Nature-Based Water Harvesting Systems for Climate-Resilient Buildings: A Scoping Literature Review

Water, a precious but limited resource since prehistoric times, has driven humans to develop systems for collecting and storing it. Evidence dating back to third millennium BC documents shows such systems among the Sumerians in the Fertile Crescent, as well as in Asia, Africa, China, and India. Aqueducts and cisterns, along with impluvium–compluvium systems, allowed the Romans to meet private and public needs; in Venice, wells provided filtered water until 1884. Today, climate change and increasing soil sealing urgently demand intelligent water collection and management, aligned with five of the 2030 Agenda Sustainable Development Goals (6, 11, 12, 13, 15). Buildings and construction account for about 35% of the global freshwater consumption. The construction sector, historically involved in the development of innovative rainwater harvesting and reuse systems, now faces a growing challenge in exploring innovative nature-based solutions for climate-resilient buildings (e.g., fog harvesting, green roofs for rainwater storage). Based on these considerations, we propose a scoping literature review of the last 15 years on innovative rainwater harvesting and storage systems. The analysis aims to provide a comparative mapping of the technological solutions that have emerged, to identify the geographical areas and climatic conditions favourable to each system, and to serve as a knowledge base for the development of integrated construction systems suitable for each specific context. A total of 136 peer-reviewed Open Access articles indexed in Scopus (2010–2024) were analysed following the PRISMA-ScR guidelines.