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Agricultural production within controlled environments, such as rose cultivation, has traditionally followed the principles of a linear economy focused on maximizing crop yields through increased evapotranspiration. This approach significantly elevates water consumption throughout the year, leading to water scarcity and pollution in various regions. In this context, this study aims to assess the expansion of areas designated for production and the volume of rainwater captured by the roofs of floral greenhouses. The study was conducted in the Pisque River basin in Ecuador from 2016 to 2023. Using remote sensing techniques, the increase in greenhouse areas was quantified, water capture was measured in two types of greenhouses through rainfall simulations, and water requirements were calculated using the Penman-Monteith method. Results indicate a 70% increase in flower production, particularly in the upper and middle basin communities, with a notable rise following the COVID-19 pandemic. A total of 5,473.54 hectares of greenhouses were identified, which can capture rainwater with 93% efficiency, thereby meeting 35% of the annual water needs for crop irrigation. The study concludes that capturing, storing, and utilizing rainwater in rose production is viable and facilitates the transition from a linear to a circular economy.
Agricultural production within controlled environments, such as rose cultivation, has traditionally followed the principles of a linear economy focused on maximizing crop yields through increased evapotranspiration. This approach significantly elevates water consumption throughout the year, leading to water scarcity and pollution in various regions. In this context, this study aims to assess the expansion of areas designated for production and the volume of rainwater captured by the roofs of floral greenhouses. The study was conducted in the Pisque River basin in Ecuador from 2016 to 2023. Using remote sensing techniques, the increase in greenhouse areas was quantified, water capture was measured in two types of greenhouses through rainfall simulations, and water requirements were calculated using the Penman-Monteith method. Results indicate a 70% increase in flower production, particularly in the upper and middle basin communities, with a notable rise following the COVID-19 pandemic. A total of 5,473.54 hectares of greenhouses were identified, which can capture rainwater with 93% efficiency, thereby meeting 35% of the annual water needs for crop irrigation. The study concludes that capturing, storing, and utilizing rainwater in rose production is viable and facilitates the transition from a linear to a circular economy.
The article provides an analytical review of the achieved crop yields under irrigation in experimental and production conditions. For today, the best production experience in the use of irrigated land indicates that, subject to all agrotechnical requirements, the yield of early grain crops reaches 8-10 t / ha, corn - 10-14 t / ha, oilseeds - 4-6 t / ha, vegetable crops - over 60 t / ha, which is about 90% of their productivity achieved in the experiments of scientific institutions. The comparative assessment of grain production in different climatic zones of Ukraine for the period of the most intense climatic change shows that over the past thirty years, the share of grain production in the Steppe zone has decreased from 45 to 35% of the total in Ukraine. The analysis of service cost for the transportation of water for irrigation in the southern regions of Ukraine is given. It was revealed that, despite a unified standard method for calculating the cost of water transportation, its price varies significantly by operational units of the State Agency for Water Resources of Ukraine. The main factors of fluctuations in the cost and fees for the transportation services of water for irrigation are the budgetary funding level of operating organizations, providing these services, the number of water transfers, the volume of actual irrigation on irrigated lands, the share of irrigated areas in the service area. The economic assessment of irrigation efficiency when having different water and other technological costs, taking into account the depreciation of capital investments, indicates that having a water price of 4,0-5,0 UAH/m3, the gross profit from growing the most profitable field crops is 35-40 % higher than the efficiency in rainfed agriculture. At the cost of water is 3,0-3,5 UAH/m3 and the use of the production capacity of the inter-farm irrigation network by 60-70%, financial prerequisites will be created for the effective operation of these networks.
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