Uploaded byhritulgautam
PPTX, PDF326 views

Advance Techniques in Micro Irrigation System.pptx

The document discusses micro irrigation systems, their types, benefits, components, and design procedures, highlighting their efficiency in water use and crop yield. Various systems such as drip and sprinkler irrigation are examined, along with their specific applications and advantages. It concludes that techniques like fertigation can significantly enhance crop yield and resource usage, while emphasizing the need for standardization in varying conditions.

Education
In this document
Powered by AI

Introduction to micro irrigation, its evolution, definition, and advantages over conventional irrigation, including high water use efficiency.

Overview of different types of micro irrigation systems: Drip, Surface Drip, Sub-Surface Drip, Family Drip, Inline and Online Drip systems.

Different bubbler irrigation methods and various types of sprinkler systems including center pivot, towable pivot, rain-gun, impact sprinkler, and pop-up sprinkler.

Key benefits of micro irrigation systems including higher yield, water savings, reduced labor costs, and improved crop quality.

Detailed components of micro irrigation systems: control head, mainlines, emitters, filtration system, and control/monitoring devices.

Procedures for designing micro irrigation systems including emitter selection, capacity requirements, and layout instructions.

Conclusion discussing fertigation benefits in maximizing yields, saving fertilizers and water, and improving produce quality.

Comparative data on water usage and yield between micro and conventional irrigation methods in various crops and states.

Citations of various studies, reviews, and resources related to micro irrigation for further reading.

Download to read offline
Master Seminar (FSC-591) On Advance Techniques in Micro Irrigation System Hritul Kumar Gautam ID. No. : 2375 M.Sc. (Horticulture) Department of Fruit Science College of Horticulture BANDA UNIVERSITY OF AGRICULTURE AND TECHNOLOGY BANDA (U.P.)
CONTENT  Introduction  Types of Micro Irrigation System  Benefits of Micro Irrigation System  Component of Micro Irrigation System  Procedures for Designing Micro Irrigation System  Conclusion
INTRODUCTION  The concept of micro-irrigation is was firstly brought through experiment conducted in Germany since in 1860s then in USA in 1910s.  The micro-irrigation system is define as to distribute water as close as possible to the root zone of the plant, in small quantity, slowly but frequently, so that the process stays under high control.  The advantages of micro-irrigation over conventional irrigation are impressive. As the water is applied at the closest to the root zone there is much less water loss through deep percolation and evaporation, hence the water use efficiency (WUE) is much higher.
Types of Micro- irrigation System Drip Irrigation System Sprinkler Irrigation System
Drip Irrigation System Drip irrigation system is a method of applying the required amount of water directly to the root zones of plants through drippers or emitters at frequent intervals. In this system, water is applied drop-by-drop or by a micro jet on the soil surface or sub-surface at a rate lower than the infiltration rate of the soil. Place emitters every 12 inches apart in soil, and the water flow rate is 2-20 LPH.
Surface Drip Irrigation Surface drip irrigation is a system that delivers the water in small quantity, drop by drop, to each individual plant on the field by the means of tubes running on the open surface of the soil.
Sub- Surface Drip Irrigation Sub-surface drip irrigation is a method of irrigating crops through buried plastic tubes, containing embedded emitters located at regular spacings. These system the drip tubes are typically located 90–220 cm apart and 15–25 cm below the soil surface.
Family Drip Irrigation System Family drip or ‘gravity fed drip irrigation’ system is a low-cost system developed for small plots. It is suitable for house gardening. It can also be used to demonstrate the working of drip irrigation system.
In-Line Drip Irrigation Inline drip irrigation system the drippers are fixed in the lateral tube at designed spacings at the time of manufacturing to meet the requirement of various crops. It is effective for row crops like cotton, sugarcane, groundnut, vegetables and flowering crops.
On-Line Drip Irrigation In this system, emitters or drippers are fixed externally on the laterals at designed spacings. Thus, the drippers can be checked and cleaned easily in case of clogging. The dripper spacing can be changed any time to cover the increased root zone of a plant. Online dripper system is used in orchards, vineyards, artificial landscapes and nurseries.
Bubbler Irrigation In this system the water is applied to the soil surface in a small stream or fountain. The discharge rate for point source bubbler emitters is greater than the drip. These are suitable in situations where large amount of water need to be applied in a short period of time and suitable for irrigating trees with wide root zones and high water requirements.
Sprinkler Irrigation System The application of water by a small spray or mist to the soil surface, through the air. The sprinkler irrigation is one of the pressurized irrigation methods, in which water is sprayed into the air and fall on the ground. The spray of water is developed by the flow of water under pressure through small nozzles.
Centre Pivot The center pivot is capable of irrigating most field crops. It consists of a single sprinkler lateral supported by a series of towers. It is anchored at one end and rotates around a fixed central point called ‘pivot point’. The control panel attached to the pivot point gives commands to the central pivot machine.
Towable Pivot Towable pivot is similar to center pivot. But here, the pivot is towed away by a tractor. There are 3–4 wheels in the center of the pivot, which make it possible to move the pivot from one place to another by pulling it with the help of the tractor.
Rain-Gun A rain gun is used as a water spray mist or fog beam. It discharges water at less than 175 lph. It is used to irrigate trees and other crops separated widely. Fruit tree crops like citric, mango, guava, avocado, etc. can be irrigated with a rain gun.
Impact Sprinkler This sprinkler is driven in a circular motion by the force of outgoing water, and at least, one of its arms extends from the head. The sprinkler arm is repeatedly pushed back into the water stream by a spring. Impact sprinkler is recommended for closely spaced field crops like potato, leafy vegetables, cotton, oilseeds, pulses, cereals, fodder crops, etc.
Pop Up Sprinkler A pop up sprinkler consists of an inlet, body, cap, wiper seal, riser, nozzle and radius adjustment screw. Such a sprinkler is portable and easy to install, thereby, making it ideal for irrigating lawns, seasonal flowers and planting beds.
Linear Move Sprinkler Linear move sprinkler irrigation system is similar to the center pivot system in construction, except that neither end of the lateral pipeline is fixed. It is composed of a series of towers that are suspended and move laterally in the direction of rows. The whole line moves down the field perpendicular to the lateral.
Benefits of Micro Irrigation System Higher yield Higher profit Water saving and WUE Reduce labour cost Suitable for light soil Reduce soil losses Improve crop quality
Component of Micro Irrigation System Control Head Mainlines, Sub Main and Manifolds Laterals and Emitter Flushing System
Control Head • Delivers water form the source to the mainline. • Control the amount and the pressure of water delivered, filter that water to avoid operational problems. • Added the fertilizer and chemical The control head typically has following major components: • Pumping station • Control and monitoring devices • Fertilizer and chemical injectors • Filtration system
CONTROLAND MONITORING DEVICES PUMPING STATION
The main types of chemical injectors are the venturi injector, injection pump, and the differential tank. Criteria for selecting the proper injection system include cost, ease of use/repair, durability and susceptibility to corrosion. Fertilizer and chemical injectors The hazard of blocking or clogging necessitates the use of filters for efficient and trouble free operation of the micro-irrigation system. Filtration system This system is tells your sprinkler system when to turn on and how long the water should remain on before the system shuts down. Control and monitoring devices It is required to provide sufficient pressure in the system. Centrifugal pumps are generally used for low pressure trickle systems. Pumping station
Procedures for designing MI system Type of MI system. Select and design of emitters and nozzle Determine the capacity requirements of the MI system Required sizes of mainline pipe, manifold and lateral lines. Operating flow rates and pressures Select pump and power unit Instructions for proper layout, operation and maintenance
Conclusion From the foregoing discussion, it can be concluded that fertigation, a recently emerged advance technique holds promise in yield maximization in wide spaced crops viz. cash crops, fruits & vegetables and plantation crops. Besides bumper yield in most of the crops, it realizes 20-40 % fertilizer saving and 40-50% water saving as well as nutrient uptake and better quality of produce. Adoption of this technique to a larger extent will not only increase the crop yield but also the fertilizer use efficiency and quality of produce. However, extensive efforts are required for standardization of this technique for varying crops and conditions.
Water used and yield of crops in micro and conventional irrigation methods Crop Methods of irrigation Water % water saving Yield % increase in yield Water use efficiency requirem ent (cm) kg ha-1 (kg ha mm-1) Banana Drip 97 45 87500 52 90.2 Surface 176 - 57500 - 32.67 Sugarcane Drip 94 56 170000 33 180.85 Furrow 215 - 128000 - 59.53 Grapes Drip 27.8 48 32500 23 116.9 Surface 53.2 - 26400 - 49.62 Papaya Drip 73.88 67.89 23490 69.47 0.32 Surface 225.8 - 13860 - 0.06 Mulberry Drip 20 60 71400 3.03 3570 Surface 50 - 69300 - 1386 Tomato Drip 18.4 39 48000 50 260.86 Surface 30 - 32000 - 106.66 (WTC Annual Reports 1985-2003)
Table 1. Potential and actual area under MI in different states (Area in ‘000 ha) State Drip Sprinkler Total P A % P A % P A % Andhra Pradesh 730 363.07 49.74 387 200.95 51.93 1,117 564.02 50.49 Bihar 142 0.16 0.11 1,708 0.21 0.01 1,850 0.37 0.02 Chattisgarh 22 3.65 16.58 189 59.27 31.36 211 62.92 29.82 Goa 10 0.76 7.62 1 0.33 33.2 11 1.09 9.95 Gujarat 1,599 169.69 10.61 1,679 136.28 8.12 3,278 305.97 9.33 Haryana 398 7.14 1.79 1992 518.37 26.02 2,390 525.5 21.99 Himachal Pradesh 14 0.12 0.83 101 0.58 0.58 115 0.7 0.61 Jharkand 43 0.13 0.31 114 0.37 0.32 157 0.5 0.32 Karnataka 745 177.33 23.8 697 228.62 32.8 1,442 405.95 28.15 Kerala 179 14.12 7.89 35 252 7.19 214 16.64 7.77 Madhya Pradesh 1,376 20.43 1.48 5,015 117.69 235 6,391 138.12 2.16 Maharashtra 1,116 482.34 43.22 1,598 214.67 12.53 2,714 697.02 25.68 Nagaland 11 0 0 42 3.96 9.43 53 3.96 7.48 Orissa 157 3.63 2.31 62 23.47 37.85 219 27.1 12.37 Punjab 559 11.73 2.1 2,819 10.51 0.37 3,378 22.24 0.66 Rajasthan 727 17 2.34 4,931 706.81 14.33 5,658 723.82 12.79 Tamil Nadu 544 131.34 24.14 158 27.19 17.21 702 158.52 22.58 Uttar Pradesh 2,207 10.68 0.48 8,582 10.59 0.12 10,789 21.26 0.2 West Bengal 952 0.15 0.02 280 150.03 53.58 1,232 150.18 12.19 Others 128 15 11.72 188 30 15.96 316 45 14.24 Total 11,659 1,428.46 12.25 30,578 2442.41 7.99 42,237 3,870.86 9.16 Source: Raman(2010) and Indiastat 2010.
 Delorme, G., Srivastava, G. and Shanmugasundaram, M. (2017). A state-of-art review on studies and effectiveness of micro-irrigation systems. Int. J. Civ. Eng. Technol., 8; pp.881-888.  Evans, R.G., Wu, I.P. and Smajstrala, A.G. (2007). Micro-irrigation systems. In Design and Operation of Farm Irrigation Systems, 2nd Edition. American Society of Agricultural and Biological Engineers. pp. 632- 683.  Goyal, M.R. (2014). Management, performance and applications of micro irrigation systems. CRC Press.  http://ecoursesonline.iasri.res.in/course/view.php?Id=546  https://agritech.tnau.ac.in/agriculture/agri_irrigationmgt_microirrigation.html  Kumar, A., Burdak, B., Thakur, H., Harshavardhan, S., Rao, S.N., Mrudula, P. and Aibel, H.P. (2023). A review on role of micro irrigation for modern agriculture. The Pharma Innovation Journal, 12(6): pp.2585- 2589.  Viswanathan, P.K., Kumar, M.D. and Narayanamoorthy, A. (2016). Micro irrigation systems in India: Emergence, status and impacts. Springer Science Business Media Singapore. p. 186. References
Advance Techniques in Micro Irrigation System.pptx

More Related Content

PPTX
Micro irrigation
byAshok Naik
 
PPTX
Plant growth regulators in temperature fruit crops
byannamalai university
 
PPTX
Production Technology of Seed Spices
byNishanth S
 
PPTX
Weed mgt in_vetatables -
byATMA RAM MEENA
 
PPTX
Component of drip irrigation system
byIRADA Foundation
 
PPTX
Cultivation of celery
byWaikhom Jupiter Singh, Annamalai University
 
PPT
PostHarvest Factors affecting Postharvest Quality
byJunaid Abbas
 
PPTX
REJUVENATION THROUGH PROGENY ORCHAD AND SCION BANK
byAmanDohre
 
Micro irrigation
byAshok Naik
 
Plant growth regulators in temperature fruit crops
byannamalai university
 
Production Technology of Seed Spices
byNishanth S
 
Weed mgt in_vetatables -
byATMA RAM MEENA
 
Component of drip irrigation system
byIRADA Foundation
 
Cultivation of celery
byWaikhom Jupiter Singh, Annamalai University
 
PostHarvest Factors affecting Postharvest Quality
byJunaid Abbas
 
REJUVENATION THROUGH PROGENY ORCHAD AND SCION BANK
byAmanDohre
 

What's hot

PPTX
Aonla
byPawan Nagar
 
PPTX
Hitech horticulture
byRakesh Pattnaik
 
DOCX
Concepts of zero tillage
bysoumik67
 
PPTX
Fenugreek cultivation
bySagar78
 
PPTX
Advanced production technology of almond
byPawan Nagar
 
PPTX
Maturity_indices_of_fruits_and_vegetable.pptx
byArti Mahajan
 
PPT
Nursery management part 2
byDr. P.B.Dharmasena
 
PPTX
Breeding gladiolus
byKangkan Kakati
 
PDF
Cotton
byVarsha Gayatonde
 
PPT
Entrepreneurial opportunities in Hoticulture Sectors
byDarshan Kadam
 
PPTX
agrometeorology
byVIVEK YADAV
 
PPTX
Eroded Soils
byRisikesh Thakur
 
PPTX
Jackfruit production technology
bySushma Bhat
 
PDF
Seed processing equipment's
byBasavaraj Panjagal
 
PPTX
Seed quality ppt (1)
byGangadharyya Hiremath
 
PPTX
Use drip irrigation in vegetables
byATMA RAM MEENA
 
PDF
Rawe Report
byOdisha University of Agriculture & Technology, Bhubaneswar.
 
PPT
Coriander
byMuhammad Wasim Haider
 
PPTX
Presentation on Cultivation of ker
byATMA RAM MEENA
 
PPTX
Cost analysis of greenhouse production
byAjay Singh Lodhi
 
Aonla
byPawan Nagar
 
Hitech horticulture
byRakesh Pattnaik
 
Concepts of zero tillage
bysoumik67
 
Fenugreek cultivation
bySagar78
 
Advanced production technology of almond
byPawan Nagar
 
Maturity_indices_of_fruits_and_vegetable.pptx
byArti Mahajan
 
Nursery management part 2
byDr. P.B.Dharmasena
 
Breeding gladiolus
byKangkan Kakati
 
Cotton
byVarsha Gayatonde
 
Entrepreneurial opportunities in Hoticulture Sectors
byDarshan Kadam
 
agrometeorology
byVIVEK YADAV
 
Eroded Soils
byRisikesh Thakur
 
Jackfruit production technology
bySushma Bhat
 
Seed processing equipment's
byBasavaraj Panjagal
 
Seed quality ppt (1)
byGangadharyya Hiremath
 
Use drip irrigation in vegetables
byATMA RAM MEENA
 
Rawe Report
byOdisha University of Agriculture & Technology, Bhubaneswar.
 
Coriander
byMuhammad Wasim Haider
 
Presentation on Cultivation of ker
byATMA RAM MEENA
 
Cost analysis of greenhouse production
byAjay Singh Lodhi
 

Similar to Advance Techniques in Micro Irrigation System.pptx

PPTX
Drip irrigation and fertigation
byPooja Panwar
 
PPT
Micro irrigation & CA.ppt irrigation system
byneelu730796
 
PPTX
Productivity of Field Crops Under Micro Irrigation.pptx
byPRAMODKUMAR965700
 
PPTX
micro irrigation system kvg
bykaushal gadariya
 
PPTX
Precision Irrigation Management.pptx
byUAS, Dharwad
 
PPTX
Unit 2 Irrigation Methods
byLeema Margret A
 
PDF
microirrigation-180224043112.pdf
byAMBIKABHANDARI5
 
PDF
Advances in irrigation agronomy
byEngr. Ali Chaudhary
 
PPT
Drip irrigation
byTushar Dholakia
 
PPTX
microirrigation-180224043112.pptx
byAMBIKABHANDARI5
 
PDF
An introduction to drip irrigation systems 1st ed Edition Singh
bybearbbyesssl
 
PPTX
MICRO IRRIGATION in detail with example.pptx
bysandypk124
 
PPT
DRIP IRRIGATION
bySwetha Jain
 
PPTX
Drip irrigation and fogging system under protected structure
byBijay Kumar Baidya
 
PPTX
Dp seminar
bydpmeena
 
PPTX
28Modern irrigation technique.pptx
by033RagulR
 
PPTX
Types of Irrigation Systems: Methods, Applications, and Efficiency
byIrri Development Group
 
PDF
Agriculture Engineering-chptr12 irrigation
bywatak manga pilu
 
DOCX
Drip irrigation seminar report.....
byGanesh Karpurapu
 
PDF
Lecture 7 -Modern Irrigation Methods.pdf
bydurreadanb
 
Drip irrigation and fertigation
byPooja Panwar
 
Micro irrigation & CA.ppt irrigation system
byneelu730796
 
Productivity of Field Crops Under Micro Irrigation.pptx
byPRAMODKUMAR965700
 
micro irrigation system kvg
bykaushal gadariya
 
Precision Irrigation Management.pptx
byUAS, Dharwad
 
Unit 2 Irrigation Methods
byLeema Margret A
 
microirrigation-180224043112.pdf
byAMBIKABHANDARI5
 
Advances in irrigation agronomy
byEngr. Ali Chaudhary
 
Drip irrigation
byTushar Dholakia
 
microirrigation-180224043112.pptx
byAMBIKABHANDARI5
 
An introduction to drip irrigation systems 1st ed Edition Singh
bybearbbyesssl
 
MICRO IRRIGATION in detail with example.pptx
bysandypk124
 
DRIP IRRIGATION
bySwetha Jain
 
Drip irrigation and fogging system under protected structure
byBijay Kumar Baidya
 
Dp seminar
bydpmeena
 
28Modern irrigation technique.pptx
by033RagulR
 
Types of Irrigation Systems: Methods, Applications, and Efficiency
byIrri Development Group
 
Agriculture Engineering-chptr12 irrigation
bywatak manga pilu
 
Drip irrigation seminar report.....
byGanesh Karpurapu
 
Lecture 7 -Modern Irrigation Methods.pdf
bydurreadanb
 

Recently uploaded

PDF
Hit The Homerun Prelims- A U25 sports quiz of Jigisha 4.0 organized by Pragya...
byPragya - UEM Kolkata Quiz Club
 
PDF
Introduction to Agriculture: Meaning, Scope, and Importance: Introduction to ...
byKrashi Coaching
 
PDF
Artificial Intelligence in Education: Transforming Teaching and Learning for ...
byNavid Nazhand
 
PDF
Navigating the Age of AI- Combating Social Isolation and Building Global Peac...
byALLLIFEREGARDSMFT
 
PDF
Auto Autorefractometer/ppt/notes/pdf.pdf
byAnmol Singh
 
PDF
President John Dramani Mahama has declared three days of national mourning fo...
bynservice241
 
PPTX
How to write python test cases in Odoo 18
byCeline George
 
PDF
Heat-Transfer-in-Nature.pdf/7th class new ncert/by k sandeep swamy/samyans ed...
bySandeep Swamy
 
PPTX
business economics unit 3 production dr kanchan (1).pptx
byDr. Kanchan Kumari
 
DOCX
PHYSIOLOGY NOTES - Dr. SUDHADEVI SADANANDAN
byDr. Sudhadevi Sadanandan
 
PPTX
Discharge procedure.................pptx
byAneetaSharma15
 
PPTX
Klosek, Teremi, and Wolfson "AI Essentials: From Tools to Strategies: A 2025 ...
byNational Information Standards Organization (NISO)
 
PPTX
Cartoon Revisions and Advertisement Grade 10
byBathabile Ngcobo
 
PPTX
Ethical principles in Indian tradition: Epics, Tripitakas, Jain Agamas and Dh...
byBanaras Hindu University
 
PDF
SlideShare Presentation presentation about awareness
byrebomash573
 
PPTX
Admission Procedure.................pptx
byAneetaSharma15
 
PDF
BED 105-B- Orientation - BEd. First Year - 2025
byMonika Tayade
 
PDF
CXC-AD Associate Degree Handbook (Revised)
byCaribbean Examinations Council
 
PPTX
Week 2-Introduction to Indian Ethics.pptx
byRajshreeBeneymadoo
 
PPTX
Isikhangisi .pptx....ukubaluleka kokwazi isikhangiso.
byKwanele28
 
Hit The Homerun Prelims- A U25 sports quiz of Jigisha 4.0 organized by Pragya...
byPragya - UEM Kolkata Quiz Club
 
Introduction to Agriculture: Meaning, Scope, and Importance: Introduction to ...
byKrashi Coaching
 
Artificial Intelligence in Education: Transforming Teaching and Learning for ...
byNavid Nazhand
 
Navigating the Age of AI- Combating Social Isolation and Building Global Peac...
byALLLIFEREGARDSMFT
 
Auto Autorefractometer/ppt/notes/pdf.pdf
byAnmol Singh
 
President John Dramani Mahama has declared three days of national mourning fo...
bynservice241
 
How to write python test cases in Odoo 18
byCeline George
 
Heat-Transfer-in-Nature.pdf/7th class new ncert/by k sandeep swamy/samyans ed...
bySandeep Swamy
 
business economics unit 3 production dr kanchan (1).pptx
byDr. Kanchan Kumari
 
PHYSIOLOGY NOTES - Dr. SUDHADEVI SADANANDAN
byDr. Sudhadevi Sadanandan
 
Discharge procedure.................pptx
byAneetaSharma15
 
Klosek, Teremi, and Wolfson "AI Essentials: From Tools to Strategies: A 2025 ...
byNational Information Standards Organization (NISO)
 
Cartoon Revisions and Advertisement Grade 10
byBathabile Ngcobo
 
Ethical principles in Indian tradition: Epics, Tripitakas, Jain Agamas and Dh...
byBanaras Hindu University
 
SlideShare Presentation presentation about awareness
byrebomash573
 
Admission Procedure.................pptx
byAneetaSharma15
 
BED 105-B- Orientation - BEd. First Year - 2025
byMonika Tayade
 
CXC-AD Associate Degree Handbook (Revised)
byCaribbean Examinations Council
 
Week 2-Introduction to Indian Ethics.pptx
byRajshreeBeneymadoo
 
Isikhangisi .pptx....ukubaluleka kokwazi isikhangiso.
byKwanele28
 

Advance Techniques in Micro Irrigation System.pptx

  • 1.
    Master Seminar (FSC-591) On AdvanceTechniques in Micro Irrigation System Hritul Kumar Gautam ID. No. : 2375 M.Sc. (Horticulture) Department of Fruit Science College of Horticulture BANDA UNIVERSITY OF AGRICULTURE AND TECHNOLOGY BANDA (U.P.)
  • 2.
    CONTENT  Introduction  Typesof Micro Irrigation System  Benefits of Micro Irrigation System  Component of Micro Irrigation System  Procedures for Designing Micro Irrigation System  Conclusion
  • 3.
    INTRODUCTION  The conceptof micro-irrigation is was firstly brought through experiment conducted in Germany since in 1860s then in USA in 1910s.  The micro-irrigation system is define as to distribute water as close as possible to the root zone of the plant, in small quantity, slowly but frequently, so that the process stays under high control.  The advantages of micro-irrigation over conventional irrigation are impressive. As the water is applied at the closest to the root zone there is much less water loss through deep percolation and evaporation, hence the water use efficiency (WUE) is much higher.
  • 4.
    Types of Micro- irrigationSystem Drip Irrigation System Sprinkler Irrigation System
  • 5.
    Drip Irrigation System Dripirrigation system is a method of applying the required amount of water directly to the root zones of plants through drippers or emitters at frequent intervals. In this system, water is applied drop-by-drop or by a micro jet on the soil surface or sub-surface at a rate lower than the infiltration rate of the soil. Place emitters every 12 inches apart in soil, and the water flow rate is 2-20 LPH.
  • 6.
    Surface Drip Irrigation Surfacedrip irrigation is a system that delivers the water in small quantity, drop by drop, to each individual plant on the field by the means of tubes running on the open surface of the soil.
  • 7.
    Sub- Surface DripIrrigation Sub-surface drip irrigation is a method of irrigating crops through buried plastic tubes, containing embedded emitters located at regular spacings. These system the drip tubes are typically located 90–220 cm apart and 15–25 cm below the soil surface.
  • 8.
    Family Drip IrrigationSystem Family drip or ‘gravity fed drip irrigation’ system is a low-cost system developed for small plots. It is suitable for house gardening. It can also be used to demonstrate the working of drip irrigation system.
  • 9.
    In-Line Drip Irrigation Inlinedrip irrigation system the drippers are fixed in the lateral tube at designed spacings at the time of manufacturing to meet the requirement of various crops. It is effective for row crops like cotton, sugarcane, groundnut, vegetables and flowering crops.
  • 10.
    On-Line Drip Irrigation Inthis system, emitters or drippers are fixed externally on the laterals at designed spacings. Thus, the drippers can be checked and cleaned easily in case of clogging. The dripper spacing can be changed any time to cover the increased root zone of a plant. Online dripper system is used in orchards, vineyards, artificial landscapes and nurseries.
  • 11.
    Bubbler Irrigation In thissystem the water is applied to the soil surface in a small stream or fountain. The discharge rate for point source bubbler emitters is greater than the drip. These are suitable in situations where large amount of water need to be applied in a short period of time and suitable for irrigating trees with wide root zones and high water requirements.
  • 12.
    Sprinkler Irrigation System Theapplication of water by a small spray or mist to the soil surface, through the air. The sprinkler irrigation is one of the pressurized irrigation methods, in which water is sprayed into the air and fall on the ground. The spray of water is developed by the flow of water under pressure through small nozzles.
  • 13.
    Centre Pivot The centerpivot is capable of irrigating most field crops. It consists of a single sprinkler lateral supported by a series of towers. It is anchored at one end and rotates around a fixed central point called ‘pivot point’. The control panel attached to the pivot point gives commands to the central pivot machine.
  • 14.
    Towable Pivot Towable pivotis similar to center pivot. But here, the pivot is towed away by a tractor. There are 3–4 wheels in the center of the pivot, which make it possible to move the pivot from one place to another by pulling it with the help of the tractor.
  • 15.
    Rain-Gun A rain gunis used as a water spray mist or fog beam. It discharges water at less than 175 lph. It is used to irrigate trees and other crops separated widely. Fruit tree crops like citric, mango, guava, avocado, etc. can be irrigated with a rain gun.
  • 16.
    Impact Sprinkler This sprinkleris driven in a circular motion by the force of outgoing water, and at least, one of its arms extends from the head. The sprinkler arm is repeatedly pushed back into the water stream by a spring. Impact sprinkler is recommended for closely spaced field crops like potato, leafy vegetables, cotton, oilseeds, pulses, cereals, fodder crops, etc.
  • 17.
    Pop Up Sprinkler Apop up sprinkler consists of an inlet, body, cap, wiper seal, riser, nozzle and radius adjustment screw. Such a sprinkler is portable and easy to install, thereby, making it ideal for irrigating lawns, seasonal flowers and planting beds.
  • 18.
    Linear Move Sprinkler Linearmove sprinkler irrigation system is similar to the center pivot system in construction, except that neither end of the lateral pipeline is fixed. It is composed of a series of towers that are suspended and move laterally in the direction of rows. The whole line moves down the field perpendicular to the lateral.
  • 19.
  • 20.
  • 22.
    Control Head • Deliverswater form the source to the mainline. • Control the amount and the pressure of water delivered, filter that water to avoid operational problems. • Added the fertilizer and chemical The control head typically has following major components: • Pumping station • Control and monitoring devices • Fertilizer and chemical injectors • Filtration system
  • 23.
  • 24.
    The main types ofchemical injectors are the venturi injector, injection pump, and the differential tank. Criteria for selecting the proper injection system include cost, ease of use/repair, durability and susceptibility to corrosion. Fertilizer and chemical injectors The hazard of blocking or clogging necessitates the use of filters for efficient and trouble free operation of the micro-irrigation system. Filtration system This system is tells your sprinkler system when to turn on and how long the water should remain on before the system shuts down. Control and monitoring devices It is required to provide sufficient pressure in the system. Centrifugal pumps are generally used for low pressure trickle systems. Pumping station
  • 25.
    Procedures for designingMI system Type of MI system. Select and design of emitters and nozzle Determine the capacity requirements of the MI system Required sizes of mainline pipe, manifold and lateral lines. Operating flow rates and pressures Select pump and power unit Instructions for proper layout, operation and maintenance
  • 26.
    Conclusion From the foregoingdiscussion, it can be concluded that fertigation, a recently emerged advance technique holds promise in yield maximization in wide spaced crops viz. cash crops, fruits & vegetables and plantation crops. Besides bumper yield in most of the crops, it realizes 20-40 % fertilizer saving and 40-50% water saving as well as nutrient uptake and better quality of produce. Adoption of this technique to a larger extent will not only increase the crop yield but also the fertilizer use efficiency and quality of produce. However, extensive efforts are required for standardization of this technique for varying crops and conditions.
  • 27.
    Water used andyield of crops in micro and conventional irrigation methods Crop Methods of irrigation Water % water saving Yield % increase in yield Water use efficiency requirem ent (cm) kg ha-1 (kg ha mm-1) Banana Drip 97 45 87500 52 90.2 Surface 176 - 57500 - 32.67 Sugarcane Drip 94 56 170000 33 180.85 Furrow 215 - 128000 - 59.53 Grapes Drip 27.8 48 32500 23 116.9 Surface 53.2 - 26400 - 49.62 Papaya Drip 73.88 67.89 23490 69.47 0.32 Surface 225.8 - 13860 - 0.06 Mulberry Drip 20 60 71400 3.03 3570 Surface 50 - 69300 - 1386 Tomato Drip 18.4 39 48000 50 260.86 Surface 30 - 32000 - 106.66 (WTC Annual Reports 1985-2003)
  • 28.
    Table 1. Potentialand actual area under MI in different states (Area in ‘000 ha) State Drip Sprinkler Total P A % P A % P A % Andhra Pradesh 730 363.07 49.74 387 200.95 51.93 1,117 564.02 50.49 Bihar 142 0.16 0.11 1,708 0.21 0.01 1,850 0.37 0.02 Chattisgarh 22 3.65 16.58 189 59.27 31.36 211 62.92 29.82 Goa 10 0.76 7.62 1 0.33 33.2 11 1.09 9.95 Gujarat 1,599 169.69 10.61 1,679 136.28 8.12 3,278 305.97 9.33 Haryana 398 7.14 1.79 1992 518.37 26.02 2,390 525.5 21.99 Himachal Pradesh 14 0.12 0.83 101 0.58 0.58 115 0.7 0.61 Jharkand 43 0.13 0.31 114 0.37 0.32 157 0.5 0.32 Karnataka 745 177.33 23.8 697 228.62 32.8 1,442 405.95 28.15 Kerala 179 14.12 7.89 35 252 7.19 214 16.64 7.77 Madhya Pradesh 1,376 20.43 1.48 5,015 117.69 235 6,391 138.12 2.16 Maharashtra 1,116 482.34 43.22 1,598 214.67 12.53 2,714 697.02 25.68 Nagaland 11 0 0 42 3.96 9.43 53 3.96 7.48 Orissa 157 3.63 2.31 62 23.47 37.85 219 27.1 12.37 Punjab 559 11.73 2.1 2,819 10.51 0.37 3,378 22.24 0.66 Rajasthan 727 17 2.34 4,931 706.81 14.33 5,658 723.82 12.79 Tamil Nadu 544 131.34 24.14 158 27.19 17.21 702 158.52 22.58 Uttar Pradesh 2,207 10.68 0.48 8,582 10.59 0.12 10,789 21.26 0.2 West Bengal 952 0.15 0.02 280 150.03 53.58 1,232 150.18 12.19 Others 128 15 11.72 188 30 15.96 316 45 14.24 Total 11,659 1,428.46 12.25 30,578 2442.41 7.99 42,237 3,870.86 9.16 Source: Raman(2010) and Indiastat 2010.
  • 29.
     Delorme, G.,Srivastava, G. and Shanmugasundaram, M. (2017). A state-of-art review on studies and effectiveness of micro-irrigation systems. Int. J. Civ. Eng. Technol., 8; pp.881-888.  Evans, R.G., Wu, I.P. and Smajstrala, A.G. (2007). Micro-irrigation systems. In Design and Operation of Farm Irrigation Systems, 2nd Edition. American Society of Agricultural and Biological Engineers. pp. 632- 683.  Goyal, M.R. (2014). Management, performance and applications of micro irrigation systems. CRC Press.  http://ecoursesonline.iasri.res.in/course/view.php?Id=546  https://agritech.tnau.ac.in/agriculture/agri_irrigationmgt_microirrigation.html  Kumar, A., Burdak, B., Thakur, H., Harshavardhan, S., Rao, S.N., Mrudula, P. and Aibel, H.P. (2023). A review on role of micro irrigation for modern agriculture. The Pharma Innovation Journal, 12(6): pp.2585- 2589.  Viswanathan, P.K., Kumar, M.D. and Narayanamoorthy, A. (2016). Micro irrigation systems in India: Emergence, status and impacts. Springer Science Business Media Singapore. p. 186. References