1,721,064 research outputs found
Water Measurement for Agricultural Irrigation and Drainage Systems
No full textCircular 1495, an 11-page illustrated publication by Brian Boman and Sanjay Shukla, gives equations and examples for measuring depth and volume of water, describes several devices and techniques for measuring flow. Published by the UF Department of Agricultural and Biological Engineering, October 2006.
Circular 1/CH153: Water Measurement for Agricultural Irrigation and Drainage Systems (ufl.edu
Water Measurement for Agricultural Irrigation and Drainage Systems
No full textCircular 1495, an 11-page illustrated publication by Brian Boman and Sanjay Shukla, gives equations and examples for measuring depth and volume of water, describes several devices and techniques for measuring flow. Published by the UF Department of Agricultural and Biological Engineering, October 2006.
Circular 1/CH153: Water Measurement for Agricultural Irrigation and Drainage Systems (ufl.edu
Groundwater Recharge from Agricultural Areas in the Flatwoods Region of South Florida
No full textABE-370, a 7-page illustrated fact sheet by Sanjay Shukla and Fouad H. Jaber, defines recharge, discusses factors affecting it and methods to estimate it, and discusses the results from a study that investigated recharge from an agricultural area in south Florida. Includes references. Published by the UF Department of Agricultural and Biological Engineering, July 2006
Groundwater Recharge from Agricultural Areas in the Flatwoods Region of South Florida
No full textABE-370, a 7-page illustrated fact sheet by Sanjay Shukla and Fouad H. Jaber, defines recharge, discusses factors affecting it and methods to estimate it, and discusses the results from a study that investigated recharge from an agricultural area in south Florida. Includes references. Published by the UF Department of Agricultural and Biological Engineering, July 2006
Stormwater as an Alternative Source of Water Supply: Feasibility and Implications for Watershed Management
No full textCircular 1493, a 6-page circular by Sanjay Shukla and Fouad H. Jaber illustrated with maps and graphs, discusses the feasibility of using water from an alternative source of water supply for southern Florida that is usually not considered -- water held in urban/agricultural storm water detention/retention (impoundment) areas. The authors describe the results of a feasibility study of an impoundment in a citrus grove in the southern part of the Caloosahatchee River Basin. Includes references. Published by the UF Department of Agricultural and Biological Engineering, July 2006.
CIR1493/AE398: Stormwater as an Alternative Source of Water Supply: Feasibility and Implications for Watershed Management (ufl.edu
Stormwater as an Alternative Source of Water Supply: Feasibility and Implications for Watershed Management
No full textCircular 1493, a 6-page circular by Sanjay Shukla and Fouad H. Jaber illustrated with maps and graphs, discusses the feasibility of using water from an alternative source of water supply for southern Florida that is usually not considered -- water held in urban/agricultural storm water detention/retention (impoundment) areas. The authors describe the results of a feasibility study of an impoundment in a citrus grove in the southern part of the Caloosahatchee River Basin. Includes references. Published by the UF Department of Agricultural and Biological Engineering, July 2006.
CIR1493/AE398: Stormwater as an Alternative Source of Water Supply: Feasibility and Implications for Watershed Management (ufl.edu
Stormwater as an Alternative Source of Water Supply: Feasibility and Implications for Watershed Management
Full text linkCircular 1493, a 6-page circular by Sanjay Shukla and Fouad H. Jaber illustrated with maps and graphs, discusses the feasibility of using water from an alternative source of water supply for southern Florida that is usually not considered -- water held in urban/agricultural storm water detention/retention (impoundment) areas. The authors describe the results of a feasibility study of an impoundment in a citrus grove in the southern part of the Caloosahatchee River Basin. Includes references. Published by the UF Department of Agricultural and Biological Engineering, July 2006.
CIR1493/AE398: Stormwater as an Alternative Source of Water Supply: Feasibility and Implications for Watershed Management (ufl.edu
Using Multi-Sensor Soil Moisture Probes to Decide When and How Long to Run Drip Irrigation
No full textWith Florida’s freshwater withdrawals expected to increase by 30% from 2000 to 2030, conservation strategies must be adopted across all water use sectors, including agriculture, to meet future demand. Implementation and proper management of more efficient crop irrigation systems can create significant water savings. Drip irrigation for vegetable production in Florida has been shown to be more efficient than the seepage irrigation (20%–50% efficiency), because drip irrigation supplies water and nutrients directly to the root zone, allowing efficiencies of 80%–90% to be achieved with proper management. Without proper management, however, the use of a drip system in itself does not necessarily translate to increased water and nutrient use efficiency. This 6-page fact sheet was written by Sanjay Shukla and Nathan Holt, and published by the UF Department of Agricultural and Biological Engineering, July 2014
Water Use for Seepage-Irrigated Pepper with Plastic Mulch in Florida
No full textBell pepper (Capsicum annuum) is an important crop for Florida and accounts for a significant fraction of its agricultural water use. Most of it is produced in south Florida, where the water table is shallow. Seepage irrigation is one of the most common systems used in south Florida for growing plastic-mulched vegetable crops, including bell pepper. Compared with an open field production, covering the soil with impermeable plastic reduces soil evaporation and increases transpiration. This 3-page fact sheet summarizes the results from a crop water use study for the seepage-irrigated pepper in south Florida. Written by Sanjay Shukla, Niroj Shrestha, and Fouad H. Jaber, and published by the UF Department of Agricultural and Biological Engineering, August 2014
Artificial Intelligence (AI) for Crop Yield Forecasting
No full textThis publication aims to introduce readers to recent crop yield forecasting approaches based on artificial intelligence (AI) and to provide examples of how AI can potentially improve yield forecasting at the field and regional levels. Written by Clyde Fraisse, Yiannis Ampatzidis, Sandra Guzmán, Wonsuk Lee, Christopher Martinez, Sanjay Shukla, Aditya Singh, and Ziwen Yu, and published by the UF/IFAS Department of Agricultural and Biological Engineering, April 2022
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