Egemen Sertyesilisik and Begum Sertyesilisik
Resilience of the economy is related with its ability to cope with the challenges (e.g., economic and environmental crises). Economies need to be resilient as countries having…
Abstract
Resilience of the economy is related with its ability to cope with the challenges (e.g., economic and environmental crises). Economies need to be resilient as countries having resilient economy can enhance welfare of their people and achieve sustainable development (SD). Total factor productivity can be improved through smart technologies, smart workforce, and innovations. It requires holistic and systematic as well as strategic approach as it is directly related with the SD of the countries and welfare of their people. It is directly related with the policies covering all these main aspects with the long-term, systematic, and holistic view. Resilient economies need to enhance their resilience to keep them resilient despite of the changes which can act as threats in the future. Resilience of the economy necessitates transformation of the manufacturing industry (MI) into the sustainable, smart, circular, and global one. In this way MI's competitiveness can be enhanced. For this reason, based on an in-depth literature review, this chapter aims to examine ways for enhancing resilience of the global economy through smart, circular, and competitive MI. Specific focus is on the policies fostering the transformation of the MI into the sustainable, smart, circular, global, and innovative one. This chapter emphasizes the importance of and need for the productivity-based resilient economy. Policy makers, academics, and researchers in the relevant field can get benefit from this chapter.
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Egemen Sertyesilisik and Begum Sertyesilisik
The COVID-19 pandemic affected entire humanity, sustainable development and international trade. Even if international trade is in the recovery phase, COVID-19 pandemic's adverse…
Abstract
The COVID-19 pandemic affected entire humanity, sustainable development and international trade. Even if international trade is in the recovery phase, COVID-19 pandemic's adverse effects on sustainable development and trade continue to be experienced globally. Furthermore, break out of the war in Ukraine (WIU) further affected not only Ukraine and Russia but also other countries. Countries have started to experience adverse impacts of the WIU more deeply as this war continues. From the global sustainable development and trade perspectives, the WIU impacts' magnitude is affected by the significance of Ukraine and Russia's role in and contribution to the global economy and trade (e.g. agriculture, energy). All countries, including developed, developing and under-developed countries, have started to be affected at different levels due to the adverse impacts of this war. Based on an in-depth literature review, this chapter aims to investigate the WIU's impacts on global sustainable development and international trade. Furthermore, effects of the WIU on climate change and on the fight against climate change are investigated within the scope of this chapter. This chapter is expected to be useful to all stakeholders of sustainable development including politicians and researchers.
As technology aspect of agriculture becomes more and more important with the time to increase agricultural productivity in a sustainable and smart way, agriculture practices…
Abstract
As technology aspect of agriculture becomes more and more important with the time to increase agricultural productivity in a sustainable and smart way, agriculture practices become more interdisciplinary. Furthermore, agricultural practices are affected by urban and rural planning enabling urban and rural farming. Architecture, engineering and construction (AEC) industry can support food security through the integration of agricultural practices and technologies into the built environment, its interior design, and greenhouses supporting urban and rural farming. Based on the literature review, this chapter aims to investigate ways for enhancing AEC industry’s and its professionals’ contribution to food security and sustainable agricultural practices. This chapter highlights roles of the AEC industry in enhancing food security and sustainable agricultural practices. This chapter emphasizes the importance of undergraduate and graduate curriculums of future AEC industry professionals (e.g., architects, interior architects, civil engineers) to equip them with the skills and knowledge of sustainable agricultural practices and technologies integrated greenhouses, built environment and indoor environment, and interior design. For this reason, agricultural policies need to cover food security-related interdisciplinary education and training (e.g., renewable energy-based agriculture integrated built environment) of AEC industry professionals. Agricultural policies need to be designed with the contribution of and considering AEC industry professionals as they are among the main stakeholders of food security and renewable energy-based agriculture-integrated built environment. Furthermore, this chapter highlights how AEC industry, in compliance with United Nations Sustainable Development Goals and countries sustainable and resilient development plans, can contribute to food security and sustainability. This chapter can be beneficial to all stakeholders of the sustainable agricultural practices.
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Production-related industrial zones, super structures and infrastructures are constructed by the construction industry. Nearly all industries and their environmental emissions are…
Abstract
Production-related industrial zones, super structures and infrastructures are constructed by the construction industry. Nearly all industries and their environmental emissions are influenced by the construction industry including its sub-industries, companies and their supply chains. Furthermore, cities play an important role in economic growth. Cities are hubs for productivity, production, supply and demand, and innovation with the help of their human capital and built environment (e.g. offices, factories, industrial zones, infrastructures, etc.).
Industrial growth fosters urbanisation which is vital for the supply side in the economy to reach to the human resources. Urbanisation which supports industrial growth obstacles industries’ efficiency due to urbanisation problems (e.g. traffic, air and water pollution, health problems).
Construction industry and its sub-industries affect total factor productivity growth in nearly all industries. Construction industry can be a facilitator industry for economic growth and industrial growth considering total factor productivity growth and environment aspects. All industries’ green and sustainable total factor productivity growth can be supported by rethinking construction industry, its sub-industries and their outputs (e.g. construction materials, built environment, cities) as well as construction project management processes.
This chapter aims to introduce carbon capturing smart construction industry model to foster green and sustainable total factor productivity growth of industries. This chapter emphasises current and potential roles of construction industry, its sub-industries and their outputs in fostering other industries’ growth through green and sustainable total factor productivity growth. It focusses on carbon capturing technologies and design at different levels. Furthermore, this chapter emphasises cities’ role in green and sustainable total factor productivity growth. This chapter provides recommendations for construction industry policies and carbon capturing cities/built environment model to solve urbanisation problems and to foster industrial growth and green and sustainable total factor productivity growth. This chapter is expected to be useful to all stakeholders of the construction industry, policy makers, and researchers in the relevant field.
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Begum Sertyesilisik and Egemen Sertyesilisik
Sustainability performance of the global trade as well as of the traded products are affected by the trade policies and trade tariffs. Trade tariffs and policies can either…
Abstract
Sustainability performance of the global trade as well as of the traded products are affected by the trade policies and trade tariffs. Trade tariffs and policies can either encourage or discourage trade among the countries affecting feasibility of trade. In other words, the scope and amount of these trade tariffs have impact on the trade globally. Based on an in-depth literature review, this chapter aims to examine impacts of the trade policies and trade tariffs on the environmental footprint of the global trade. With this aim, recent trade policies and trade tariffs as well as roles of the trade policies, trade tariffs in reducing environmental footprint of the global trade are examined. It arrives at the conclusion that trade tariffs can affect environmental footprint of the global trade as well as of the traded products. They can have impact on the feasibility of the trading activities influencing their profit margins and costs. Based on these findings, recommendations for trade policies and trade tariffs are thereby provided to enhance sustainability performance of the global trade.
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Enhanced sustainability performance of the supply-side in all industries, especially of the construction industry (CI), is one of the main pillars of the post-carbon transition in…
Abstract
Enhanced sustainability performance of the supply-side in all industries, especially of the construction industry (CI), is one of the main pillars of the post-carbon transition in the globalization and post-globalization phases. Focusing specifically on the CI, this chapter emphasises the importance of the post-carbon transition and environmental justice as well as role of the local and global supply-side in the CI in achieving them. Based on an in-depth literature review, this chapter aims to investigate and examine ways of achieving post-carbon transition and environmental justice through enhanced sustainability performance and reduced environmental footprint of the supply-side in the globalization and post-globalization phases. This chapter emphasizes importance of integrated thinking of the post-carbon transition, environmental justice and bio-based industries. Specific focus of this chapter is on the bioeconomy and construction biotechnology as well as on their roles in the post-carbon transition. Post-carbon construction supply chain can support increase in welfare and in competitiveness of the companies in the CI locally and globally. Construction biotechnology and public biodiversity investments, which can have potential for contributing to the post-carbon transition and environmental justice, have been emphasized in this chapter. Furthermore, this chapter provides recommendations on strategies for achieving post-carbon transition and environmental justice in all industries, particularly in the CI, locally and globally. Managers and professionals in all industries, policy makers, academics, nature and future generations can get benefit from this chapter.
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Rafid Alkhaddar, Thomas Wooder, Begum Sertyesilisik and Ashley Tunstall
The purpose of this paper is to investigate how a deep learning approach can impact the construction industry.
Abstract
Purpose
The purpose of this paper is to investigate how a deep learning approach can impact the construction industry.
Design/methodology/approach
The objectives of this paper were to investigate: the awareness of people dealing with sustainability in their daily working environment; how much training and information construction industry workers have had in the topic of sustainability; and if a deep learning approach to sustainability teaching can make an impact on everyday practise in the industry. With these objectives, following a literature review, a questionnaire survey has been applied to 133 office and site‐based construction workers. In total, 50 office‐based workers and 50 site‐based workers participated.
Findings
The findings reveal that deep learning can be a possible opportunity and that the Government and the construction industry should explore it when training their staff. Although there are agencies which specifically deal with green issues, they are not widely embraced and workers currently just use them as a way to meet criteria and not to fully grasp the concept and incorporate it into their everyday practice. If deep learning can be embraced it can lead to a continuous improvement in green practice.
Originality/value
With the UK government recently setting new targets for sustainability, it is important that the construction industry takes actions to reduce its carbon footprint. The construction industry needs to improve its ability to train and teach its staff about the importance of green issues and environmentally‐friendly practices. This paper presents the results of research which may contribute to meeting the government targets and can be useful for practitioners and researchers.
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Marjan Sarshar, Begum Sertyesilisik and Paul Parry
In today's business world customers of all industry sectors are becoming more informed as to the level of choice and competition for their custom. This has led to the requirement…
Abstract
Purpose
In today's business world customers of all industry sectors are becoming more informed as to the level of choice and competition for their custom. This has led to the requirement for businesses to develop and maintain marketing strategies that will increase their competitiveness within their respective sector. Relationship marketing (RM) is a marketing theory, which has benefited businesses in many other sectors, though the concepts may be fairly new in the facilities management (FM) sector. This study is concerned with the review of the fundamental principles of RM, and its benefits for the FM sector. The purpose of this paper is to test whether the FM sector in the UK is aware of the RM theory, and is implementing this theory in its day‐to‐day practices. Research aims are to: investigate the level of understanding present in the FM industry with regards to RM; and to ascertain the benefits that could be available for the industry if an RM orientation is to be employed.
Design/methodology/approach
Following the literature review, a questionnaire is distributed to the members of the British Institute of Facilities Management in the North of England.
Findings
The survey identifies the FM industry's capability of using many RM strategies, however, the industry does not classify its customers at present, in order to deliver more targeted services.
Originality/value
The study reveals that the FM sector understands RM and that RM is a concept that the industry would benefit from.