Abstract
Small scale urban green-blue infrastructure (indicated as GBI hereafter) comprises huge underexploited areas for urban development and planning. This review article aims to highlight the relevance and knowledge gaps regarding GBI from the perspective of the food–energy–water (FEW) nexus, these being key resources for the survival of human communities. In particular, this review was focused on publications on urban ecosystem services (positive effects) and dis-services (negative effects) associated with different GBI typologies. The review proved that GBI can contribute environmentally, socially, and economically to FEW security and urban sustainability. Yet, such positive effects must be considered against ecosystem dis-services tradeoffs, including urban food production, commonly connected with heavy water and energy consumption, specifically under dry climate conditions, and sometimes related to an excessive use of manure, pesticides, or fertilizers. These conditions could pose either a risk to water quality and local insect survival or serve enhanced mosquito breeding because of irrigation. Up to now, the review evidenced that few nexus modeling techniques have been discussed in terms of their benefits, drawbacks, and applications. Guidance is provided on the choice of an adequate modeling approach. Water, energy, and food are intrinsically associated physically. However, depending on their management, their tradeoffs are often increased. There is a need to minimize these tradeoffs and to build up synergies between food, energy, and water using a holistic approach. This is why the FEW nexus approach offers good insights to address the relation between three important individual resource components of sustainability.
Highlights
Urban population growth, which is expected to reach 68% of the global population by 2050 [1], is impacting on the demand and use of available resources
The cooling efficiency of root variants was low and the drop in functional heat load of model buildings ascribed to the green roof system was lower than 5% of latent heat of water lost to evaporation
We describe the most important city green and blue infrastructure (GBI) types and the associated FEW topics that are found in a systematic literature review
Summary
Urban population growth, which is expected to reach 68% of the global population by 2050 [1], is impacting on the demand and use of available resources. Land areas covered by cities are expected to increase up to 1.3 million km between 2015 to 2050 [2] Such trends will influence the demand for food, energy, and water [3]. Biodiversity loss will increase, together with the fragmentation of habitats and their associated ecosystem functionality, generating further adverse impacts [4]. This is why a transition towards a sustainable lifestyle is necessary and should be accelerated to decrease the consumption of resources and to minimize the existing environmental impacts. Such dynamics are influenced by urban infrastructures. Their role is less considered, with the attention often focused on resource flows as separate from their context
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