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Journal articles on the topic 'Ecological construction'

Author: Grafiati
Published: 4 June 2021
Last updated: 28 May 2022

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1

Zhang, Yong Hong. "On the Importance, Meaning and Realization of the Ecological Civilization with Chinese Characteristics." Advanced Materials Research 361-363 (October 2011): 1910–13. http://dx.doi.org/10.4028/www.scientific.net/amr.361-363.1910.

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Ecological civilization is the only way for the development of human civilization, and also something required for human overall development and our national interests. Ecological civilization with Chinese characteristics includes five aspects: understanding ecology, managing ecology, constructing ecology, advocating ecology and tasting ecology. It’s characteristic of Chinese ecological civilization to protect environment while developing. To carry out the ecological civilization construction effectively in China, we must try hard to strengthen the ecologically ruling construction of the party and the government, reinforce the ecological civilization education and grasp the key points and actively mobilize the public.
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2

Changsheng, Shi. "Study on Ecological Compensation Mechanism of Railway Construction Projects." E3S Web of Conferences 145 (2020): 02047. http://dx.doi.org/10.1051/e3sconf/202014502047.

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Important ecologically sensitive areas are extremely important to maintain regional ecological security. For railway construction projects that cross important ecologically sensitive areas, it is particularly necessary to implement ecological compensation in order to minimize the impact on important ecologically sensitive areas. This article introduces the ecological service function value loss accounting and ecological value loss accounting methods from the perspective of value, and puts forward the system introduction method, technology introduction method and compensation method introduction method of ecological compensation, combining the environmental impact assessment system and ecological compensation mechanism in order to improve the feasibility and operability of ecological compensation.
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3

Zhao, Xiaoqing, Qifa Yue, Jianchao Pei, Junwei Pu, Pei Huang, and Qian Wang. "Ecological Security Pattern Construction in Karst Area Based on Ant Algorithm." International Journal of Environmental Research and Public Health 18, no. 13 (June 26, 2021): 6863. http://dx.doi.org/10.3390/ijerph18136863.

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Constructing the ecological security pattern is imperative to stabilize ecosystem services and sustainable development coordination of the social economy and ecology. This paper focuses on the Karst region in southeastern Yunnan, which is ecologically fragile. This paper selects the main types of ecosystem services and identifies the ecological source using hot spot analysis for Guangnan County. An inclusive consideration of the regional ecologic conditions and the rocky desertification formation mechanism was made. The resistance factor index system was developed to generate the basic resistance surface modified by the ecological sensitivity index. The Ant algorithm and Kernel density analysis were used to determine ecological corridor range and ecological restoration points that constructed the ecological security pattern of Guangnan County. The results demonstrated that, firstly, there were twenty-three sources in Guangnan County, with a total area of 1292.77 km2, accounting for 16.74% of the total. The forests were the chief ecological sources distributed in the non-Karst area, where Bamei Town, Yangliujing Township and Nasa Town had the highest distribution. Secondly, the revised resistance value is similar to “Zhe (Zhetu Township)-Lian (Liancheng Town)-Yang (Yangliujing Township)-Ban (Bambang Township)”. The values were lower in the north and higher in the south, which is consistent with the regional distribution of Karst. Thirdly, the constructed ecological security pattern of the “Source-Corridor-Ecological restoration point” paradigm had twenty-three ecological corridors. The chief ecological and potential corridor areas were 804.95 km2 and 621.2 km2, respectively. There are thirty-eight ecological restoration points mainly distributed in the principal ecological corridors and play a vital role in maintaining the corridor connectivity between sources. The results provide guidance and theoretical basis for the ecological security patterns construction in Karst areas, regional ecologic security protection and sustainable development promotion.
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Pellegrini, Sara. "Principles of ecological construction." Cognitive Science – New Media – Education 2, no. 1 (April 14, 2018): 23. http://dx.doi.org/10.12775/csnme.2017.002.

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5

Li, Wei. "Ecologically Civilized Campus: A Rational Choice for the Construction of Ecological Civilization." Advanced Materials Research 726-731 (August 2013): 3918–21. http://dx.doi.org/10.4028/www.scientific.net/amr.726-731.3918.

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Ecological Civilization has become the focus of global common concern, while the campus is playing an important role in the process of the construction of ecological civilization. This article gives a definition to the Ecologically Civilized Campus, makes analysis on the ecological responsibility of the school as well as the establishment of the path for the ecologically civilized campus. Establishing an ecologically civilized campus is a rational choice for the construction of ecological civilization.
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6

Zhao, Yang, and Binghua Li. "Construction of Ecological Performance Evaluation Index for Rural Construction." E3S Web of Conferences 143 (2020): 01026. http://dx.doi.org/10.1051/e3sconf/202014301026.

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The construction of ecological performance evaluation index system of beautiful rural construction aims to promote the benign and high-quality development of rural ecological construction with the evaluation of rural ecological performance, and ultimately help to achieve the goal of regional "rural revitalization". Focusing on the ecological performance evaluation of rural construction in eastern Zhejiang Province, this paper screened and tested the evaluation indexes, and each index was given different weights based on the existing ecological performance evaluation index system combined with pre-selected evaluation indexes such as literature search and field research by means of expert consultation, questionnaire survey and analytic hierarchy process (AHP). The evaluation index system of ecological performance of beautiful rural construction was initially constructed with 2 first-class indexes, 11 secondclass indexes and 29 third-class indexes in order to improve the rural ecological space environment, enhance the rural ecological civilization, develop the quality of life of villagers, and promote rural revitalization.
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7

Xu, Sunquan, Yi Hou, and Li Mao. "Application Analysis of the Ecological Economics Model of Parallel Accumulation Sorting and Dynamic Internet of Things in the Construction of Ecological Smart City." Wireless Communications and Mobile Computing 2022 (May 18, 2022): 1–10. http://dx.doi.org/10.1155/2022/8770859.

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In order to improve the effect of ecological smart city construction, this paper analyzes the application of the ecological economic model based on parallel accumulation sorting and dynamic Internet of Things in the construction of ecological smart city. Moreover, this paper studies the core technology algorithm of information retrieval, proposes a parallel accumulation sorting algorithm, and combines the dynamic Internet of Things and ecological economics to construct an ecological smart city construction model. In addition, on the basis of constructing an ecological smart city, this paper combines the parallel accumulation sorting algorithm and the dynamic Internet of Things technology to analyze the construction effect of the ecological smart city. The experimental research results show that the ecological economic model based on parallel accumulation sorting and dynamic Internet of Things has a good application effect in the construction of ecological smart city.
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8

YANG, Fating. "Contemporary Construction of Ecological Civilization: From Ecological Crisis to Ecological Governance." Chinese Journal of Urban and Environmental Studies 03, no. 04 (December 2015): 1550030. http://dx.doi.org/10.1142/s234574811550030x.

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Since the industrial revolution, people have adopted the linear development mode of “resting on the principal” to gain wealth through crazy plunder of nature despite severe pollution to the environment for human survival, which results in sharp conflict between man and nature. As ecological crisis arises, people begin to reflect on the industrial revolution profoundly. They start adopting the cycle development mode of “resting on the interest” and take active steps to build ecological civilization, which is not only a form of civilization but also a development concept. It breaks traditional views and ideas of “considering environment merely from the angle of environment”, “environment and development are mutually independent” and “environment and development are opposed to each other”, and it achieves a higher level of harmony between man and nature, resources and environment, as well as man and society. The construction of ecological civilization, as an important part of national governance, is the only way to solve the problem of ecological environment deterioration as well as to promote the transformation of ecological civilization.
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9

Deng, Xian Chao, and Ya Ping Yuan. "A Preliminary Study on the Development of Ecological-Cultural Industry." Advanced Materials Research 765-767 (September 2013): 2912–15. http://dx.doi.org/10.4028/www.scientific.net/amr.765-767.2912.

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Ecological-cultural industry is low-carbon creative industry guided by ecological culture, which is characterized by creative industry, green ecology, economic benefits, blending development. The development of ecological-cultural industry is the inner requirement to implement the scientific outlook on development, is the objective demand of the construction of ecological culture, is an important manifestation of the revival of the cultural industry, and is the main way to enhance ecological-cultural soft power. To speed up the development of ecological-cultural industry, we should vigorously promote the concept of ecological civilization, strengthen policy support and guidance, rely on scientific and technological advancements, conduct international exchanges and cooperation, and pay attention to the training and introduction of cultural talents. The report of the 18th National Congress of the Communist Party of China discusses systematically "propel ecological civilization construction vigorously". For the first time, put ecological civilization construction, economic construction, political construction, cultural construction and social construction together to form the "five-in-one" overall layout of construction of socialism with Chinese characteristics as a separate chapter.[1] Ecological culture is an important part of ecological civilization, is an advanced culture which inherits of the traditional Chinese outstanding culture and ecological wisdom, fuses modern civilized achievements and spirits of the times, and promotes harmonious development of man and nature. Ecological-cultural industry is a combination of ecological concept and cultural industry, is an important part of constructing ecological civilization, and is a new trend of global economic and social development.
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10

Kurth, Helmut, Karl Heinz Winter, and Vaclav Pospíchal. "Ecological Requirements for Concrete Construction." Applied Mechanics and Materials 796 (October 2015): 111–18. http://dx.doi.org/10.4028/www.scientific.net/amm.796.111.

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The population explosion has lead to a markedly increased exploitation of our natural environment, hence the expression „sustainable development“ has become a catch phrase. In a historical perspective ecological problems recently became acute and this is why it is necessary to act quickly. It is obvious that we have to pay extreme attention to how we treat our environment and our sources. This necessarily will be reflected in the actions of the lawmakers in the future, and for the building industry the results will be that the authorities will enforce new law and regulations with direct consequences for the choice of materials and building techniques. There will be developed a set of standards dealing with environmental matters, putting limitations especially on the consumption of natural resources. Some countries already has standards dealing with various ecological aspects, like recirculation, down cycling, etc. The customers will prefer building products and systems that can document compliance with environmental attitudes. For all activities the environmental burden will be evaluated and limited by laws and regulations. Consequently the industry’s accountability for the environment will be a prerequisite for remaining in business.
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11

Fath, Brian D., Ursula M. Scharler, Robert E. Ulanowicz, and Bruce Hannon. "Ecological network analysis: network construction." Ecological Modelling 208, no. 1 (October 2007): 49–55. http://dx.doi.org/10.1016/j.ecolmodel.2007.04.029.

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12

Xu, Delin, Changxin Zou, Mengjia Xu, Guangyong You, and Dan Wu. "Ecological security pattern construction based on ecological protection redlines." Biodiversity Science 23, no. 6 (2015): 740–46. http://dx.doi.org/10.17520/biods.2015132.

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13

Smirnova, Elena, and Yuliya Larionova. "Problem of environmental safety during construction (analysis of construction impact on environment)." E3S Web of Conferences 164 (2020): 07006. http://dx.doi.org/10.1051/e3sconf/202016407006.

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The article provides an analysis of construction influence on the environment, the environment-forming function of the construction activity has also been studied. The assessment of environmental factors has been made on the basis of interdisciplinary approach. The conducted assessment of state and dynamics of eco-economic interaction between the construction activity and the environment, the basis of sustenance of the urban and agricultural economy in Russia, has demonstrated the investment potential of production of the construction materials. However, the raw materials are mined by the open pit; the lands of agricultural purpose get requisitioned for the pits. All this shows an ecological inefficiency of the construction industry growing from year to year. A direct demolition of natural eco-systems in the local areas contradicts the attractiveness of ecological construction in the framework of movement to the sustainable development of the country. The system “construction – vital activities environment” has been reviewed as an eco-economic equilibrium, as a criterion of the authentic system-level development. It is necessary to increase the quality of ecological monitoring. The performed analytical helps to come to a conclusion that notwithstanding the developed basic provisions of institutional policy a negative impact of construction on the environment impedes the development of ecologically-oriented investment and construction activity and sustainable development of the country.
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14

Li, Pingxing, Chonggang Liu, and Hui Cao. "Quantitative Evaluation of Ecological Stress Caused by Land Use Transitions Considering the Location of Incremental Construction Lands: The Case of Southern Jiangsu in Yangtze River Delta Region." Land 11, no. 2 (January 21, 2022): 175. http://dx.doi.org/10.3390/land11020175.

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With their significance in connecting socio-economic development and related eco-environmental consequences, land use transitions have gradually become the focus of land change science and sustainability science. Although various research studies have determined the ecological effects of land use transitions and provided suggestions to regulate them, few studies have investigated the different ecological stress of construction lands from the perspective of their spatial locations in ecologically differentiated regions. Taking economically developed and highly urbanized southern Jiangsu in Eastern China as an example, we developed a process-based method to indicate the spatial heterogeneity of ecological suitability and divided southern Jiangsu into five-level ecological zones accordingly. Considering that construction lands in ecological zones with higher ecological suitability levels cause greater ecological stress, we evaluated the ecological stress levels of incremental construction lands at different stages after 1990. Then, we carried out the calculation of county-level ecological stress and county-level zoning based on both the area and ecological stress level of their incremental construction lands. Results indicated that ecological zones with the highest to lowest ecological suitability levels accounted for 49.85%, 25.73%, 15.56%, 6.51%, and 2.34%, respectively. The majority of the incremental construction lands had the highest and moderately high ecological stress levels, and they were mainly distributed in areas along the Yangtze River and around Taihu Lake. The general ecological stress level of southern Jiangsu was at a relatively high level at each stage, but the county-level patterns of ecological stress levels were spatially different. As determined from the relationship between the amount of incremental construction lands and the average stress level associated with these lands in each unit, four types of zones, i.e., H-H, H-L, L-H and L-L zones, were identified, and targeted suggestions on land use regulations were proposed. We conclude that the spatial distribution of incremental construction lands significantly affects their ecological consequences from the perspective of maintaining ecosystem integrity. Both construction lands and ecological suitability are location specific, so the location-oriented evaluations could provide an effective approach for determining the spatial patterns of land use transitions based on spatially differentiated ecological consequences. It is essential to propose location-specific policies to carry out spatially precise ecological restoration and the redistribution of incremental construction lands.
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15

He, Yu Hong, and Li Zhang. "Automobile Consumption and Ecological Civilization Construction." Advanced Materials Research 1073-1076 (December 2014): 2567–71. http://dx.doi.org/10.4028/www.scientific.net/amr.1073-1076.2567.

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"To promote the construction of ecological civilization" is a scientific judgment and significant decision made at the CPC’s Eighteenth National Congress. The construction of ecological civilization is facing a huge challenge. This paper, from the perspective of the relationship between consumption of automobile and the construction of ecological civilization, analyzed the negative effects of automobile consumption on the construction of ecological civilization, elaborated on the social root of non-ecological consumption of automobiles, and advocate the construction of ecological civilization needs the automobile consumption to be back in ecological rationality to provide some inspiration or ideas for Chinese ecological civilization construction.
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16

Huang, Guo Zhu, Tan Zhu, Jun Hu, Tie Wen, and Yi Jun Ji. "Exploring Ecological Land Reclamation to Promote the Ecological Civilization Construction in China." Advanced Materials Research 1073-1076 (December 2014): 2648–52. http://dx.doi.org/10.4028/www.scientific.net/amr.1073-1076.2648.

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Homeland is the spatial carrier of ecological civilization construction, to optimize the land space patterns is one of the main tasks of the ecological civilization construction. Land reclamation is one of the main ways of our land resources development and utilization. This paper discusses the main problems about land reclamation, analyzes the important role of ecological reclamation in promoting the ecological civilization construction. Basic direction and suggestions of ecological reclamation are proposed in order to promote the ecological civilization construction in China.
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17

李, 丹. "The Logical Paradox of Ecological Civilization and Its Ecological Construction." Advances in Social Sciences 06, no. 06 (2017): 779–83. http://dx.doi.org/10.12677/ass.2017.66110.

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18

Liu, Yin, Yang Liu, Yalan Guo, Zening Wei, and Zhiao Ma. "Application of ecological footprint in the construction of ecological campus." IOP Conference Series: Materials Science and Engineering 397 (August 31, 2018): 012097. http://dx.doi.org/10.1088/1757-899x/397/1/012097.

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19

Yang, Ying. "Analysis on the Effect of Low Carbon Building on Ecological Urban Construction." Applied Mechanics and Materials 380-384 (August 2013): 4856–61. http://dx.doi.org/10.4028/www.scientific.net/amm.380-384.4856.

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Low carbon building is one of the important goals of constructing ecological city, which aims at energetically developing green building resources with high technology and low energy consumption on the basis of reducing carbon dioxide emissions within building materials and construction cycle. Firstly, this paper analyzes the connotation of low carbon buildings. And then, on the basis of life cycle and materials selection of low carbon building, this paper makes a correlation analysis on the ecological city construction and low carbon building. Next, based on this, the model of analyzing the effect of low carbon building on ecological urban construction has been built by using the grey correlation degree. Thus it provides theoretical basis and practice guidance for the application of low carbon building in the ecological city construction in China and other developing countries.
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20

Peng, Jian, Huijuan Zhao, and Yanxu Liu. "Urban ecological corridors construction: A review." Acta Ecologica Sinica 37, no. 1 (February 2017): 23–30. http://dx.doi.org/10.1016/j.chnaes.2016.12.002.

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21

Liu, Huiqing, Jiawei Xu, and Xiuqin Wu. "Landscape ecological construction and biodiversity protection." Chinese Geographical Science 9, no. 4 (December 1999): 377–82. http://dx.doi.org/10.1007/s11769-999-0013-4.

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22

Wang, Lu. "Discussion of our Ecological City Construction." Advanced Materials Research 962-965 (June 2014): 2425–28. http://dx.doi.org/10.4028/www.scientific.net/amr.962-965.2425.

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Ecological city construction is the only way of sustainable development, and the development direction of future city. This paper discusses the ecological city ’ s basic connotation, necessity, current situation and existing problems, then sums up the practical measures of the ecological city construction.
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23

Liu, Hongxun, and Boqiang Lin. "Ecological indicators for green building construction." Ecological Indicators 67 (August 2016): 68–77. http://dx.doi.org/10.1016/j.ecolind.2016.02.024.

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24

Il'ichev, V. A., B. I. Kulachkin, L. G. Kushnir, A. I. Radkevich, L. R. Stavnitser, and V. I. Sheinin. "Ecological problems of radon in construction." Soil Mechanics and Foundation Engineering 31, no. 5 (September 1994): 186–91. http://dx.doi.org/10.1007/bf02336749.

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25

TKACHENKO, Alla, and Alexsander BUGRIM. "ECOLOGICAL STRATEGY OF CONSTRUCTION ENTERPRISE DEVELOPMENT." Herald of Khmelnytskyi National University 294, no. 3 (March 2021): 298–303. http://dx.doi.org/10.31891/2307-5740-2021-293-3-49.

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The development of construction companies requires appropriate environmental strategies. Environmental strategy is a new way to achieve the goals of the business entity. Differences in approaches allow managers to pay attention to the use of appropriate methodological support. This methodological support takes into account the basic requirements that must be involved in the process of strategic planning. This approach ensures the development of a clear strategy to ensure sustainable and long-term competitive advantages of the enterprise. In Ukraine, construction companies are interested in controlling the environmental impact. For the effective implementation of the strategy of the construction company it is important to take into account its environmental component. The contradictory 1nature of the formation of an effective environmental strategy stimulates the optimization of the mechanisms of functioning of international commodity markets. Environmental strategy should be considered in conjunction with the specifics, trends and dynamics of economic decision-making. The best practices of developed countries confirm that sustainable development is impossible without the environmental component. Construction companies are introducing new environmental management standards into production. This is relevant for domestic enterprises to increase their competitiveness. Environmental management is based on a set of forms, methods, tools for managing production processes to achieve environmental and economic efficiency. The purpose of this is to increase the competitiveness of enterprises. Accordingly, the achievement of competitive advantage of the enterprise is based on lower production costs compared to competitors. In addition to this factor, competitiveness is based on an effective management system, active implementation of innovations (including environmentally friendly technologies). The strategy of environmental policy should take into account the real trends of environmental change, the needs of social and economic development of the country on the basis of fundamental doctrinal provisions. For the successful operation of companies, it is important to identify the negative environmental consequences of activities in the construction industry and prevent possible threats in this area.
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26

Zhang, Ding Qing, Jun Jie Li, and Xian Xian Dang. "Study on the Conception and Methods of Constructing Ecological Corridors of Weihe River System in Xi’an Area." Advanced Materials Research 518-523 (May 2012): 5943–48. http://dx.doi.org/10.4028/www.scientific.net/amr.518-523.5943.

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Weihe river system, which played an important role in the construction and development of cities in history, is the basic frame of the geographical environment in Xi’an area. In the process of accelerated urbanization, the ecological environment of the river system has been greatly damaged, which seriously constrained the sustainable development of local area. Aiming at improving regional landscape pattern and ecological development of cities, this thesis puts forward the conception of constructing Weihe river system ecological corridors in Xi’an area, analyzes the concept and features of corridors, and proposes the basic principles in construction. The methods of constructing ecological corridors are discussed from macro-view, middle-view and micro-view respectively.
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27

Junakova, Natalia, Jozef Junak, and Eva Šelingova. "Assessment of ecological stability of the built environment in relation to sustainable construction." Selected Scientific Papers - Journal of Civil Engineering 14, no. 2 (December 1, 2019): 87–94. http://dx.doi.org/10.1515/sspjce-2019-0020.

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AbstractWhen placing buildings in a landscape environment, the urban and architectural design of the building must be in harmony with the surrounding environment. The environmental criterion in assessing the sustainability of buildings and the subsequent environmental certification of buildings is the construction site selection in terms of its ecological importance. The way to determine the ecological value of a territory is through the determination of the landscape’s ecological stability, which can be considered as a basis for assessing all conditions and assumptions of land use. Maintaining ecological stability on Earth is a prerequisite for sustainable development and is of long-term strategic importance for the development of society.The contribution is focused on the evaluation of ecological stability in relation to sustainable construction in the cadastral area of the village Vajkovce, located in the district of Košice-okolie (surrounding). The ecological stability of the territory is evaluated by several methods used in the assessment of the landscape ecological stability and their modifications expressed by the coefficient of ecological stability. The results indicate that the territory of the municipality of Vajkovce is one of the ecologically unstable areas and therefore appropriate measures were proposed to increase its ecological stability.
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28

Bērziņš, Andris. "Qualitative Development of Construction Student’s Attitude in Ecological Teaching and Learning Process." SOCIETY, INTEGRATION, EDUCATION. Proceedings of the International Scientific Conference 1 (May 9, 2015): 217. http://dx.doi.org/10.17770/sie2012vol1.42.

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<p>The publication reflects the qualitative development of construction students' ecological attitude in learning and teaching process in a vocational school. By facilitating the teaching and learning process, developing the content of education, introducing in teaching ecologically-oriented forms of work, methods, approaches and instruments; using the environment as a pedagogical tool and highlighting the important role of teacher as an ecological person in the accentuation of teaching content as students understand it. The author emphasizes the impact of the components of ecological education in the promotion of the reflection on the most essential attitude criteria – knowledge, skills and behaviour. Applying quantitative and qualitative research, the author sums up the experimantally obtained results showing that by the introduction of the components of ecological education, it is possible to foster the development of an ecological person.</p>
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Liu, Ke Bin, Xin Wang, Hai Bo Li, and Ying Hua Li. "Theoretical Framework of Urban Eco-Civilization Construction." Advanced Materials Research 616-618 (December 2012): 1234–37. http://dx.doi.org/10.4028/www.scientific.net/amr.616-618.1234.

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The city is a high-density human settlement. The contradiction in the city between human activity and ecological environment is particularly serious. In order to introduce eco-civilization into the city construction, it is inevitable to construct eco-civilization city. This article analyzes the connotation and characteristics of eco-civilization city, the main theoretical framework of urban eco-civilization construction including eco-civilization city construction planning, environmental protection, ecological economy/industry, ecological security, ecological concept/act, ecological culture, ecological politics/government, ecological law/system/policy, and ecological and livable city, which is expected to provide a reference for realizing the coordinated development of regional economic and environment.
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Zhen, Jiang Hong. "Evaluation of the Ecological Civilization Construction of Inner Mongolia." Applied Mechanics and Materials 385-386 (August 2013): 392–95. http://dx.doi.org/10.4028/www.scientific.net/amm.385-386.392.

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Based on the concept of ecological civilization construction, the paper constructs a comprehensive evaluation index system, standard and model of ecological civilization construction. Using Analytical Hierarchy Process based on Entropy Technical and Grey Correlation Method, the paper calculates and analyzes the ecological civilization construction level of Inner Mongolia during 1990 to 2010. The results show: The ecological civilization construction level in Inner Mongolia rises ceaselessly since 1990 and it is in the intermediate stage at present. The development speed of ecological civilization construction has stage characteristics during the study period and it has entered the period of accelerated development since 2003. But the development trend of each component index of ecological civilization construction is not the same. Ecological environment, ecological security and ecological economic index improved significantly, while ecological social and ecological culture construction level is relatively low and develop slowly.
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31

Švajlenka, Jozef, and Mária Kozlovská. "Factors Influencing the Sustainability of Wood-Based Constructions’ Use from the Perspective of Users." Sustainability 13, no. 23 (November 23, 2021): 12950. http://dx.doi.org/10.3390/su132312950.

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Traditional construction solutions face increasing competition from more ecological materials such as construction systems based on wood. Thanks to the numerous favourable properties of wood, wood construction enjoys great popularity and allows building economical and modern constructions that are durable and contribute to an ecological future. This study is motivated by the need for innovative solutions in construction and offers numerous findings based on examining actual constructions based on wood. By examining the interactions among selected factors of constructions and their users, the study reacts to the global challenges that call for increased efficiency and sustainability in construction. The examination of the interactions among the selected factors offers more extensive knowledge in the field of constructions based on wood and points towards possible innovative approaches for more sustainable housing and for a more efficient construction industry. The analyses showed that the key aspects that determine the sustainability of housing from the perspective of users are the standard of construction workmanship and construction time, which depend on the choice of construction system, cost-efficiency of use, and material composition and floor plan design. These aspects also interacted with other technical and design aspects, which also played an important role in the perception of housing sustainability.
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32

Sun, Ya Nan, Ke Chen, and Yang Wang. "The Innovation of a New Fund-Raising Channel for Ecological Environment Construction - The Ecological Lottery." Advanced Materials Research 807-809 (September 2013): 865–72. http://dx.doi.org/10.4028/www.scientific.net/amr.807-809.865.

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In recent years,the contradiction between social development and ecological environmental protection has increased sharply, especially as demands for ecological forestry construction have become ever greater. As one of the important ways to promote ecological environment construction, ecological forestry encourages soil and water conservation, biodiversity conservation and ecological environmental protection. Adequate funding in the construction of ecological forests and stable financing channels are the main factors that ensure the smooth development of ecological environmental construction. This paper describes the present situation for ecological environmental construction and ecological forestry. It analyzes the existing ecological forestry financing sources and channels and summarizes the successful experience of domestic and international lotteries. The ecological forestry financing channel is singular and inadequate funding is restricting the development of ecological environment construction. Active identification of new, stable financing channels is conducive to resolving the funding gap problem. An ecological lottery is suggested as a new type of ecological public welfare fund that has practical necessity and theoretical feasibility.
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33

Meng, Fanxin, Jinling Guo, Zhanqiang Guo, Jason C. K. Lee, Gengyuan Liu, and Ning Wang. "Urban ecological transition: The practice of ecological civilization construction in China." Science of The Total Environment 755 (February 2021): 142633. http://dx.doi.org/10.1016/j.scitotenv.2020.142633.

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34

Dong, Feng, Yuling Pan, Xiaojie Zhang, and Ziyuan Sun. "How to Evaluate Provincial Ecological Civilization Construction? The Case of Jiangsu Province, China." International Journal of Environmental Research and Public Health 17, no. 15 (July 24, 2020): 5334. http://dx.doi.org/10.3390/ijerph17155334.

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Ecological civilization is a transcendence of industrial civilization. The improvement of China’s ecological civilization system can not only provide developing countries with an empirical reference for ecological civilization construction, but also make a huge contribution to the progress of global ecological civilization. This paper focuses on improving the provincial ecological civilization evaluation system. First, the Provincial Ecological Civilization Construction Evaluation Index System is established according to the Green Development Index System issued by the Chinese government in 2016, and then the applicability of the Spatio-Temporal Factor Analysis (STFA) is verified as the evaluation method of the provincial ecological civilization construction level. Further, taking Jiangsu Province, China as an example, this paper evaluates the level of ecological civilization construction in each city of Jiangsu Province, and analyzes the main factors affecting ecological civilization based on the evaluation results. Finally, according to the relationship between the ecological civilization construction and economic quality of each city, the four-quadrant method is applied to divide Jiangsu Province into four types of regions to help each city position itself in ecological civilization construction. This paper mainly draws the following conclusions: (1) Due to its simple operation and accurate evaluation results, STFA is applicable in evaluating the provincial ecological civilization construction level. (2) Taking Jiangsu Province as an example, it is found that the level of ecological civilization construction in the southwestern region is higher than that of the northeast coastal region in Jiangsu. Three inequality indices are applied to measure the regional inequality of ecological civilization construction among 13 cities, which is relatively high in recent years. (3) By analyzing the results of STFA, it is found that economic quality and natural protection are not only the main factors affecting the ecological civilization construction in Jiangsu province, but also the main reasons for the regional heterogeneity of provincial ecological civilization. (4) For the four types of regions, suggestions are proposed according to the characteristics of each region to help improve the provincial ecological civilization construction level. This paper not only improves China’s ecological civilization construction system, but also provides information for the provincial ecological civilization construction in developing countries.
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Qing, Xin, Haifa Jia, and Chengkui Liu. "Evaluation of Ecological Livable Construction in Guangzhou." E3S Web of Conferences 236 (2021): 03011. http://dx.doi.org/10.1051/e3sconf/202123603011.

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Guangzhou is the capital city of Guangdong Province, which is currently in a stage of transformation and development. This paper takes Guangzhou’s ecological economy, ecological society, ecological environment as the research objects and constructs an evaluation index system for Guangzhou’s ecological liveability. It takes social progress, economic development and environmental protection as the primary indicators. The index system is used to construct the ecological livability evaluation index system of Guangzhou through the entropy method.
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Yang, Yanping, Jianjun Chen, Yanping Lan, Guoqing Zhou, Haotian You, Xiaowen Han, Yu Wang, and Xue Shi. "Landscape Pattern and Ecological Risk Assessment in Guangxi Based on Land Use Change." International Journal of Environmental Research and Public Health 19, no. 3 (January 30, 2022): 1595. http://dx.doi.org/10.3390/ijerph19031595.

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Due to ecological environmental fragility and soil erosion in Guangxi, studies of landscape patterns and associated ecological risks are needed to guide sustainable land development and ecologically sensitive land management. This study assesses dynamic spatial and temporal change patterns in land use and ecological risks based on 30 m land-use data, analyzes spatial correlations with ecological risks, and explores natural and socio-economic factor impacts on ecological risks. The results reveal: (1) A rapid and sizeable construction land increase in Guangxi from 2000 to 2018 associated mainly with loss of woodland and grassland. (2) Guangxi had the highest number of arable land patches from 2000 to 2018, and the distribution tended to be fragmented; moreover, the construction land gradually expanded outward from concentrated areas to form larger aggregates with increasing internal stability each year. (3) Guangxi ecological risk levels were low, low–medium, and medium, with significantly different spatial distributions observed for areas possessing different ecological risk levels. Regional ecological risk gradually decreased from the middle Guangxi regions to the surrounding areas and was positively correlated with spatial distribution. (4) Socio-economic factor impacts on ecological risk exceeded natural factor impacts. These results provide guidance toward achieving ecologically sensitive regional land-use management and ecological risk reduction and control, it can also provide a reference for ecological risk research in other similar regions in the world.
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Zhao, Long, Wen Tang, Ye Chao Zhang, and Qi Zhang. "Research on Urban's Planning and Construction of Ecological Corridor around City in Guizhou Areas, Southwest of China." Advanced Materials Research 779-780 (September 2013): 1276–80. http://dx.doi.org/10.4028/www.scientific.net/amr.779-780.1276.

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This paper studies the planning and construction of ecological corridor around the city in Guizhou areas, eastern Yunnan-Guizhou plateau, and southwest of China. It is proposed by solving urban environment problems in the process of urbanization and disastrous weather such as drought, glazed frost and hail, etc. Based on the view of Environment Science, Ecology and urban planning,this paper researches on the construction of ecological corridor in some of cities in Guizhou area. Analyze and discuss ecological influences and benefits of constructing ecological corridor to the city of Guizhou and the disastrous weather. On the above, it provides theoretical supplement and reference to planning practice.
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38

Mu, Jun, and Jing Chen. "Practical Studies of Ecological School Design on China’s Loess Plateau." Applied Mechanics and Materials 174-177 (May 2012): 3176–80. http://dx.doi.org/10.4028/www.scientific.net/amm.174-177.3176.

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In terms of the poor conditions of China’s Loess Plateau region, the feasibility limited by budget and conventional resources for construction is the main challenge faced by ecologically design for local buildings. Aiming to explore a way towards an ecological architecture suited for this region, a primary school project is studied as a prototype. The methodology combining condition analyses, computer simulation experiments with TAS and field construction is involved with thermal design as the focus. Based on locally available materials and vernacular technology, a series of alternative techniques and feasible thermal design strategies for this region are carried out and further alternatively validated in construction, aiming to reach the most effectively ecological approach. By comparing with local conventional buildings, it is found that with similar construction cost the classrooms can contribute a far better ecological performance in indoor thermal comfort, energy consumption and environmental impact. It illustrates to the locals a feasible way for current local conditions, in which by selectively employing their familiar techniques and materials they can easily build themselves their most affordable and most effective ecological approaches.
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Liu, Ke Bin, Ying Hua Li, Peng Fei Wang, and Hai Bo Li. "Research on the Construction of Domestic Ecological Civilization Cities." Advanced Materials Research 734-737 (August 2013): 1967–70. http://dx.doi.org/10.4028/www.scientific.net/amr.734-737.1967.

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Ecological civilization city was made up of population, resources, environment, economic compound system, is a multi-function, multi-level and multi-objective evaluation objects. Construction of ecological civilization city is the request of the ages; it is a profound reflection on the industrial revolution, human development model. Ecological city is the result of human ecological value orientation, the inevitable trend in the development of future city. Ecological civilization city will become the ecological civilization construction and the main development direction of modern city and the pursuit of goals in the 21st century. This article begins with the concept and connotation of ecological civilization city, it obtains seven concrete construction of index, they are the ecological environment, ecological economy, ecological livable, ecological philosophy, ecological culture, ecological political, ecological infrastructure and ecological law, and specific construction method is given according to the characteristics of different indicators.
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Chen, Qun, and Yan Bing Ye. "Ecological Construction Experience Analysis on Traditional Houses of Dong Inhabit Villages in Sanjiang, Guangxi." Applied Mechanics and Materials 71-78 (July 2011): 3586–90. http://dx.doi.org/10.4028/www.scientific.net/amm.71-78.3586.

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Constructions in Dong inhabit houses respond to the cosmopolitan ecological thought “Man and nature live in harmony” with landscape of simplicity, nature and unity of heaven and humanity. It is not only Chinese nation’s cultural treasure but also a distinguished one in the art of architectural world which forms going through long-term choice and elimination of nature and human society and includes many reasonable ecological construction experience. This paper summarizes its ecological construction experience by researching traditional houses of Dong inhabit villages in Sanjiang, Guangxi to provide guidance for local architectural creation and sustainable development of villages.
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41

Qiu, Baolin, and Dongkun Luo. "A Grey Multi-Level Evaluation of Industrial Park Ecology Based on a Coefficient of Variation-Attribute Hierarchy Model." Sustainability 13, no. 4 (February 7, 2021): 1805. http://dx.doi.org/10.3390/su13041805.

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China entered a new era, and the construction of an ecological civilization and green development has been raised to a new strategic height. As the lifeblood of the national economy, industrial parks significantly contribute to economic growth. However, they also generate significant pollution, damaging the ecological environment. It is urgent to ecologically transform traditional industrial parks. This requires identifying methods to correctly and objectively evaluate the ecological level of industrial parks, and provide ecological construction proposals for the government and industrial parks. In this study, the comprehensive evaluation weight was determined by introducing a variation coefficient and an Attribute Hierarchy Model (AHM). The ecological level of four representative eco-industrial parks was then quantitatively evaluated using a grey multi-level evaluation method. The ecological construction level of the four industrial parks was as follows. The Tianjin Economic-Technological Development Area (TEDA) was rated at a “very good” level; and the Suzhou industrial park, Dalian economic and technological development zone, and Fushun mining group were rated at a “good” level. Six dimensions were studied. Of these, policy management had the highest weight, and the total weight of policy management and economic development approached 50%. The result shows that industrial parks can attract innovative enterprises and talents through the policy guidance of local government to improve the level of green innovation technology and cleaner production technology. Then, the ecological level of the industrial parks will be improved. This study enriched the theory and practice of ecological evaluation of industrial parks and provided a reference for the ecological construction of traditional industrial parks.
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42

Wang, Hecong, Xiaoqiong Hu, and Rui Zhai. "Analysis of Chinese President Xi Jinping’s Ecological View: From the Perspective of Transitivity." Journal of Language Teaching and Research 10, no. 5 (September 1, 2019): 1089. http://dx.doi.org/10.17507/jltr.1005.23.

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Analysis of ecological discourse can reflect the relationship between language and environmental issues. According to Systemic-Functional Linguistics, language is not only a means of action but also a means of reflection. This study aims to use systemic functional linguistics to analyze Chinese President Xi Jinping’s ecological view based on the book Xi Jinping’s Comments on Socialism Ecological Construction (Abstract) from the perspective of transitivity, hoping to raise people’s ecological consciousness, and lead them to act ecologically and think ecologically in their daily life to protect our precious earth.
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43

Müller, Theresa, David Borschewski, Stefan Albrecht, Philip Leistner, and Moritz Späh. "The Dilemma of Balancing Design for Impact Sound with Environmental Performance in Wood Ceiling Systems—A Building Physics Perspective." Sustainability 13, no. 16 (August 4, 2021): 8715. http://dx.doi.org/10.3390/su13168715.

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Due to the high consumption of resources and energy in the construction sector, the development of resource-efficient and sustainable construction solutions is gaining increasing attention. The awareness of sustainability and resource conservation results in the interest of using natural and renewable materials in contemporary architecture. Timber construction methods offer both constructive and ecological potential for sustainable solutions. From a building physics perspective, the acoustic performance of lightweight buildings, such as those made of timber, presents a challenge. Even if standard requirements are met, the increased low-frequency sound transmission typical for light-weight construction can cause discomfort and is already the subject of questions in building physics, which are currently increasingly extending to timber construction. Within the framework of a holistic approach, this paper compares the problem of acoustic properties, design optimizations and the ecological properties of timber-frame and solid timber construction components. The comparison with heavy materials, such as concrete, shows the relation of acoustic optimization with the change of the environmental profile. In order to establish the interaction between acoustic quality of wooden ceiling constructions and their ecological characteristics, this article aims to demonstrate the potential of materials used in the building sector under ecological aspects considering a life cycle analysis.
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He, Cheng Long, Wen Li Liu, Xin Guo Wu, and Wei Luo. "Regional Environmental Capacity Study for Jiaxing City." Advanced Materials Research 610-613 (December 2012): 961–64. http://dx.doi.org/10.4028/www.scientific.net/amr.610-613.961.

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Jiaxing is listed experiment city of the national ecological civilization construction in 2012. Correctly understand and evaluate the supply of resources and environmental carrying capacity is an important prerequisite of ecologically-civilized city construction. The article structures emergy ecological footprint model combination emergy analysis theory and ecological footprints model.It can quantitative analysis environmental carrying capacity of Jiaxing through comparing ecological carrying capacity and the ecological footprint occupancy. By empirical study, in the rapid development of Jiaxing economy at the same time, ecological deficit has happened in the regions of Jiaxing, total deficit is 3.15 times of the urban area. It shows that industrial structure adjusting of Jiaxing is in a very stressful situation. From ecological deficit proportion of five counties and two districts in Jiaxing to see, Pinghu constitutes 37.63% and Haiyan constitutes 24.65%,the sum up of two counties (city) is to 62.28%. They are the priority counties of the industry structure adjustment.
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45

Hao, Yingli, Wenjing Han, and Qingrui Ke. "Evaluation Model of Ecological Environment of Saihan Dam." Learning & Education 10, no. 5 (March 13, 2022): 236. http://dx.doi.org/10.18282/l-e.v10i5.2755.

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Aiming at the evaluation of the impact of Saihan dam on ecological environment construction, this paper selects several representative indicators to evaluate the ecological environment through the ECCI evaluation system, and judges the impact degree of Saihan dam by establishing the relevant model of the impact of Saihan dam on ecological environment construction. Based on the existing evaluation system of ecological civilization construction in China, by collecting various data and consulting relevant literature, three categories and seven indicators with great correlation before and after the restoration of Saihan dam are selected, and the judgment matrix is constructed by analytic hierarchy process, so as to obtain the weight value of each index. The factor analysis is carried out by constructing the matrix, and the vector is normalized, The consistency is used to test the indicators, and then the data before and after the restoration of Saihan dam are substituted for comparative analysis.
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46

Dyachok, V., and O. Gaiduchok. "The construction of ecological and economical production function for energy dependent economics." Mathematical Modeling and Computing 2, no. 1 (July 1, 2015): 27–32. http://dx.doi.org/10.23939/mmc2015.01.027.

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47

Du, Zheng, and Yong Sheng Zhang. "Paying Attention to the Application of Ecological Strategy to Construction Design." Advanced Materials Research 690-693 (May 2013): 860–64. http://dx.doi.org/10.4028/www.scientific.net/amr.690-693.860.

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Construction affects ecological environment as well as mankind. It continuously influences the surroundings, user’s life and especially highly developed cities in our country. Ecological construction will become the main stream in the 21st century. Construction is closely related to the sustainable development which is composed of three important aspects, namely, environment protection, economic development and social progress. Ecological construction should be a part of sustainable development. Facing the main problems in ecological environment and construction design in China, this paper suggests that in the construction design the application of ecological strategy should be paid attention to, and that to promote the ecological construction design should rely on the enhancing of the ecological consciousness of whole society, the strengthening of the communication between man and the natural environment, and the perfecting of laws on the ecological building design.Building in the people, nature and social - economic compound ecological system, not only affects the earth's ecological system, and directly related to the survival and development of the human being. The rapid development of construction industry in our country, the neglect building, and the natural ecological environment, the coordination between the various technical equipment in use, the improvement of people's living environment, give people bring convenient and comfortable at the same time, also produced many negative effect and harm, such as the construction of environmental pollution, building materials the harmful elements, noise, "air conditioning syndrome" trapped around the people's life and health. Therefore, we must pay attention to ecological strategy application in architectural design.
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48

Matas, Gordan, and Iva Donelli. "Ecological systems theory." Zbornik radova Filozofskog fakulteta u Splitu, no. 13 (2020): 111–30. http://dx.doi.org/10.38003/zrffs.13.5.

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In this paper, Toni Morrison’s novel Beloved (1987) will be considered from the point of view of developmental psychology. Morrison’s works can be seen as representing an intertwinement of social, historico-political and emotional themes which play a crucial role in the identity construction of the author’s characters. Therefore, the Ecological Systems Theory proposed by Urie Bronfenbrenner will be employed to closely examine how the identities of Morrison’s characters are being shaped in the novel. The usage of the five systems on which Bronfenbrenner’s bioecological model is based– chronosystem, macrosystem, exosystem, mesosystem and microsystem, will provide an often missing holistic approach necessary for better understanding of how and why Morrison’s characters are (un)able to complete their developmental journey of identity construction successfully.
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Wu, Wei, Rong Jun Chen, and Chao Zhang. "Planning and Constructing of Evaluating Indexes System of Military Ecological Residential Area." Advanced Materials Research 347-353 (October 2011): 2957–60. http://dx.doi.org/10.4028/www.scientific.net/amr.347-353.2957.

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The article discussed the methods for evaluating ecological circumstance quality. Based on the present situation and investigation, the evaluating indexes system and the model for military ecological residential area were constructed. And put forward the concrete evaluating methods. Through scientific, impersonal and intact evaluation of ecological system of military ecological residential area, the construction, function and dynamic changes of the ecological system of military ecological residential area were discussed. The studies provided scientific basis for the planning and constructing of military residential area.
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Li, Zehong, Yongqing Bai, Jiulin Sun, Suocheng Dong, and Jingnan Li. "Ecological Civilization Construction in Ecologically Fragile Poverty-stricken Areas in Western China." Chinese Journal of Engineering Science 21, no. 5 (2019): 80. http://dx.doi.org/10.15302/j-sscae-2019.05.012.

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