Sustainable consumption and production

Sustainable consumption and production (SCP) is at the core of the United Nations Sustainable Development Goals (SDGs), specifically addressed by SDG 12. This goal aims to "ensure sustainable consumption and production patterns," acting as a cross-cutting theme that feeds into other SDGs such as those related to climate change, poverty, health, and sustainable cities.

SCP involves using services and products in a way that minimizes environmental damage, preserves natural resources, and promotes social equity. The purpose is to decouple economic growth from environmental degradation, which means pursuing economic development in a way that can be sustained by the planet over the long term. SCP requires changes at all levels of society, from individuals to businesses to governments.

At the individual level, SCP implies making lifestyle choices that reduce environmental impact. This might include reducing, reusing, and recycling waste, choosing products with less packaging, and opting for more sustainable forms of transport like cycling or public transport.

For businesses, SCP entails adopting sustainable business models and practices. This could include improving resource efficiency, investing in renewable energy, designing products that are durable and recyclable, and ensuring fair labor practices.

At the government level, SCP involves implementing policies that support sustainable business practices and incentivize sustainable consumer behavior. This might involve regulations to reduce pollution, subsidies for renewable energy, and campaigns to raise awareness about sustainable consumption.

SCP also plays a role in several other SDGs. For example, sustainable production practices can help mitigate climate change (SDG 13) by reducing greenhouse gas emissions. Additionally, by reducing the pressure on natural resources, SCP supports the goals related to life below water (SDG 14) and life on land (SDG 15).

While progress has been made in certain areas, challenges remain in achieving the shift towards SCP. These include existing patterns of overconsumption, limited awareness about the impacts of consumption, and the need for technological innovation to enable more sustainable production.

Elsevier, Sustainable Materials and Technologies, Volume 9, 1 September 2016
Low-cost by-products from agricultural, household and industrial sectors have been recognized as a sustainable solution for wastewater treatment. They allow achieving the removal of pollutants from wastewater and at same time to contribute to the waste minimization, recovery and reuse. Despite numerous reviews have been published in the last few years, a direct comparison of data obtained using different sorbents is difficult nowadays because of inconsistencies in the data presentation.
Elsevier, Sustainable Materials and Technologies, Volume 9, 1 September 2016
Granite Powder (GP) and Iron Powder (IP) are industrial byproducts generated from the granite polishing and milling industry in powder form respectively. These byproducts are left largely unused and are hazardous materials to human health because they are airborne and can be easily inhaled. An experimental investigation has been carried out to explore the possibility of using the granite powder and iron powder as a partial replacement of sand in concrete. Twenty cubes and ten beams of concrete with GP and twenty cubes and ten beams of concrete with IP were prepared and tested.
Most scholars would agree that the goal of business is to create value. Yet, can there be anything more valuable than peace? This article tackles the following research question: How can, or do, businesses advance peace? It explains why peace through commerce is a topic worthy of study and sets out an empirical approach to operationalize it. The implementation of that approach remains in the future, but in this article, I seek to examine the contours of a possible approach.
The state of nature report has revealed that more than half of UK wildlife species studied have declined since 1970. This decline has been linked to intensive farming practices although farm leaders have disputed the findings. Understanding these issues and the role of agriculture will contribute to the advancement of SDG 15.5 to take urgent and significant action to reduce the degradation of natural habitats, halt the loss of biodiversity and, by 2020, protect and prevent the extinction of threatened species.
An autonomous harvester starts to cut robot-grown barley
The groundbreaking Hands Free Hectare project has just seen its first harvest. This £200,000 Innovation UK-funded project by Harper Adams University with Precision Decisions has modified existing machinery to drill, sow, spray and harvest the crop without any human control. The project aims to show how automation can facilitate a sustainable farming system where multiple smaller, lighter machines will enter the field, minimising the level of compaction (SDG 15, life on land and SDG 9, industry, innovation and infrastructure).
Among the tools used to measure sustainability in aquaculture, sets of indicators allow a holistic view of a system in its social, environmental, and economic dimensions. Approaches that align indicators with models such as the Drivers-Pressure-State-Impact-Response (DPSIR) framework can improve understanding of this sustainability. This study evaluated the sustainability of cage production systems for Nile tilapia in the Santa Cruz Reservoir, to determine whether a set of indicators used with the DPSIR conceptual model was effective to study the sustainability of the system.
ICIS,

Special Report, 3 July 2016

Covestro has produced bio-based PU dispersions for textile applications
Growing demands from brand owners and consumers for fibres and textiles that are more environmentally friendly are now creating a huge market for bio-based polymers produced using renewable feedstocks. The textile and packaging industries have a significant impact on the environment: this report highlights how recent developments in new materials support SDG 9 Industry, Innovation and Infrastructure, and SDG 7 Affordable and Clean Energy.
Elsevier,

McCreath and Delgoda, Pharmacognosy: Fundamentals, Applications and Strategies, 2016, Pages 677 - 685

This book chapter addresses goals 3, 8, and 12 by suggesting that biosciences could form the basis of a strategy for focusing limited resources in ways that are likely to support economic development

Transportation geotechnics associated with constructing and maintaining properly functioning transportation infrastructure is a very resource intensive activity. Large amounts of materials and natural resources are required, consuming proportionately large amounts of energy and fuel. Thus, the implementation of the principles of sustainability is important to reduce energy consumption, carbon footprint, greenhouse gas emissions, and to increase material reuse/recycling, for example.

Energy geotechnics involves the use of geotechnical principles to understand and engineer the coupled thermo-hydro-chemo-mechanical processes encountered in collecting, exchanging, storing, and protecting energy resources in the subsurface. In addition to research on these fundamental coupled processes and characterization of relevant material properties, applied research is being performed to develop analytical tools for the design and analysis of different geo-energy applications.

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