Abstract
The journey towards sustainability for the chemical and food industries requires sustainable production and consumption and also requires the social responsibility of organizations. Companies’ stakeholders ask themselves more and more about the social impacts of products and production processes. The chemical and food industries can be considered to be among the most important industries with strong impacts on society, and they bring about many social interactions. Both industries are interested in solving the questions of the impacts of their products on health, working conditions, production, and product safety, as well as the protection of human rights and cultural heritage. It is necessary to discuss conditions and limitations for effective assessment of social impacts along the whole product’s life cycle. The assessment of chemical and food products’ impacts requires identification of the industry specifics and the regional specifics; traditionally, the chemical industry is perceived as an indispensable and helpful, but on the other hand, a dangerous, hazardous and environmentally harmful industry branch. The food industry can be considered to be essential and beneficial, but with a strong influence on landscape utilization, human health, and social welfare. Both industries have strong social interactions and are under the strict supervision of EU legislation authorities and stakeholders; therefore, it is necessary to discuss the scope of social impact assessment studies, the choice of suitable indicators, and data availability. This chapter characterizes the perceived importance of the social impacts of chemical and food products on stakeholders. There are determined sector-specific and national-specific social impacts of chemical and food production processes in the EU area. Also, the possibilities of monitoring and evaluation of appropriate Social Life Cycle Assessment (SLCA) indicators at the corporate level are disscused. On the basis of the data collected from semi-structured interviews with top managers from more than 35 chemical and food companies, it was possible to conclude that there is a considerable effort on the part of the companies not to underestimate the assessment of social impacts of their products. Both industries are influenced by many specifics, but a lack of information support for the collection of data or selection of indicators is evident. The absence of branch data and absence of information about the social impacts of the origins of the basic raw materials complicate monitoring in the initial stages and in the final life cycle stages of chemical substances. The assessment of food products can be considered to be significantly simpler than the assessment of chemical products, but the absence of branch-specific data and availability of branch-oriented indicators complicate the assessment. Future effective assessment of social impacts requires closer understanding of the life cycles of chemical and food products—especially with chemicals. It is necessary to carry out further theoretical developments in the field of branch-specific indicators and the development of an information basis for the collection and processing of generic (hotspot) data. It is also necessary to encourage further improvement of an information basis on the corporate level.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
BASF (2013). Quantifying sustainability. Retrieved July 26, 2014, from http://www.agro.basf.com/agr/AP-Internet/en/function/conversions:/publish/upload/sustainability/BASF_Eco-Efficiency_Services.pdf.
Benjamin, S. (2014). The Green and sustainable chemistry market: A major growth sector. Retrieved April 30, 2014, from http://ecochemex.com/the-green-and-sustainable-chemistry-market-a-major-growth-sector.
Benoit-Norris, C., & Mazijn, B. (2009). Guidelines for social life cycle assessment of products, In Life cycle initiative, UNEP-SETAC. Retrieved October 16, 2013, from http://www.unep.fr/shared/publications/pdf/DTIx1164xPA-guidelines_sLCA.pdf.
Benoît-Norris, C. (2009). Development of a screening tool for social LCA: The social hot spots database part 1. Paper presented at the Life Cycle Assessment IX ‘toward the global life cycle economy’, ACLCA, Boston. September 29–October 2, 2009.
Benoît-Norris, C., Cavan, D. A., & Norris, G. (2012). Identifying social impacts in product supply chains: Overview and application of the social hotspot database. Sustainability, 4(9), 1946–1965.
Benoît-Norris, C., et al. (2013). The methodological sheets for subcategories in Social Life Cycle Assessment (SLCA). In Life cycle initiative, UNEP-SETAC. Retrieved May 2, 2014, from http://www.lifecycleinitiative.org/wp-content/uploads/2013/11/SLCA_methodological_sheets_11.11.13.pdf.
Benoit-Norris, C. (2014). Data for social LCA. International Journal of LCA, 19(2), 261–265.
Burgess, A. A., & Brennan, D. J. (2001). Application of life cycle assessment to chemical processes. Chemical Engineering Science, 56, 2589–2604.
Capello, C., Wernet, G., Sutter, J., Hellweg, S., & Hungerbühler, K. (2009). A comprehensive environmental assessment of petrochemical solvent production. International Journal of LCA, 14(5), 467–479.
CEFIC—The European Chemical Council. (2012). The European chemical industry in worldwide perspective. Facts and Figures 2012. In CEFIC, Brussels. Retrieved June 13, 2014, from http://www.cefic.org/Documents/FactsAndFigures/2012/Facts-and-Figures-2012-The-Brochure.pdf.
CEFIC—The European Chemical Council. (2012). Sustainability of products: What it’s all about. In CEFIC, Brussels. Retrieved July 23, 2014, from http://www.cefic.org/Documents/IndustrySupport/RC%20tools%20for%20SMEs/Document%20Tool%20Box/Sutainability_of_products_What_its_all_about.pdf.
CEFIC—The European Chemical Council. (2012). The European chemical industry’s priorities in industrial policy. In CEFIC, Brussels. Retrieved June 11, 2014, from http://www.cefic.org/Documents/PolicyCentre/Industrial%20Policy/European%20Chemical%20Industry’s%20Priorities%20in%20Industrial%20Policy.pdf.
CEFIC—The European Chemical Council. (2014). About the European chemical industry. In CEFIC, Brussels. Retrieved June 30, 2014, from http://www.cefic.org/About-us/European-Industry.
Couture, J., Parent, J., Lafontaine, M., & Revéret, J. (2012). Lessons learned from integrated environmental and socioeconomic life cycle assessments. Paper presented at the 8th international conference on life cycle assessment in the Agri-Food sector, Saint-Malo, France, 1–4 Oct. 2012.
European Chemical Agency. (2014). Registered substances. In ECHA, information on chemicals, registered substances. Retrieved June 21, 2014, from http://echa.europa.eu/information-on-chemicals/registered-substances.
European Climate Foundation. (2014). Europe’s low-carbon transition: Understanding the challenges and opportunities for the chemical sector. In European climate foundation, Brussels. Retrieved July 2, 2014, from http://europeanclimate.org/wp-content/uploads/2014/03/ECF-Europes-low-carbon-Transition-web1.pdf.
European Commission. (2007). A new animal health strategy for the European Union (2007–2013) where “Prevention is better than cure”. In EU animal health and welfare strategy 2012–2016, Luxembourg. Retrieved May 10, 2014, from http://ec.europa.eu/food/animal/diseases/strategy/docs/animal_health_strategy_en.pdf.
European Commission. (2013). Industrial relations in Europe 2012. In European Commission employment, social affairs and inclusion, Brussels. Retrieved May 25, 2014, from http://ec.europa.eu/social/keyDocuments.jsp?type=0&policyArea=0&subCategory=0&country=0&year=0&advSearchKey=IRIE&mode=advancedSubmit&langId=en.
European Commission. (2014). Eurostat. In European Commission, Eurostat, about Eurostat, introduction, Brussels. Retrieved June 16, 2014, from http://epp.eurostat.ec.europa.eu/portal/page/portal/about_eurostat/introduction.
European Food Safety Authority. (2012). Science strategy 2012–2016. In Corporate publications EFSA science strategy 2012–2016, Parma, Italy. Retrieved May 5, 2014, from http://www.efsa.europa.eu/en/corporate/doc/sciencestrategy12.pdf.
European Union Legislation. (2014). Regulatory framework for the management of chemicals (REACH), European chemicals agency. In Summaries of EU legislation, Brussels. Retrieved June 22, 2014, from http://europa.eu/legislation_summaries/internal_market/single_market_for_goods/chemical_products/l21282_en.htm.
Fleischer, M. (2003). Regulation and innovation in the chemical industry: A comparison of the EU, Japan and the USA. Surface Coatings International Part B–C, 86(1), 21–29.
Haurnick, P. (2010). The Future of the European chemical industry. In KPMG international. Retrieved June 24, 2014, from http://www.kpmg.com/Global/en/IssuesAndInsights/ArticlesPublications/Lists/Expired/The-Future-of-the-European-Chemical-Industry.pdf.
Jørgensen, A., Le Bocq, A., Nazarkina, L., & Hauschild, M. (2008). Methodologies for social life cycle assessment. International Journal of LCA, 13(2), 96–103.
Mendivil, R., Fischer, U., Hirao, M., & Hungerbuhler, K. (2006). A new methodology of Technology Evolution (TELCA) and its application to the production of ammonia (1950–2000). International Journal of LCA, 11(2), 98–105.
Ministry of Agriculture. (2011). Food processing industry in the Czech Republic. In Business—Czech companies. Retrieved May 2, 2014, from http://www.czech.cz/en/Business/Czech-companies/Food-processing-Industry-in-the-Czech-Republic.
Ministry of Industry and Trade of the Czech Republic. (2011). Czech chemical industry. In Business—Czech companies. Retrieved May 2, 2014, from http://www.czech.cz/en/Business/Czech-companies/Czech-Chemical-Industry.
Muthu, S. (Ed.). (2014). Assessment of carbon footprint in different industrial sectors (Vol. 1). New York: Springer.
Smith, J., & Barling, D. (2014). Social impacts and life cycle assessment: Proposals for methodological development for SMEs in the European food and drink sector. International Journal of LCA, 19(4), 944–949.
Tritthart, W., et al. (2010). LoRe-LCA low resource consumption buildings and constructions by use of LCA in design and decision making. In State of the art report—Use of life cycle assessment methods and tools (Final Report). Retrieved June 2, 2014, from http://www.sintef.no/project/LoRe-LCA/Deliverables/LoRE-LCA-WP2-D2.1-IFZ%20report.pdf.
Wernet, G., Conradt, S., Isenring, H. P., Jimenez-Gonzalez, C., & Hungerbuhler, K. (2010). Life cycle assessment of fine chemical production: a case study of pharmaceutical synthesis. International Journal of LCA, 15(3), 294–303.
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2015 Springer Science+Business Media Singapore
About this chapter
Cite this chapter
Vavra, J., Munzarova, S., Bednarikova, M. (2015). Assessment of Social Impacts of Chemical and Food Products in the Czech Republic. In: Muthu, S. (eds) Social Life Cycle Assessment. Environmental Footprints and Eco-design of Products and Processes. Springer, Singapore. https://doi.org/10.1007/978-981-287-296-8_5
Download citation
DOI: https://doi.org/10.1007/978-981-287-296-8_5
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-287-295-1
Online ISBN: 978-981-287-296-8
eBook Packages: Earth and Environmental ScienceEarth and Environmental Science (R0)