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PlantingDate,Yield,andNitrogenManagementforStrawberriesintheCoastal
PlainofVirginia
By
UrsulaTankardDeitch
MajorProject/ReportsubmittedtothefacultyofVirginiaPolytechnicInstituteandStateUniversityin
partialfulfillmentoftherequirementsforthedegreeofOnlineMasterofAgriculturalandLifeSciences
InEnvironmentalSciences
MarkReiter,ChairSteveRideoutZacharyEaston
GregoryWelbaum
April18,2016EasternShoreAgriculturalResearchandExtensionCenter
Painter,VA
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PlantingDate,Yield,andNitrogenManagementforStrawberriesinthe
CoastalPlainofVirginia
Abstract
Freshmarketstrawberry(Fragaria×ananassa)availabilityinmidtolate-Aprilsignalsthe
beginningoflocallyavailablefreshfruitandvegetablesforthemid-Atlanticregion.Ofthe290
acresoffreshmarketstrawberriesgrowninVirginiaannually,themajorityareproducedinthe
coastalplainofVirginiausingintenselymanagedannualhillproductionsystems.Theobjective
ofthisstudywastoevaluatethepotentialyieldofstrawberries,determinehowyield
componentschangewithplantingdateandcultivar,andassessthefertilitymanagement
techniquesrecommendedbyVirginiaCooperativeExtension’sCommercialVegetable
ProductionGuideforstrawberries.June-bearingcultivars‘Camarosa’and‘Chandler’were
growninPainter,Virginiaduringthe2012-2013season.Threeplantingdates(Sept.21,28,and
Oct.5)wereassessedwhileevaluatingthecultivarsperformance.Petiolenitrate-Nreadings
andleaftissuewerecollectedatinitialflowerandmid-flowertoevaluatetheaccepted
fertigationrecommendations.Thecultivartrialyieldedbetween7,205–21,393lbs./acre.
Overall,‘Camarosa’yieldedhighestwiththeearlyplantingdate(Sept.21;21,393lbs./acre).As
theplantingdatesmovedlaterintothefall,‘Camarosa’lostyieldwhiletheyieldfor‘Chandler’
remainedconstantandaveraged9,705lbs./acre.Harvestpickdataalsoindicatedthat
‘Camarosa’outperforms‘Chandler’bothearlyandlateintheseasonforberrynumberand
yield.Petiolenitrate-NandleaftissuedatasuggestedthatexcessNfertilizationleadstolower
yields.Inconclusion,strawberrycultivar‘Camarosa’shouldbeastandardforfarmer’sinthe
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mid-Atlanticandplantedlatetomid-SeptemberwhilecontinuouslymonitoringandadjustingN
fertilityasneeded.
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TableofContents
Abstract..........................................................................................................................................ii
TableofContents..........................................................................................................................iv
ListofTables..................................................................................................................................v
ListofFigures.................................................................................................................................vi
Introduction...................................................................................................................................1
MaterialsandMethods.................................................................................................................5
ResultsandDiscussion..................................................................................................................6
Conclusions.....................................................................................................................................11
References......................................................................................................................................23
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ListofTablesTable1.Plantyieldforaplantingdate(PD)×cultivarinteractionforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic.................................................................12Table2.Totalnumberofstrawberriesharvestedperharvestdateforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic.................................................................13Table3.Yieldofstrawberriesperharvestdateforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic............................................................................................14Table4.Averageweightofstrawberriesperharvestforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic..................................................................................15Table5.Weightperberryforaplantingdate(PD)×cultivarinteractionforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic............................................15Table6.Leaftissuenutrientconcentrationsatmid-flowerforsandyloamsoilsinthemid-Atlantic..............................................................................................................................16Table7.Petiolenitratereading#2–Aplantingdate(PD)×cultivarinteractionforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic............................................16
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ListofFigures
Figure1.Mid-AtlanticcoastalplainoftheUnitedStatescomprisedmainlyofsandyloamsoilsinthetemperatezone......................................................................................................................17
Figure2.Annualhillproductionsystemofstrawberriesonsandyloamsoils.............................18
Figure3.Petiolenitratelevelscollectedatinitialfloweron2May2013andatmid-floweron9May2013inPainter,VAinrelationtostrawberryyieldoverallthreeplantingdates................19
Figure4.Leaf%Ncollectedatinitialfloweron2May2013inPainter,VAasitrelatestostrawberryyield............................................................................................................................20
Figure5.Leaf%Scollectedatinitialfloweron2May2013inPainter,VAasitrelatestostrawberryyield............................................................................................................................21
Figure6.Petiolenitratelevelsatinitialfloweron2May2013inPainter,VAinrelationtoleaf%Nconcentrationsfromthesamedate.........................................................................................22
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Introduction
InVirginiaapproximately290acresoffreshmarketstrawberries(Fragaria×ananassa)
aregrownannually(USDept.Agriculture,2012).Thisequatestonearly$4.466milliondollars
infarmgatevalueeachyearfromstrawberrysalesinVirginia(USDept.Agriculture,2012).The
majorityofstrawberryproductionoccursinthecoastalplainofVirginia(Fig.1)andislocally
marketed.Salesbypick-your-own,pre-pick,roadsidestands,andfarmermarkets’occurovera
5-weekperiodandkickoffthesummersmallfruitandvegetableseason.Thepeakharvest
monthsinVirginiaarelateApril,May,andearlyJune.
SoilsinthecoastalplainofVirginiaarepredominatelysandyloams(~65%sand,25%silt,
and10%clayinthe0-6-inchhorizon)(USDA-NRCS,2016),andcoarsertexturedsoilshavea
greaterpropensitytoleachnutrientslikenitrogen(N)andsulfur(S)comparedtofinertextured
soilswithgreaterconcentrationsofsiltandclay(Zotarellietal.,2007).Itwasalso
demonstratedthatphosphorus(P)mayleachinsandyloamsystemsafteraPsaturationpointis
reached(Han,2015).Asaresult,sandyloamsoilshaveimportantenvironmentalandcrop
productionimplicationsforfreshwaterandsaltwatersystems;whichisespeciallyimportant
duetosmallfruitproductionbeinglocatedintheChesapeakeBayWatershed.
IntheeasternUnitedStates,strawberriestraditionallyweregrowninthematted-row
productionsystemwherestrawberryplugsaresetinthespring,andcrownsdevelop
throughoutthesummergivingrisetorunnerplantsthatfillinthebeds.Fruitisfirstharvested
inthespringofthesecondyearandplantsaretypicallyleftinthegroundforseveralseasons
(Fernandez,2001).Matted-rowsystemscontinuetobeofsignificanceinareasremovedfrom
theseaboardandathigherelevations(Hokanson,2000).However,theannualhillproduction
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system(Fig.2),whichwasdevelopedinCalifornia,isthemostcommonlyusedsystemby
strawberrygrowersinthecoastalplainofthemid-Atlantic.Thehillsystemisalsoreferredtoas
“strawberryplasticulture”inwhichstrawberrytransplants(fresh-dugorplugs)areplantedin
earlyfallindoublerowsonfumigatedraisedbedsthatarecoveredwithblackplasticmulchat
plantdensitiesof≈17,400plants/acre(Poling,1993).Thefallplantedtransplantsarethen
harvestedthefollowingspringandaremostcommonlyfruitedonlyoneyear(Hokanson,2000).
Doubledriptubingistypicallyburied1to2inchesdeepundertheplasticmulch.Theannual
hillsystemprovidesadegreeofweedandpestcontrolthroughthecombinationofplastic
mulchandsoilfumigation.Otherimportantadvantagestotheannualhillproductionsystem
overthepreviouslyusedmattedrowculture,includeearlierandlongerharvests,cleanerfruit,
thepotentialtocontrolwaterpenetration,abilitytofertigatethroughthedripirrigation
system,andincreasedqualityandyields(PattisonandWolf,2007;Poling,2004).
Commercialstrawberryproductionrequiresintensiveandprecisefertilization.Fertilizer
applicationsthroughdripirrigation(fertigation),undertheannualhillproductionsystem,
allowsfortheprecisetiminganduniformdistributionoffertilizernutrients.Fertigationcan
reducefertilizerusagesandminimizegroundwaterpollutionbyapplyingfertilizerwhereand
whentheplantneedsthenutrient.About50%oftheN(60-75lbs.N/acre),50%oftheK,andall
oftherecommendedPisappliedpre-plantinthefallpriortolayingplasticmulch,withthe
remainingNandKbeingappliedinthespringina1:1ratiothroughthedripirrigationsystem
(Poling,1993).Thesepre-plantfertilizerapplicationsofNandKsupplyearlynutritiontothe
plantinthefallandearlywinterwhenmid-Atlanticgrowerstypicallydonotruntheirdrip
irrigationsystems(Poling,1993).Inthespring,dripirrigationapplicationsbeginatgreen-up
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andcontinuethroughharvest.ThecurrentNrecommendationforstrawberriesinanannual
hillproductionsysteminFloridaisfordailyinjectionsbetween0.30and0.76lbs.Nperacreper
day,dependingonthephenologicalstageofthecrop,withamaximumof152lbs.Nperacre
duringtheseason(HochmuthandAlbregts,1994;Hochmuthetal.,1996).Strawberriesgrown
inthemid-AtlanticregionfollowasimilarNfertilizationregimenwithamaximumof120lbs.N
peracrerecommendedforsandyloamsoilsinanannualhillsystem(Wilson,etal.2012),with
60lbs.ofNappliedinthefallatbedformationandtheremainderappliedthroughdripinthe
spring.
Collectingpetiolesamples,startingatgreenup,andanalyzingnitrate-Nconcentrations
isthemostaccuratemethodologyfordeterminingfertilizeramountsthroughoutthegrowing
season.Apetiolenitratemetercanbeusedtomonitorthenitrate-Nconcentrationsandthe
fertigationschedulecanbealteredbasedonnitratesufficiencylevels(Hartz,1996). Values
between600and800ppmnitrate-Nwhenplantsresumespringgrowthandpriortobloom,
fallingto300to500ppmduringbloomand200to500ppmduringharvestareconsidered
sufficient(Demchak,2012).Floridarecommendedpetiolenitrate-Nconcentrationsof600-800
ppmatfirstharvest(DeValerio,etal.2003).WhileNorthCarolinarecommendedpetiole
nitrate-Nconcentrationsbetween3,000-5,000ppmatfirstharvest(Hicks,2015).PlanttissueN
sufficiencyrangesforstrawberriesare3-4%(Bryson,etal.2014).
InorganicNfertilizersarecommonlyusedforsmallfruitproductionandeithercontain
nitrateorthefertilizerNsourceeventuallybecomesnitrateduetonaturalmicrobialactivity
(Bottoms,etal.2013).Nitrateissolubleinwaterandisweaklyretainedbythesoilduetothe
soilslowanionexchangecapacity.Nitrate,therefore,movesthroughthesoilatvirtuallythe
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samespeedaswater.IftheproperamountofNfertilizerandproperirrigationregimesare
usedforcropproduction,thechancesofNleachingisreduced.AstudybyBruggemanetal.
(1995)suggestedthatmorethan63%oftheshallowwellsatadepthof75feetorless,in
NorthamptonCountyontheEasternShoreofVirginia,containnitrate-Nconcentrationsabove
naturalbackgroundlevelsof0.2ppm.Nitrate-Nlevelsabovetheassumednaturalbackground
concentrationweredefinedasnitratedetection.Theaverageconcentrationofthe131
sampledshallowwellswasalmost5ppm.Nitrate-NconcentrationsabovetheEPA’slifetime
HealthAdvisoryLevels(HALs)of10ppmwerefoundin17%ofsampledshallowwells.Ifproper
irrigationregimesareused,Nleachingisreducedkeepingsolublefertilizerintheplants’
effectiverootzoneof6inches(Gärdenäsa,2005).Therefore,reducingnutrientleachingby
utilizingappropriatefertilizationandirrigationprogramsisadesiredpracticeforstrawberry
productionandsupportsthecurrentbestmanagementpracticeeffortsforthestate.
ThepopularityoftheannualhillproductionsysteminthesoutheasternUnitedStates
andportionsoftheAtlanticseaboardareinfluencingthecultivarpicture.Commerciallygrown
cultivarsinNorthCarolinaandthemid-AtlanticareJunebearers(NCCooperativeExtension,
2012).Presently,strawberrygrowersareusingcultivarsdevelopedintheUniversityof
California,Davis,program,‘Chandler’and‘Camarosa’,orfromtheUniversityofFlorida
program,‘SweetCharlie’(Hokansonetal.,2000).Thesethreecultivarshavebeenselectedfor
acceptableyieldandmarketabilityinNorthCarolinaandthemid-Atlantic,extendingthe
harvestseasonoverasix-weekperiod,but,incooler-than-averagespringtemperatures,the
harvestcanlast2months(Poling,1993).‘Chandler’isthestandardcultivarforu-pickproducers
becauseofitshighyieldcomparedtootherplasticulturecultivars,coldhardiness,andbecause
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itiswelllikedbyconsumersforitsgoodflavor,fruitsizeandattractiveredfruitcolor(NC
CooperativeExtension,2012).‘Camarosa’,anewercultivaronthemarket,hasverylargefirm
fruitandhassuperiorshelf-lifeandhandlingcharacteristicscomparedto‘Chandler’.However,
‘Camarosa’isnotascoldhardyas‘Chandler’,leadingtoyieldissuesincolderpartsofthemid-
Atlanticregion.InthewarmerwinterareasofNorthCarolina,‘Camarosa’productionnow
surpasses‘Chandler’inacreage(NCCooperativeExtension,2012).
Theobjectiveofthisstudywastoevaluateplantingdate’simpactonyieldfromcultivars
‘Camarosa’and‘Chandler’utilizinganannualhillproductionsystem.Additionally,fertilization
managementwasalsoanalyzedinresponsetooverallyieldandfruitqualityparameters.
MaterialsandMethods
Afieldexperimentwasconductedduringthe2012-2013growingseason.The
experimentalsitewaslocatedattheVirginiaTechEasternShoreAgriculturalResearchand
ExtensionCenter(AREC)inPainter,VA.ThesoilwasaBojacsandyloam(course-loamy,mixed,
thermicTypicHapludults)thatconsistedof65%sand,25%silt,and10%clayinthe0-6-inch
horizon(USDA-NRCS,2016).Thestudywasarrangedinafactorialarrangementof2cultivars
and3plantingdatesinarandomizedcompleteblockdesignwithfourreplications.
PlugtransplantsofJune-bearing‘Chandler’and‘Camarosa’varietieswereobtained
fromanOntario,Canadanursery.TransplantingoccurredonSept.21,28andOct.5,2012.
Plantsweresetthroughmethylbromidefumigated,blackpolyethylenemulchonastandard2
rowraisedbedspaced16inchesoncenter.Inthefieldsetting,polyethylenebedswerespaced
on5-ft.rowcenterswithdoublelinedripirrigationinstalledunderthemulch.Dripirrigation
wasusedtomeetplants’waterandfertilizerrequirements.TheVirginiaCommercialVegetable
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ProductionRecommendations(Wilson,et.al.2012)werefollowedforwater,fertilizer,andpest
managementthroughouttheseason.Eachplotcontained40plants,withthecenter20plants
beingdesignatedforfreshfruitharvestandplantsampling.Fruitwithatleast75%redcolor
washarvested,graded,countedandweighedtwiceweeklyfrom14May2013throughthe3
June2013foratotalof7harvests.Marketablefruitwereconsideredfreeofrot,well-shaped,
andweighing8gormoreperfruit.
On2May2013atfirstflowerand9May2013atmid-flower,duringactivegrowing
daylighthours,10plantpetioleswerecollectedfromthemostfullyexpanded,mature,trifoliate
leavestomeasurepetiolenitrates.Petiolenitrate-NreadingswereanalyzedusingaLAQUA
TwinNitrateMeter(SpectrumTechnologies,Aurora,IL).Wholeleafsamplesofthemost-
recent,fullyexpandedtrifoliateleaffrom10plantsineachplotwerealsocollectedatmid-
flower(9May2013),driedat130°F,mini-groundtopassa0.425mmsieve,andanalyzedusing
aElementarVarioELCube(Hanau,Germany)forleaf%N,%carbon(C)andleaf%Susingdry
combustiontechniques(Elementar,2016).
Statisticalanalysisofthedatawasconductedusinganalysisofvarianceprocedures
(PROCGLM)(SASInstitute,2016)todeterminetheeffectofplantingdateandNconcentrations
astheyrelatedtostrawberrycultivar.MeanseparationswereconductedusingFisher’s
protectedleastsignificancedifference(LSD)testatthe10%significancelevel.Linearandnon-
linearregressionanalysiswasusedtocompareleaftissueandpetioleNconcentrationstoyield
andtocompareNtissuecomparisonmethodologies.
ResultsandDiscussion
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Overallmarketablestrawberryfruityieldvariedbetween7,205and21,393lbs./acre;
whichistypicalformid-Atlanticproducerswithaveragedmarketableyieldsof20,000
lbs./acre(Poling,1993).Asignificantdifferencewasnotedwithaplantingdate×cultivar
interaction(p=0.0064).‘Camarosa’yieldedhigher(21,393lbs./acre)withtheSeptember21
earlyplantingdateascomparedtolaterplantingdatesandalsoyieldedhigherthanany
‘Chandler’plantingdate(Table1).Theearlysuccessof‘Camarosa’wasalsonotedinthe2005
SoutheastRegionalStrawberryPlasticultureProductionGuide,whereitstatedthatplanting
datesfor‘Camarosa’areaboutthesametimeas‘Chandler’,butmostgrowersprefertosetthis
cultivaratleastthreedaysaheadof‘Chandler’(Polingetal.,2005).Astheplantingdates
movedlaterintothefall,‘Camarosa’lostyieldwhiletheyieldfor‘Chandler’remainedconstant
(Table1).Thisresultisadirectresponsetothecoldhardinessof‘Chandler’whencomparedto
‘Camarosa’.
Whenputtingharvestpicknumberintothemodel,thefirstplantingdate(Sept.21)on
thefourthpickingyieldedthegreatestnumberofberriesharvestedwith‘Camarosa’(Table2).
Therefore,thebestoptionforgrowerstargetingtheearlyseasonu-pickmarketwouldbe
‘Camarosa’atanearlyplantingdate(Sept.21).Theearlyplantingdateof‘Camarosa’would
alsobeagoodchoiceforextendingtheu-pickseasonbecauseitstillhadahighernumberof
berriesharvestedthan‘Chandler’forthefinalharvestonthesameSept.21plantingdate(Table
2).However,ifthefarmerisgoingtoplantlate(Oct.5),‘Chandler’willhavemoreberrieslater
inthegrowingseasonthan‘Camarosa.’
Whencomparingyieldtoharvestpicknumber,thefirstplantingdate(Sept.21)hadthe
bestresultsforbothvarieties.Duringweektwoofharvest,picknumberfour,yieldedthe
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highestforbothvarieties;however,‘Camarosa’stillsignificantlyoutyielded‘Chandler’onthat
harvestdate(Table3).Eventhoughberrynumberwasdifferentduringthelastpick(Table2),
yieldoverallwasthesameacrossallplantingdatesandbothvarieties(Table3).Therefore,
growerssellingbythepoundorpercontainerwouldseenodifferenceregardlessofcultivaror
plantingdateiftheyarelookingtoextendtheseason.Overall,amaineffect,averagedacross
plantingdateandcultivarshowedthatberriesreachedmaximumsizeduringthefourthharvest
pickonthesecondweekofharvest(Table4)at22.63grams/berry;whichcorrespondedwith
highestyieldsforbothvarieties(Table3).Therefore,theendofthesecondweekofpickingis
optimalforplasticulturestrawberryproductionsystemsregardlessofplantingdateorcultivar.
Fortheplantingdate×cultivarinteraction,‘Camarosa’hadthelargestberriesoverall
treatmentsifplantedafterSeptember28(Table5).SimilartoFernandezetal.(2001)findings,
‘Chandler’producedstatisticallysmallerberriesthan‘Camarosa’.Kays(1998)statedthatwith
manyfruitsandvegetables,consumersdiscriminatebaseduponsize.Largerfruitaregenerally
preferredandtheverysmallfruitbeingleftunpicked.Asanindustrystandard,whenthe
averagefruitweightonaharvestdayfallsbelow8gperberryharvestscease(Weberetal.
2005).Althoughthereisaconcernregardingfruitsize,itwasobservedthatthefirstplanting
dateof‘Camarosa’hadthehighestfruityields,makingitamoredesirableplantingdateeven
thoughtheyweresmallerberries.Whencomparedtotheberriesof‘Chandler’onthatfirst
plantingdate,theberriesfrom‘Camarosa’wereequivalentinsizetherefore,‘Camarosa’isstill
agoodcultivaroptionforgrowersinthemid-Atlantic.Inallcases,theberrysizeswerelarger
thantheminimal8g/berrythresholdsuggestedbyWeberetal.(2005).
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Leaftissuecollectedatmid-flowerhadnostatisticalimpactbasedoncultivarorplanting
date.OverallNandSaveraged3.02%and0.19%atflowering,respectively(Table6).Currently
acceptedstrawberryleaftissuesufficiencyrangesformatureleavesfromnewgrowthis2.10-
4.00%Nand0.15to0.30%S(Brysonetal.,2014).Therefore,inallcasesthe‘typical’fertility
andirrigationregimeutilizedaccordingtoVirginiaCooperativeExtensionrecommendations
providedsufficientwaterandfertilityforcropneeds(Wilsonetal.2012).FortheresultingC:N
andN:Sratios,C:Nwas15.54andN:Sratiowas15.61(Table6).AnelevatedN:S(>18:1)can
leadtopoorassimilationofeitherofthesenutrientsandoftencausesyellowingoftheleaves
(Hicksetal.,2015).However,wedidnotexperienceanyvisualleafdiscolorationinourstudy.
Petiolenitrate-Nreadingstakenatfirstfloweron2May2013indicatedthataplanting
date×cultivarinteractionwasnotsignificant;however,theplantingdatemaineffectwas
significant(p=0.0206).Petiolenitrate-NreadingsforplantsplantedonSeptember21(PD1;
1,563ppm)wereonaveragelowerwhencomparedtoSeptember28andOctober5plants
(PD2andPD3at2,238and2,688ppm,respectively;LSD0.10=479ppm).Therefore,plants
plantedduringthelaterplantingdateshadmorenitrate-Nintheplant’stissue;whichisneeded
forberryproduction.Nitrate-Navailabilityisnecessaryinthespringduringthevegetativeand
fruitingperiodtoincreaseyieldasstatedbyCasteel(2004).
Atmid-flower,on9May2013,‘Camarosa’hadoveralllowernitrate-Nconcentrations
comparedtohigherconcentrationsfoundin‘Chandler’(Table7).Wespeculatethat‘Chandler’
mayoverallbealoweryieldingcultivarwhencomparedto‘Camarosa’,since‘Chandler’has
highernitrate-Nconcentrationsatmid-flowerthan‘Camarosa’.However,furtherinvestigation
oftheyieldpotentialof‘Chandler’,asrelatedtonitrate-Nconcentrations,comparedto
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‘Camarosa’isneeded.BasedonUniversityofFlorida’ssufficiencyrangesforpetiolesaptesting
(DeValerioetal.2003),nitrate-Nlevelsforthisstudyexceededthesufficiencyranges(atfirst
harvest600-800ppm);therefore,fertigationcouldhavebeenreducedtoapplylessoverallN
basedonpetiolenitratetesting.Plantingdatehadnoeffectonnitrate-Ninteractionsinthe
secondnitrate-Nreadingsatmid-flower.
Anegativelinearregressionoccurredwhencomparingpetiolenitrate-Nconcentrations
andoverallyieldatbothpetiolenitratesamplings(Fig.3).AtourpracticedNfertilization
amounts,yielddecreasedaspetiolenitrate-Nconcentrationsincreasedabovethecurrently
acceptedsufficiencyrange(600-800ppm)(DeValerioetal.2003).Higheryieldingplanting
dateshadlowernitrate-Nconcentrations.Fittingwithsoilfertilitytheory,plantandyield
declineoccurredwhenoverfertilizationoccurred.TheworkingcurveinFig.3beginshigher
thantheUniversityofFlorida’srecommendednitrate-Nconcentrationsatharvest(DeValerioet
al.2003)andyieldsinthisstudywereeffectivelyreducedby2,082lbs.strawberries/acrewith
eachincremental500ppmpetiolenitrate-Nincrease(Fig.3).Albregtsetal.(1991)hadsimilar
findingsstatingthat,excessiveNfertilizationratesreducedyields,delayedripening,and
producedsoftfruit.Theyielddecreasewasnoticedatnitrate-Nconcentrationsat
approximately2,000ppmatmid-floweronthesecondreadingdateof9May2013.
AllleafSconcentrationswerebetween0.16–0.21%atfirstpick.Thesufficiencyrange
forleaf%Sis0.19-0.26%atinitialharvest(Brysonetal.2014).LeafNconcentration(Fig.4)
furthersupportsthetheorythatexcessNcouldleadtoareductioninyield,similartopetiole
nitrate-Ndata.SufficiencylevelsforleafNconcentrationsatinitialharvestarebetween3-3.5%
(Brysonetal.2014).Analysisofleaf%Ntonitrate-Nconcentrationsfromthefirstsamplingat
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initialfloweron2May2013,showedaweakcorrelationbetween%Nandnitrate-N(Fig.6).As
theleafNconcentrationincreasedby0.1%,yieldwasstatisticallyreducedby1,562lbs.
strawberries/acre.RegardingleafS(Fig.5),concentrationswereadequateanddidnotcausea
reductioninyieldasdemonstratedwithoverapplicationsofN.
Conclusions
Strawberrycultivar‘Camarosa’continuestooutperform‘Chandler’andisanindustry
standoutwhentransplantedintheearlyfallinthemid-Atlanticcoastalplainduetoitslarge,
firmfruitandpotentialyields.‘Camarosa’alsoprovidessuperiorearlyandlateseasonyields
andberryquantitycomparedto‘Chandler’.Regardingstrawberryfertility,farmersneedtobe
cognizantandproperlymonitorNstatusthroughoutthegrowingseason.Nitrogenisahighly
variablenutrientasitmovesreadilythroughouttheplant-soilsystem.Areductioninyield
occurredwhenexcessNwasplantavailableusingthecurrentacceptedNfertility
recommendationswithouryieldpotential.Overall,acceptedNfertilityrecommendationsfor
strawberryproductioninthemid-Atlanticneedsmoreevaluationalongwithin-seasonNstatus
monitoringandmeasurement.
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Table1.Plantyieldforaplantingdate(PD)×cultivarinteractionforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic.
CultivarPlantingDate ‘Camarosa’ ‘Chandler’ --------------lbs./acre--------------Sept.21 21,393a† 10,270bcSept.28 13,016b 8,398cOct.5 7,205c 10,447bcLSD0.10 4,116†Meansfollowedbydifferentlettersaresignificantlydifferentacrossrowsandcolumns.
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Table2.Totalnumberofstrawberriesharvestedperharvestdateforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic
‘Camarosa’ ‘Chandler’Harvest Sept.
21Sept.28
Oct.5
Sept.21
Sept.28
Oct.5
---------------------------------berrynumber/acre------------------------------May14 13,403 14,241 12,398 22,785 25,131 12,231May17 68,523 32,670 19,267 25,466 20,942 24,125May20 90,639 45,738 26,639 38,534 23,288 44,062May24 146,261 57,968 33,340 62,827 42,722 59,811May28 116,774 86,115 25,298 54,953 33,676 36,859May31 97,675 23,958 14,743 43,728 39,707 60,816June3 35,016 11,560 9,215 21,277 17,089 28,817
LSD0.1028,521
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Table3.Yieldofstrawberriesperharvestdateforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic
‘Camarosa’ ‘Chandler’Harvest Sept.
21Sept.28
Oct.5
Sept.21
Sept.28
Oct.5
---------------------------------------lbs./acre-----------------------------May14 707 917 725 1,098 1,293 652May17 3,007 1,763 1,077 1,193 882 983May20 3,628 2,478 1,390 1,568 1,080 1,749May24 6,548 3,157 2,098 3,000 2,056 3,018May28 4,032 3,499 1,160 1,861 1,234 1,558May31 2,690 847 523 1,275 1,425 1,725June3 770 355 247 491 429 763LSD0.10 929
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Table4.Averageweightofstrawberriesperharvestforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic
Harvest Weight ----grams/berry----
1 23.472 20.883 20.274 22.635 17.106 14.847 11.09
LSD0.101.2103
Table5.Weightperberryforaplantingdate(PD)×cultivarinteractionforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic
‘Camarosa’ ‘Chandler’ -----------grams/fruit----------Sept.21 16.8b† 17.0bSept.28 21.5a 18.1bOct.5 22.2a 17.6bLSD0.10 2.5 †Meansfollowedbydifferentlettersaresignificantlydifferentacrossrowsandcolumns.
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Table6.Leaftissuenutrientconcentrationsatmid-flowerfor
sandyloamsoilsinthemid-Atlantic N† C S C:N N:S ------------------------------------%------------------------------Sept.21 3.02a 46.26a 0.198a 15.50a 15.26aSept.28 3.02a 46.05ab 0.192ab 15.34a 15.74aOct.5 2.90a 45.61b 0.184b 15.79a 15.82aLSD0.10 N/A N/A N/A N/A N/A†Sufficiencyrange=2.1%(Brysonetal.,2014)
Table7.PetioleNitrateReadingatmid-flower–APlantingDate(PD)×cultivarInteractionforplasticulturestrawberriesgrownonsandyloamsoilsinthemid-Atlantic
‘Camarosa’ ‘Chandler’ ---------------ppm---------------Sept.21 1600b† 2625aSept.28 1310b 3075aOct.5 2675a 2425aLSD0.10 770†Meansfollowedbydifferentlettersaresignificantlydifferentacrossrowsandcolumns.
Page 23
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Fig.1.Mid-AtlanticCoastalPlainoftheUnitedStatescomprisedmainlyofsandyloamsoilsinthetemperatezone.(Anonymous,2016).
Page 24
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Fig.2.Annualhillproductionsystemofstrawberriesonsandyloamsoil(NCSmallfruitandspecialtycropIPM,2010)
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