Wednesday, December 11, 2019

Sustainability for Rapid Industrialization and Gloablization

Question: Discuss about theSustainability for Rapid Industrialization and Globalization. Answer: Introduction Systems thinking can be defined as an approach to integration that works on the basis of belief that the performance of the component parts of system will significantly differ when they will be separated from the other parts of the system or systems environment (Gharajedaghi, 2011). Systems are viewed in a holistic manner by systems thinking. Set of separate parts that are interrelated with each other for working towards the achievement of common goal is known as system. This essay favors the argument that system thinking is critical in developing solution for sustainability challenges. In this essay, the applicability of systems thinking is discussed in dealing with the problem of household food waste. The problem of household food waste is being faced by both developed and developing countries and is increasing at a rapid pace. Since there is no specific solution to the problem of household food waste, it is considered a wicked problem. Wicked or complex problem situations can be e ffectively addressed with the help of systems thinking. Systems thinking is critical in developing solutions to sustainability challenges The solutions to sustainability challenges can be effectively developed with the help of systems thinking. This is due to the fact that this approach provides a macroscopic view to things (Boardman Sauser, 2008). However, the traditional thinking approach and systems thinking approach are different from each other. The focus of traditional analysis approach is on the subject matter of study. On the other hand, the focus of systems thinking approach is on the inter-relationship between the various constituents of system. With the rapid industrialization and gloablization, several complexities will be faced in the upcoming years. Such comlex problems will be effectively dealt with the help of systems thinking. An essential application of this approach is system test which has three important Parts namely purpose, elements and functions (Xu, L., Marinova Guo, 2015). System thinking focus on the manner in which the constituents of the system interact with one another. Complex problems experienced by the society can be solved due to the nature of system thinking (Arnold Wade, 2015). Sustainability challenges are also known as adaptive challenges due to the fact that procedures and proticols that have already established cannot be applied to such suituations. Moreover, there is no cohesive approach or procedure for dealing with most wicked challeges of sustainability (Hester Adams, 2014). The Problem of Household Food Waste The problem of household food waste is a wicked problem. The data suggests that there is total wastage of 4 million tonnes of food every year in Australia. Out of this, business food wastage is equivalent to 1.38 million tonnes and household food wastage is 2.6 million tonnes. Every year 4 million tonnes of household food is sent by the Australians to landfill. It is $8 billion worth of leftovers, fresh food, long- life and packaged products, takeaways and frozen food. Average household bin consists of food up to 40%. Taking into consideration an average Australian household, it means food of worth $1000 is thrown away each year. Such food is sufficient for feeding an average household for entire month. Moreover, 20% of the food purchased by Australians is discarded. It is equal to 1 bag out of every 5 bags of groceries (Food Wise, 2012). The environment is severely impacted by food wastage. When there is decay of food in the landfill without air, a greenhouse gas called methane is given off which is 25 times more carbon dioxide that emanates out of the exhaust of a car. An estimated 20- 40% of the vegetables and fruits are disallowed before reaching the shop shelves due to the reason of their inability to meet the high cosmetic standards required by the customers and supermarkets (Food Wise, 2012). Food wastage can be classified into three categories: preventable food wastage (food that can be consumed), possibly preventable food wastage (food that can be consumed but is generally not consumed such as pumpkin skin) and unavoidable food wastage (food products that cannot be consumed). Households in Australia throw out sufficient food each year to fill more than 450,000 garbage trucks. The production of food is done by making the use of approximately one- third of the agricultural land of the world that is subsequently not eaten. Resources such as fuel, water and fertilizers utilized for the purpose of growing that food are also therefore wasted. The volume of food wastage needs to be significantly decreased for the purpose of sustaining the limited resources of the world and for securing sufficient food to all humans. The reasons provided by consumers for food wastage include buying in greater quantities, purchasing wrong thing, large packages, broken/ bad package, passing of best before date, etc. Food wastage also occurs due to preparing food in large quantities, preparation of food that do not taste well, non- possibility to save the leftovers, etc. John Frydenberg, the Minister of Environment and Energy, stated that the social, economic and environmental impact of wastage of food means that every single Australian is involved in it. The reduction of food waste can be effectively facilitated by packaging. In other words, packaging and its functions play an important part in the food wastage. (Williams, Wikstrom, Otterbring, Lofgren Gustafsson, 2012) Application of Systems Thinking for Dealing with the Problem of Household Food Waste Various ways can be provided by System thinking for the purpose of dealing with the complexities of household food wastage problem. The adoption of system approach has an outstanding history of 50 years. A broader perspective is provided to various problems by systems approach for the purpose of finding out the interconnection among various levels (Higgins, 2014). The significance of conditions and circumstances is considered by a system approach along with the effect of such circumstances on at the time of implementation phase. A big impact can be resulted in one element due to small change in another while dealing with the wicked problems under systems approach (Pandey Kumar, 2016). The reduction of food loss and food wastage has gained enough important with its social, economic and environmental impacts becoming more clear. Food waste prevention approaches are often based on breaking down the system into its component parts and making attempts for addressing them individually (also known as reductionist approaches). A change is necessary at multiple levels by way of re- thinking the food system by making the use of a systems approach and a resource valuation perspective. Australia should make the household food waste problem as its national agenda. Adoption of systems thinking will require considering the short term and long term view of household food wastage. It will facilitate valuing of resources, specifically food. It will also require changing of mindset for sustainable behavior by considering environmental impact, social impact and resource efficiency i.e. planet, people and profit. Systems thinking further stresses on the need for conserving the resources to some extent. This in turn allows valuing the food along with the resources utilized for the purpose of producing the food. Also, it will help in utilizing the resources in an efficient and sustainable manner while keeping the focus on minimization of waste. The systems approach required the redesigning of the entire food system for achieving the ideal state. In other words, systems approach provides the idealized design in which resources are valued for achieving sustainable performance. This in turn recognizes the requirement for feeding billions of people by the year 2050 along with identifying that more strain is put on the resources across the globe due to increased income. The redesigning as a result of systems thinking significantly helps in minimizing waste and efficiently capturing and redirecting excess food. The systems approach will assist in creating awareness and education by way of changing the mindsets of consumers, individuals and government (Allen Prosperi, 2016). The raised awareness level will help in overcoming the discomfort caused as the communication related to food waste statistics will powerfully connect the audiences to environmental harm, hunger and wasted resources. Therefore, the systems approach will facilitate behavior change depending upon the awareness fueling desire for progressive action. Household food wastage is further minimized with the help of educating the customers. Such education will also help in recovering or distributing excess food from the households (The University of Vermont, 2014). Such education should be started early in schools which should explain the environmental issues associated with household food wastage, value of food products, etc. New programs should be initiated on food security and challenges associated with population. The mindset change facilitated by the systems approach should change the mindset of culture of abundance as it cannot be afforded by the society. A new compact is required between the food industry and the consumers. Operations should be changed for the purpose of donating or freezing the excess food for later or distribution to the needy. The liability fears should be overcome and steps should be taken for achieving food recovery. The systems approach also includes incentives for increasing the cost of food to landfill. Systematic thinking has been adopted in Australia which has significantly assisted in the sustainable management of food and reduction of waste. This has saved the money of consumers and has created a bridge in the communities for those who do not have sufficient to eat along with conserving resources for the future generations. It provides planning, storage, preparation and thriftiness tips for reducing household food wastage. It promotes the donation of untouched food to food banks which will help the needy people. Value creation is aimed from the food wastage along with the effective tracking of waste reduction (Department of Environment and Energy, 2017). Conclusion Therefore, it can be concluded that systems thinks plays an important role in dealing with the sustainability challenges (Sanneh, 2018). Australia suffered from the severe problem of household food waste which turn also leads to the wastage of resources such as fuel, water and fertilizers utilized for the purpose of growing that food. The adoption of systems thinking in Australia has led to sustainable management of food and reduction of waste by way of providing planning, storage, preparation and thriftiness tips for reducing household food wastage. References Allen, T. and Prosperi, P., 2016. Modeling sustainable food systems.Environmental management,57(5), pp.956-975. Arnold, R.D. and Wade, J.P., 2015. A definition of systems thinking: a systems approach.Procedia Computer Science,44, pp.669-678. Boardman, J. and Sauser, B. 2008. Systems Thinking: Coping with 21st Century Problems. CRC Press. Department of Environment and Energy. 2017. Working together to reduce food waste in Australia, [Online]. Available at: https://www.environment.gov.au/protection/national-waste-policy/publications/food-waste-factsheet [Accessed on: 9 April 2018]. Food Wise. 2012. Food Donation Tool Kit, [Online]. Available at: https://www.foodwise.com.au/wp-content/uploads/2012/09/DoSomething-Food-Donation-Toolkit.pdf [Accessed on: 9 April 2018]. Gharajedaghi, J. 2011. Systems Thinking: Managing Chaos and Complexity: A Platform for Designing Business Architecture. Elsevier. Hester, P. T. and Adams, K. M. 2014. Systemic Thinking: Fundamentals for Understanding Problems and Messes. Springer. Higgins, K. L. 2014. Economic Growth and Sustainability: Systems Thinking for a Complex World. Academic Press. Mella, P. 2012. Systems Thinking: Intelligence in Action. Springer Science Business Media. Pandey, A. and Kumar, A. 2016. System Thinking Approach to Deal with Sustainability Challenges, [Online]. Available at: https://socrd.org/wp-content/uploads/2016/08/17BKK125-System-Thinking-Approach-to-Deal-with-Sustainability-Challenges.pdf [Accessed on: 9 April 2018]. Sanneh, E. S. 2018. Systems Thinking for Sustainable Development: Climate Change and the Environment. Springer. The University of Vermont. 2014. Introduction to Food Systems, [Online]. Available at: https://www.uvm.edu/vtvegandberry/Intro_Food_Systems.pdf [Accessed on: 9 April 2018]. Williams, H., Wikstrom, F., Otterbring, T., Lofgren, M. and Gustafsson, A., 2012. Reasons for household food waste with special attention to packaging.Journal of Cleaner Production,24, pp.141-148. Xu, L., Marinova, D. and Guo, X., 2015. Resilience thinking: a renewed system approach for sustainability science.Sustainability Science,10(1), pp.123-138.

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