Santorini, Corfu, Chios, Thasos, And Fournoi Harness The Power Of Artificial Intelligence To Conquer Water Shortages Amidst Unprecedented Tourism Growth

Published on September 10, 2025

Facing a increasing h2o crisis, Greece’s iconic islands—Santorini, Corfu, Chios, Thasos, and Fournoi—are turning to cutting-edge artificial intelligence solutions to tackle nan escalating rumor of h2o scarcity. As nan tourism manufacture thrives, placing expanding demands connected section resources, AI exertion is being deployed to negociate and conserve h2o much effectively, ensuring sustainable entree for some residents and visitors, while safeguarding nan islands’ precious h2o supplies for early generations.

Drought, mediocre guidance of resources, and nan soaring request from millions of visitors person near galore of Greece’s astir visited destinations struggling to support capable h2o supplies. As Greece’s tourism assemblage continues to expand, nan rising demands of hotels, restaurants, swimming pools, play courses, and different cardinal services are placing important strain connected nan country’s already constricted h2o resources, raising urgent concerns astir h2o information for some residents and visitors alike.

Greece, a state known for its stunning landscapes and beautiful islands, experiences a immense influx of visitors each year. The number of visitors greatly surpasses nan section population, starring to a important summation successful h2o demand. Hotels, for instance, require important amounts of h2o for day-to-day operations, from bathing and cooking to cleaning and filling swimming pools. Similarly, celebrated tourer spots for illustration play courses, which usage ample quantities of h2o for irrigation, further exacerbate nan issue. As a result, Greece’s vulnerable h2o reserves, already depleted by years of droughts and mismanagement, are nether unprecedented pressure. This increasing imbalance betwixt proviso and request has triggered concerns complete nan country’s semipermanent h2o sustainability, which has go a cardinal situation successful managing nan tourism assemblage effectively.

In a bid to reside this pressing issue, a squad of researchers from Democritus University of Thrace and Aristotle University of Thessaloniki, successful collaboration pinch 5 starring tech companies, person pioneered an innovative instrumentality called WATERWISE. The strategy is designed to measure h2o availability, place deficits, and way tourer h2o depletion successful a much systematic and meticulous measurement than ever before. Until now, nan magnitude of h2o consumed by visitors has not been decently measured aliases integrated into readying and guidance processes. WATERWISE intends to capable this spread by offering a elaborate knowing of nan h2o business successful circumstantial regions, particularly during highest tourer seasons.

WATERWISE operates by gathering information connected cardinal biology elements, including rainfall, snowfall, evaporation, and h2o usage by humans. By combining these metrics pinch accusation astir tourer arrivals, nan level provides a clear and meticulous image of some existent and early h2o balances. The strategy utilizes artificial intelligence (AI) and big-data study to simulate different drought scenarios and their imaginable effect connected section h2o supplies. By factoring successful some semipermanent ambiance trends and contiguous tourer activity, WATERWISE tin forecast nan h2o business successful nan coming months aliases years, enabling section authorities and businesses to amended hole for imaginable h2o shortages.

One of nan cardinal reasons WATERWISE is truthful important is nan domiciled tourism plays successful this h2o demand. Greece’s tourism manufacture sees millions of visitors flock to its islands and mainland cities each year, often exceeding nan section organization by respective times. While nan state benefits from nan gross generated by these visitors, nan strain connected resources is becoming progressively difficult to manage. According to estimates, visitors devour important amounts of h2o for basal needs for illustration bathing, drinking, and washing, but besides for leisure activities specified arsenic poolside lounging and golf. As nan tourer play extends, particularly successful nan summertime months, nan already vulnerable h2o supplies go moreover much precarious, highlighting nan request for businesslike h2o guidance strategies.

Currently, nan WATERWISE strategy is being piloted successful a assortment of locations crossed Greece, including celebrated tourer destinations for illustration Santorini, Corfu, Chios, Thasos, and Fournoi, arsenic good arsenic 1 mainland area, Drama. Data is being gathered from questionnaires distributed successful section hotels and restaurants, which way h2o depletion by some locals and tourists. The information collected done this level is invaluable successful helping researchers and section authorities understand nan standard of nan problem and travel up pinch innovative solutions to negociate h2o usage successful these high-demand areas.

The insights generated by nan strategy will thief guideline early h2o guidance projects, specified arsenic nan building of rainwater harvesting systems, nan constitution of h2o reservoirs and retention tanks, and nan improvement of desalination units that tin supply freshwater from seawater. This proactive attack could mitigate nan effect of h2o shortages and create a much sustainable early for tourism successful Greece. Furthermore, WATERWISE besides intends to promote much responsible h2o usage by businesses and visitors alike, raising consciousness of nan captious domiciled that h2o plays successful nan country’s tourism industry.

In summation to nan improvement of WATERWISE, nan investigation squad has besides worked connected different valuable tool, HYDRA-GML, which addresses a different but arsenic important biology issue. HYDRA-GML is simply a integer level designed to pinpoint stream basins astir astatine consequence of flooding, landslides, and erosion. By combining rainfall information pinch humanities disaster records, nan strategy generates consequence maps that tin guideline civilian protection authorities successful readying evacuations, implementing safeguards, and minimizing nan harm caused by earthy disasters. This instrumentality besides contributes to nan broader effort to negociate Greece’s biology challenges, ensuring that some h2o resources and infrastructure are protected against utmost upwind events.

Both WATERWISE and HYDRA-GML were officially presented to nan nationalist for nan first clip astatine nan Thessaloniki International Fair successful September, wherever they garnered important attraction from authorities officials, environmentalists, and tech experts alike. These groundbreaking technologies are expected to play a important domiciled successful shaping nan early of sustainable tourism successful Greece, ensuring that h2o resources are cautiously managed, moreover arsenic nan request for them continues to grow.

Greece’s iconic islands—Santorini, Corfu, Chios, Thasos, and Fournoi—are leveraging precocious AI solutions to combat rising h2o scarcity, driven by expanding tourism. These innovative technologies purpose to negociate h2o resources much efficiently, ensuring sustainability for some locals and visitors.

The operation of technological research, cutting-edge technology, and innovative solutions specified arsenic WATERWISE and HYDRA-GML offers a promising outlook for Greece’s h2o security. By integrating these devices into nationalist and section policies, nan state tin return a much proactive attack to balancing nan needs of its booming tourism manufacture pinch nan preservation of its precious h2o resources. As Greece continues to tackle these analyzable challenges, nan occurrence of these initiatives could service arsenic a exemplary for different tourist-dependent countries grappling pinch akin water-related issues.