saha fertigation
TRANSCRIPT
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SUPPLYING PLANT NUTRIENTS VIA
FERTIGATION: PRINCIPLES AND
EXAMPLES IN TRIPLOID WATERMELON
Shubin K. Saha, Ph.D., D.P.M.
Purdue University, SWPAC
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What is Fertigation?
!
Application offertilizer materials
via the irrigation
system.
!
Commonly via trickle
irrigation
!
Also via center pivotand micro-sprinklers
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Benefits of Fertigation
!
Controlled application of nutrients and water
! Increased flexibility of fertilizer application
!
Allows better timing of application correlated withcrop growth stage
!
Allows small dosage application
!
Minimizes leaching and negative environmental
impacts
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Benefits of Fertigation
!
Increased water use efficiency
! Increased fertilizer use efficiency
!
Potential to reduce fertilizer inputs, reducingproduction costs
!
Reduce foliar disease-minimizing leaf wetness
!
Reduce weeds- fertilizer only applied to crop
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Fertigation Concerns
! Increased management required
! Investment in appropriate injection
equipment!Potential for emitter clogging
!Fertilizer source must be water soluble
!Be cautious of precipitation reactions with
fertilizer components
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Fertigation Concerns
!
Over-irrigation leaches nitrogen out of effectiveroot zone, thus unavailable to crops
! Environmental contamination possible w/o
appropriate devices- i.e. backflow preventer
!
Fertilizer uniformity dictated by irrigation uniformity
!
Unnecessary water application- i.e. field at full
water capacity, but program is calling for fertilizerapplication.
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Fertilizer Injection
! Injector Selection:
- type of irrigation system (flow rate/pressure etc.)
- crop
- chemical to be injected
- source of power
- expansion possibilities
- safety considerations! 2 main types: Passive and Active
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Fertilizer Injection
!
Passive: utilizes the energy supplied by theirrigation system
! Ex. Venturi, pitot tube, use of pressure differentials
!
Venturi: operates by creating a vacuum when
irrigation water is forced through a constriction.
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Fertilizer Injection
! Active: utilizes external energy or mechanicalmoving part to create pressure exceeding themainline pressure to inject the fertilizer.
! Ex. Pumps, compressors, water powered!
Water powered (dosatron): energy of pressurizedwater in the irrigation to drive the piston
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Background
!
Midwest Vegetable Production Guide (ID-56) 80 lbsN/Acre
! Common in SW Indiana 170 lbs N/Acre
! Production guides for University of Florida and OhioState University 150 lbs N/Acre
! Major crop for SW Indiana growers extra fertilizerviewed as insurance
! Critical to have sufficient N to ensure good yields!
Economically viable fertilizer relatively inexpensiveinput
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Background
!
Nitrogen fertilizer produced with fossil fuels and cost isincreasing
! Poor fertilizer management has negative impacts
regardless of application method:- Environmental contamination of aquatic ecosystemsand ground water
- Waste of economic input
- Potential to increase foliar diseases and attack byother arthropod pests
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Production Methods 2010
! Plasticulture black plastic mulch and drip tape
! Pre-plant fertilizer:100 lbs 0-0-60
200 lbs pelletized lime
! Watermelon plots: 8 centers, 40 rows, 48 in-row,10 plants/plot, 5 pollinators/plot (SP-5)
!
RCBD with 6 replicates
!
Variety: Tri-X 313 (Rogers/Syngenta)! Treatments applied using Linear Bed Foot Method
as opposed to Broadcast method
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Linear Bed Foot Method
! Per Acre expression derived from row crops wheremost of acre is planted to crops.
!
LBF is the linear distance of 1 foot measured along amulched bed
! Based on the premise that the entire area in a givenacre is not planted in a plasticulture system
! Focuses fertilizer application in the area of the fieldwhere crops are actually planted
(Hochmuth and Hanlon, 2009)
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Treatments 2010 - LBF
! 80 lbs N/Acre pre-plant
!
80 lbs N/Acre 25% pre-plant, 75% throughout
growing season via fertigation
!
160 lbs N/Acre pre-plant
! 160 lbs N/Acre 25% pre-plant, 75% throughoutgrowing season via fertigation
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Production Methods 2011
! Plasticulture black plastic mulch and drip tape
! Pre-plant fertilizer:100 lbs 0-0-60
200 lbs pelletized lime
! Watermelon plots: 8 centers, 48 rows, 48 in-row,12 plants/plot, 6 pollinators/plot (SP-5)
!
RCBD with 4 replicates
! Variety: Tri-X 313 (Rogers/Syngenta)
! 9 total treatments using both Broadcast and LBFmethods
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Treatments 2011 Broadcast and
Linear Bed Foot Method
! 80 lbs N/Acre pre-plant (LBF)
!
80 lbs N/Acre 25% pre-plant, 75% throughout growingseason via fertigation (LBF)
!
160 lbs N/Acre pre-plant (LBF)
! 160 lbs N/Acre 25% pre-plant, 75% throughout growingseason via fertigation (LBF)
! 80 lbs N/Acre pre-plant (B)
! 80 lbs N/Acre 25% pre-plant, 75% throughout growingseason via fertigation (B)
! 160 lbs N/Acre pre-plant (B)
!
160 lbs N/Acre 25% pre-plant, 75% throughout growingseason via fertigation (B)
! 0 LBS N/Acre
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Fertilizer Materials and Application
2010 and 2011
! Pre-plant material 46-0-0 (Urea)
!
Fertigation material 9-0-0-11 (Calcium nitrate)
! Fertigation treatments applied 1x per week for tenweeks May 26th July 28th
! In-season application with Dosatron proportionalinjector
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*NS indicates that means in columns are not statistically different although they may be
numerically different.
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zLBF = Linear Bed Foot Method, B = broadcast applicationyPlot size = 384ft2xNS = no significance, means separated by Fishers least significant difference test (P !0.05)
6932" T@ A&"2B )C .%&'2)&B D9."%
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z LBF = Linear Bed Foot Method, B = broadcast application
yBrix: percent soluble solids, Higher values related to higher sugar content in the fruit.xMeans in columns separated by Fishers least significant difference test (P !0.05),
means with same letter are not significantly different. NS=not significant
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Acknowledgements
!
Dennis Nowaskie
! Bill Davis
!
Angie Thompson! Sara Hoke
!
Chelsey Cardinal
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Questions?
Contact: Shubin K. Saha