World Food Day 2021

World Food Day is organized every year on October 16 to bring awareness to how our changing planet affects food production and distribution. In support of this year's theme "Our actions are our future- Better production, better nutrition, a better environment and a better life", Elsevier presents a collection of over 70 pieces of curated and freely available books and journal content.
 

Elsevier, Sustainable Cities and Society, Volume 75, December 2021
Efficient resource management and the development of resilient societies begins with an accurate identification of strengths and weaknesses of systems involved. Conducting a holistic performance analysis considering multiple assessment criteria permits the detection of discrepancies hindering systems productivity. In this study, an integrative assessment tool, based on the analytical hierarchy process (AHP) and the energy, water, and food (EWF) nexus is used to design a decision-making scheme that guides policymakers in establishing national priorities and sectorial strategies.
Elsevier, Sustainable Cities and Society, Volume 75, December 2021
This work established a framework to identify and analyze the technical feasibility of roofs for integrating urban agriculture, rainwater harvesting, and photovoltaic systems using various remote sensing. The framework was applied to a region north of Barcelona. Three levels of solar access requirements for tomatoes, leafy crops, strawberries, and microgreens were established. The case study included compact and disperse urban forms, residential and nonresidential building uses and various building typologies.
Elsevier, One Earth, Volume 4, 18 June 2021
After World War II, the evolution of Europe's agro-food system has been marked by intensified use of synthetic fertilizers, territorial specialization, and integration in global food and feed markets. This evolution led to increased nitrogen (N) losses to aquatic environments and the atmosphere, which, despite increasing environmental regulations, continues to harm ecosystems and human well-being.
Elsevier, One Earth, Volume 4, 21 May 2021
Food production on our planet is dominantly based on agricultural practices developed during stable Holocene climatic conditions. Although it is widely accepted that climate change perturbs these conditions, no systematic understanding exists on where and how the major risks for entering unprecedented conditions may occur. Here, we address this gap by introducing the concept of safe climatic space (SCS), which incorporates the decisive climatic factors of agricultural production: precipitation, temperature, and aridity.
Elsevier, Heliyon, Volume 7, May 2021
Over the years, chemical pre-treatments have been used intensively to maintain apple quality and reduce decay during postharvest. This conduct has been reported to have a negative impact on environment and human health. This study aimed to investigate alternative approaches such as hot water (HW) and electrolyzed water (WE) treatments for decay management of ‘Granny Smith’ apples. Two different sets of experiments were set up for this study.
Elsevier, One Earth, Volume 4, 19 March 2021
There exist no future projections of fishery conflict that consider wider societal trends. This paper builds four future fishery conflict scenarios by using a multimethod approach. The scenarios take place between 2030 and 2060 in the North-East Atlantic, the East China Sea, the coast of West Africa, and the Arctic and explore implications of ongoing trends in conflict-prone regions of the world. They function as accessible communication tools and aim to foster anticipatory governance capacity in the pursuit of future ocean security.
Elsevier, One Earth, Volume 4, 19 March 2021
The need to assess major infrastructure performance under a changing climate is widely recognized yet rarely practiced, particularly in rapidly growing African economies. Here, we consider high-stakes investments across the water, energy, and food sectors for two major river basins in a climate transition zone in Africa. We integrate detailed interpretation of observed and modeled climate-system behavior with hydrological modeling and decision-relevant performance metrics.
Elsevier, Sustainable Cities and Society, Volume 75, December 2021
This work established a framework to identify and analyze the technical feasibility of roofs for integrating urban agriculture, rainwater harvesting, and photovoltaic systems using various remote sensing. The framework was applied to a region north of Barcelona. Three levels of solar access requirements for tomatoes, leafy crops, strawberries, and microgreens were established. The case study included compact and disperse urban forms, residential and nonresidential building uses and various building typologies.

Pages