing, the policy
implications of this paper are shown below. Firstly,
the government should increase investment in GIP to
meet the needs of ISU and encourage high-quality
economic development. Secondly, I attach
importance to giving full play to the leading role of
the government to clarify the direction of GIP and not
simply pursue short-term economic benefits while
ignoring the long-term ecological benefits. It is
recommended to guide GIP from the root to the
inflow of energy-saving and environmental
protection industries, to promote the development of
green industries and to a certain extent to curb the
development of high energy-consuming and high-
polluting traditional enterprises. Meanwhile,
government should encourage and support policies to
force enterprises to "green" transformation and
achieve industrial structure optimization. Thirdly, the
economic level of each region in China varies and the
regional development is unbalanced, so policy
makers should adopt differentiated policies for
different regions. Specifically, the eastern region has
a higher level of economic development and the
inhibitory effect of GIP on ISU is significant, so it is
crucial to increase the investment in GIP to make it
compatible with the higher level of industrial
upgrading. Although the western region of China has
improved its economic level since the
implementation of the western development strategy,
its economic development level still is much lower
compared with that of the east and central regions due
to its weak economic foundation. The western region
should improve the endogenous power to pull the GIP
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into the development of tertiary industry so as to
promote the transformation and optimization of
industrial structure.
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