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oapen-20.500.12657-579502023-02-01T09:01:48Z Water interactions Olsson, Gustaf Science Environmental Science Science Applied Sciences Technology & Engineering Mining bic Book Industry Communication::T Technology, engineering, agriculture::TQ Environmental science, engineering & technology bic Book Industry Communication::P Mathematics & science::PD Science: general issues::PDG Industrial applications of scientific research & technological innovation bic Book Industry Communication::T Technology, engineering, agriculture::TT Other technologies & applied sciences::TTU Mining technology & engineering During the last two decades, the interrelationship between water and energy has become recognized. Likewise, the couplings to food and agriculture are getting increasingly obvious and alarming. In the last year, a record number of extreme weather events have been reported from most parts of the world. This is a visible demonstration how consequences of climate change must be understood and alleviated. The impacts of economics, lifestyle, and alarming inequalities are becoming increasingly recognisable. If the wealthy part of the world is not willing not make radical changes it does not matter what the less wealthy half of the global population will do to meet the climate and resource crisis. The purpose of the book is to demonstrate and describe how climate change, water, energy, food, and lifestyle are closely depending on each other. It is not sufficient to handle one discipline isolated from the others. This is the traditional ìcomponent viewî. The book defines and describes a systems view. The communications and relationships between the ìcomponentsî have to be described and recognized. Consequently, the development of one discipline must be approached from a systems perspective. At the same time, the success of the systems perspective depends on the degree of knowledge of the individual parts or disciplines. The catchphrase of systems thinking has been caught in the phrase, ìThe whole is more than the sum of its partsî. The idea is not new: the origin of this phrase is to be found already in Aristotleís Metaphysics more than 2300 years ago. The text may serve as an academic text (in engineering, economics, and environmental science) to introduce senior undergraduate and graduate students into systems thinking. Too often education encourages a ìsiloî thinking. Current global challenges canít be solved in isolation; they depend on each other. For example, water professionals should have a basic understanding of energy issues. Energy professionals ought to understand the dependency on water. Economic students should learn more how economy depends on natural resources like energy and water. Economics must include the environmental impact and ecological ceiling of economic activities. 2022-08-18T05:30:53Z 2022-08-18T05:30:53Z 2022 book 9781789062892 https://library.oapen.org/handle/20.500.12657/57950 eng application/pdf n/a external_content.pdf IWA Publishing IWA Publishing https://doi.org/10.2166/9781789062908 https://doi.org/10.2166/9781789062908 dc3cfe72-8424-48e6-b8e0-fca2844ba38e b818ba9d-2dd9-4fd7-a364-7f305aef7ee9 9781789062892 Knowledge Unlatched (KU) IWA Publishing Knowledge Unlatched open access
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During the last two decades, the interrelationship between water and energy has become recognized. Likewise, the couplings to food and agriculture are getting increasingly obvious and alarming. In the last year, a record number of extreme weather events have been reported from most parts of the world. This is a visible demonstration how consequences of climate change must be understood and alleviated. The impacts of economics, lifestyle, and alarming inequalities are becoming increasingly recognisable. If the wealthy part of the world is not willing not make radical changes it does not matter what the less wealthy half of the global population will do to meet the climate and resource crisis. The purpose of the book is to demonstrate and describe how climate change, water, energy, food, and lifestyle are closely depending on each other. It is not sufficient to handle one discipline isolated from the others. This is the traditional ìcomponent viewî. The book defines and describes a systems view. The communications and relationships between the ìcomponentsî have to be described and recognized. Consequently, the development of one discipline must be approached from a systems perspective. At the same time, the success of the systems perspective depends on the degree of knowledge of the individual parts or disciplines. The catchphrase of systems thinking has been caught in the phrase, ìThe whole is more than the sum of its partsî. The idea is not new: the origin of this phrase is to be found already in Aristotleís Metaphysics more than 2300 years ago. The text may serve as an academic text (in engineering, economics, and environmental science) to introduce senior undergraduate and graduate students into systems thinking. Too often education encourages a ìsiloî thinking. Current global challenges canít be solved in isolation; they depend on each other. For example, water professionals should have a basic understanding of energy issues. Energy professionals ought to understand the dependency on water. Economic students should learn more how economy depends on natural resources like energy and water. Economics must include the environmental impact and ecological ceiling of economic activities.
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