Recent discussions on the green economy in Tunisia happened at an opportune moment. The country currently faces increasing unemployment as well as increasing social and spatial inequalities and energy and environmental challenges; these are all matters of growing concern. It is therefore clear that Tunisia needs a new development model.
In this context, ECA’s report on Inclusive green economy and structural transformation in Tunisia explores the links and contribution of inclusive green economy policies to structural transformation in Tunisia. Taking into account the historical, cultural and political backdrop of the country, the report highlights the challenges faced by Tunisia in developing its green economy, in structural transformation and in sustainable development. The report also identifies opportunities and makes recommendations. This report is only available in French.
Nowadays, sustainable development has been introduced and integrated into production and operation management field through the concept of the green supply chain. Green regulations and principles have gained the interest of managers and practitioners in selecting innovative practices for suppliers and organisations. Accordingly, the present study aims to evaluate the relationship between a green supplier, green innovation, environmental performance, and competitive advantage in the cement industry, which is an important industry for Iran. This study is descriptive in nature and conducted based on correlation and structural equation modelling. Managers and experts of cement companies in Fars Province are selected as samples for the study. A questionnaire and Smart-PLS software were used as research tools. The results of data analysis show that there is a positive and significant relationship between a green supplier, green innovations and environmental performance of an organisation, while there is a negative yet significant relationship between a green supplier, green innovations and environmental performance of an organisation.

This report is an exploration of the role of international trade in increasing resource efficiency, reducing environmental impact and promoting equitable and inclusive growth. The value of international trade has increased over six-fold and its volume more than doubled between 1980 and 2010. This report examines upstream resource requirements - the materials, energy, land and water used in the country of origin for producing traded goods, but left behind as wastes and emissions. It focuses more on environmental efficiency than on economic efficiency, and explains how trade could be resource efficient by allowing commodities to be obtained from countries/locations where their production requires fewer resources and generates fewer environmental impacts than in others. However, as the publication underlines, higher trade levels, declining ore grades and decreasing energy returns upon energy investment, higher food demand and diminishing land productivity further increase the upstream resource requirements of trade, which could negate the benefits of a potentially more resource efficient allocation of extraction and production activities via world trade.
In the debate on climate change, methods of producing products and energy are of paramount importance. While the product or the form of energy resulting may be the same, diverging production processes and methods of production may have a critical impact on climate change mitigation, and environmental and human concerns in general. Some may be detrimental, some may be beneficial. They vary from each other, notwithstanding that the final products cannot be distinguished from each other. This paper explores the extent to which renewable energy and non-renewable energy, in particular based on fossil fuels, may be regulated, labelled, or taxed differently, or whether the likeness of the product prohibits doing so in international trade law relating to production and process methods (PPMs). In doing so, the paper mainly focuses on the production of electricity from fossil fuels (coal, oil, and gas), atomic energy, and renewable energy (hydropower, thermal power, wind, solar and tidal energy, and biomass).