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First Nuclear DNA Amounts in more than 300 Angiosperms PDF

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Preview First Nuclear DNA Amounts in more than 300 Angiosperms

Annalsof Botany96:229–244,2005 doi:10.1093/aob/mci170,available onlineatwww.aob.oupjournals.org First Nuclear DNA Amounts in more than 300 Angiosperms B. J. M. ZONNEVELD1, I. J. LEITCH2 and M. D. BENNETT2,* 1Institute ofMolecular Plant Sciences, LeidenUniversity, Leiden, The Netherlandsand 2Jodrell Laboratory, Royal Botanic Gardens, Kew, Richmond, SurreyTW9 3AB,UK Received:3February2005 Returnedforrevision:30March2005 Accepted:10April2005 Publishedelectronically:19May2005 D o (cid:1)BackgroundandAimsGenomesize(DNAC-value)dataarekeybiodiversitycharactersoffundamentalsigni- w n ficanceusedinawidevarietyofbiologicalfields.Since1976,Bennettandcolleagueshavemadescatteredpublished lo a and unpublished genome size data more widely accessible by assembling them into user-friendly compilations. d e Initiallythesewerepublishedashardcopylists,butsince1997theyhavealsobeenmadeavailableelectronically d (see the Plant DNA C-values database www.kew.org/cval/homepage.html). Nevertheless, at the Second Plant fro GenomeSizeMeetingin2003,Bennettnotedthatasmanyas1000DNAC-valueestimateswerestillunpublished m andhenceunavailable.Scientistswerestronglyencouragedtocommunicatesuchunpublisheddata.Thepresent h workcombinesthedatabasingexperienceoftheKew-basedauthorswiththeunpublishedC-valuesproducedby ttp s Zonneveldtomakealargebodyofvaluablegenomesizedataavailabletothescientificcommunity. ://a (cid:1)MethodsC-valuesforangiospermspecies,selectedprimarilyfortheirhorticulturalinterest,wereestimatedbyflow c a cytometryusingthefluorochromepropidiumiodide.Thedatawerecompiledintoatablewhoseformissimilarto d e previouslypublishedlistsofDNAamountsbyBennettandcolleagues. m (cid:1)KeyResultsandConclusionsThepresentworkcontainsC-valuesfor411taxaincludingfirstvaluesfor308species ic .o not listed previously by Bennett and colleagues. Based on a recent estimate of the global published output of u p angiospermDNAC-valuedata(i.e.200firstC-valueestimatesperannum)thepresentworkequals1(cid:2)5yearsof .c averageglobalpublishedoutput;andconstitutesover12%ofthelatest5-yearglobaltargetsetbytheSecondPlant om Genome Size Workshop (see www.kew.org/cval/workshopreport.html). Hopefully, the present example will /a encourage others to unveil further valuable data which otherwise may lie forever unpublished and unavailable ob forcomparativeanalyses. /a rtic Key words: Genome size, C-value, plant DNA C-values database, Genome Size Initiative (GSI), Plant Genome Size le workshopandDiscussionMeeting,angiosperm,monocots. -ab s tra c INTRODUCTION (e.g. Knight et al., 2005; Leitch et al., 2005; Price et al., t/9 6 2005) and are the main source of information on plant /2 TheDNAamountintheunreplicatedgameticnuclearchro- genomesizescitedintheliterature.Publishedlistsofangio- /22 mosome complement (1C-value) is highly characteristic 9 sperm DNA amounts have been cited over 1500 times, /2 for taxa and varies over 1000-fold between plant species. 9 whilsttheelectronicdatabasehasreceivedover60000hits 9 Species’ DNA amounts [C-value and genome size (1Cx)] 1 since 2001. 62 are key diversity characters of fundamental significance Bennett et al. (2000) and Bennett and Leitch (2005a) by with many important uses (Bennett and Leitch, 2005a). notedthatC-valuesforprobablyasurprisinglylargenumber gu However, it is often difficult to know if a genome size e ofplantspecieshadbeenestimatedbut,forvariousreasons, s measurementexistsforataxon,orwheretofindit,assuch notpublishedandhencewereunavailable.Indeed,thiswas t on valuesarewidelyscatteredintheliteratureorunpublished. suspected to apply to hundreds of species overall whose 15 Csppuoebnrlmsieshqseupdeenc(teile.ygs,,.sBcionemcnenpei1lt9etd7a6nf,dolrSisrmtesfietohrfe,nD1c9Ne7A6p)u,arampnoodsuetnsh,teshdianavteaanbhgeaievone- ginefnoormmeatiosinzesoftocgoenthsiedrercaobnlestitpuotteenatinalunvtaalpupee.dScpioeonltisotsf April 2 beenpooledandreleasedinelectronicformsince1997(e.g. have therefore been encouraged to communicate them for 019 inclusioninthePlantDNAC-valuesdatabase,thusmaking the Angiosperm DNA C-values database). To extend the them accessible for comparative studies.Thepresent work coveragetoincludeotherplantgroups,databasesforgym- isproofofthishypothesisandprovidesamodelexampleof nosperms,pteridophytesandbryophyteswereaddedin2001 collaborationtotransferalargebodyofpreviouslyinvisible tocreatethePlantDNAC-valuesdatabase(release1(cid:2)0)with plant genome size data firmly into the public domain. C-valuesfor3864landplants.InDecember2004thePlant Twoofthepresentauthorshaveworkedtogetherforthe DNA C-values database was further updated (release 3(cid:2)0) pastdecadetoproducepooledlistsofplantDNAC-values and included, as a novel feature, C-values for 253 algal for reference purposes in both hard copy (Bennett and species. Release 3(cid:2)0 has DNA amounts for almost 5000 Leitch, 1995, 1997, 2005a; Bennett et al., 2000) and elec- species from over 500 original sources, including first val- tronicversions(http://www.kew.org/genomesize/homepage). ues for 628 angiosperms not previously included (http:// Meanwhile the present first author has made genome size www.kew.org/genomesize/homepage).Theselistsanddata- estimates for angiosperm taxa in several genera, including bases have been widely used for comparative studies Helleborus (Zonneveld, 2001), Hosta (Zonneveld and *[email protected] VanIren,2000,2001), Galanthus(Zonneveldet al.,2003) ªThe Author2005. PublishedbyOxfordUniversityPressonbehalf ofthe Annalsof BotanyCompany. Allrightsreserved. For Permissions, pleaseemail: [email protected] 230 Zonneveld et al. — Nuclear DNA Amounts in Angiosperms and Agapanthus (Zonneveld and Duncan, 2003), some TABLE 1. Species used as calibration standards to estimate ofwhichhavesubsequentlybeenincludedinarecentcom- nuclear DNA C-values pilationbyBennettandLeitch(2005a).Whilecorrespond- ing with Bennett and Leitch about these data and planned Assumed Abbreviationused futurepublications,Zonneveldnotedthathehadalsomade 2CDNA incolumn13of Species amount(pg) theAppendix C-value estimates for taxa in various genera that seemed most unlikely to be published. It emerged that this sample Agavestricta 7.8 A.stricta wassubstantialandincludedfirstestimatesforhundredsof Hordeumvulgare‘Sultan’* 10.0 Hordeum miscellaneous species, measured mostly out of curiosity. Agaveamericana 15.9 A.americana Giventheirpotentialvalue,itwasdecidedtocombinethe Agavesisalana 20.2 A.sisalana Cliviaminiata 39.0 Clivia taxonomic and databasing experience of the Kew-based authors with information amassed in The Netherlands to *The2Cvalueof10pgforHordeumvulgare‘Sultan’wasobtainedusing D produce a further reference list in a form similar to other Agaveamericana(2C=15(cid:2)9pg)asthecalibrationstandard(seeentrynumber ow recentplantC-valuereferencelists(e.g.BennettandLeitch, 161qintheAppendix).ThisvalueisslightlylowerthanthatgiveninBennett nlo 2005a; Kapraun, 2005). The present work is the product andSmith(1991)of2C=11(cid:2)12pg.IntheAppendixH.vulgarewasusedasa ad of that collaboration. Analysis of the completed Appendix calibrationstandardforonlyonespeciesCatharanthusroseus(2C=1(cid:2)4pg; ed table shows that it contains C-values for 411 angiosperm seeentrynumber82binAppendix).IfthehighervalueforH.vulgaregiven fro byBennettandSmith(1991)isusedthenthe2CvalueofC.roseuswould m taxa,includingfirstvaluesfor308speciesnotlistedinany be1(cid:2)6pg. h previous compilation by Bennett and colleagues. ttp s flowcytometeravailableforuse,asthepeakstendedtobe ://a c lost in the debris fluorescence. a d MATERIALS AND METHODS e m ic Plantmaterials .o RESULTS AND DISCUSSION up The present work examined angiosperm taxa available as .c o seed or plants growing in The Netherlands selected prim- ComparisonofC-valuedataintheAppendixtablewiththose m arily for their horticultural interest. The Netherlands has a previouslyreported /ao b ltroaexandagifltyoraradhviotairiotlinacbuolleftufgrorero,wrceoisnnegsaeraqcnuhdepnbutlrryepeosdusiecnshg.pmlaanntymaantgerioiaslpsearrme Tcoom(1ap)sasCeris-svsoantlhsueewsqeufroaerlimt1y0a3odfes.pCe-cviaelsueindtahteaAinpptheendAixppwenerdeixcotwmo- /article-a b EstimationofDNAC-values pthaereAdpwpeitnhdi‘xp’r)imCe-v’a(lsueees nfoorteth(ea)saimne‘Nspoetecsiesonlisctoedmpinilitnhge strac DNA 2C-values were estimated using flow cytometry Plant DNA C-values database (Bennett and Leitch, 2004). t/96 with the fluorochrome propidium iodide (PI) as described Figure1Ashowsthatgenerallythetwodatasetswereingood /2/2 byZonneveldandVanIren(2001).Briefly,somaticnuclei agreement (R2 = 0(cid:2)9068). However, there were 18 species 29 wereisolatedfromleavesbyco-choppingthemwithoneof where previously published ‘prime’ C-values differed by /29 9 the internal calibration standards (Table 1) in nuclei isola- >30% from those given in the Appendix. These species 1 6 tion buffer. After adding 2 mL PI solution (50 mg PI/l in are represented by open circles in Fig. 1A. The cause(s) 2 b half-strength isolation buffer) the suspension was filtered. of the discrepancies was not clear but possibilities include y g Nucleifluorescencewasmeasured30minaftertheaddition taxonomicerrorsorgenuineintraspecificvariation.Forsix ue s of PI using a Partec CA-II flow cytometer. In most cases, ofthespeciesthedifferentC-valuesreportedweremultiples t o severalsamples,eachwithatleast5000nuclei,weremeas- of previous estimates, suggesting that polyploidy may be n 1 ured.The2C-valueofthesamplewascalculatedasfollows: responsible. Nevertheless, as no chromosome counts were 5 A (ammeoaunnotf(spagm)polfetpheeaksta(cid:3)ndmaredanspoefcsiteasnd(aserdepTeaabkl)e·12)C. ODtNheAr mmaacdreofpohrylalnay),stpheecrieosleinofthpeolAypplpoeinddyixis(uenxccoepntfirHmyeddr.angea pril 2 0 peaks corresponding to higher C-values (i.e. 4C, 8C and (2) A comparison was made between the C-values for 19 16C,etc.)weresometimesobservedbuttheirDNAamounts seven species in the Appendix and the C-values for these were not calculated. calibration standards given in Bennett and Smith (1991). Thesetwodatasetsshowedverycloseagreement(Fig.1B) Internalcalibrationstandards (R2=0(cid:2)9965).Overall,itwasconcludedthattheAppendix C-value data are of high quality. Five calibration standards, differing in DNA amount, were used (Table 1). In most cases Agave americana was RepresentationofC-valuedatainAppendix chosen, as previous work showed it to be a reliable and reproducible standard, giving clean peaks with low CVs The present Appendix gives C-values for 411 species, (Zonneveld and Van Iren, 2001). If nuclear DNA content of which 308 (75%) are for species not included in any of a test species overlapped with that of A. americana, previous compilation by Bennett and colleagues (Bennett another calibration standard was used whose C-value fell andSmith,1976,1991;Bennettetal.,1982,2000;Bennett closetothatoftheunknown.Specieswith2C-valuesbelow and Leitch, 1995, 1997, 2005a)or listed in the Plant DNA 2(cid:2)0pgcouldusuallynotbemeasuredwiththePartecCA-II C-values database (release 3(cid:2)0, December 2004). Bennett Zonneveld et al. — Nuclear DNA Amounts in Angiosperms 231 60 y = 0·8582x + 0·8914 20 y = 0·957x + 0·5172 g) A R2 = 0·9008 pg) B R2 = 0·9965 Triticum aestivum ported (p 40 d Smith ( 15 Vicia fabAallium cepa usly re nett an 10 o n evi Be Secale cereale pr 20 y value alue b 5 PisHuomr dseautimvu vmulgare 1C- 1C-v Senecio vulgaris Dow n 0 0 lo 0 20 40 60 0 5 10 15 20 a d e 1C-value in Appendix (pg) 1C-value in Appendix (pg) d fro FIG. 1. ComparisonsbetweenC-valuesforspecieslistedintheAppendixand‘prime’C-valuesforthesamespecieslistedinthePlantDNAC-values m database(release3(cid:2)0,December2004).(A)Comparisonforall103species.Opencirclescorrespondtothe18specieswhoseC-valuesintheAppendixdiffer h by>30%fromthe‘prime’C-valuesinthedatabase.(B)ComparisonbetweenC-valuesforsevenspecieslistedintheAppendixandtheacceptedC-valuesfor ttp s thesecalibrationstandardsgiveninBennettandSmith(1991). ://a c a d and Leitch (2005a) analysed the global output of DNA TABLE 2. RepresentationofC-valuedataintheAppendixat em C-values for angiosperms during the past half century. various taxonomic levels ic .o They concluded that the 1997 Angiosperm Genome Size u p Workshophadstimulatedalargeincreasefromanaverage No.listedin No.offirst .c o ofabout100perannumintheearly1990stoalmost200per Appendixtable C-values m /a annum for 1998–2002. The total number of first C-values o Species 411 308 b forspeciesinthepresentworkthereforeequals1(cid:2)5yearsof /a average global published output at the record levels BMaosnaolcaontgsiosperm 2583 1956 rticle achievedinrecentyears.Byanymeasure,itisasignificant Eudicots 150 107 -a contribution to knowledge of this important character. Genera 187 85 bs Indeed the present data sample (all from one source) Basalangiosperm 6 2 tra increases the total sample of angiosperm species with MEuodniococotsts 16147 5267 ct/96 genome size estimates by about 7(cid:2)4%. Moreover, it con- Family 67 1 /2 stitutes over 12% of the global target set by the Second Basalangiosperm 5 0 /22 Plant Genome Size Workshop (namely to estimate first Monocots 21 0 9/2 Eudicots 41 1 9 DNA C-values for about 2500 angiosperm species within 9 1 a quinquennium; see http://www.rbgkew.org.uk/cval/ 62 workshopreport.html). Clearly, one worker can still make by a significant contribution to the global pool of information concluded that significant progress to improve familial gu e on genome sizes. Failing to make such information visible representationofangiospermfamilieswasunlikelywithout s could seriously impair the scope of the available database careful targeting and the present data for a large sample t on and limit the scope of comparative studies. of untargeted taxa confirm this expectation. Thus, while 15 Table2showshowmanyoftheC-valuesintheAppendix the Appendix includes 308 first C-values for species, Ap are first values at the species, generic and family level for only one of these is also the first value for a family (i.e. ril 2 thethreemajorangiospermgroups(i.e.basalangiosperms, Tamaricaceae). 01 9 monocotsandeudicots).Althoughmonocotsconstituteonly Also as expected, given the lack of specific targeting, approx. 20% of all angiosperm species, most of the new the present sample does not make major contributions to C-valuesintheAppendixareformonocots(i.e.64and65% filling gaps for any other groups identified as significantly of first C-values are for monocot species and genera, under-represented in the database (e.g. for taxa from respectively). bog, fen, tundra, alpine and desert environments, or for Nevertheless, while the present data make a significant halophytic, insectivorous, parasitic, saprophytic and endo- contributiontoknowledgeofC-valuesatthespecieslevel, phytic species; Bennett and Leitch, 2005a). Nevertheless, therehasbeennosignificantimprovementinrepresentation thepresentsampledoesincludefirstvaluesforafewtaxaof at the family level. The 1997 Angiosperm Genome Size such interest including two parasitic species Orobanche Workshop recommended a goal of complete familial rep- hederae and Rhinanthus glabra (both in Orobanchaceae) resentation by 2002, as a first C-value was available for with 1C values of 2(cid:2)65 and 3(cid:2)05pg, respectively. The only about 30% of families. Bennett et al. (2000) noted table also includes two desert species Opuntia microdasys thatinasixthsupplementarylistofC-valuesfor691species (1C = 2(cid:2)24pg) and Rebutia albiflora (1C = 1(cid:2)91pg), both only 12 were also first estimates for families. Later they in the Cactaceae, and a number of succulents from the 232 Zonneveld et al. — Nuclear DNA Amounts in Angiosperms TABLE 3. Theminimum,maximum,mean,median,mode,and Futureplans rangeof1CDNAvaluesfor411speciesintheAppendixcom- Participants at the 2003 Plant Genome Size Workshop paredwiththecorrespondingstatisticsfor4119speciesinthe formalized their international collaboration as the Genome Plant DNA C-values database(release 3.0,December 2004) SizeInitiative(GSI;BennettandLeitch,2005b),whoseaims aretoimprovetheavailability,qualityandunderstandingof PlantDNAC-values database(release3.0, genome size data, and to provide a focus for monitoring Appendix December2004) progress and facilitating discussions in a holistic genomic context.Further,inakeynoteaddressopeningthe2003Plant Minimum1C-value(pg) 0.6 0.1 Genome Size Discussion Meeting, Bennett reiterated the Maximum1C-value(pg) 95.0 127.4 potential value of unpublished genome size data, and the Mean1C-value(pg) 11.7 6.1 needtomakeitvisibleasfollows:‘Thereareprobablyover Median1C-value(pg) 6.6 2.7 Mode1C-value(pg) 5.0 0.6 1000 prime C-value estimates for plant species, equal to Do Range(max/min) 94.4 1274.0 4 years of known global output, unlocated in publications wn orunpublished.Suchgenomesizedataarealmostvalueless loa d ifpotentialuserscannoteasilyaccessandassessthem.Itis e d families Asparagaceae (Agave, Ledebouria), Bromeliaceae impossibletoover-emphasisetheimportanceofpublishing fro C-value data or linking them to the database by informing m S(Teidlulamn)d,sia)A,poCcyransascuelaaeceae(Ce(rAoepoengiiuam, , HGoroadpiato,petHalouyma,, theco-ordinatorsofitsexistence,sothatotherscanassessits http qualityanduseit’.Thepresentworksupportsthissentiment s Catharanthus, Stapelia), Xanthorrhoeaceae (Aloe) and andtheaimsofGSI.Hopefully,itwillencourageothersto ://a Asteraceae (Senecio) in which the C-values ranged from ca emulate this example and unveil further useful data which d 1(cid:2)11 to 16(cid:2)85pg. e otherwise may lie forever unpublished. m ic .o u TherangeofC-valuesintheAppendixcompared p withexistingdata LITERATURE CITED .co m APGII.2003.AnupdateoftheAngiospermPhylogenyGroupclassification /a Table 3 compares the minimum, maximum, mean, o fortheordersandfamiliesoffloweringplants.BotanicalJournalofthe b median, mode and range of DNA amounts for all 411 spe- LinneanSociety141:399–436. /a cies listed in the Appendix, with the 4119 species listed in Bennett MD, Leitch IJ. 1995. Nuclear DNA amounts in angiosperms. rtic the Plant DNA C-values database (release 3(cid:2)0, December AnnalsofBotany76:113–176. le-a BennettMD,LeitchIJ.1997.NuclearDNAamountsinangiosperms:583 b 2004). s The range of C-values in the present sample (1C = 0(cid:2)6– newestimates.AnnalsofBotany80:169–196. tra BennettMD,LeitchIJ.2004.PlantDNAC-valuesdatabase(release3(cid:2)0, c 95(cid:2)5pg) falls within that reported for the Plant DNA December2004).http://www.kew.org/cval/homepage.html t/9 6 C-valuesdatabase(1C=0(cid:2)1–127(cid:2)4pg),althoughitissome- BennettMD,LeitchIJ.2005a.NuclearDNAamountsinangiosperms: /2 what enriched in species with larger genomes, leading to progress,problemsandprospects.AnnalsofBotany95:45–90. /22 BennettMD,LeitchIJ.2005b.Plantgenomesizeresearch:afieldinfocus. 9 higher mean and modal values compared with the larger AnnalsofBotany95:1–6. /29 sampleinthedatabase(Table3);thustheminimumC-value Bennett MD, Smith JB. 1976. Nuclear DNA amounts in angiosperms. 91 intheAppendixisthesameasthemodalvalueforspecies PhilosophicalTransactions of the Royal Society of London. Series 62 inthedatabase.Thisprobablyreflectsthegreaterproportion B.BiologicalSciences274:227–274. by of monocots in the present sample with large genomes. Bennett MD, Smith JB. 1991. Nuclear DNA amounts in angiosperms. gu PhilosophicalTransactions of the Royal Society of London. Series e Indeed the 43 species (approx. 10%) with the largest gen- s omes in the Appendix are all monocots from the orders BenneBt.tBMioDlo,SgimcaitlhSJcBie,nHceessl3o3p4-H:3a0r9r–is3o4n5J.S.1982.NuclearDNAamounts t on Asparagales, Commelinales or Liliales; these groups have inangiosperms.ProceedingsoftheRoyalSocietyofLondon.SeriesB. 15 previously been shown to contain species with the largest BiologicalSciences216:179–199. Ap recorded angiosperm genomes (Leitch et al., 1998; Soltis BennesptteMrmDs,aBndhtahnediromlPo,dLerenitucsheIsJ:8.20070n0e.wNeusctilmeaartDesN.AAnanmalosuonftBsointaannyg8io6-: ril 2 et al., 2003). (NB The presence of only eight species with 859–909. 01 9 2C-values <2(cid:2)0pg is, in large part, due to technical diffi- BrandhamPE,WestJP.1993.CorrelationbetweennuclearDNAvalues culties encountered in estimating C-values in species with anddifferingoptimalploidylevelsinNarcissus,HyacinthusandTulipa cultivars.Genetica90:1–8. smaller genomes, as noted in Materials and methods.) Cavalier-SmithT.1985.Theevolutionofgenomesize.Chichester:John Analysis at the family level showed that in half of the Wiley&Sons. 66familiesalreadyrepresentedinthePlantDNAC-values DabrowskaJ.1992.Chromosome numberandDNAcontentintaxaof database, the new data did not increase the range of AchilleaL.inrelationtothedistributionofthegenus.PraceBotaniczne C-values previously reported for a family. In only eight 49:1–84. Kapraun DF. 2005. Nuclear DNA content estimates in multicellular families was the minimum C-value decreased as a result eukaryoticgreen,redandbrownalgae:phylogeneticconsiderations. ofnewdata,whereasin25familiesthemaximum C-value AnnalsofBotany95:7–44. increased, sometimes greatly. For example, in Garryaceae KnightCA,MolinariN,PetrovDA.2005.Thelargegenomeconstraint and Escalloniaceae, which both previously had a C-value hypothesis:evolution,ecologyandphenotype.AnnalsofBotany95: 177–190. forjustonespecies,theadditionofanestimateforonenew Leitch IJ, Chase MW, Bennett MD. 1998. Phylogenetic analysis of speciesincreasedtherangeofC-valuesforeachfamilyover DNAC-valuesprovidesevidenceforasmallancestralgenomesize 8- and 15-fold, respectively. infloweringplants.AnnalsofBotany82:85–94. Zonneveld et al. — Nuclear DNA Amounts in Angiosperms 233 LeitchIJ,SoltisDE,SoltisPS,BennettMD.2005.EvolutionofDNA S.pendulusandS.radicans),however,thedifferentC-values amounts across land plants (Embryophyta). Annals of Botany 95: so strongly suggested the presence of polyploidy that they 207–217. weregivenseparateentrynumbersinaccordancewithpre- PriceHJ,DillonSL,HodnettG,RooneyWL,RossL,JohnstonJS.2005. viouspractice(e.g.BennettandLeitch,2005a). GenomeevolutioninthegenusSorghum(Poaceae).AnnalsofBotany 95:219–228. For103species,whereoneormoreC-valuehadpreviously Soltis DE, Soltis PS, Bennett MD, Leitch IJ. 2003. Evolution of been listed by Bennett and colleagues, the estimate in the genome size in the angiosperms. American Journal of Botany 90: Appendixwasgivenanumberandthenextavailableletterin 1596–1603. thealphabet.Forexample,threepreviousC-valueshavebeen United Nations Environment Programme. 1992. Convention on bio- reported for Allium ampeloprasum, thus the entry for this logical diversity. Nairobi, Kenya: United Nations Environment Programme. speciesintheAppendixwasassignedtheletter‘d’. ZonneveldBJM.2001.NuclearDNAcontentsofallspeciesofHelleborus (b) Taxonomic authorities. Taxonomic authorities of (Ranunculaceae)discriminatebetweenspeciesandsectionaldivisions. PlantSystematicsandEvolution229:125–130. the species studied were taken from the International Do ZonneveldBJM,DuncanGD.2003.Taxonomicimplicationsofgenome PlantNamesIndex(IPNI)(http://www.ipni.org/index.html). w n sizeandpollencolourandvitalityforspeciesofAgapanthusL’Heritier Asuperscript‘b’followingaspeciesnameindicatesthatthe lo a (Agapanthaceae).PlantSystematicsandEvolution241:115–123. d taxonomicauthoritywasunknownorunclear(i.e.morethan e Zonneveld BJM,VanIren F.2000.FlowcytometricanalysisofDNA d contentinHostarevealsploidychimeras.Euphytica111:105–110. oneentryinIPNI). fro ZonneveldBJM,VanIrenF.2001.Genomesizeandpollenviabilityas m taxonomiccriteria:ApplicationtothegenusHosta.PlantBiology3: (c)Familyandhigherordergroup.Thefamily,orderand h 176–185. highergroupgivenforeachspeciesinAppendixcolumns3, ttps ZonneveldBJM,GrimshawJM,DavisAP.2003.Thesystematicvalueof 4 and 5, respectively, follows the Angiosperm Phylogeny ://a nuclearDNAcontentinGalanthus.PlantSystematicsandEvolution Group(APG)system(APGII,2003).Thefollowingabbre- c a 241:89–102. viationswereused:BA=basalangiosperm;M=monocot; de m E=eudicot. ic APPENDIX .o (d) Chromosome number, ploidy and voucher informa- up NotesoncompilingtheAppendix tion.ThesentimentoftheConventiononBiologicalDivers- .co m C-valuedatawerecompiledintotheAppendixtablewhose ity(UnitedNationsEnvironmentProgramme,1992),which /a form is similar to that of previous lists of DNA amounts noted the need to make biodiversity data available despite ob b1y99B1;enBneetntnaenttdectolalel.a,gu1e9s82(i;.eB. eBnennenttettanadndLSemitcithh,, 11999756,, iimnptheerfAecptipoennsd,imxegreitnsesruapllpyolrat.ckThauvs,owuchhileertahnedspinecfoiermslaistitoend /article 1997; Bennett et al., 2000). Additional information on onchromosomenumberandploidylevel,theycan makea -ab compilingtheAppendixisgivenbelow. valuablecontributiontoknowledgeofplantC-values. stra Chromosome numbers and/or ploidy information were c (a) Assignment of entry numbers and ‘prime’ entries. entered for 90 taxa where previous C-value reports also t/96 TfohrepnruemviboeursinlgistosfothfeDANpApenadmixoutanbtsle(gseeenearbaollvyef)o.lTloawxsatahraet iwnictlhudtheodsethriespionrftoerdmhaetiroen. FaonrdetxhaemCp-lev,alaueCs-vaaglrueeedofc2lo(cid:2)9seplgy /2/229 arranged alphabetically by genus and species with a new for Achillea filipendulina was previously estimated by /29 numberusuallybeingassignedforeachnewspecies. 9 Dabrowska (1992), who also reported that the accession 1 maFdoerf4o2rstpheecsiaemsientshpeecAiepspe(en.dgi.xfmorodreiftfhearennotnceueltsitvimarast,evwarais- sthtuedsiaemdehsapde2cines=in2xth=eA18p.peAnsditxhew1asCv-vearyluseimofila2r(cid:2)8to8tphgatfoorf 62 by eties,etc.).Inmostcases,theC-valueswereverysimilarand Dabrowska(1992),thechromosomenumberandploidydata gu e thedifferentaccessionswereassignedthesameentrynumber s butweredistinguishedbyletters,sortedherebyincreasing werealsoentered. t on DNAamounts.Forexample,C-valuesarereportedfortwo (e) Life cycle types. Informationonthetypeoflifecycle 15 cultivarsofCrocuschrysanthus,aspeciesnotincludedpre- forspeciesintheAppendixwaseithertakenfromtheliter- Ap viouslyinanyofthelistsmentionedabove.Thesmallerof atureorinternet.Thefollowingabbreviationswereused:A= ril 2 thetwovalues,for‘Dorothy’,islistedasentrynumber113a, annual;B=biennial;AP=annual–perennial;P=perennial. 01 A superscript ‘e’ indicates that life cycle information was 9 while the larger, for ‘Blue Pearl’, is 113b. Where several eitherunknownoruncleartothepresentauthors. estimates are available for the same species, the ‘a’ value is automatically chosen in any arithmetical or statistical (f)DNAamountsandconversionfactor.1Cand4Cvalues calculations.Inthiscontext,asingleestimateforaspecies listedintheAppendixweredeterminedbyappropriatecal- and‘a’valuesarereferredtoas‘primeentries’. culation of the 2C-value. For 1C-values in megabase pairs For18speciestheC-valuesbetweenaccessionsdiffered (Mbp) the conversion factor of 1pg = 980 Mb (Cavalier- by >10 %. Taxonomic heterogeneity, polyploidy and/or Smith,1985;Bennettetal.,2000)wasused. intraspecific variation are the most likely explanations (g) Standard species. The abbreviation used to indicate (especiallywherearangeofchromosomenumbershaspre- whichofthefivecalibrationstandardswasusedtoestimate viouslybeenreportedforthespecies),yetuntilchromosome the 2C-value for each species in the Appendix is given in counts are made, the cause(s) of the differences remains Table1. unknownandthedifferentaccessionsofaspecieswereusu- allyassignedthesameentrynumber.InsixSeneciospecies (h) Chromosome numbers in Hyacinthus. Brandham (S.herreianus,S.kleiniiformis,S.mweroensis,S.nyikensis, and West (1993) reported chromosome numbers in 234 Zonneveld et al. — Nuclear DNA Amounts in Angiosperms ) aaaaaaa aaaaaa aaaa aaaaaa aaaaaaaaaaaaaaaaaaa e nnnnnnn nnnnnn nnnn nnnnnn nnnnnnnnnnnnnnnnnnn gthistabl Standardgspecies A.americaA.americaA.americaA.americaA.americaA.americaA.americaCliviaA.americaA.americaA.americaA.americaA.americaA.americaCliviaA.americaA.americaA.americaA.americaCliviaA.americaA.americaA.americaA.americaA.americaA.americaA.strictaA.strictaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.americaA.america n recedi 4C(pg) .115.323.84.90.59.674.566.336.170.87.154.152.228.884.1160.696.834.932.864.1158.698.654.1298.566.1274.1250.374.354.446.198.202.406.200.224.232.674.552.658.568.46.230.556.616.854.642.778.542 p s note fount 2C(pg) .58.162.42.45.29.337.283.168.85.43.77.76.114.442.580.348.417.466.432.579.349.327.649.283.637.625.187.177.223.99.101.203.100.112.116.337.276.329.284.23.115.278.308.427.321.389.271 o m t a refer DNA 1C(pg) .29.81.21.23.15.169.142.84.43.22.39.38.57.221.290.174.209.233.216.290.175.164.325.142.319.313.94.89.112.50.51.102.50.56.58.169.138.165.142.12.58.139.154.214.161.195.136 D ptletters 1C(Mbp) 2,8187,9142,0582,2051,43616,51313,8678,2324,1652,1223,7733,7245,58621,65828,42017,05220,43322,83421,16828,37117,10116,02331,80113,86731,21330,6259,1638,67310,9274,8514,9499,9474,9005,4885,68416,51313,52416,12113,9161,1275,63513,62215,09220,92315,72919,06113,284 ownload erscri Lifecycleetype PPPPPAPAPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPP ed from p u h ecies(thes Ploidylevelddn(x) 182546dd——dd——dd——dd——dd——dd——dd——dd——dd——dd——d26—162324162182142dd——324162324d16—162142dd——dd——dd——dd——dd——dd——dd——dd——dd——dd——dd——dd——142dd——dd——dd——dd——162dd——162dd——162 ttps://acade p 2 m giosperms Highercgroup EEEEEEEMEEMMMMMMMMMMMMMMMMMMMMMMMMMMMMMEMMEEEEE ic.oup.com ntentin411an cOrder AsteralesAsteralesAsteralesAsteralesMalvalesRanunculalesRanunculalesPoalesSaxifragalesSaxifragalesAsparagalesAsparagalesAlismatalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAlismatalesAlismatalesAlismatalesAlismatalesAlismatalesAlismatalesAlismatalesAlismatalesAlismatalesAsparagalesAsparagalesAsparagalesAsparagalesRosalesPoalesAlismatalesRanunculalesRanunculalesRanunculalesRanunculalesRanunculales /aob/article-abs co tra ndnuclearDNA cFamily AsteraceaeAsteraceaeAsteraceaeAsteraceaeMalvaceaeRanunculaceaeRanunculaceaePoaceaeCrassulaceaeCrassulaceaeAsparagaceaeAsparagaceaeAlismataceaeAlliaceaeAlliaceaeAlliaceaeAlliaceaeAlliaceaeAlliaceaeAlliaceaeAlliaceaeAlliaceaeAlliaceaeAlliaceaeAlliaceaeAlliaceaeAraceaeAraceaeAraceaeAraceaeAraceaeAraceaeAraceaeAraceaeAraceaeXanthorrhoeaceaeXanthorrhoeaceaeXanthorrhoeaceaeXanthorrhoeaceaeRosaceaePoaceaeAraceaeRanunculaceaeRanunculaceaeRanunculaceaeRanunculaceaeRanunculaceae ct/96/2/229/29916 a 2 e, b .Chromosomenumber,ploidylevel,life-cycletypX bSpecies AchilleafilipendulinaLam.AchilleamillefoliumL.AchilleamontanaSchleich.exDCbAchilleavulgarisAdansoniadigitataL.AdonisannuaL.AdonisvernalisL.AeluropuslittoralisParl.Aeoniumnobile(Praeger)PraegerAeoniumsimsii(Sweet)StearnAgavehartmanniiS.WatsonAgaveportoricensisTrel.exA.BergerAlismalanceolatumWith.AlliumaflatuenseB.Fedtsch.cv.PurpleSensationbAlliumampeloprasumAlliumcepaascaloniumvar.L.AlliumkaratavienseRegelbAlliummolyAlliumnarcissiflorumVill.bAlliumporrumAlliumsativumL.bAlliumschoenoprasumAlliumschubertiiZucc.AlliumsphaerocephalonL.AlliumursinumL.bAlliumvinealeAlocasialongilobaMiq.Alocasialowiigrandisvar.HookAlocasialowiiveitcheivar.HookAlocasiareginulaA.HayAlocasiasanderianaHort.exBullbAlocasiasp.bAlocasiaamazonica·AlocasiazebrinatigrinaK.Koch&Veitchvar.cv.SuperbaAlocasiazebrinareticulataK.Koch&Veitchvar.AloeclavifloraBurch.&ReynoldsAloeecklonisSalm-DyckAloegariepensisPillansAloemicracanthaHaw.AmelanchiercanadensisMedik.AmmophilaarenariaLinkAmorphophalluslewalleiF.Malaisse&P.BampsAnemoneblandaSchott&KotschyAnemoneblandaSchott&KotschyAnemonecoronariaL.AnemonenemorosaL.AnemonepavoninaLam. y guest on 15 April 2019 I D EN aer APP Entrynumb 1b2d3a4a5b6a7a8a9a10a11a12a13b14d15d16l17e18e19a20g21e22b23c24f25e26b27a28a28b29a30a31a32a33a33b34a35a36b37a38a39b40a41c41d42b43c44b Zonneveld et al. — Nuclear DNA Amounts in Angiosperms 235 aaaaaaaaaa aaaaaaaaaa aaaaaaa a aaaaaaa aaaa aaaa nnnnnnnnnn nnnnnnnnnn nnnnnnn n nnnnnnn nnnn nnnn aaaaaaaaaaa aaaaaaaaaa aaaaaaa a aaaaaaa aaaa aaaa A.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.sisalanA.strictaA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.strictaA.americA.americA.americA.americA.americA.americA.americA.strictaA.americCliviaA.americA.americA.americA.americA.americA.americA.americHordeumA.americA.americA.americA.americCliviaCliviaCliviaCliviaCliviaA.americA.americA.americA.americ 808226628268064892848264826082862823224486642680226264 .9.2.7.8.2.0.9.0.9.1.7.5.1.3.1.9.2.6.5.2.1.4.3.2.5.9.9.7.9.2.2.9.0.8.6.4.2.9.2.3.2.7.4.7.9.8.8.9.9.9.0.3.0.0 785 1117 12327545 11 34 53457343 3 6 11 245333336644 1 909113819689587951929182968591481412162748376345663632 .9.1.8.4.6.5.9.5.4.5.3.7.0.6.5.4.6.3.2.6.5.2.6.1.2.9.9.3.9.6.6.4.5.4.8.2.1.4.6.6.1.3.2.3.9.9.9.9.9.9.0.1.0.0 342 3 1113222 12 26223121 1 3 122111113322 055117965890349526510146589801246211631479298778882821 .0.0.4.2.3.2.4.7.2.2.6.9.5.8.2.2.3.1.1.3.3.1.8.0.1.4.4.1.5.8.8.2.7.2.9.1.5.2.3.3.0.1.6.1.4.9.9.9.9.9.5.5.0.0 221 1 1111 1 13111 1 1 11 1111 D o 551090161009989597792199401744762771145032593201961519421038891029232388421504202515651689036152399156869058239254038283696862027613504457506555604604847484947898 wn 9,0,4,2,2,2,4,7,2,2,6,8,5,8,2,2,2,1,1,3,2,1,8,0,1,4,4,1,4,7,8,2,7,2,8,1,5,2,3,3, 1,6,1,4,9,9,9,9,9,4,5,9,9, lo 121 1 1111 1 13111 1 1 11 11 a d e d PPPPPPPPPPPPPPPPAPPPPPPAPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPP from h d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d d ttp ————————————————6—2———————62————————7222—4———————————2 s ://a c a d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—42d—28d—d—d—d—d—d—d—7214d—d—d—d—d—d—d—d—56303030d—44d—d—d—d—d—d—d—d—d—d—d—16 de m ic .o u p EEMMMEMMMMBABAMMEEMEEMMEMMEMMMMMMMMMMMEMEEEEMMMEEEEEEEEE .co m /a RanunculalesRanunculalesAsparagalesAlismatalesAlismatalesEricalesAlismatalesAlismatalesAsparagalesPoalesPiperalesPiperalesAsparagalesAsparagalesGarryalesGarryalesPoalesRanunculalesRanunculalesAlismatalesAsparagalesAsteralesAsparagalesPoalesLamialesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAlismatalesPoalesAsparagalesAlismatalesRanunculalesAsparagalesEricalesEricalesGentianalesGentianalesAsparagalesAsparagalesAsparagalesRanunculalesRanunculalesRanunculalesRanunculalesRanunculalesRanunculalesRanunculalesRanunculalesRanunculales ob/article-abs tra RanunculaceaeRanunculaceaeAsparagaceaeAraceaeAraceaeMyrsinaceaeAraceaeAraceaeAsparagaceaePoaceaeAristolochiaceaeAristolochiaceaeXanthorrhoeaceaeAsparagaceaeGarryaceaeGarryaceaePoaceaeBerberidaceaeBerberidaceaeAraceaeOrchidaceaeCampanulaceaeAsparagaceaePoaceaeScrophulariaceaeXanthorrhoeaceaeXanthorrhoeaceaeXanthorrhoeaceaeXanthorrhoeaceaeXanthorrhoeaceaeXanthorrhoeaceaeXanthorrhoeaceaeButomaceaePoaceaeAsparagaceaeAraceaeRanunculaceaeAsparagaceaeTheaceaeTheaceaeApocynaceaeApocynaceaeAlliaceaeAsparagaceaeAsparagaceaeRanunculaceaeRanunculaceaeRanunculaceaeRanunculaceaeRanunculaceaeRanunculaceaeRanunculaceaeRanunculaceaeRanunculaceae ct/96/2/229/2991 6 2 b y g u e g s an t o Y m n bAnemoneranunculoidesbAnemonetrifoliaAnthericumliliagoL.Anubiasbarterinanavar.SchottAnubiasbarteriSchottbArdisiacrenataArisaemaciliatumH.LiArisarumvulgareTarg.Toz.bArthropodiumcirrhatumbArundodonaxAsarumeuropaeumL.Asarumsplendens(Maekawa)C.Y.Cheng&C.S.AsphodelineluteaReichb.bAspidistraelatior(variegated)AucubajaponicaThunb.AucubajaponicaThunb.cv.RozannieAvenasativaL.BerberisthunbergiiDC.cv.AtropurpureaNanabBerberisvulgarisbBiarumtenuifoliumBletillastriataRchb.f.BrighamiainsignisA.GraybBrimeuraamethystinabBromusmollisBuddlejadavidiiFranch.BulbineasphodeloidesSpreng.Bulbinebulbosa(R.Br.)Haw.BulbinefallaxPoelln.BulbinefrutescensWilld.BulbinehookeriKunthBulbinemargarethaeL.I.HallBulbinellalatifoliaKunthButomusumbellatusL.bCalamagrostisepigeiosCalibanushookeriiTrel.exA.BergerCallapalustrisL.CalthapalustrisL.CamassiacusickiiS.WatsonCamelliasinensisassamicaKuntzevar.CamelliasinensisKuntzeCatharanthusroseus(L.)G.DonCeropegiawoodiiSchltr.ChlidanthusfragransHerb.bChlorophytumcomosumChlorophytumhoffmanniiEngl.ClematisarmandiiFranch.cv.BowlofBeautyClematisarmandiiFranch.cv.EnhamStarClematisarmandiiFranch.cv.AppleBlossomClematisarmandiiFranch.cv.LittleWhiteCharClematisarmandiiFranch.cv.SnowdriftClematisflammulaL.ClematisforsteriJ.F.Gmel.bClematismontanabClematisvitalba 15 April 2019 5a6a7a8a8b9a0a1a2a3a4b5a6a7b8a8b9f0c1b2a3a4a5a6a7a8a9b0b1a2a3a4a5c6a7a8a9c0b1b1c2b3b4a5a6a7a7b7c7d7e8a9a0a1b 444444555555555556666666666777777777788888888888888899 236 Zonneveld et al. — Nuclear DNA Amounts in Angiosperms aaa aaa aaaaaaaaaaaaaaaaaaaaaaaaaaaaa aaa aaaaa nnn nnn nnnnnnnnnnnnnnnnnnnnnnnnnnnnn nnn nnnnn aaa aaa aaaaaaaaaaaaaaaaaaaaaaaaaaaaa aaa aaaaa Standardgspecies A.americA.americA.americA.strictaA.americA.americA.americA.strictaA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americA.americCliviaA.americA.americA.americA.strictaA.americA.americA.americA.americA.americ 4C(pg) .780.112.134.308.136.150.374.42.1010.1032.804.830.838.40.38.56.37.40.36.45.46.36.262.156.162.442.36.208.206.590.554.176.726.270.134.156.248.150.62.850.530.356.478.328.1470.1428.1346 fount 2C(pg) .390.56.67.154.68.75.187.21.505.516.402.415.419.20.19.28.19.20.18.22.23.18.131.78.81.221.18.104.103.295.277.88.363.135.67.78.124.75.31.425.265.178.239.164.735.714.673 m a DNA 1C(pg) .195.28.34.77.34.38.94.11.253.258.201.208.210.10.10.14.09.10.09.11.12.09.66.39.41.111.09.52.52.148.139.44.182.68.34.39.62.38.16.213.133.89.120.82.368.357.337 D o Cbp) 110744283546332675163029745284698335531985936372907975877098127872419822969829872096047455573312787615283812076675529825985722711036015986977 wn 1M 9,2,3,7,3,3,9,1,4,5,9,0,0, 1, 1,1, 6,3,3,0, 5,5,4,3,4,7,6,3,3,6,3,1,0,2,8,1,8,6,4,2, lo ( 1 22122 1 11 1 21 1 333 a d e able) Lifecycleetype PPPAPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPPP d from t h ngthis Ploidyleveld(x) 22d—6d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—2d—d—d—d—d—4d—d—d—d— d—4d—d—d—2d—d—d—d— ttps://a di ca ce dn 2232d—90d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—d—8d—d—d—d—d—28d—d—48d—32d—32d—d—d—16d—d—d—d— de e 2 m pr ic notes Highercgroup MMMMEMEEMMMMMMMMMMMMMMMMMMMMEMMMMMMMMMMMMEEEMMM .oup.co o m ued,thesuperscriptlettersrefert ccFamilyOrder AlliaceaeAsparagalesArecaceaeArecalesColchicaceaeLilialesCommelinaceaeCommelinalesCornaceaeCornalesPoaceaePoalesAnacardiaceaeSapindalesunplacedLamialesLamialesAlliaceaeAsparagalesAlliaceaeAsparagalesAlliaceaeAsparagalesAlliaceaeAsparagalesAlliaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesAraceaeAlismatalesCommelinaceaeCommelinalesMyrsinaceaeEricalesAlliaceaeAsparagalesAlliaceaeAsparagalesPoaceaePoalesAsparagaceaeAsparagalesDioscoreaceaeDioscorealesDoryanthaceaeAsparagalesAraceaeAlismatalesAraceaeAlismatalesAsparagaceaeAsparagalesPontederiaceaeCommelinalesPoaceaePoalesPoaceaePoalesRanunculaceaeRanunculalesRanunculaceaeRanunculalesRanunculaceaeRanunculalesLiliaceaeLilialesLiliaceaeLilialesLiliaceaeLiliales /aob/article-abstract/96/2/229/29916 n 2 nti by Co gu ( e A.PPENDIX bSpecies CliviaminiataRegelCocosnuciferaL.ColchicumautumnaleL.CommelinadianthifoliaDelileCornusmasL.Cortaderiaargentea(Nees)StapfCotinuscoggygriaScop.CraterostigmaplantagineumHochst.Crinumasiaticumjaponicumvar.BakerCrinumasiaticumsinicumvar.BakerCrinumbulbispermumMilne-Redh.&SchweickerdtCrinummooreiHook.f.Crinumnatanscalamistratumvar.BakerCrocosmiaaurea(Hook.)Planch.Crocosmiafucata(Herb.)M.P.deVosCrocosmiafucata(Herb.)M.P.deVos(pleatedform)Crocosmiamasonorum(L.Bolus)N.E.Br.Crocosmiapaniculata(Klatt)GoldblattCrocosmiapottsii(Baker)N.E.Br.bCrocosmiacrocosmiiflora·bCrocosmialatifolia·bCrocosmiapaniculata·Crocusangustifoliusflavus(largeyellow)·CrocuschrysanthusHerb.cv.DorothyCrocuschrysanthusHerb.cv.BluePearlbCrocusvernus(whiteform)CryptocorynecrispatulaEngl.CyanotissomaliensisC.B.ClarkebCyclamenhederifoliumCyrtanthuselatus(Jacq.)TraubCyrtanthusmontanusR.A.Dyercv.FirebirdDactylisglomerataL.Dichelostemmaida-maiaGreeneDioscoreaelephantipesEngl.bDoryanthespalmeriDracunculuscanariensisKunthDracunculusvulgarisSchottDrimiopsismaculataLindl.&Paxt.Eichhorniacrassipes(Mart.)SolmsbElymusarenariusElymusjunceusElytrigiajunceaFisch.()=EranthiscilicicaSchott&KotschyEranthishyemalisSalisb.EranthispinnatifidaMaxim.Erythroniumhybridcv.NanaErythroniumhybridcv.PagodabErythroniumcalifornicumcv.WhiteBeauty st on 15 April 2019 aer ntryumb 2c3c4a5b6a7a8a9a00a00b01a02a03a04a05a05b06a07a08a09a10a11a12a13a13b14b15a16a17b18a19a20g21a22a23b24a25b26a27b28a29a30a31b32a33a34a35a En 99999999111111111111111111111111111111111111111 Zonneveld et al. — Nuclear DNA Amounts in Angiosperms 237 aaaa a aaaaaaaaaaaaaaaaaaaaaaaaaaaa aaaaaaaaa aaaaaa nnnn n nnnnnnnnnnnnnnnnnnnnnnnnnnnn nnnnnnnnn nnnnnn aaaaaa aaaaaaaaaaaaaaaaaaaaaaaaaaaa aaaaaaaaa aaaaaa ccccnc cccccccccccccccccccccccccccc ccccccccc cccccc A.ameriA.ameriA.ameriA.ameriA.sisalaA.ameriCliviaA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriCliviaCliviaCliviaA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameri A.ameriA.ameriA.ameriA.ameriA.ameriA.ameri 60626284666084400072024248207686206664013704544 035713 .9.7.4.5.8.5.6.3.3.5.1.6.6.1.1.6.6.2.0.5.6.9.2.8.7.9.9.0.3.8.6.1.2.9.3.9.3.6.6.6.5.6.7.7.8.0.7 .7.7.4.0.9.3 122621112 1 22 11516455 321 1101670 1 1 1 11 11112 85363647888047700046062179609348158882016457227 563467 .9.3.2.2.4.7.8.6.1.2.5.3.3.0.0.3.3.6.5.7.8.4.1.9.8.4.9.0.6.4.3.5.6.4.6.4.6.3.3.3.2.3.3.3.4.5.3 .3.3.2.5.4.6 56131 1 11 2 3222 11 55880 1 98232824949574455078036645804279134446553789169 881733 .9.1.6.6.7.3.4.3.5.1.2.1.1.5.5.1.1.3.2.3.4.7.0.4.4.2.9.5.3.2.1.2.3.7.8.2.3.1.1.1.1.1.1.1.2.2.1 .1.1.1.2.2.3 23 1 1 1111 22445 D o 302115027974007724116283782372842470666243243470470940622524920954388259063401604900357107666842989705832552532568470499294646715823073538813 715779103626234263 wn 9,1,6,5,7,3,4,3,5,1,2,1,1,5,5,1,1,2,2,3,3,6,0,4,4,2,9,4,3,2,1,2,2,6,7,1,2,0,1,1,1,1,1,1,2,2,1, 1,1,1,2,2,3, lo 23 1 1 1111 22445 a d e d PPPPPPPPPPPPPPPPPPPPPPPPPPAAPPPPPPPPPPPPPPPPPPP PPPPPP from h d—d—d—d—2d—d—d—2d—d—2d—8844d—d—d—d—d—d—d—d—d—42d—d—d—d—d—h2h2hc.4h4x-2h5?2222222d—2 2d—d—223 ttps://a c a d—d—d—d—14d—d—d—34d—d—48d—1921924848d—d—d—d—d—d—d—d—d—2814d—d—d—d—d—h16h16d—d—d—36363634343434d—36 36d—d—303654 dem ic .o u p MMEMMMEEEEEEEEEEEEMMMMMMMEMMMEEEEMMMMMEEEEEEEEE EEEEEE .co m /a o LilialesLilialeseuasteridsIIAsparagalesPoalesAsparagalesSaxifragalesSaxifragalesGunneralesLamialesApialesApialesApialesApialesApialesApialesApialesApialesLilialesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesGentianalesPoalesPoalesArecalesGentianalesRosalesRosalesRosalesAsparagalesAsparagalesAsparagalesAsparagalesAsparagalesCornalesCornalesCornalesCornalesCornalesCornalesCornalesCornalesCornales CornalesCornalesCornalesCornalesCornalesCornales b/article-abs tra c LiliaceaeLiliaceaeEscalloniaceaeAlliaceaePoaceaeAsparagaceaeCrassulaceaeCrassulaceaeGunneraceaeGesneriaceaeAraliaceaeAraliaceaeAraliaceaeAraliaceaeAraliaceaeAraliaceaeAraliaceaeAraliaceaeMelanthiaceaeIridaceaeAsparagaceaeAlliaceaeAlliaceaeAlliaceaeAlliaceaeApocynaceaePoaceaePoaceaeArecaceaeApocynaceaeCannabaceaeCannabaceaeCannabaceaeAsparagaceaeAsparagaceaeAsparagaceaeAsparagaceaeAsparagaceaeHydrangeaceaeHydrangeaceaeHydrangeaceaeHydrangeaceaeHydrangeaceaeHydrangeaceaeHydrangeaceaeHydrangeaceaeHydrangeaceae HydrangeaceaeHydrangeaceaeHydrangeaceaeHydrangeaceaeHydrangeaceaeHydrangeaceae t/96/2/229/29916 2 b bErythroniumdens-canisbErythroniumjaponicumEscallonialangleyensisVilm.&BoisEucharisgrandifloraPlanch.&LindenFestucaovinaL.cv.GlaucaFurcraeaselloaK.Koch(yellowedge)´GraptopetalumbellumMoran&J.MeyranGraptopetalummacdougalliiAlexander´GunneramanicataLindenexAndreHaberlearhodopensisFriv.bHederaalgeriensiscv.GloiredeMarengobHederacanariensisHederacaucasigenaPojark.cv.TanjaHederacolchicaK.Kochcv.SulphurHeartHederacolchicaK.Koch(yellowedge)HederahelixLcv.Erecta.HederahelixLcv.GoldHertz.HederahibernicaHort.bHeloniopsisorientalisHermodactylustuberosaMill.Hesperaloeparviflora(Torr.)J.M.Coult.HippeastrumcybisterBenth.&Hook.f.HippeastrumelwesiiC.H.WrightHippeastrumpapilio(Ravenna)J.VanScheepencv.ButterflyHippeastrumreticulatumstriatifoliumvar.Herb.Hoodiagordonii(Masson)SweetexDecne.HordeummurinumL.HordeumvulgareL.cv.SultanHoweaforsterianaBecc.Hoyacarnosa(L.)R.Br.HumulusjaponicaSiebold&Zucc.bcordifoliaHumuluslupulusvar.bHumuluslupuluscv.BramblingCrossHyacinthusorientalisL.cv.WhitePearlHyacinthusorientalisL.cv.PinkPearlHyacinthusorientalisL.cv.AnnaMarieHyacinthusorientalisL.cv.DelftBlueHyacinthusorientalisL.cv.L’InnocenceHydrangeaanomalapetiolarisssp.D.Doncv.CordifoliaHydrangeaanomalapetiolarisssp.D.DonHydrangeaarborescensL.Hydrangeaasperasargentianassp.Buch.-Ham.exD.DonHydrangeaasperarobustassp.Buch.-Ham.exD.DonHydrangeaasperastrigosassp.Buch.-Ham.exD.DonHydrangeaasperaBuch.-Ham.exD.Doncv.VillosaHydrangeaaspera?Buch.-Ham.exD.Don(fromTaiwan)HydrangeaheteromallaD.DonHydrangeaheteromallaBuch.-Ham.exD.Doncv.NepalBeautyHydrangeahirtaSieboldHydrangeaintegrifoliaHayataHydrangeainvolucrataSieboldbHydrangeamacrophylla(diploid)bHydrangeamacrophylla(triploid) y guest on 15 April 2019 6a7a8a9a0b1a2a3a4b5a6a7c8a9c9d0i0j1a2a3a4a5a6a7a8a9a0b1q2a3a4a5a5b6d6e7c7d7e8c8d9b0e0f0g0h0i1b1c 2a3a4b5a6a 333344444444444555555555556666666666666667777777 77777 111111111111111111111111111111111111111111111111 11111 238 Zonneveld et al. — Nuclear DNA Amounts in Angiosperms aaaaaaaaaaaaaaaa aaaaaa aaaaaaaaaaaaaaaaaaaaaa nnnnnnnnnnnnnnnn nnnnnn nnnnnnnnnnnnnnnnnnnnnn aaaaaaaaaaaaaaaa aaaaaa aaaaaaaaaaaaaaaaaaaaaa cccccccccccccccc cccccc cccccccccccccccccccccc Standardgspecies A.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameri A.ameriA.ameriA.ameriA.ameriA.ameriA.ameriCliviaCliviaA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameriA.ameri 4C(pg) .140.43.80.83.95.86.88.386.646.498.168.224.528.282.410.160 .432.148.152.110.122.226.224.234.102.178.190.548.1916.1762.1546.1690.1864.106.422.38.114.74.978.86.198.612.694.668.822.678 fount 2C(pg) .70.22.40.42.48.43.44.193.323.249.84.112.264.141.205.80 .216.74.76.55.61.113.112.117.51.89.95.274.958.881.773.845.932.53.211.19.57.37.489.43.99.306.347.334.411.339 m a DNA 1C(pg) .35.11.20.21.24.21.22.97.162.125.42.56.132.71.103.40 .108.37.38.28.31.57.56.59.26.45.48.137.479.441.387.423.466.27.106.10.29.18.245.22.50.153.174.167.206.170 D o Cbp) 430063970038332102156457827201116488936909045920 584626724695989537488733499361655426942169877405668597339931793808961107851994003366139611 wn 1M 3,1,1,2,2,2,2,9,5,2,4,5,2,6,0,3, 0,3,3,2,2,5,5,5,2,4,4,3,6,3,7,1,5,2,0, 2,1,3,2,4,4,7,6,0,6, lo ( 11 1 1 1 144344 1 2 11121 a d e able) Lifecycleetype PPPPPPPPPPPPPPPP PPPAPPPPPPPPPPPPPPPPPBPPPPPPPP d from t h ngthis Ploidyleveld(x) 2222d—d—d—d—d—d—d—d—d—d—d—d— d—d—d—2d—d—d—d—d—d—d—d—d—d—d—2d—d—6d—d—d—d—d—d—d—d—d—d—d— ttps://a di ca ce dn 36363636d—d—d—d—d—d—d—34d—d—d—d— d—d—d—18d—d—d—d—d—d—d—d—d—d—d—24d—d—08d—d—d—d—d—d—d—d—d—d—d— de pre 2 c. 1 mic notes Highercgroup EEEEEEMMMMMMMMMM MMMEBAEMMEEEMMMMMMEMEEEMBABAMMMMM .oup.co o m ert eseses es /ao ued,thesuperscriptlettersref ccFamilyOrder HydrangeaceaeCornalesHydrangeaceaeCornalesHydrangeaceaeCornalesHydrangeaceaeCornalesHydrangeaceaeCornalesHydrangeaceaeCornalesHydrocharitaceaeAlismatalesAlliaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagalesIridaceaeAsparagales XanthorrhoeaceaeAsparagalesAsparagaceaeAsparagalesAsparagaceaeAsparagalesAsteraceaeAsteralesLauraceaeLauralesLamiaceaeLamialesAsparagaceaeAsparagalesAsparagaceaeAsparagalesPortulacaceaeCaryophyllalPortulacaceaeCaryophyllalPortulacaceaeCaryophyllalLiliaceaeLilialesLiliaceaeLilialesLiliaceaeLilialesLiliaceaeLilialesLiliaceaeLilialesLiliaceaeLilialesPlumbaginaceaeCaryophyllalAsparagaceaeAsparagalesCaprifoliaceaeDipsacalesCaprifoliaceaeDipsacalesBrassicaceaeBrassicalesAlliaceaeAsparagalesMagnoliaceaeMagnolialesMagnoliaceaeMagnolialesAsparagaceaeAsparagalesAsparagaceaeAsparagalesAsparagaceaeAsparagalesAsparagaceaeAsparagalesAsparagaceaeAsparagales b/article-abstract/96/2/229/29916 n 2 nti by (CoA.PPENDIX bSpecies bHydrangeapaniculataHydrangeaquercifoliaBartram(Tennesseeclone)bHydrangeascandensliukinensisvar.bHydrangeascandensHydrangeascandens?cv.AngustataHydrangeaserrataSer.Hydrocharismorsus-ranaeL.Ipheionuniflorum(Lindl.)Raf.IrisdanfordiaeBoiss.bIrisgermanicaIrislacustrisNutt.IrispseudacorusL.bIrispumilaIrisreticulataM.Bieb.IrisreticulataM.Bieb.cv.HarmonyIrissintenisiiJankaKniphofiahybrida(OttoMannexGumbletoncv.LittleMaidLachenaliahybridcv.NamaquaLachenaliahybridcv.RomaudLactucasativaL.cv.IJsbergbLaurusnobilisLavandulaofficinalisChaixLedebouriacooperiadlamiivar.(Hook.f.)JessopLedebouriasocialis(Baker)Jessopcv.ViolaceaLewisiacotyledonRobinsonLewisianevadensis(A.Gray)B.L.Rob.Lewisiapygmaea(A.Gray)B.L.Rob.LiliumamabilePalib.bLiliumcanadensebLiliumcandidumLiliumeuxanthum(W.W.Sm.&W.E.Evans)SealyLiliumformosanumWallacebLiliummartagonLimoniumvulgareMill.LiriopemuscariL.H.Bailey.LoniceranitidaE.H.WilsonbLonicerapericlymenumLunariabiennisMoenchLycorisaureaHerb.Magnoliakobusstellatavar.Maxim.MagnolialiliifloraDesr.Maianthemumbifolium[DC.]MaianthemumcanadenseDesf.Maianthemumdilatatum(Wood)A.Nelson&J.F.Macbr.Maianthemumjaponicum(A.Gray)J.V.LaFrankieMaianthemumracemosumLink guest on 15 April 2019 aer ntryumb 77b78b79a79b79c80a81a82a83a84a85a86b87a88a88b89a90a 91a91b92d93a94a95a96a97a98a99a00a01a02a03a04b05a06a07b08a09b10a11a12b13a14a15a16a17a18a En 11111111111111111 11111111112222222222222222222

Description:
previously published lists of DNA amounts by Bennett and colleagues. angiosperm DNA C-value data (i.e. 200 first C-value estimates per annum) the present work equals 1Á5 .. arranged alphabetically by genus and species with a new.
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