kusuuuccMFOsnxcior mtrm, starch, mawmmdcmm FiACTKWSOPWRSATFLO* AW> XWRRUfICltSRXPTOFLOORQOALITI * oMURMoram ROBBtT 4 :. ., MMM MMMCollege, VH ATHRSIS sotaittod Inpartial fulflUaaotofthe NndMMBtf ofthodun KABRRCF Willi Dapartaent ofFlourandFoodMillingXndoatriaa ataobiSoMTtSuAw8e8TmAoTF.aCfCftuLkKdEsoma io«» LT) DIlRCDOCTiaiANDROTIEtfOF LITSUTORE 1 MATERIALSANDMETHODS 9 HBStJLTSANDDISCUSSION 10 *#H"gQuality • .10 Composition oftheFlourFractions 13 RelationshipBetweenMineralCenpositianendBakingQuality 26 SUMMARYANDCGHCTUSICWS 29 SOOOESTICHSFORFWEUaBWCRE 30 ACKNOWIEDGMHTTS 31 UTSUTORBCITKD 32 appstoix .36 OTRcrocTiro «drarawcrlxtbutob Mineralcomposition ofwheatandflour Is Mnown tovarywith environ- mentand heredity, finviromcntal factore includeweather, available nutrients inthe eoiland thephysical ocndttion of the aoil. Beeeen (*) andBailey (3) harereviewedthaeKtenaivaearlyliterature onthemineral composition ofwheat and flour, Many of these earlyanalyaesware carried out en samples ofunknownoriginend frequently information on sM.1, climatic factore, variety, andbaking qualitywerelacking. Meatresults indicated thet-italash and composition oftheashvariedgreatly* Uptake ofavailablenutrientsby thewheatplant is afrected Ifvariolar and soilnolatureas wallastherelativeratios oftheelements inthe soil (5). Oraavaa andCarter (17) f'andthatthe totalash in thegrainincreaeed progressivelyas the amount of irrigationwater Increased. Most ofthe increaseresulted fromadditionalphosphorus, potassium, calcium, and magnesiumabsorbedby theplents. In e l.vtcr paper,Qreevec, et. si. (15) reported thatspringwheat containedgreaterpercentages of totalash, oalciua,potassium, ircn, phosphorus, »nA sulfurthen winter vheat grown on theacmesoil• Thiswas assumedtobedueto genetic differencesbetween the twoclasses ofwheats. Additions of greenmanaracauseda significant increase in totaleah, caldnm, mdphosphoruspreaamanlybecause ofthe increaeedavailability oftheseelements. Mo data onbakingquali^rware reported• SehrenkandKing (36) reportedthatash sndmineral contentof three wheatvarietiesgrown for threeyearsat 13 locationswithinthe state of Kansas variedappreciablyandwere correlated, ingeneral, with available nutrients inthe eoil. Theavailabilityofnutrients depended onthe rain- fall sine*high annualrainfall leachedavailablenutrients fromthe soil. Areas producingwheatwith highmineral contentalsoproducedwheat withhigh protein. Mineral contentwas influenced greatlyby location,but only slightlybyvariety. Areasproducinghi<;hmineral content did so consistenly, Indicating thatdifference© duetorainfall and other environmental factors durin- the three-year perioddidnotaffectmineral content significantly. The increasedashcontent ofWestern Kansaswheatswasnet dueto Increases inMfoneelement, butwas there; nett increases in each of the major constituents of theash. The change* in ;rdnor element composition showednodefinitetrendwithrespect to locati . Ina continuation ofthiswork, Schrcnk (35) studied the effects of calcium, magnesium, and phosphorus applications on the composition of rain produced in SoutheasternKansas. Thepercentage cf proteindecreaseddue to fertiliser treatment, while themineral content of the grain increased. This suggests thatwhen non-nitrogenous fertiliserswereappliedat these locationsnitrogen content of the soilbecaeallmitinr factor. The ivost noticeable effect of soiltreatmentwas the increase inphosphorus content ofthe grain. Magnesiumdecreasedwhen onlycalcium andphosphoruswere spplied tothesoil. When these twonutrientsweresupplemented*lth magnesium,magnesiumalso increased inthegrain. Informationaccumulatedat the HardWinterWheat Qualitylaboratory (Finne-, et. el., 12) andrepresentingmanyvarietiesgrown throughout the GreatPlains, indicates that totalashis controlledbytwofactors. These arevarietyand environment, themostimportant ofwhich is envirenraent. Varietyplays aminor role indetermining mineral content ofwholewheat under field conditions. Conditions that favoraccumulation ofprotein in thekernelgenerally fevoraccumulation ofminerals. Significant differences inthemineral copposition ofportione ofthe wholewheatkernelalsoharebeenmeasured* Morris, et. al. (27), enploying emicrodissectiontechnique toseparatewholewheatkernels intofractions, foundevidenceofen increasinggradientInashandproteincontent extending (xztwordfromthe senter ofthe endosperm. Comparisonoftheashandprotein contents of thedissectedfractionswiththose ofBuhler flourmillstreams ofThomesoftwheat showedthatthedissectedfractionwith the lowestash was identicalwiththeflour streamwiththelowest ash* The flourstreams withthe highestashwereslightlylowerinashthanthedissected fractions with thehighestash. Itis knowngenerallythatcationsinfluence dough behavior and exertamodifying effectontheflourproteins (13, 25). Severalmethods ofdetermining flourqualitybasedon themeasurementof physico-chesdealproperties of dispersedflourproteinshavebeen shown to beaffectedby electrolytes presentinwheatash (MillerandJohnson, ZS)» Increasingthe saltconcentration ofdough*preparedfor testinginthe BrabenderSxtsnsograph increasesboththeextensibilityandresistanceto extensionofdoughs* Weakand strongfloursresponddifferentlytoadded salt (Fisher, et. al., 13). Meter containingamediundegree ofhardnessis consideredmoot suit- able forhexingpurposesas sonsof themineral saltshaveastrengthening effectonthegluten. Softwaters ere objectionableinbakingbeoauee they tendtoyieldasoft, stickydough (Pyler, 33). Patentedpreparations generallyareusedtobringccramercial doughstoamaximumionic strength, regulatedbythe solubilityofcalcium sulfate. SullivanendNear (3?) analysed theash of 20wheat samples ofwidely differentcharacter andoriginandreportedthatmagnoalum contentwas relateddirectly to thestrengthofwheatsasdeterminedbyprotein percentageandgluten quality* Theglutenqualityscore wasbased on physicalproperties ofdoughandwashedgluten. This subjectivemethod ofevaluatingglutenqualityleavesmuchtobedesired* DavidsonandShollenberger (6) studied effects onflourbaking quality of sodiumnitrateappliedat different stagesduring growth of thewheat plant, Flourprotein, ash, andabsorption, loafvolume,andtotal loafscore increasedwith increases In length of timefrom seedinguntil sodium nitratewasapplied. Thehighestflourprotein, ash, andabsorption, and highestquality loavesresultedfromapplication ofsodiumnitrateat (Hi, 15) grewwheatinhydroponic solutionsandstudiedthe effects onbreadscores ofnitrateand chloridesalts sejplisd during the laterperiod mfplantgrowth* Thequality of flourfromsheetgroanin cultureewherenitrogenwas suppliedinthefernofmonlawas decidely inferiorto thatnilled fromwheatgrownincultures suppliedwithnitrogen inthenitrate fora* Inbothseries, theuse ofcalciumnitrate or chloride resulted inhigherbreadseoresthandidthe similarsalts ofpotassium, •odium, andmagnesium. Theuse ofammoniumnitrateresultedin thepoorest loafproduced fromwheatgrown insolutions containingdifferentnitrate salts. Semequestion of thevalidityof theseresultsmightberaiseddue to the inadequacyof thebaking testeusedby Oaricke. Although each samplewas bakedbybothbasicandstimulated (diastased)methods, in severalcases, qualityrankings variedbetween bakingmethods* Recentlydevelopedbread- makingmethods (Finney, 9) eremuchbetterable tomeasurethebreeomeldng potentialofflours* IcCalleendWoodford (*3) eaployed theliquidculture technique* of Ocrlekeandreportedthatlimiting thesupplyofpotaeelua towheatplant* hadanadverseeffect on thaqualityof trainaa deterpdnadbygluten and Separation of flourdoughe or flour-waterauBponaiona intothair andraoonatltution ofthaaa complexestoproduce "synthetic" doughs hasyieldedeeneideratle informationon factors determining flourquality. Omfortnnstely, methods ofaskingtheseseparationsharevariedandsomsoftha data obtainedharebeencontradictor:.', Thagluten complex, however, hasbeen showntobethemost lasiortsnt substsnee intheflour. Itiereaponsibls forthe elastic andeeheeiveproperties ofaflourdoughandfor**thethree ^—^,^1 networkwhichisresponsibleforthsohsraoteristio porous structureofleavenedbreed. Pence, at.al. (30) andSullivan (38) recently reviewedtheliteratureon thsrole ofwheat flourproteininbaking. Ksrlyworkers separatedgluten into fractionsbasedonsolubilityIn various solvents insnatteapttodetermine factorsresponsiblefor the unusualproperties ofglutenandthereasonsforvariation inproperties of gluten obtained fromdifferentflours. Thetoostlispcrtantconclusiondrawn fromthisworkwasthatgluten consistsofmanycomponentsvarying progres- sive!'insolubilityandotherphysical rr©parties (Killer andJohnson, 2$). awsnson (hO) discussed the inflaenoeofelectrolytes on ths physical properties ofdoughsand onflourproteins. DoughsareInflnenoeridirectly bythekindandsmountof saltpresent,andindirectlyby theireffect onpH. awrasssinviscosity ofadoughinthepresence ofa saltwaaattributedto theappropriationof waterbytha saltmolseules orions. Decreasein viscositywouldbecausedbyadispersing offestonthagluten. Fewanalyses ofgluten obtainedfromflours ofwidelydifferentdough characteristics andbaking qualityhare shownsignificant differences in the —minin orkinds ofaminoacids. Miller, et. el, (26) studied the "micro- biologioallyapparent'1 lysine, glutamic acid, cjstine,andmethioninecontent ofwholewheats and foundarelationshipbetweennixingtimeandpercentof both cystineandMethionineas influencedby environment. No differences feetovariety wereobserved. Flour frostwheatsamples highin cystine required the longeet mixing for optimumdoughdevelopment. VWetiamn (hZ) reportedapositivecorrelationbetween flour strength, asreflectedby surfacearea of exteneograas, thecystine content offlourproteins,and total cystine content of theflour. Cystinewas determinedpolarogrsphieally. Presentevidenceindicates thatvariations inglutenproperties, inpart, areduetomodifyinginfluencesexertedbythe other doughcomplexes, mainly thosematerials extractableinwater. Pence, et. al. (23, 29, 31)made detailed studies ofeffects ofwater-soluble flour components enbaking behavior. They found that solublepentosans hadlittleeffect on thebaking performanceofdoughs reconstitutedwithout theuseofthewater-soluble fraction,ofthe flour, but thehandlingproperties ofthe doughsweremodified distinctly. Thesepentosans corrected toa large degree the softness, wet surface, and lack ofnormalstickiness shownindoughsreconstitutedwith only glutenend starch. Improrewenteinvolume, grain, and texture, however, thesoluble oomponente of the flourswererequired formaximumperfc ofallglutene except thatfromadurumwheat, andappearedtobe capable ofaffecting flourbehaviortosuchen extent thatdifferences or similarities in gluten characteristics were obscured. Thepentosans ofthe crudealbumin fraction (non-dialysableportion of thewater-solubles)warereepcnsible for the shortenednixingtinsofdoughscontaining thisfraction. «n ofsolubleproteins foundtoincreasedirectlywith total flour protein,battherelatione*!?heosneinversewhen theywereexpressedee perecntagesof totalprotein. Therationofalbuminstoglobulinscontained by flours veraoorrelated withproteinqualitybeyondtheonepercent level ofsicnifiosnee. TheauthorepostulatedthatalbuminccepanahtPactIna benefieialwanner inbreeddou#ujtwhereaa, globulins actinadeleterious meaner. Theresultant effect ofthetwopreteine isreflectedbytheratio oftheirsmounte, MetternendSendetedt (22)reported thattheprincipal factorresponsible fordeterminingthe"^^rlftf.requirementofwheatflouris mlsrmsnlitils. The nixingtineofaflooresslengthenedbyremoval oftheweter-eoluble freotlon. Reiuctt-ptreticn ofthe solublesreversedtideeffect* Themixingrequire* Meetofafleeralsowasextendedbyincorporatingwaterextractedflour withanormal floor* Starchhasbeen showntoexert sonseffectendough propertiesandloaf qualityslthnasyi these effects ererathersmallcooperedtothosereported fortheglutenandwater-soluble fractions. AccordingtoSsndstedt, et.el* (3it)the "eeylodextrin" or "tailingsstarch" fractionofflourisafactor inabsorptionendexertsitsinfluenceonthehandling charaeteristiesof flourdoughs. Thisnotorialwasassociatedwithst.lskinosa of withtenderness efcrumbinthebakedproduct. HarrisendSdbbit (18, 3y) foundnarfceddifferenoecinthecomparativebakingqualitiesofstarch preparedirondifferentwheatvarieties* %nthetio floors werepreduosdby addingthese starches toaconstantglutensubstratea* threeproteinlevels. PreeentevidenceprovidedbyMatternendasndstedt (22) leadstodoubt ofthevalidity ofearlyreports ooncorningthepositive offooto of ladetuminiagdoughcharacteristicsandtreadquality, Sandetedt, et. al. (31) andHarriaandaUftdt 0$) aeparatedthe glutenandstarchfiroa« ItooptdsondevelcpnentanddiscardedthevattcrwoolnMaa, Daacrerecentoork, (8, 22, 37, U3> thefloor ocnpleoeee barebean bynathodadesignedtoseepdoaghdevelopnontatanlnlaaa, under thoae conditions, thavater-eolnbleeareneeoseary inreconstitutinga "eynthetiodoagh" *!ieh willremitinbreadofqualityequaltothatfreea flour* Littlela know*about therelativedistributionoftheminerals intha (operatedIronhydratedfloursandtheirrelationehlp to the topologicalbehavior offlour, SIOindy, et,el, (7) studiedthe influence ofvariety, fertilisertaraavaont,andsoilontheproteincontentandmineral oonpoeitionoftfceet, Hoar, andflour fractlona (gluten, starch,andeater* solnblss). millngbehaviorandflouryieldveranotaffectednoticeably aysoildifferencesorfertiliser treetaents. Totalvhoatashaeeaffected byfertilisertreetawntaandvariedanongvarieties. Theporeonlagoof epecific elenenteintheashes ofthevheetandthafloor fractionsvaried greatlyanongvarlstles forsaneelenente. Thereusenoconsistent relationehlpanongvarietiesend elanental ooapoeitionconparedaaabsolute aaounteoraaporoentagaaofthaash, Thaanthersconcludedthatacenplex herediterylirkayiniilprobablyinfluencedopposition ofthaash. Ho iaforaation onthebaJdagoharaaterlatios ofthese flourewaspiassuied* Theliteraturesuggeatethatflourandgluten qualityarecontrolledby afactororfactorsvtdeharesubtileinnature, Che ofthesefactorsabout vhloh therelalittleinfomation iethaalneral coapoeiticn offlourandits