Presented by University of Minnesota retired Extension Engineer, Jerry Wright at the 2009 Minnesota Statewide High Tunnel Conference in Alexandria, MN on Dec. 2-3, 2009.
High tunnels and drip irrigation can work well together for efficient crop production. Drip irrigation applies water and nutrients directly to the root zone, allowing for uniform moisture levels. Proper system design considers the water supply, emitter spacing, soil characteristics, and crop water needs. Sensors can monitor soil moisture to guide irrigation scheduling. Regular maintenance is needed to prevent emitter clogging. With efficient watering, high tunnels can produce higher yields than field production.
Keynote delivered to the JISC Collections AGM meeting, 20th November 2012 at Brunel's SS Great Britain in Bristol, UK. I moved from the British Library in London (where I'd worked for over 20 years) to the University of Aberdeen in October 2007, just over five years ago. Since then I've worked with the University on its £57m new Library and Special Collections Centre - The Sir Duncan Rice Library. In this presentation I reflect on being a newcomer to Higher Education, I talk about the holistic approach that we took to designing the library and services, and about the evidence based decision making that informed collection and service development. Finally, I reflected on some of the new forces that are coming into play and which will dramatically alter the library/academic/publisher relationships.
Drip irrigation has several advantages over other irrigation methods:
1. It irrigates the plant and not the soil directly, delivering water through a pipe with small drippers to each plant.
2. It allows for each plant to receive the same amount of water uniformly.
3. It results in a denser, more efficient root system and higher irrigation efficiency of 95% compared to 60-80% for sprinklers.
The document provides an overview of different types of micro irrigation systems and their benefits over traditional irrigation methods. It discusses various irrigation techniques such as surface irrigation methods like flood, furrow and basin irrigation, and pressurized methods like sprinkler and drip irrigation. It explains the key factors to consider when selecting an irrigation method, and highlights the advantages of micro irrigation systems such as efficient water use, higher crop yields, and reduced insect and disease problems.
This document provides an overview of drip irrigation. It discusses the history of drip irrigation, which dates back to ancient Persia and includes early uses of clay pots and bamboo. Modern drip irrigation began in Israel in the 1950s and 1960s with early patents and experiments. It describes the basic principles and components of drip irrigation systems, including drippers, pipes, filters, and valves. The document covers topics such as water distribution in soil, filtration, fertigation, system design, and scheduling. Drip irrigation is presented as a comprehensive agro-technology that improves water and nutrient use efficiency compared to other irrigation methods. It has gained widespread use around the world for both field and greenhouse crops.
Drip irrigation is a type of micro-irrigation system that applies water directly to plant roots. The key components of a drip irrigation system include a water source, pumping system, distribution pipes, drip tape with emitters, injectors, and a filtration system. Drip irrigation conserves water by reducing evaporation and runoff, allows for targeted fertilizer application, and improves crop yields. It has been widely adopted for agriculture in water-scarce regions like India and Israel.
Drip Irrigation Made Simple - Do It Yourself GuideFabienne22Q
This document provides a guide to installing a DIY drip irrigation system. It explains the benefits of drip irrigation, which include water savings of up to 70%, healthier plants, and easy automated watering. The guide outlines a 3-step process for setting up a drip irrigation system: 1) determining what plants need water and any special requirements, 2) choosing the best drip irrigation products, and 3) installing the drip watering system. Various drip irrigation products are described that are suitable for different garden applications like watering trees, shrubs, garden beds, and borders.
Ldb permacultura kent drip-for-organic-conferencepicreductionforwebpdf - drip...laboratoridalbasso
This document provides an overview of low-cost, gravity-fed drip irrigation systems for small plots. It describes the basic components, advantages, and design considerations for such a system. It also details a study conducted in Farmington, NM using 55-gallon barrels as elevated reservoirs to power drip irrigation for various crops. Yields of sweet corn, chile peppers, and tomatoes were high, ranging from 700 ears to 1,525 pounds per 1,000 square feet. Proper irrigation scheduling and fertilization are important for maximizing crop production with drip irrigation.
High tunnels and drip irrigation can work well together for efficient crop production. Drip irrigation applies water and nutrients directly to the root zone, allowing for uniform moisture levels. Proper system design considers the water supply, emitter spacing, soil characteristics, and crop water needs. Sensors can monitor soil moisture to guide irrigation scheduling. Regular maintenance is needed to prevent emitter clogging. With efficient watering, high tunnels can produce higher yields than field production.
Keynote delivered to the JISC Collections AGM meeting, 20th November 2012 at Brunel's SS Great Britain in Bristol, UK. I moved from the British Library in London (where I'd worked for over 20 years) to the University of Aberdeen in October 2007, just over five years ago. Since then I've worked with the University on its £57m new Library and Special Collections Centre - The Sir Duncan Rice Library. In this presentation I reflect on being a newcomer to Higher Education, I talk about the holistic approach that we took to designing the library and services, and about the evidence based decision making that informed collection and service development. Finally, I reflected on some of the new forces that are coming into play and which will dramatically alter the library/academic/publisher relationships.
Drip irrigation has several advantages over other irrigation methods:
1. It irrigates the plant and not the soil directly, delivering water through a pipe with small drippers to each plant.
2. It allows for each plant to receive the same amount of water uniformly.
3. It results in a denser, more efficient root system and higher irrigation efficiency of 95% compared to 60-80% for sprinklers.
The document provides an overview of different types of micro irrigation systems and their benefits over traditional irrigation methods. It discusses various irrigation techniques such as surface irrigation methods like flood, furrow and basin irrigation, and pressurized methods like sprinkler and drip irrigation. It explains the key factors to consider when selecting an irrigation method, and highlights the advantages of micro irrigation systems such as efficient water use, higher crop yields, and reduced insect and disease problems.
This document provides an overview of drip irrigation. It discusses the history of drip irrigation, which dates back to ancient Persia and includes early uses of clay pots and bamboo. Modern drip irrigation began in Israel in the 1950s and 1960s with early patents and experiments. It describes the basic principles and components of drip irrigation systems, including drippers, pipes, filters, and valves. The document covers topics such as water distribution in soil, filtration, fertigation, system design, and scheduling. Drip irrigation is presented as a comprehensive agro-technology that improves water and nutrient use efficiency compared to other irrigation methods. It has gained widespread use around the world for both field and greenhouse crops.
Drip irrigation is a type of micro-irrigation system that applies water directly to plant roots. The key components of a drip irrigation system include a water source, pumping system, distribution pipes, drip tape with emitters, injectors, and a filtration system. Drip irrigation conserves water by reducing evaporation and runoff, allows for targeted fertilizer application, and improves crop yields. It has been widely adopted for agriculture in water-scarce regions like India and Israel.
Drip Irrigation Made Simple - Do It Yourself GuideFabienne22Q
This document provides a guide to installing a DIY drip irrigation system. It explains the benefits of drip irrigation, which include water savings of up to 70%, healthier plants, and easy automated watering. The guide outlines a 3-step process for setting up a drip irrigation system: 1) determining what plants need water and any special requirements, 2) choosing the best drip irrigation products, and 3) installing the drip watering system. Various drip irrigation products are described that are suitable for different garden applications like watering trees, shrubs, garden beds, and borders.
Ldb permacultura kent drip-for-organic-conferencepicreductionforwebpdf - drip...laboratoridalbasso
This document provides an overview of low-cost, gravity-fed drip irrigation systems for small plots. It describes the basic components, advantages, and design considerations for such a system. It also details a study conducted in Farmington, NM using 55-gallon barrels as elevated reservoirs to power drip irrigation for various crops. Yields of sweet corn, chile peppers, and tomatoes were high, ranging from 700 ears to 1,525 pounds per 1,000 square feet. Proper irrigation scheduling and fertilization are important for maximizing crop production with drip irrigation.
Drip irrigation is a watering technique that applies water slowly to the soil near plant roots through emitters or drippers. It allows for targeted watering with high efficiency of 90-95% by avoiding runoff and wetting of non-targeted areas. Drip irrigation was developed in the 1960s in Israel, Australia, and North America and is now commonly used worldwide in agriculture, nurseries, greenhouses, and landscaping. It provides benefits like increased yields and quality while decreasing water, labor, energy, fertilizer, and pesticide costs through its precise application of water and other inputs.
This presentation discusses drip irrigation, including what it is, why it should be used, its components and typical layout. Drip irrigation saves water and fertilizer by slowly dripping it to plant roots through a network of pipes, tubing and emitters. It has advantages like less water use, optimized water levels and reduced disease, though it has high initial costs and maintenance challenges. In conclusion, drip irrigation conserves water by reducing evaporation and drainage compared to other methods, while precisely applying water to plant roots.
The document discusses the key components of a drip irrigation system, including:
1. Filtration systems like hydrocyclone, screen, gravel, and disc filters to remove solid particles from water.
2. Mainlines, sub-mainlines, laterals, and emitters to distribute water.
3. Additional components like pressure regulators, backflow prevention, air/vacuum release valves, and controllers to regulate water flow and pressure.
4. The document provides details on the purpose and functioning of several common component types.
The document summarizes an in-plant training presentation on drip irrigation systems. It describes the components and advantages of drip irrigation, classifications of drippers, the process of surveying land and water sources, designing a drip irrigation system, estimating costs, applying for subsidies, and installing drip lines and components. It also provides graphs on the adoption of drip irrigation in different Indian states and the history of the company Jain Irrigation Systems in the district of Nabarangpur.
Precision agriculture is a farming system that uses information technology like GPS and GIS to increase farm production efficiency and profitability while minimizing environmental impacts. It involves tools like yield monitors, GPS, GIS software, and variable rate technology to collect and analyze field data to precisely vary inputs based on site-specific needs. Implementing precision agriculture can optimize production efficiency, quality, minimize risks and environmental impacts, and provide farmers with information to improve decision making.
This document discusses drip irrigation, including its components, design, advantages, and benefits for farmers. It begins with an introduction to irrigation and defines drip irrigation as a micro irrigation method that applies water slowly, drop by drop, directly to a crop's root zone. It then describes the key components of a drip irrigation system, such as pumps, filters, pipes, and emitters. The document outlines the design process, including collecting soil and crop data and determining water and equipment requirements. It notes the advantages of drip irrigation include water and cost savings compared to other methods. In conclusion, drip irrigation is an efficient irrigation system that uses less water to increase yields, benefiting small-scale farmers.
This document summarizes four main irrigation methods: surface irrigation (flooding), sprinkler irrigation (applying water under pressure), drip or trickle irrigation (applying water slowly to the soil), and sub-surface irrigation (flooding water underground). Surface irrigation is the most widely used method, covering 90% of irrigated land. Sprinkler irrigation is ideal for scarce water areas. Drip irrigation conserves water, controls weeds, and applies water at a slow rate matching crop needs. Sub-surface irrigation is used where soil and topography allow watering underground.
The document provides an outline and summary of a presentation on irrigation. It begins with definitions of irrigation and its uses in crop production. It then discusses the history of irrigation in ancient civilizations like Peru and India. Current global statistics on irrigation are presented, showing that 68% of irrigated land is in Asia. The main types of irrigation systems - surface, center pivot, lateral move, and localized drip/sprinkler - are described. Issues with irrigation in Bangladesh like groundwater depletion and arsenic contamination are raised. The presentation advocates for more efficient irrigation methods like bucket drip kits to minimize water waste.
This document describes a novel drip irrigation system that uses plastic bottles to efficiently irrigate crops. Currently, most Indian agriculture depends on rain and farmers lack adequate irrigation. Existing systems are costly and rely on expensive diesel. The novel system cuts the bottoms off plastic bottles, inserts a ball valve, and connects bottles with tubing. Water enters the bottle until the ball seals it full. Multiple bottles can be connected to distribute water widely and cheaply. At only 9 rupees per bottle, it is affordable and flexible compared to rigid piped systems. The design optimizes water use, requires no fuel, and could overcome irrigation challenges across India.
Drip irrigation is recommended for growing plants in a high tunnel over overhead irrigation. Drip irrigation applies water directly to plant roots through a system of drip tape, filters, and timers, ensuring an even supply of water. It has advantages like improved disease control and efficiency compared to overhead irrigation, which can leave foliage damp and lead to fungal issues. The document also provides instructions and diagrams for assembling different components of a drip irrigation system like headers, tubing, connectors, and ends.
At the Hague conference on Agriculture, Food Security and Climate Change, Farming First held a side event ‘Best practices in agricultural value chains’, where spokespeople presented examples of initiatives that aim to increase resilience and productivity at different points in the value chain.
A Bio-Inspired Pressure Compensating Emitter for Low-Cost Drip Irrigation Sys...Ruo-Qian (Roger) Wang
One of the major issues that prevent a largescale
dissemination of drip irrigation system is
the requirement of high pumping pressure,
which incurs a high cost of pumping and power
systems. The high pressure is used to maintain
the working condition of pressure-compensate
emitters, which are installed at the outlets of drip
irrigation system to compensate pressure loss
and evenly distribute flows for each crop.
A new architecture of the pressure-compensate
emitter is proposed using a flexible tube
enclosed in a pressurized chamber similar to the
design of a medical instrument called “Starling
resistor”. This design enables the external
pressure of the tube to correlate with the driving
pressure, such that a higher driving pressure
leads to a higher external pressure and
consequently collapses the tube. The desirable
feature that the flow rate is independent of the
upstream pressure variation can be achieved
with this new design at a lower driving pressure.
A Novel Bio-inspired Pressure Compensating Emitter for Low-Cost Drip Irrigati...Ruo-Qian (Roger) Wang
This document summarizes a bio-inspired pressure compensating emitter designed for low-cost drip irrigation systems. It describes how current drip irrigation has low adoption rates due to issues with pressure variation and non-uniform flow rates. The presented emitter takes inspiration from respiratory airways to separately control activation pressure and flow rate using a needle valve and adjustable wall thickness. A theoretical model was developed and validated against prototypes, showing the potential for low activation pressure and anti-clogging advantages over traditional drip emitters. The goal is to make drip irrigation more accessible for smallholder farmers through lower energy and cost requirements.
by Karl Foord, Extension Educator, University of Minnesota.
Presented at the 2015 Minnesota Statewide High Tunnel Conference, Beginning Grower Workshop.
Automat is one of the largest manufacturers of Irrigation Sprinklers, filteration and fertigation equipment & other irrigation accessories which form a key part of any Irrigation system.
This document discusses 5 factors that can affect language learning strategies: motivation, experience studying language, gender, proficiency, and language learning style. Motivation can be intrinsic or extrinsic and influence strategy choice. Experience studying a language longer correlates with using more cognitive and memory strategies. Some studies found females use strategies more frequently than males, but gender effects are inconsistent. Higher proficiency learners tend to use strategies more often. Learning style preferences, such as visual vs. auditory, also influence strategy selection.
The document provides information on designing an irrigation system, including determining water needs based on soil type and plants, selecting appropriate irrigation components like emitters and valves, and drawing an irrigation plan that groups plants into hydrozones and ensures total emitter flow does not exceed available water supply. Key factors are soil type, plant water requirements, available water flow rate, and selecting emitters and valves to meet needs while staying within flow capacity. The irrigation plan should show all system components, pipes, valves and emitters matched to the landscape design.
FOUNDATION
DETAILS OF PROGRAMME
FORMATION OF GGRC
EVALUATION OF MICRO IRRIGATION SYSTEM
ACHIEVEMENTS OF GGRC
NECCESITY OF GGRC
FEATURES OF GGRC
BENEFITS OF GGRC
Ppt fruit-apple-water-management-robinson-cornell-2014-engUC Davis
1) In humid climates like New York, rainfall is often insufficient for apple orchards, especially in June, July, and August, resulting in water deficits.
2) Irrigation is necessary to prevent water stress in young trees with small root systems and high leaf area. Trickle irrigation must be installed quickly after planting.
3) The Cornell irrigation model provides daily and weekly water balance forecasts to help growers precisely apply the proper amount of irrigation needed based on evapotranspiration rates.
Steve Bogash, Horticulture Extension Educator/Researcher | Penn State University
Presented at the 2015 Minnesota Statewide High Tunnel Conference
Feb. 17-18, 2015
by Steve Bogash, Horticulture Extension Educator/Researcher | Penn State University
Presented at the 2015 Minnesota Statewide High Tunnel Conference
Feb. 17-18, 2015
Drip irrigation is a watering technique that applies water slowly to the soil near plant roots through emitters or drippers. It allows for targeted watering with high efficiency of 90-95% by avoiding runoff and wetting of non-targeted areas. Drip irrigation was developed in the 1960s in Israel, Australia, and North America and is now commonly used worldwide in agriculture, nurseries, greenhouses, and landscaping. It provides benefits like increased yields and quality while decreasing water, labor, energy, fertilizer, and pesticide costs through its precise application of water and other inputs.
This presentation discusses drip irrigation, including what it is, why it should be used, its components and typical layout. Drip irrigation saves water and fertilizer by slowly dripping it to plant roots through a network of pipes, tubing and emitters. It has advantages like less water use, optimized water levels and reduced disease, though it has high initial costs and maintenance challenges. In conclusion, drip irrigation conserves water by reducing evaporation and drainage compared to other methods, while precisely applying water to plant roots.
The document discusses the key components of a drip irrigation system, including:
1. Filtration systems like hydrocyclone, screen, gravel, and disc filters to remove solid particles from water.
2. Mainlines, sub-mainlines, laterals, and emitters to distribute water.
3. Additional components like pressure regulators, backflow prevention, air/vacuum release valves, and controllers to regulate water flow and pressure.
4. The document provides details on the purpose and functioning of several common component types.
The document summarizes an in-plant training presentation on drip irrigation systems. It describes the components and advantages of drip irrigation, classifications of drippers, the process of surveying land and water sources, designing a drip irrigation system, estimating costs, applying for subsidies, and installing drip lines and components. It also provides graphs on the adoption of drip irrigation in different Indian states and the history of the company Jain Irrigation Systems in the district of Nabarangpur.
Precision agriculture is a farming system that uses information technology like GPS and GIS to increase farm production efficiency and profitability while minimizing environmental impacts. It involves tools like yield monitors, GPS, GIS software, and variable rate technology to collect and analyze field data to precisely vary inputs based on site-specific needs. Implementing precision agriculture can optimize production efficiency, quality, minimize risks and environmental impacts, and provide farmers with information to improve decision making.
This document discusses drip irrigation, including its components, design, advantages, and benefits for farmers. It begins with an introduction to irrigation and defines drip irrigation as a micro irrigation method that applies water slowly, drop by drop, directly to a crop's root zone. It then describes the key components of a drip irrigation system, such as pumps, filters, pipes, and emitters. The document outlines the design process, including collecting soil and crop data and determining water and equipment requirements. It notes the advantages of drip irrigation include water and cost savings compared to other methods. In conclusion, drip irrigation is an efficient irrigation system that uses less water to increase yields, benefiting small-scale farmers.
This document summarizes four main irrigation methods: surface irrigation (flooding), sprinkler irrigation (applying water under pressure), drip or trickle irrigation (applying water slowly to the soil), and sub-surface irrigation (flooding water underground). Surface irrigation is the most widely used method, covering 90% of irrigated land. Sprinkler irrigation is ideal for scarce water areas. Drip irrigation conserves water, controls weeds, and applies water at a slow rate matching crop needs. Sub-surface irrigation is used where soil and topography allow watering underground.
The document provides an outline and summary of a presentation on irrigation. It begins with definitions of irrigation and its uses in crop production. It then discusses the history of irrigation in ancient civilizations like Peru and India. Current global statistics on irrigation are presented, showing that 68% of irrigated land is in Asia. The main types of irrigation systems - surface, center pivot, lateral move, and localized drip/sprinkler - are described. Issues with irrigation in Bangladesh like groundwater depletion and arsenic contamination are raised. The presentation advocates for more efficient irrigation methods like bucket drip kits to minimize water waste.
This document describes a novel drip irrigation system that uses plastic bottles to efficiently irrigate crops. Currently, most Indian agriculture depends on rain and farmers lack adequate irrigation. Existing systems are costly and rely on expensive diesel. The novel system cuts the bottoms off plastic bottles, inserts a ball valve, and connects bottles with tubing. Water enters the bottle until the ball seals it full. Multiple bottles can be connected to distribute water widely and cheaply. At only 9 rupees per bottle, it is affordable and flexible compared to rigid piped systems. The design optimizes water use, requires no fuel, and could overcome irrigation challenges across India.
Drip irrigation is recommended for growing plants in a high tunnel over overhead irrigation. Drip irrigation applies water directly to plant roots through a system of drip tape, filters, and timers, ensuring an even supply of water. It has advantages like improved disease control and efficiency compared to overhead irrigation, which can leave foliage damp and lead to fungal issues. The document also provides instructions and diagrams for assembling different components of a drip irrigation system like headers, tubing, connectors, and ends.
At the Hague conference on Agriculture, Food Security and Climate Change, Farming First held a side event ‘Best practices in agricultural value chains’, where spokespeople presented examples of initiatives that aim to increase resilience and productivity at different points in the value chain.
A Bio-Inspired Pressure Compensating Emitter for Low-Cost Drip Irrigation Sys...Ruo-Qian (Roger) Wang
One of the major issues that prevent a largescale
dissemination of drip irrigation system is
the requirement of high pumping pressure,
which incurs a high cost of pumping and power
systems. The high pressure is used to maintain
the working condition of pressure-compensate
emitters, which are installed at the outlets of drip
irrigation system to compensate pressure loss
and evenly distribute flows for each crop.
A new architecture of the pressure-compensate
emitter is proposed using a flexible tube
enclosed in a pressurized chamber similar to the
design of a medical instrument called “Starling
resistor”. This design enables the external
pressure of the tube to correlate with the driving
pressure, such that a higher driving pressure
leads to a higher external pressure and
consequently collapses the tube. The desirable
feature that the flow rate is independent of the
upstream pressure variation can be achieved
with this new design at a lower driving pressure.
A Novel Bio-inspired Pressure Compensating Emitter for Low-Cost Drip Irrigati...Ruo-Qian (Roger) Wang
This document summarizes a bio-inspired pressure compensating emitter designed for low-cost drip irrigation systems. It describes how current drip irrigation has low adoption rates due to issues with pressure variation and non-uniform flow rates. The presented emitter takes inspiration from respiratory airways to separately control activation pressure and flow rate using a needle valve and adjustable wall thickness. A theoretical model was developed and validated against prototypes, showing the potential for low activation pressure and anti-clogging advantages over traditional drip emitters. The goal is to make drip irrigation more accessible for smallholder farmers through lower energy and cost requirements.
by Karl Foord, Extension Educator, University of Minnesota.
Presented at the 2015 Minnesota Statewide High Tunnel Conference, Beginning Grower Workshop.
Automat is one of the largest manufacturers of Irrigation Sprinklers, filteration and fertigation equipment & other irrigation accessories which form a key part of any Irrigation system.
This document discusses 5 factors that can affect language learning strategies: motivation, experience studying language, gender, proficiency, and language learning style. Motivation can be intrinsic or extrinsic and influence strategy choice. Experience studying a language longer correlates with using more cognitive and memory strategies. Some studies found females use strategies more frequently than males, but gender effects are inconsistent. Higher proficiency learners tend to use strategies more often. Learning style preferences, such as visual vs. auditory, also influence strategy selection.
The document provides information on designing an irrigation system, including determining water needs based on soil type and plants, selecting appropriate irrigation components like emitters and valves, and drawing an irrigation plan that groups plants into hydrozones and ensures total emitter flow does not exceed available water supply. Key factors are soil type, plant water requirements, available water flow rate, and selecting emitters and valves to meet needs while staying within flow capacity. The irrigation plan should show all system components, pipes, valves and emitters matched to the landscape design.
FOUNDATION
DETAILS OF PROGRAMME
FORMATION OF GGRC
EVALUATION OF MICRO IRRIGATION SYSTEM
ACHIEVEMENTS OF GGRC
NECCESITY OF GGRC
FEATURES OF GGRC
BENEFITS OF GGRC
Ppt fruit-apple-water-management-robinson-cornell-2014-engUC Davis
1) In humid climates like New York, rainfall is often insufficient for apple orchards, especially in June, July, and August, resulting in water deficits.
2) Irrigation is necessary to prevent water stress in young trees with small root systems and high leaf area. Trickle irrigation must be installed quickly after planting.
3) The Cornell irrigation model provides daily and weekly water balance forecasts to help growers precisely apply the proper amount of irrigation needed based on evapotranspiration rates.
Steve Bogash, Horticulture Extension Educator/Researcher | Penn State University
Presented at the 2015 Minnesota Statewide High Tunnel Conference
Feb. 17-18, 2015
by Steve Bogash, Horticulture Extension Educator/Researcher | Penn State University
Presented at the 2015 Minnesota Statewide High Tunnel Conference
Feb. 17-18, 2015
by Steve Bogash, Horticulture Extension Educator/Researcher | Penn State University
Presented at the 2015 Minnesota Statewide High Tunnel Conference
Feb. 17-18, 2015
by Julie Grossman, Assistant Professor | Department of Horticultural Science, University of Minnesota
Presented at the 2015 Minnesota Statewide High Tunnel Conference.
by Larry D. Jacobson, Professor and Extension Agricultural Engineer | University of Minnesota
Presented at the 2015 Minnesota Statewide High Tunnel Conference.
by Dr. Angela Orshinksy, Assistant Professor and Extension Specialist | Department of Plant Pathology, University of Minnesota
Presented at the 2015 Minnesota Statewide High Tunnel Conference.
by Christopher Philips, Assistant Professor | Department of Entomology, University of Minnesota
Presented at the 2015 Minnesota Statewide High Tunnel Conference.
The document summarizes research on using super oxygenated water for irrigation in high tunnel tomato and strawberry production. The research found that maintaining oxygen levels at 12 ppm in irrigation water increased strawberry yields by 18.3% and tomato yields by 15.8% through mid-September, due to higher fruit numbers rather than size. The yield increases were smaller after mid-September with cooler temperatures. Overall, oxygenated water increased total strawberry yields by 6.6% and tomato yields by 8.4% for the season.
by John Erwin, Julie Grossman, Mary Rogers, Carl Rosen,
Greg Schweser, Joanne Slavin, Justin Carlson, Esther Gesick, Liz Perkus | University of Minnesota
Presented at the 2015 Minnesota Statewide High Tunnel Conference.
by Terrence T. Nennich, Extension Educator, University of Minnesota and Carl Rosen, Professor, Dept. of Soil, Water and Climate, University of Minnesota.
Presented at the 2015 Minnesota Statewide High Tunnel Conference, Beginning Grower Workshop.
by Christopher Philips, Assistant Professor, Dept. of Entomology, University of Minnesota.
Presented at the 2015 Minnesota Statewide High Tunnel Growers Conference, Beginning Grower Workshop
by Terrance T. Nennich, Extension Professor, University of Minnesota.
Presented at the 2015 Minnesota Statewide High Tunnel Conference, Beginning Grower Workshop
More from University of Minnesota-Horticulture (20)
A workshop hosted by the South African Journal of Science aimed at postgraduate students and early career researchers with little or no experience in writing and publishing journal articles.
How to Add Chatter in the odoo 17 ERP ModuleCeline George
In Odoo, the chatter is like a chat tool that helps you work together on records. You can leave notes and track things, making it easier to talk with your team and partners. Inside chatter, all communication history, activity, and changes will be displayed.
ISO/IEC 27001, ISO/IEC 42001, and GDPR: Best Practices for Implementation and...PECB
Denis is a dynamic and results-driven Chief Information Officer (CIO) with a distinguished career spanning information systems analysis and technical project management. With a proven track record of spearheading the design and delivery of cutting-edge Information Management solutions, he has consistently elevated business operations, streamlined reporting functions, and maximized process efficiency.
Certified as an ISO/IEC 27001: Information Security Management Systems (ISMS) Lead Implementer, Data Protection Officer, and Cyber Risks Analyst, Denis brings a heightened focus on data security, privacy, and cyber resilience to every endeavor.
His expertise extends across a diverse spectrum of reporting, database, and web development applications, underpinned by an exceptional grasp of data storage and virtualization technologies. His proficiency in application testing, database administration, and data cleansing ensures seamless execution of complex projects.
What sets Denis apart is his comprehensive understanding of Business and Systems Analysis technologies, honed through involvement in all phases of the Software Development Lifecycle (SDLC). From meticulous requirements gathering to precise analysis, innovative design, rigorous development, thorough testing, and successful implementation, he has consistently delivered exceptional results.
Throughout his career, he has taken on multifaceted roles, from leading technical project management teams to owning solutions that drive operational excellence. His conscientious and proactive approach is unwavering, whether he is working independently or collaboratively within a team. His ability to connect with colleagues on a personal level underscores his commitment to fostering a harmonious and productive workplace environment.
Date: May 29, 2024
Tags: Information Security, ISO/IEC 27001, ISO/IEC 42001, Artificial Intelligence, GDPR
-------------------------------------------------------------------------------
Find out more about ISO training and certification services
Training: ISO/IEC 27001 Information Security Management System - EN | PECB
ISO/IEC 42001 Artificial Intelligence Management System - EN | PECB
General Data Protection Regulation (GDPR) - Training Courses - EN | PECB
Webinars: https://pecb.com/webinars
Article: https://pecb.com/article
-------------------------------------------------------------------------------
For more information about PECB:
Website: https://pecb.com/
LinkedIn: https://www.linkedin.com/company/pecb/
Facebook: https://www.facebook.com/PECBInternational/
Slideshare: http://www.slideshare.net/PECBCERTIFICATION
How to Make a Field Mandatory in Odoo 17Celine George
In Odoo, making a field required can be done through both Python code and XML views. When you set the required attribute to True in Python code, it makes the field required across all views where it's used. Conversely, when you set the required attribute in XML views, it makes the field required only in the context of that particular view.
it describes the bony anatomy including the femoral head , acetabulum, labrum . also discusses the capsule , ligaments . muscle that act on the hip joint and the range of motion are outlined. factors affecting hip joint stability and weight transmission through the joint are summarized.
This presentation was provided by Steph Pollock of The American Psychological Association’s Journals Program, and Damita Snow, of The American Society of Civil Engineers (ASCE), for the initial session of NISO's 2024 Training Series "DEIA in the Scholarly Landscape." Session One: 'Setting Expectations: a DEIA Primer,' was held June 6, 2024.
How to Fix the Import Error in the Odoo 17Celine George
An import error occurs when a program fails to import a module or library, disrupting its execution. In languages like Python, this issue arises when the specified module cannot be found or accessed, hindering the program's functionality. Resolving import errors is crucial for maintaining smooth software operation and uninterrupted development processes.
This slide is special for master students (MIBS & MIFB) in UUM. Also useful for readers who are interested in the topic of contemporary Islamic banking.
বাংলাদেশের অর্থনৈতিক সমীক্ষা ২০২৪ [Bangladesh Economic Review 2024 Bangla.pdf] কম্পিউটার , ট্যাব ও স্মার্ট ফোন ভার্সন সহ সম্পূর্ণ বাংলা ই-বুক বা pdf বই " সুচিপত্র ...বুকমার্ক মেনু 🔖 ও হাইপার লিংক মেনু 📝👆 যুক্ত ..
আমাদের সবার জন্য খুব খুব গুরুত্বপূর্ণ একটি বই ..বিসিএস, ব্যাংক, ইউনিভার্সিটি ভর্তি ও যে কোন প্রতিযোগিতা মূলক পরীক্ষার জন্য এর খুব ইম্পরট্যান্ট একটি বিষয় ...তাছাড়া বাংলাদেশের সাম্প্রতিক যে কোন ডাটা বা তথ্য এই বইতে পাবেন ...
তাই একজন নাগরিক হিসাবে এই তথ্য গুলো আপনার জানা প্রয়োজন ...।
বিসিএস ও ব্যাংক এর লিখিত পরীক্ষা ...+এছাড়া মাধ্যমিক ও উচ্চমাধ্যমিকের স্টুডেন্টদের জন্য অনেক কাজে আসবে ...
How to Setup Warehouse & Location in Odoo 17 InventoryCeline George
In this slide, we'll explore how to set up warehouses and locations in Odoo 17 Inventory. This will help us manage our stock effectively, track inventory levels, and streamline warehouse operations.
This presentation includes basic of PCOS their pathology and treatment and also Ayurveda correlation of PCOS and Ayurvedic line of treatment mentioned in classics.
Strategies for Effective Upskilling is a presentation by Chinwendu Peace in a Your Skill Boost Masterclass organisation by the Excellence Foundation for South Sudan on 08th and 09th June 2024 from 1 PM to 3 PM on each day.