Unit 9: Soil Fertility Management Chapter 10. Objectives Understand objectives of soil fertility...
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Transcript of Unit 9: Soil Fertility Management Chapter 10. Objectives Understand objectives of soil fertility...
ObjectivesObjectives
Understand objectives of soil fertility Understand objectives of soil fertility managementmanagement
Philosophies/techniques of precision Philosophies/techniques of precision farmingfarming
Using & obtaining valid soil samplesUsing & obtaining valid soil samples Considerations in making/following Considerations in making/following
fertilizer recommendationsfertilizer recommendations Knowledge of fertilizer qualityKnowledge of fertilizer quality How to calculate fertilizer blendsHow to calculate fertilizer blends Fertilizer application methodsFertilizer application methods Benefits/limitations of manure useBenefits/limitations of manure use
IntroductionIntroduction
Fertilizer is one management Fertilizer is one management option used almost universallyoption used almost universally
Must replace soil nutrients lost by Must replace soil nutrients lost by harvestharvest
Over-fertilization can result in Over-fertilization can result in dangerous pollutiondangerous pollution
Technology has increased Technology has increased fertilizer efficiencyfertilizer efficiency
Goals & Concerns in Goals & Concerns in Fertility ManagementFertility Management Goals regarding fertilityGoals regarding fertility
– Increase yieldIncrease yield– Reduce costs/unit productionReduce costs/unit production– Improve product qualityImprove product quality– Avoid environmental pollutionAvoid environmental pollution– Improve environmental health & Improve environmental health &
aestheticsaesthetics
Goals & Concerns in Goals & Concerns in Fertility ManagementFertility Management Efficient land managers: spend Efficient land managers: spend
<20% of production costs on <20% of production costs on fertilizers, expect >50% increase in fertilizers, expect >50% increase in yieldsyields
Fertilizers may not be profitable if:Fertilizers may not be profitable if:– Water is the most limiting factorWater is the most limiting factor– Other growth hindrances – insects, Other growth hindrances – insects,
diseases, acidity, extreme colddiseases, acidity, extreme cold– Increased yield has less market value Increased yield has less market value
than the cost of buying/app of fertilizerthan the cost of buying/app of fertilizer
Goals & Concerns in Goals & Concerns in Fertility ManagementFertility Management Fertilizers – generally most Fertilizers – generally most
profitable farm inputprofitable farm input Soil fertility problems usually the Soil fertility problems usually the
easiest to solveeasiest to solve Soil nutrients typically present in Soil nutrients typically present in
finite amounts, don’t replenish finite amounts, don’t replenish themselvesthemselves
Crops typically contain: (in rank of Crops typically contain: (in rank of amount found in the plant) N, K, Ca, amount found in the plant) N, K, Ca, P, Mg, SP, Mg, S
Goals & Concerns in Goals & Concerns in Fertility ManagementFertility Management Utilizing fertilizers may help cut unit Utilizing fertilizers may help cut unit
cost of production by maximizing cost of production by maximizing yieldyield– Improved fertility = improved yields, Improved fertility = improved yields,
improved aesthetic appealimproved aesthetic appeal Environmental concerns aboundEnvironmental concerns abound
– Fertilizer laws viewed as lax by someFertilizer laws viewed as lax by some– Farmers may be the primary cause of Farmers may be the primary cause of
non-point-source pollutionnon-point-source pollution
Goals & Concerns in Goals & Concerns in Fertility ManagementFertility Management
– Three common pollutants:Three common pollutants: NitratesNitrates
– Percolate through to groundwaterPercolate through to groundwater– Not safe to drinkNot safe to drink– Cause “Blue-baby” syndrome – inhibits Cause “Blue-baby” syndrome – inhibits
oxygenation of bloodoxygenation of blood– Becoming common near heavily fertilized Becoming common near heavily fertilized
fields, feedlots, dairiesfields, feedlots, dairies PhosphatesPhosphates
– Pollute surface waters by runoffPollute surface waters by runoff– Promotes algae growth in rivers/pondsPromotes algae growth in rivers/ponds– Depletes available oxygen in the water for Depletes available oxygen in the water for
fishfish
Goals & Concerns in Goals & Concerns in Fertility ManagementFertility Management
– Wise use of fertilizers must be Wise use of fertilizers must be encouraged, actually improve the encouraged, actually improve the environmentenvironment Crops, trees, etc. - remove more CO2, Crops, trees, etc. - remove more CO2,
decrease sediment, dust, erosiondecrease sediment, dust, erosion Plays important role for future of the Plays important role for future of the
planetplanet
Scale of Land Scale of Land ManagementManagement Large- & Medium-Scale Large- & Medium-Scale
ManagementManagement– Large-ScaleLarge-Scale
Low levels of operational precision, little Low levels of operational precision, little reliance on sophisticated technologyreliance on sophisticated technology
May be most feasible/profitable for someMay be most feasible/profitable for some Simple & low-techSimple & low-tech Some shy away from high tech for other Some shy away from high tech for other
reasonsreasons
Scale of Land Scale of Land ManagementManagement
DisadvantagesDisadvantages– Some parts of field may receive too much/little Some parts of field may receive too much/little
fertilizer or pesticidefertilizer or pesticide– Less than optimal yieldsLess than optimal yields– Inefficient use of fertilizers & pesticidesInefficient use of fertilizers & pesticides– Higher cost of production/unitHigher cost of production/unit– Environmental pollution due to over applicationEnvironmental pollution due to over application
AdvantagesAdvantages– Minimal technological training & Minimal technological training &
instrumentation neededinstrumentation needed– Field operations can be performed w/ standard, Field operations can be performed w/ standard,
readily available, cheaper equipmentreadily available, cheaper equipment
Scale of Land Scale of Land ManagementManagement
– Medium-ScaleMedium-Scale Subdivide field into two+ management Subdivide field into two+ management
unitsunits– Delineation may be based on:Delineation may be based on:
Soil typesSoil types Past management differencesPast management differences Farmer’s observationsFarmer’s observations
Ex. High, medium, low N application areas Ex. High, medium, low N application areas in the fieldin the field
Same equipment/technology needs as for Same equipment/technology needs as for large-scale management farmerslarge-scale management farmers
Scale of Land Scale of Land ManagementManagement
Does improve efficiency of farm inputsDoes improve efficiency of farm inputs Can reduce excessive applications of Can reduce excessive applications of
chemicals/fertilizerschemicals/fertilizers– May do spot treatments/applications w/in a May do spot treatments/applications w/in a
field due to field observationsfield due to field observations
Small-Scale Management Small-Scale Management (Precision Farming)(Precision Farming)– Global Positioning System (GPS)Global Positioning System (GPS) – –
network of U.S. satellites w/ a signal network of U.S. satellites w/ a signal detection system used to locate detection system used to locate positions on the groundpositions on the ground
Scale of Land Scale of Land ManagementManagement
– Soil sample fields on a gridSoil sample fields on a grid– Data collection points no more than Data collection points no more than
a few feet aparta few feet apart– Each sample site mapped using GPSEach sample site mapped using GPS– Custom applicators can custom Custom applicators can custom
apply fertilizers at variable rates that apply fertilizers at variable rates that change constantly as the applicator change constantly as the applicator travels the field – travels the field – variable rate variable rate application, site-specific application, site-specific management, precision farmingmanagement, precision farming
Scale of Land Scale of Land ManagementManagement
– Potential to substantially decrease Potential to substantially decrease fertilizer/chemical application ratesfertilizer/chemical application rates
– Potential to substantially decrease Potential to substantially decrease input costsinput costs
– Does require expensive technology, Does require expensive technology, equipment & extensive technical equipment & extensive technical knowledgeknowledge
Soil SamplingSoil Sampling
Standard method for determining Standard method for determining soil fertilitysoil fertility
Use w/ precision farming to Use w/ precision farming to minimize inputsminimize inputs
Accuracy of sample is key!!!!Accuracy of sample is key!!!!
Soil SamplingSoil Sampling
Depth & Number of SamplesDepth & Number of Samples– Sampling depth – 7-12” for typical soil Sampling depth – 7-12” for typical soil
analysisanalysis Shallower depth for no-till/sod crops – acid-Shallower depth for no-till/sod crops – acid-
layer can form at very top of soil structurelayer can form at very top of soil structure For accurate N analysis – 24-36” depthFor accurate N analysis – 24-36” depth
– For composite sampling – fewer # For composite sampling – fewer # samples decreases accuracy of analysissamples decreases accuracy of analysis
Soil SamplingSoil Sampling
Sampling Frequency, Time, & Sampling Frequency, Time, & LocationLocation– New land, land new to you – yearly for New land, land new to you – yearly for
11stst few yrs until you understand the soil few yrs until you understand the soil– Every 2-3 yrs, unless concern for Every 2-3 yrs, unless concern for
environmental problemsenvironmental problems– Analysis – determines which nutrients Analysis – determines which nutrients
can be made available in the soil & can be made available in the soil & which will need to be suppliedwhich will need to be supplied
– Samples often pulled in fall to provide Samples often pulled in fall to provide enough time for analysis/amendmentsenough time for analysis/amendments
Soil SamplingSoil Sampling
Spring sampling is more accurate, but Spring sampling is more accurate, but conditions may not be favorable, or not conditions may not be favorable, or not sufficient timesufficient time
– Sampling row crops problematicSampling row crops problematic Can hit a fertilizer zoneCan hit a fertilizer zone Hard to get enough representative Hard to get enough representative
samplessamples
Soil SamplingSoil Sampling
Uniformity of Sampling AreasUniformity of Sampling Areas– Examine field for differences in soil Examine field for differences in soil
characteristics, past treatmentscharacteristics, past treatments– Consider:Consider:
Uniformity of productivityUniformity of productivity TopographyTopography Soil textureSoil texture Soil structureSoil structure DrainageDrainage Depth/color topsoilDepth/color topsoil Past managementPast management
Soil SamplingSoil Sampling
– Sampling areaSampling area Each composite sample should Each composite sample should
represent <12.5 acrepresent <12.5 ac– Grid sampling can be as small as you needGrid sampling can be as small as you need– 5-10 ac grids are common5-10 ac grids are common
Providing Detailed Soil & Cropping Providing Detailed Soil & Cropping Background Background – Helps to provide w/ soil analysis to Helps to provide w/ soil analysis to
increase accuracy of fertilizer increase accuracy of fertilizer recommendationsrecommendations
Soil SamplingSoil Sampling
– Include:Include: Previous cropPrevious crop Crop (s)) to be grownCrop (s)) to be grown Realistic yield goalRealistic yield goal Last liming & fertilization ratesLast liming & fertilization rates Manure applicationsManure applications Soil series (if known)Soil series (if known) Drainage infoDrainage info If irrigation usedIf irrigation used
Soil SamplingSoil Sampling
Other problems:Other problems:– Temp, geographic location, elevation, Temp, geographic location, elevation,
farming practices, etc.farming practices, etc.
Soil TestsSoil Tests
Law of the Minimum:Law of the Minimum: growth of the growth of the plant is limited most by the essential plant is limited most by the essential plant nutrient present in the least plant nutrient present in the least relative amount (first-limiting)relative amount (first-limiting)
Soil Acidity EvaluationSoil Acidity Evaluation– pH measured w/ electrode & solutionpH measured w/ electrode & solution– Lime requirementLime requirement – amount of lime – amount of lime
required to achieve desired pHrequired to achieve desired pH Reported as Reported as buffer pHbuffer pH
Soil TestsSoil Tests
Soil Test for NSoil Test for N– No good tests for soil available NNo good tests for soil available N– Most states provide N recommendations Most states provide N recommendations
based on yrs of field plots trials on various based on yrs of field plots trials on various crops, soils, management, fertilizerscrops, soils, management, fertilizers
– N recommendations consider:N recommendations consider: Previous cropsPrevious crops Estimates N carryoverEstimates N carryover N needed to decompose residuesN needed to decompose residues Projected yieldsProjected yields ClimateClimate
Soil TestsSoil Tests
– Lab N tests accurate, but nearly Lab N tests accurate, but nearly impossible to interpretimpossible to interpret Some will discourage N testingSome will discourage N testing
– Behavior of carryover N unpredictable Behavior of carryover N unpredictable – can make analyses invalid– can make analyses invalid LeachingLeaching DenitrificationDenitrification MineralizationMineralization ClimateClimate
Soil TestsSoil Tests
– N recommendations based on yield N recommendations based on yield goals rather than soil reservesgoals rather than soil reserves
– Corn RuleCorn Rule – 1.2-1.4#N/bu of yield – 1.2-1.4#N/bu of yield goalgoal How much N should be recommended How much N should be recommended
for corn following corn, expected yield for corn following corn, expected yield 120 bu/ac?120 bu/ac?
How much N should be recommended How much N should be recommended for corn following soybeans, expected for corn following soybeans, expected yield 195 bu/ac?yield 195 bu/ac?
Soil TestsSoil Tests
Soil Tests for P & KSoil Tests for P & K– Widely used to predict probability of Widely used to predict probability of
crop response to fertilizationcrop response to fertilization– Survey:Survey:
47% soil tested medium to low for P47% soil tested medium to low for P 43% soil tested medium to low for K43% soil tested medium to low for K P & K soil levels declining in many P & K soil levels declining in many
statesstates
– P testingP testing Quite reliable – soil P is very stable from Quite reliable – soil P is very stable from
yr to yryr to yr
Soil TestsSoil Tests
Most soil P unavailable to cropsMost soil P unavailable to crops Soil test extracts & measures what may Soil test extracts & measures what may
actually be availableactually be available
– K testingK testing Tests both exchangeable & soluble reservesTests both exchangeable & soluble reserves Conflicting testing procedures over which is Conflicting testing procedures over which is
most accuratemost accurate– Some estimate upper threshold needs ~159-Some estimate upper threshold needs ~159-
246#/ac (above which no response to K fertilizer)246#/ac (above which no response to K fertilizer)– Others - 335#/ac on clay soils (calculated based Others - 335#/ac on clay soils (calculated based
on soil CEC – higher CEC = decreased available K)on soil CEC – higher CEC = decreased available K)
– Some experimentation w/ soil probes Some experimentation w/ soil probes checking K, NOchecking K, NO33, PO, PO44, SO, SO44
Soil TestsSoil Tests
Soil Test for Ca & MgSoil Test for Ca & Mg– Related to need for limeRelated to need for lime– Well-limed soils rarely Ca & Mg Well-limed soils rarely Ca & Mg
deficientdeficient– Mg deficiency more common than CaMg deficiency more common than Ca
Coarse-textured or acidic soilsCoarse-textured or acidic soils Many yrs using non-Mg containing limeMany yrs using non-Mg containing lime
– Mg testing for:Mg testing for: Exchangeable soil MgExchangeable soil Mg % Mg saturation of soil colloids% Mg saturation of soil colloids Ratio of K:MgRatio of K:Mg
Soil TestsSoil Tests
Soil Test for S & BSoil Test for S & B– S testing inaccurate – acts much like S testing inaccurate – acts much like
NN Can test – but must take variability into Can test – but must take variability into
accountaccount
– Boron level recommendationsBoron level recommendations <1.0 ppm – deficient for plant growth<1.0 ppm – deficient for plant growth 1-5.0 ppm – adequate1-5.0 ppm – adequate >5.0 ppm – excess/toxicity risks>5.0 ppm – excess/toxicity risks
Soil TestsSoil Tests
Soil Test for Micronutrient NeedsSoil Test for Micronutrient Needs– Difficult to develop accurate tests Difficult to develop accurate tests
due to relatively infrequent need for due to relatively infrequent need for field supplementationfield supplementation
– Can be done, if requested for a Can be done, if requested for a specific needspecific need
– Adds expense to soil analysisAdds expense to soil analysis
Soil TestsSoil Tests
How Good Is Soil Testing?How Good Is Soil Testing?– Analyses recalibrated regularly Analyses recalibrated regularly
based on field trial studiesbased on field trial studies– Validity of analysis related directly Validity of analysis related directly
to accuracy of sample, information to accuracy of sample, information provided to the labprovided to the lab
– Soil analyses generally very valid Soil analyses generally very valid for: P, K, soluble salts, pH, limefor: P, K, soluble salts, pH, lime Other tests should only be used on as-Other tests should only be used on as-
needed basisneeded basis– Extra costExtra cost– Less accurateLess accurate
Analysis of PlantsAnalysis of Plants
Only way to be sure of soil nutrient Only way to be sure of soil nutrient availabilityavailability
Plant Analysis vs. Soil TestingPlant Analysis vs. Soil Testing– Plant most accurate report on what Plant most accurate report on what
nutrients are nutrients are actuallyactually available available– Plant analysis leaves little to no room Plant analysis leaves little to no room
for amendments to the soilfor amendments to the soil– When deficiencies are acknowledged, When deficiencies are acknowledged,
yield usually already affectedyield usually already affected
Analysis of PlantsAnalysis of Plants
– When is plant analysis most helpful?When is plant analysis most helpful? Treatment of an easily-corrected Treatment of an easily-corrected
deficiencydeficiency Long-growing crops: turf, tree fruits, Long-growing crops: turf, tree fruits,
forests, sugar caneforests, sugar cane
Quick Tests in the FieldQuick Tests in the Field– Can test for N, K status in plants Can test for N, K status in plants
Collect ~20 leaves for sampleCollect ~20 leaves for sample– Must be random from different locationsMust be random from different locations– Don’t select only affected-looking leavesDon’t select only affected-looking leaves
Analysis of PlantsAnalysis of Plants
Chop/mix, squeeze sap & testChop/mix, squeeze sap & test Most effective for greenhouse/nursery growersMost effective for greenhouse/nursery growers
– Amendments can easily be madeAmendments can easily be made– High possible economic lossesHigh possible economic losses
Total Plant AnalysisTotal Plant Analysis– Done in a labDone in a lab– Should be tested by stage of developmentShould be tested by stage of development– Random sampling keyRandom sampling key
Analysis of PlantsAnalysis of Plants
– Indicate part of plant sampled & be Indicate part of plant sampled & be consistent consistent
– Dry to prevent spoilage (confounds Dry to prevent spoilage (confounds results)results)
– Wrap in paper and mail w/ complete Wrap in paper and mail w/ complete report – complete history, report – complete history, information criticalinformation critical
Analysis of PlantsAnalysis of Plants
Interpreting Plant AnalysesInterpreting Plant Analyses– Accurate interpretation difficult if not Accurate interpretation difficult if not
all critical information providedall critical information provided– Element classified as deficient if Element classified as deficient if
below threshold nutrient levelsbelow threshold nutrient levels Levels change through season, stage of Levels change through season, stage of
development, etc.development, etc.
– Some general disagreement from Some general disagreement from scientists on what threshold levels scientists on what threshold levels areare
Analysis of PlantsAnalysis of Plants
Critical Nutrient RangeCritical Nutrient Range– CNR – ranges at which nutrients are:CNR – ranges at which nutrients are:
Visually deficientVisually deficient Hidden deficientHidden deficient Slightly deficientSlightly deficient Sufficient supplySufficient supply ToxicToxic
Analysis of PlantsAnalysis of Plants
Visual Nutrient Deficiency SymptomsVisual Nutrient Deficiency Symptoms– ChlorosisChlorosis – yellowish to whitish – yellowish to whitish
appearance to foliage, stemappearance to foliage, stem– NecrosisNecrosis – dead tissue – dead tissue– Causes: disease, insect damage, salt Causes: disease, insect damage, salt
accumulation, stress, nutrient accumulation, stress, nutrient deficienciesdeficiencies
– Some visual symptoms same for many Some visual symptoms same for many diseases/deficienciesdiseases/deficiencies
Analysis of PlantsAnalysis of Plants
– Nutrients are relocated in the plant Nutrients are relocated in the plant by two pathwaysby two pathways XylemXylem – water-carrying vessels – water-carrying vessels
– All nutrients can pass throughAll nutrients can pass through PhloemPhloem – sugar-carrying vessels – sugar-carrying vessels
– Not all nutrients can relocateNot all nutrients can relocate– Mobile nutrientsMobile nutrients – travel freely – travel freely– Immobile nutrientsImmobile nutrients – can’t be moved from – can’t be moved from
their location in the planttheir location in the plant
– Mobile nutrient deficiencies tend to Mobile nutrient deficiencies tend to occur on older leaves – plant occur on older leaves – plant sacrifices old for new tissuesacrifices old for new tissue
Analysis of PlantsAnalysis of Plants
– Immobile nutrient deficiencies – Immobile nutrient deficiencies – symptoms on shoot/root tips, fruitssymptoms on shoot/root tips, fruits Can’t be treated from the soil w/ Can’t be treated from the soil w/
fertilizer – plant can’t send Ca (ex) to fertilizer – plant can’t send Ca (ex) to the ripening fruitthe ripening fruit
– Mobile nutrients:Mobile nutrients: N, P, K, Cl, Mg, SN, P, K, Cl, Mg, S
– Immobile nutrients:Immobile nutrients: Cu, Mn, Zn, Fe, Mo, SCu, Mn, Zn, Fe, Mo, S
– Very immobile nutrients:Very immobile nutrients: B, CaB, Ca
Fertilizer Fertilizer RecommendationsRecommendations
Different labs make different Different labs make different recommendationsrecommendations
Traditional philosophies being Traditional philosophies being challengedchallenged
P application ratesP application rates Yield-based N recommendationsYield-based N recommendations
Fertilizer Fertilizer RecommendationsRecommendations Developing a Fertilizer Developing a Fertilizer
RecommendationRecommendation– Must have sufficient plot data to Must have sufficient plot data to
correlate yields & nutrient needscorrelate yields & nutrient needs– Once a general amount of fertilizer Once a general amount of fertilizer
is known:is known: Subtract for manure applicationSubtract for manure application Subtract for residual P or NSubtract for residual P or N Add/subtract for N, P, S because of soil Add/subtract for N, P, S because of soil
organic matter levels – can count on organic matter levels – can count on them supplying somethem supplying some
Fertilizer Fertilizer RecommendationsRecommendations Test ReportsTest Reports
– Labs usually full-serviceLabs usually full-service Soil, plant, manure, irrigation water Soil, plant, manure, irrigation water
testingtesting
– See soil test reportSee soil test report
Fertilizer QualityFertilizer Quality
Fertilizer gradeFertilizer grade – amounts of N, P, K – amounts of N, P, K in a fertilizer required by law to be in a fertilizer required by law to be listedlisted
Also required:Also required:– Weight of material, manufacturerWeight of material, manufacturer
Optional:Optional:– Filler composition, acidity in soil potentialFiller composition, acidity in soil potential
Calculating fertilizer N, P, K amountsCalculating fertilizer N, P, K amounts 10-20-1010-20-10 15-12-1815-12-18
Fertilizer QualityFertilizer Quality
Amounts listed as: elemental N, Amounts listed as: elemental N, phosphate, potash (not direct indication phosphate, potash (not direct indication of elemental P, K supplied)of elemental P, K supplied)
Acidity & Basicity of FertilizersAcidity & Basicity of Fertilizers– Most affect soil acidity in some Most affect soil acidity in some
regardregard Superphosphate, Triplesuperphosphate, Superphosphate, Triplesuperphosphate,
Potash – neutralPotash – neutral MAP, DAP, all N fertilizers – acidifiersMAP, DAP, all N fertilizers – acidifiers
Fertilizer QualityFertilizer Quality
Solubility & Mobility in SoilSolubility & Mobility in Soil– Function of:Function of:
Elemental chargeElemental charge Tendency to form insoluble compoundsTendency to form insoluble compounds Adsorption abilityAdsorption ability Soil textureSoil texture Water movementWater movement Concentration of other ionsConcentration of other ions
Fertilizer QualityFertilizer Quality
– ExamplesExamples P may only move a few cmP may only move a few cm
– Must be place in/near root zoneMust be place in/near root zone N can move w/ extent of water N can move w/ extent of water
movementmovement
Fertilizer CalculationsFertilizer Calculations
Calculating Fertilizer MixturesCalculating Fertilizer Mixtures– Mixing 34-0-0 ammonium nitrate & Mixing 34-0-0 ammonium nitrate &
0-46-0 TSP to get 1 ton mixture of 0-46-0 TSP to get 1 ton mixture of 15-10-015-10-0 How much of each do we need?How much of each do we need?
– How about if we needed a 12-14-6 How about if we needed a 12-14-6 fertilizer for a customer?fertilizer for a customer? What might we use for each ingredient?What might we use for each ingredient? How much of each would we need?How much of each would we need?
Fertilizer CalculationsFertilizer Calculations
Weights of Fertilizer to ApplyWeights of Fertilizer to Apply– Planting corn expected to yield 125 Planting corn expected to yield 125
bu/acbu/ac How much N do we need?How much N do we need? Soil analysis recommended 88#/ac Soil analysis recommended 88#/ac
phosphatephosphate How much ammonium nitrate & TSP do How much ammonium nitrate & TSP do
we need?we need? What is our final application rate?What is our final application rate?
Fertilizer CalculationsFertilizer Calculations
Calculations Involving Liquid Calculations Involving Liquid FertilizersFertilizers– Use dry fertilizer calculation if sold Use dry fertilizer calculation if sold
by weightby weight– If sold by volume, usually applied by If sold by volume, usually applied by
volumevolume– See example pg. 336See example pg. 336
Techniques of Techniques of Fertilizer ApplicationFertilizer Application Starter (Pop-Up) FertilizersStarter (Pop-Up) Fertilizers
– Addition of fertilizer w/ the seed Addition of fertilizer w/ the seed during planting, dribbled in a strip during planting, dribbled in a strip near the see, banding w/in 2” of near the see, banding w/in 2” of seedseed
– Most beneficial for P, K – some for N, Most beneficial for P, K – some for N, but not as necessarybut not as necessary
– Advantages:Advantages: Cold soilsCold soils Low nutrient levels in the root zoneLow nutrient levels in the root zone Fast-growing plantsFast-growing plants
Techniques of Techniques of Fertilizer ApplicationFertilizer Application
– Disadvantages:Disadvantages: Slows plantingSlows planting Can burn seedling, if placed too closeCan burn seedling, if placed too close
Broadcast ApplicationBroadcast Application– Uniform application across entire Uniform application across entire
surfacesurface– Left on surface, or incorporatedLeft on surface, or incorporated– Somewhat less efficiency of fertilizerSomewhat less efficiency of fertilizer
Especially when not incorporated quicklyEspecially when not incorporated quickly Why?Why?
Techniques of Techniques of Fertilizer ApplicationFertilizer Application
– Reasons to broadcast:Reasons to broadcast: Only practical method of application – Only practical method of application –
pastures, turf, etc.pastures, turf, etc. Low-fertility soils needing high fertilizer Low-fertility soils needing high fertilizer
ratesrates Easy, cheap, personal preferenceEasy, cheap, personal preference Flexible – split applications, ability to Flexible – split applications, ability to
add after crop is growingadd after crop is growing
Techniques of Techniques of Fertilizer ApplicationFertilizer Application Deep BandingDeep Banding
– Application of strips into the soilApplication of strips into the soil– Either between/side of row, where Either between/side of row, where
the seed may be plantedthe seed may be planted– Typically 4-12” depthTypically 4-12” depth– Knifing in anhydrous most commonKnifing in anhydrous most common
Gas able to dissolve in soil water before Gas able to dissolve in soil water before it escapesit escapes
Losses can be high if dry, sandyLosses can be high if dry, sandy
Techniques of Techniques of Fertilizer ApplicationFertilizer Application
– Disadvantages:Disadvantages: Strong equipment neededStrong equipment needed High fuel costsHigh fuel costs Danger of dealing w/ anhydrousDanger of dealing w/ anhydrous
– Advantages:Advantages: High yield response potentialHigh yield response potential Puts fertilizer where most roots are, Puts fertilizer where most roots are,
very efficient usevery efficient use
Techniques of Techniques of Fertilizer ApplicationFertilizer Application Split ApplicationSplit Application
– Divided total fertilizer rates delivered Divided total fertilizer rates delivered in 2+ applicationsin 2+ applications
– Reasons to split applicationsReasons to split applications If large applications are needed – If large applications are needed –
increase efficiency of nutrient useincrease efficiency of nutrient use Soil conditions dictate – risk for high Soil conditions dictate – risk for high
nutrient lossesnutrient losses Control vegetative growth in early stagesControl vegetative growth in early stages
Techniques of Techniques of Fertilizer ApplicationFertilizer Application
– Advantages:Advantages: Increased efficiency of N utilizationIncreased efficiency of N utilization Provide a “boost” to the plant during Provide a “boost” to the plant during
growthgrowth
– Disadvantages:Disadvantages: Extra pass through fieldExtra pass through field Not effective for P, K because of Not effective for P, K because of
immobilityimmobility
Techniques of Techniques of Fertilizer ApplicationFertilizer Application Side-Dressing or TopdressingSide-Dressing or Topdressing
– Side-dressingSide-dressing – surface or shallow band – surface or shallow band application put on after crop is growingapplication put on after crop is growing
Broadcast, surface stripped, sprayed, Broadcast, surface stripped, sprayed, knifedknifed
– Principles to consider:Principles to consider: Decreases potential N lossesDecreases potential N losses Added in the furrow to allow water to help Added in the furrow to allow water to help
w/ infiltrationw/ infiltration Not effective for P, KNot effective for P, K
Techniques of Techniques of Fertilizer ApplicationFertilizer Application Point Injector ApplicationPoint Injector Application – place – place
P, K into soil in the root zone P, K into soil in the root zone w/out significant root damagew/out significant root damage– Used more in small plots, gardensUsed more in small plots, gardens– Push stick, rod into soil, fill w/ Push stick, rod into soil, fill w/
fertilizer, coverfertilizer, cover– Effective for: fruit trees, grapes, Effective for: fruit trees, grapes,
shrubs, etc.shrubs, etc.– Not common in field useNot common in field use
Techniques of Techniques of Fertilizer ApplicationFertilizer Application FertigationFertigation – application of fertilizer – application of fertilizer
w/ irrigation waterw/ irrigation water– Can apply large quantities of nutrientsCan apply large quantities of nutrients– Very effective for NVery effective for N
Some see 30-50% more efficient use of NSome see 30-50% more efficient use of N Cut of 50% in N rates w/ same/better Cut of 50% in N rates w/ same/better
yieldyield
– Must be careful of potential problem Must be careful of potential problem w/ saltsw/ salts
Techniques of Techniques of Fertilizer ApplicationFertilizer Application
– Able to apply when need is highestAble to apply when need is highest– Immediate/convenient applicationImmediate/convenient application– Most effective on soils w/ poor Most effective on soils w/ poor
nutrient retention & for mobile nutrient retention & for mobile nutrientsnutrients
– ChemigationChemigation also possible – not also possible – not discussed in depth herediscussed in depth here
Techniques of Techniques of Fertilizer ApplicationFertilizer Application Foliar ApplicationFoliar Application – foliage wetted – foliage wetted
to maximize nutrient absorption to maximize nutrient absorption through leaf stomata & epidermisthrough leaf stomata & epidermis– Feasible for: N supplementation, Feasible for: N supplementation,
pesticides, micronutrients, etc.pesticides, micronutrients, etc.– Guidelines:Guidelines:
Only suited for applications of small Only suited for applications of small amount (can burn plant)amount (can burn plant)
Decreased rates can be usedDecreased rates can be used
Techniques of Techniques of Fertilizer ApplicationFertilizer Application
Need wetting agent to help the spray to Need wetting agent to help the spray to distribute evenly across surfacedistribute evenly across surface
Helpful when root conditions restrict Helpful when root conditions restrict nutrient uptakenutrient uptake
Quick response/remedy to deficiency Quick response/remedy to deficiency (also short residual)(also short residual)
Wind must be calm, humidity >70%, Wind must be calm, humidity >70%, temp <85temp <85° F° F
Techniques of Techniques of Fertilizer ApplicationFertilizer Application Fertilizing in Paddy & Other Fertilizing in Paddy & Other
Waterlogged SoilsWaterlogged Soils– Paddy rice – production on water Paddy rice – production on water
covered soilscovered soils Water 2-6” deepWater 2-6” deep One of very few crops that tolerate One of very few crops that tolerate
anaerobic conditionsanaerobic conditions
– Difficult to fertilize due to high Difficult to fertilize due to high nutrient loss risksnutrient loss risks
Fertilizer EfficiencyFertilizer Efficiency
Great focus on increasing efficiency Great focus on increasing efficiency of fertilizer useof fertilizer use
ResearchResearch Real-time sensors in soils that Real-time sensors in soils that
immediately detect nutrient deficiencyimmediately detect nutrient deficiency Transgenic plantsTransgenic plants
Fertilizer EfficiencyFertilizer Efficiency – – fraction/percentage of added fraction/percentage of added fertilizer that is actually used by fertilizer that is actually used by the plantthe plant
Fertilizer EfficiencyFertilizer Efficiency
Typical fertilizer efficiencies:Typical fertilizer efficiencies:– 30-70% for N30-70% for N– 5-30% for P5-30% for P– 50-80% for K50-80% for K
Maximum profits rarely at maximum yieldsMaximum profits rarely at maximum yields– Last amounts of fertilizer to produce more yield Last amounts of fertilizer to produce more yield
cost more than yield increasecost more than yield increase– Management also keyManagement also key
Use of Use of BMP’sBMP’s increasing increasing– Encourage environmental protectionEncourage environmental protection– Couple w/ agronomic successCouple w/ agronomic success– Increase economic yields, leading to Increase economic yields, leading to
sustainable agsustainable ag
Fertilizer EfficiencyFertilizer Efficiency
Plant Root SystemsPlant Root Systems– Some plants better scavengers than Some plants better scavengers than
othersothers– Absorption greatly affected by Absorption greatly affected by
fertilizer distributionfertilizer distribution– Smaller root system = shorter Smaller root system = shorter
growing season = >dependence on growing season = >dependence on fertilizerfertilizer
– Growth rates & size also effect Growth rates & size also effect amount of nutrients demandedamount of nutrients demanded
Fertilizer EfficiencyFertilizer Efficiency
WeedsWeeds– Response to fertilizer much like Response to fertilizer much like
cropscrops– N fertilization may increase weed N fertilization may increase weed
growth > crop growthgrowth > crop growth– Application method can also affect Application method can also affect
weed growthweed growth Ex – broadcast fertilizer can tend to help Ex – broadcast fertilizer can tend to help
weeds get good startweeds get good start
Fertilizer EfficiencyFertilizer Efficiency
Fertilizer-Water InteractionsFertilizer-Water Interactions– Availability of nutrients directed Availability of nutrients directed
impacted by soil water contentimpacted by soil water content– Drip fertigation may be most Drip fertigation may be most
efficient use of water & fertilizerefficient use of water & fertilizer Common in greenhousesCommon in greenhouses Can be effective in field useCan be effective in field use
– Israeli farming uses drip irrigationIsraeli farming uses drip irrigation
Fertilizer EfficiencyFertilizer Efficiency
Fertilizing for High EfficiencyFertilizing for High Efficiency– Guides to optimal fertilization:Guides to optimal fertilization:
Avoid large additions of N or K (50#/ac Avoid large additions of N or K (50#/ac +) on sandy soils – use split application+) on sandy soils – use split application
Avoid broadcast applications of urea & Avoid broadcast applications of urea & ammonia on warm/moist soils – ammonia on warm/moist soils – volatilizes easily – incorporatevolatilizes easily – incorporate
Avoid N losses on poorly drained soils Avoid N losses on poorly drained soils by using ammoniumby using ammonium
Band PBand P Use starter fertilizerUse starter fertilizer
Fertilizer EfficiencyFertilizer Efficiency
Keep N & K fertilizers out of seedling Keep N & K fertilizers out of seedling zone to avoid burnzone to avoid burn
Reduce leaching by avoiding application Reduce leaching by avoiding application before rain or irrigationbefore rain or irrigation
Foliar apply, if feasible/appropriateFoliar apply, if feasible/appropriate Know nutrient demands of cropKnow nutrient demands of crop Improve managementImprove management Remember law of minimumRemember law of minimum Soil testSoil test
Livestock Manure as Livestock Manure as FertilizerFertilizer
Many benefits of using manure:Many benefits of using manure: Recycles nutrientsRecycles nutrients Potential to reduce pollutionPotential to reduce pollution Adds C to soilAdds C to soil Improve aggregation, infiltration, Improve aggregation, infiltration,
microbial vigormicrobial vigor
Risks:Risks: Increased weed pressureIncreased weed pressure High cost of obtaining/applying if you High cost of obtaining/applying if you
don’t own itdon’t own it
Livestock Manure as Livestock Manure as FertilizerFertilizer
Not as convenient as commercial Not as convenient as commercial fertilizerfertilizer
Pollution anxietyPollution anxiety
Nutrient Production & RecoveryNutrient Production & Recovery– Production rates predictable & Production rates predictable &
measurablemeasurable– Ration has heavy influence on Ration has heavy influence on
nutrients in manurenutrients in manure
Livestock Manure as Livestock Manure as FertilizerFertilizer Manure & Nutrient BudgetsManure & Nutrient Budgets
– Generous applications of manure no Generous applications of manure no longer normlonger norm Some states require & enforce strict Some states require & enforce strict
manure management guidelinesmanure management guidelines
– Restricted application due to soil P Restricted application due to soil P levels instead of Nlevels instead of N
– Manure still can’t meet plant needs Manure still can’t meet plant needs alonealone Crops remove much higher levels of Crops remove much higher levels of
nutrients/acnutrients/ac
Livestock Manure as Livestock Manure as FertilizerFertilizer Using ManureUsing Manure
– Most recognize advantages of using Most recognize advantages of using manuremanure
– Manure production unevenly Manure production unevenly distributed in farmlanddistributed in farmland
– Expensive to transport very farExpensive to transport very far– Too abundant in areas, not enough Too abundant in areas, not enough
land for applicationland for application
Livestock Manure as Livestock Manure as FertilizerFertilizer
– Must balance three factorsMust balance three factors Supply crop nutrientsSupply crop nutrients Dispose of wasteDispose of waste Protect environmentProtect environment
– More focus on manure laterMore focus on manure later