You can link the full-text version of the article by clicking the symbol provided that the library of your institution has free access to the journal, the journal is Open Access or that the article is made freely available by the journal. Otherwise, only the abstract will be shown.
1. Anderson et al (1985). Anderson LK, Stack SM, Fox MH & Chuanshan Z (1985). The relationship between genome size and synaptonemal complex length in higher plants. Experimental Cell Research 156: 367-378.
2. Baack et al (2005). Baack EJ, Whitney DW & Rieseberg LH (2005). Hybridization and genome size evolution: timing and magnitude of nuclear DNA content increases in Helianthus homoploid hybrid species. New Phytologist 167: 623-630.
3. Bachmann et al (1979). Bachmann K, Chambers KL & Price HJ (1979). Genome size and phenotypic evolution in Microseris (Asteraceae, Cichorieae). Plant Systematics and Evolution Supplement 2: 41-66.
4. Baetcke et al (1967). Baetcke KP, Sparrow AH, Nauman CH & Schwemmer SS (1967). The relationship of DNA content to nuclear and chromosome volumes and to radiosensitivity (LD50). Botany 58: 533-540.
5. Bancheva & Greilhuber (2006). Bancheva S & Greilhuber J (2006). Genome size in Bulgarian Centaurea s.l. (Asteraceae). Plant Systematics and Evolution 257: 95-117.
6. Band (1984). Band SR (1984), personal communication.
7. Barlow (1981). Barlow P (1981), personal communication.
8. Barow & Meister (2002). Barow M & Meister A (2002). Lack of correlation between AT frequency and genome size in higher plants and the effect of nonrandomness of base sequences on dye binding. Cytometry 47: 1-7.
9. Barow & Meister (2003). Barow M & Meister A (2003). Endopolyploidy in seed plants is differently correlated to systematics, organ, life strategy and genome size. Plant, Cell and Environment 26: 571-584.
10. Baum et al (1989). Baum A, Kenton AY & Bennett MD (1989), personal communication.
11. Bennett (1972). Bennett MD (1972). Nuclear DNA amount and minimum generation time in herbaceous plants. Proceedings of the Royal Society of London B 191: 109-135.
12. Bennett & Leitch (2005). Bennett MD & Leitch IJ (2005). Nuclear DNA amounts in angiosperms: progress, problems and prospects. Annals of Botany 95: 45-90.
13. Bennett & Smith (1976). Bennett MD & Smith JB (1976). Nuclear DNA amounts in angiosperms. Philosophical Transactions of the Royal Society of London Series B-Biological Sciences 274: 227-274.
14. Bennett et al (1982). Bennett MD, Smith JB & Heslop-Harrison JS (1982). Nuclear DNA amounts in angiosperms. Proceedings of the Royal Society of London B 216: 179-199.
15. Bennett et al (1997). Bennett MD & Leitch IJ (1997). Nuclear DNA amounts in angiosperms - 583 new estimates. Annals of Botany 80: 169-196.
16. Bennett et al (1998). Bennett MD, Leitch IJ & Hanson L (1998). DNA amounts in two samples of angiosperm weeds. Annals of Botany 82 (Supplement A): 121-134.
17. Bennett et al (2000). Bennett MD, Bhandol P & Leitch IJ (2000). Nuclear DNA amounts in angiosperms and their modern uses - 807 new estimates. Annals of Botany 86: 859-909.
18. Bräutigam & Bräutigam (1996). Bräutigam S & Bräutigam E (1996). Determination of the ploidy level in the genus Hieracium subgenus Pilosella (Hill) S. F. Gray by flow cytometric DNA analysis. Folia Geobotanica and Phytotaxonomica 31: 315-321.
19. Bureš et al (2004). Bureš P, Wang Y, Horov L & Suda J (2004). Genome size variation in Central European species of Cirsium (Compositae) and their natural hybrids. Annals of Botany 94: 353-363.
20. Callimassia (1993). Callimassia MA (1993). PhD Thesis 'Spatial patterns of chromosome disposition indicotyledonous plant hybrids', University of Reading.
21. Callimassia & Bennett (1992). Callimassia MA & Bennett MD (1992), personal communication.
22. Cerbah et al (1995). Cerbah M, Coulaud J, Godelle B & Siljak-Yakovlev S (1995). Genome size, fluorochrome banding, and karyotype evolution in some Hypochoeris species. Genome 38: 689-695.
23. Inceer et al (2018). Inceer H, Garnatje T, Hayırlıoğlu-Ayaz S, Pascual-Díaz JP, Vallès J, Garcia S. A genome size and phylogenetic survey of Mediterranean Tripleurospermum and Matricaria (Anthemideae, Asteraceae). PLOS ONE, 13(10), e0203762 .
24. Cerbah et al (1999). Cerbah M, Coulaud J, Brown SC & Siljak-Yakovlev S (1999). Evolutionary DNA variation in the genus Hypochaeris. Heredity 82: 261-266.
25. Chrtek et al (2009). Chrtek J Jr, Zahradníček J, Krak K & Fehrer J (2009). Genome size in Hieracium subgenus Hieracium (Asteraceae) is strongly correlated with major phylogenetic groups. Annals of Botany 104: 161-178.
26. Dabrowska (1992). Dabrowska J (1992). Chromosome number and DNA content in taxa of Achillea L. in relation to the distribution of the genus. Prace Botaniczne 49: 1-84.
27. Dimitrova & Greilhuber (2000). Dimitrova D & Greilhuber J (2000). Karyotype and DNA-content evolution in ten species of Crepis (Asteraceae) distributed in Bulgaria. Botanical Journal of the Linnean Society 132: 281-297.
28. Dimitrova et al (1999). Dimitrova D, Ebert I, Greilhuber J & Kozhuharov S (1999). Karyotype constancy and genome size variation in Bulgarian Crepis foetida s. l. (Asteraceae). Plant Systematics and Evolution 217: 245-257.
29. Dolezalova et al (2002). Dolezalova I, Lebeda A, Janecek C, Kristkova E & Vranova O (2002). Variation in chromosome numbers and nuclear DNA contents in genetic resources of Lactuca L. species (Asteraceae). Genetic Resources and Crop Evolution 49: 383-395.
30. Evans et al (1972). Evans GM, Rees H, Snell, CL & Sun S (1972). The relation between nuclear DNA amount and the duration of the mitotic cycle. Chromosomes Today 3: 24-31.
31. Flavel & Smith (1974). Flavel RB & Smith, DB (1974). Genome size and the proportion of repeated nucleotide sequence DNA in plants. Biochemical Genetics 12: 257-279.
32. Fujimoto et al (2005). Fujimoto S, Ito M, Matsunaga S & Fukui K (2005). An upper limit of the ratio of DNA volume to nuclear volume exists in plant. Genes & Genetic Systems 80: 345-350.
33. Galbraith et al (1983). Galbraith DW, Harkins KR, Maddox JM, Ayres NM, Sharma DP & Firoozabady E (1983). Rapid flow cytometric analysis of the cell cycle in intact plant tissues. Science 220: 1049-1051.
34. Garcia et al (2004). Garcia S, Sanz M, Garnatje T, Kreitschitz A, McArthur DE & Vallès J (2004). Variation of DNA amount in 47 populations of the subtribe Artemisiinae and related taxa (Asteraceae, Anthemideae): karyological, ecological and systematic implications. Genome 47: 1.
35. Garcia et al (2005). Garcia S, Inceer H, Garnatje T & Vallès J (2005). Genome size variation in some representatives of the genus Tripleurospermum. Biologia Plantarum 49(3): 381-387.
36. Garcia et al (2006). Garcia S, Garnatje T, Twibell JD & Vallès J (2006). Genome size variation in the Artemisia arborescens complex (Asteraceae, Anthemideae) and its cultivars. Genome 49: 244-253.
37. Garcia et al (2008). Garcia S, Canela MA, Garnatje T, McArthur ED, Pellicer J, Sanderson SC & Vallès J (2008). Evolutionary and ecological implications of genome size in the North American endemic sagebrushes and allies (Artemisia, Asteraceae). Biological Journal of the Linnean Society 94: 631-649.
38. Garnatje et al (2004). Garnatje T, Vallès J, Garcia S, Hidalgo O, Sanz M, Canela MA & Siljak-Yakovlev, S (2004). Genome size in Echinops L. related genera (Asteraceae, Cardueae): karyological, ecological and phylogenetic implications. Biology of the Cell 96: 117-124.
39. Garnatje et al (2006). Garnatje T, Garcia S,Vilatersana R & Vallès, J (2006). Genome size variation in the genus Carthamus (Asteraceae, Cardueae): Systematic implications and additive changes during allopolypploidization. Annals of Botany 97: 461-467.
40. Garnatje et al (2007). Garnatje T, Garcia S & Canela MÁ (2007). Genome size variation from a phylogenetic perspective in the genus Cheirolophus Cass. (Asteraceae): biogeographic implications. Plant Systematics and Evolution 264: 117-134.
41. Garnatje et al (2009). Garnatje T, Garcia S, Hidalgo O, Pellicer J, Sánchez-Jiménez I & Vallès J (2009). Cheirolophus intybaceus (Asteraceae, Centaureinae) o la constància del valor 2C. Collectanea Botanica 28, to appear.
42. Godelle et al (1993). Godelle B, Cartier D, Marie D, Brown SC & Siljak-Yakovlev S (1993). Heterochromatin study demonstrating the non-linearity of fluorometry useful for calculating genomic base compositio. Cytometry 14: 618-626.
43. Govindaraju & Cullis (1991). Govindaraju DR & Cullis CA (1991). Modulation of the genome size in plants: the influence of breeding systems and neighbourhood size. Evolutionary Trends in Plants 5(1): 43-51.
44. Greilhuber (1988). Greilhuber J (1988). "Self-tanning" - a new and important source ofstoichiometric error in cytophotometric determination of nuclear DNA content inplants. Plant Systematics and Evolution 158: 87-96.
45. Grime & Mowforth (1982). Grime JP & Mowforth MA (1982). Variation in genome size - an ecologicalinterpretation. Nature 299: 151-153.
46. Grime et al (1985). Grime JP, Shacklock JML & Band SR (1985). Nuclear DNA contents, shoot phenologyand species co-existence in a limestone grassland community. New Phytologist 100: 435-445.
47. Hanson et al (2002). Hanson L, Leitch IJ & Bennett MD (2002). Unpublished data from the Jodrell Laboratory, Royal Botanic Gardens, Kew.
48. Hidalgo et al (). Publication pending. Provisional title: Genome size variation in genus Rhaponticum and allies.
49. Hiremath et al (1992). Hiremath SC, Murthy HN & Salimath SS (1992). Quantitative nuclear DNA differences associated with genome evolution in Guizotia (Compositae). Genetica 85: 241-247.
50. Houben et al (2000). Houben A, Wanner G, Hanson L, Verlin D, Leach CR & Timmis JN (2000). Cloning and characterisation of polymorphic heterochromatic segments of Brachycome dichromosomatica. Chromosoma 109: 206-213.
52. Jackson et al (1993). Jackson RC, Crane CF, Johnston JS, Ellison JR & Price HJ (1993). Aneuploidy,structural chromosome changes, and DNA amounts in the annual taxa of the Haplopappus spinulosus complex. Chromosome Research 1: 53-61.
53. Stucky & Jackson (1975). Stucky J & Jackson RC (1975). DNA Content of seven species of Astereae and its significance to theories of chromosome evolution in the tribe. American Journal of Botany. 62(5): 509-518.
54. Sonboli et al (2011). Sonboli A, Osaloo SK, Vallès J & Oberprieler C (2011). Systematic status and phylogenetic relationships of the enigmatic Tanacetum paradoxum Bornm. (Asteraceae, Anthemideae): evidences from nrDNA ITS, micromorphological, and cytological data. Plant Syst Evol 292: 85-93.
55. Keskitalo et al (1998). Keskitalo M, Lindén A & Valkonen JPT (1998). Genetic and morphological diversity of Finnish tansy (Tanacetum vulgare L., Asteraceae). Theoretical and Applied Genetics 96: 1141-1150.
56. Koopman (2000). Koopman WJM (2000). Identifying lettuce species (Lactuca subsect. Lactuca, Asteraceae): A practical application of flow cytometry. Euphytica 116: 151-159.
57. Koopman & de Jong (1996). Koopman WJM & De Jong JH (1996). A numerical analysis of karyotypes and DNA amounts in lettuce cultivars and species (Lactuca subsect. Lactuca, Compositae). Acta Botanica Neerlandica 45(2): 211-222.
58. Lafuma et al (2003). Lafuma L, Balkwill K, Imbert E, Verlaque R & Maurice S (2003). Ploidy level and origin of the European invasive weed Senecio inaequidens (Asteraceae). Plant Systematics and Evolution 243: 59-72.
59. Lawrence (1985). Lawrence ME (1985). Senecio L (Asteraceae) in Australia: nuclear DNA amounts. Australian Journal of Botany 33: 221-232.
60. Marañón & Grubb (1993). Marañón T & Grubb PJ (1993). Physiological basis and ecological significance of the seed size and relative growth rate relationship in Meditearranean annuals. Functional Ecology 7: 591-599.
61. Marchi et al (1983). Marchi P, Illuminata O, Macioce A, Capineri R & D'Amato G (1983). Genome evolution and polyploidy in Leucanthemum vulgare LAM. Aggr. (Compositae). Karyotype analysis and DNA microdensitometry. Caryologia 36: 1-18.
62. Marie & Brown (1993). Marie D & Brown SC (1993). A cytometric exercise in plant DNA histograms, with 2C values for 70 species. Biology of the Cell 78: 41-51.
63. Michaelson et al (1991). Michaelson MJ, Price HJ, Johnston JS & Ellison JR (1991). Variation of nuclear DNA content in Helianthus annus (Asteraceae). American Journal of Botany 78(9): 1238-1243.
64. Michaelson et al (1991). Michaelson MJ, Price HJ, Ellison JR & Johnston JS (1991). Comparison of plant DNA contents determined by feulgen microspectrophotometry and laser flow cytometry. American Journal of Botany 78: 183-188.
65. Morgan-Richards et al (2004). Morgan-Richards M, Trewick SA, Chapman HM & Krahulcova A (2004). Interspecific hybridization among Hieracium species in New Zealand: evidence from flow cytometry. Heredity 93: 34-42.
66. Nagl & Capesius (1976). Nagl W & Capesius I (1976). Molecular and cytological characteristics of nuclear DNA and chromatin for angiosperm systematics: basic data for Helianthus annus (Asteraceae). Plant Systematics and Evolution 126: 221-237.
67. Nagl & Ehrendorfer (1974). Nagl W & Ehrendorfer F (1974). DNA content, heterochromatin, mitotic index, and growth in perennial and annual Anthemidea (Asteraceae). Plant Systematics and Evolution 123: 35-54.
68. Ohri (1998). Ohri D (1998). Genome size variation and plant systematics. Annals of Botany 82 (Supplement A): 75-83.
69. Ohri et al (1981). Ohri D, Nazeer MA & Pal M (1981). Cytophotometric estimation of nuclear DNA in some ornamentals. Nucleus 24: 39-42.
70. Ohri et al (1988). Ohri D, Kumar A & Pal M (1988). Variation in nuclear DNA and karyotype in Cosmos. Cytologia 53: 365-367.
71. Olszewska & Osiecka (1983). Olszewska MJ & Osiecka R (1983). The relationship between 2C DNA content, life-cycle type, systematic position and the dynamics of DNA endoreplication in parenchyma nuclei during growth and differentiation of roots in some dicotyledonous-herbaceous species. Biochemie Und Physiologie Der Pflanzen 178: 581-599.
72. Pellicer et al (2007). Pellicer J, Garcia S, Garnatje T, Dariimaa S, Korobkov AA & Vallès J (2007). Chromosome numbers in some Artemisia (Asteraceae, Anthemideae) species and genome size variation in its subgenus Dracunculus: Karyological, systematic and phylogenetic implications. Chromosome Botany 2: 45-53.
73. Pellicer et al (2009). Pellicer J, Garcia S, Garnatje T & Vallès J (2009). Changes in genome size in a fragmented distribution area: the case of Artemisia crithmifolia L. (Asteraceae, Anthemideae). Caryologia 62(2): 152-160.
75. Pires et al (2004). Pires JC, Lim KY, Kovarík A, Matyásek R, Boyd A, Leitch AR, Leitch IJ, Bennett MD, Soltis PS & Soltis DE (2004). Molecular cytogenetic analysis of recently evolved Tragopogon (Asteraceae) allopolyploids reveal a karyotype that is additive of the diploid progenitors. American Journal of Botany 91(7): 1022-1035.
76. Price & Bachmann (1976). Price HJ & Bachmann K (1976). Mitotic cycle time and DNA content in annual and perennial Microseridinae (Compositae, Cichoriaceae). Plant Systematics and Evolution 126: 323-330.
77. Price et al (1981). Price J, Chambers KL & Bachmann K (1981). Genome size variation in diploid Microseris bigelovii (Asteraceae). Botanical Gazette 142(1): 156-159.
78. Price et al (1981). Price J, Chambers KL & Bachmann K (1981). Geographic and ecological distribution of genomic DNA content variation in Microseris douglasii (Asteraceae). Botanical Gazette 142(3): 415-426.
79. Price et al (1984). Price J, Crawford DJ & Bayer RJ (1984). Nuclear DNA content of Coreopsis nuecensoides and C. nuecensis (Asteraceae), a progenitor-derivative species pair. Botanical Gazette 145 (2): 240-245.
80. Price et al (2000). Price HJ, Hodnett G & Johnston JS (2000). Sunflower (Helianthus annus) leaves contain compounds that reduce nuclear propidium iodide fluorescence. Annals of Botany 86: 929-934.
81. Sánchez-Jiménez et al (2009). Sánchez-Jiménez I, Pellicer J, Hidalgo O, Garcia S, Garnatje T & Vallès J (2009). Chromosome numbers in three Asteraceae tribes from inner Mongolia (China), with genome size data for Cardueae. Folia Geobotanica DOI 10.1007/s12224-009-9043-z.
82. Siljak-Yakovlev et al (1998). Siljak-Yakovlev S, Cerbah M, Zoldos V & Godelle B (1998). Heterochromatin and rDNA organisation in the genus Reichardia. (Abstr 13th Int Chromo Conf). Cytogenetics and Cell Genetics 81: 115.
83. Siljak-Yakovlev et al (2005). Siljak-Yakovlev S, Solic ME, Catrice O, Brown SC & Papes D (2005). Nuclear DNA content and chromosome number in some diploid and tetraploid Centaurea (Asteraceae: Cardueae) from the Dalmatia Region. Plant Biology 7: 397-404.
84. Siljak-Yakovlev et al (2010). Siljak-Yakovlev S, Pustahija F, Solic EM, Bogunic F, Muratovic E, Basic N, Catrice O & Brown SC (2010). Towards a database of Balkan flora: genome size in 343 taxa of which 242 are novel. Advanced Science Letters 24: 190-213.
85. Sims & Price (1985). Sims LE & Price HJ (1985). Nuclear DNA content variation in Helianthus (Asteraceae). American Journal of Botany 72: 1213-1219.
86. Sliwinska et al (2005). Sliwinska E, Zielinska E & Jedrzejczyk I (2005). Are seeds suitable for flow cytometric estimation of plant genome size?. Cytometry Part A 64A: 72-79.
87. Suda et al (2003). Suda J, Kyncl T & Freiov R (2003). Nuclear DNA amounts in Macaronesian angiosperms. Annals of Botany 92:153-164.
88. Suda et al (2005). Suda J, Kyncl T & Jarolimová V (2005). Genome size variation in Macaronesian angiosperms: forty percent of the Canarian endemic flora completed. Plant Systematics and Evolution 252:215-238.
89. Suda et al (2006). Suda J, Krahulcová A, Trávnícek P & Krahulec F (2006). Ploidy level versus DNA ploidy level: an appeal for constistent terminology. Taxon 55: 447-450.
90. Temsch et al (2008). Temsch EM, Greilhuber J, Hammett KRW & Murray BG (2008). Genome size in Dahlia Cav. (Asteraceae-Coreopsidae). Plant Systematics and Evolution 276: 157-166.
91. Torrell & Vallès (2001). Torrell M & Vallès J (2001). Genome size in 21 Artemisia L. species (Asteraceae, Anthemideae): Systematic evolutionary, and ecological implications. Genome 44: 231-238.
92. Wallace et al (1972). Wallace H, Sparkes CA & Maden M (1972). Nuclear DNA content of three Crepis species. Heredity 33: 61-68.
93. Zonneveld et al (2005). Zonneveld BJM, Leitch IJ & Bennett MD (2005). First nuclear amounts in more than 300 angiosperms. Annals of Botany 96: 229-244.
94. Eisenman & Struwe (2011). Eisenman SW & Struwe L (2011). The global distribution of wild tarragon (Artemisia dracunculus L.; Asteraceae) cytotypes with twenty-seven new records from North America. Genetic Resources and Crop Evolution 58 (8): 1199-1212.
95. Pellicer et al (2010). Pellicer J, Garnatje T, Molero J, Pustahija F, Siljak-Yakovlev S & Vallès J (2010). Origin and evolution of the South American endemic Artemisia species (Asteraceae): evidence from molecular phylogeny, ribosomal DNA and genome size data. Australian Journal of Botany 58, 605–616..
96. Andrés-Sánchez et al (2012). Andrés-Sánchez S, Temsch EM, Rico E & Martínez-Ortega MM (2012). Genome size in Filago L. (Asteraceae, Gnaphalieae) and related genera: phylogenetic, evolutionary and ecological implications. Plant Systematics Evolution 299 (2): 331-345.
97. Slovák et al (2009). Slovák M, Urfus T, Vít P & Marhold K (2009). The Balkan endemic Picris hispidissima (Compositae): morphology, nuclear DNA content and relationship to the polymorphic P. hieracioides. Plant Systematics and Evolution 278 (3): 187-201.
98. Slovák et al (2009). Slovák M, Vít P, Urfus T & Suda J (2009). Complex pattern of genome size variation in a polymorphic member of the Asteraceae. Journal of Biogeography 36 (2): 372-384.
99. Münzbergová (2009). Münzbergová Z (2009). The effect of genome size on detailed species traits within closely related species of the same habitat. Botanical Journal of the Linnean Society 160 (3): 290-298.
100. Dydak et al (2009). Dydak M, Kolano B, Nowak T, Siwinska D & Maluszynska J (2009). Cytogenetic studies of three European species of Centaurea L. (Asteraceae). Hereditas 146 (4): 152-161.
101. Mráz et al (2009). Mráz P, Chrtek J & Šingliarová B (2009). Geographical parthenogenesis, genome size variation and pollen production in the arctic-alpine species Hieracium alpinum. Botanica Helvetica 119 (1): 41-51.
102. Sánchez-Jiménez et al (2012). Sánchez-Jiménez I, Hidalgo O, Canela MÁ, Siljak-Yakovlev S, Šolić ME, Vallès J & Garnatje T (2012). Genome size and chromosome number in Echinops (Asteraceae, Cardueae) in the Aegean and Balkan regions: technical aspects of nuclear DNA amount assessment and genome evolution in a phylogenetic frame. Plant Systematics and Evolution 298 (6): 1085-1099.
103. Koutecký (2012). Koutecký P (2012). A diploid drop in the tetraploid ocean: hybridization and longterm survival of a singular population of Centaurea weldeniana Rchb. (Asteraceae), a taxon new to Austria. Plant Systematics and Evolution 298 (7): 1349-1360.
104. Olšavská et al (2012). Olšavská K, Perný M, Španiel S & Šingliarová B (2012). Nuclear DNA content variation among perennial taxa of the genus Cyanus(Asteraceae) in Central Europe and adjacent areas. Plant Systematics and Evolution 298 (8): 1463-1482.
105. Angulo & Dematteis (2012). Angulo MB & Dematteis M (2012). Nuclear DNA content in some species of Lessingianthus (Vernonieae, Asteraceae) by flow cytometry. Journal of Plant Research 126: 461-468.
106. Kubešová et al (2010). Kubešová M, Moravcová L, Suda J, Jarošík V & Pyšek P (2010). Naturalized plants have smaller genomes than their non-invading relatives: a flow cytometric analysis of the Czech alien flora. Preslia 82: 81-96.
107. Meriç et al (2010). Meriç Ç, Arda H, Güler N & Dayan S (2010). Chromosome number and nuclear DNA content of Centaurea kilaea (Asteraceae), an endemic species from Turkey. Phytologia Balcanica 16 (1): 79-84.
108. Kováčik et al (2010). Kováčik J, Klejdus B, Hedbavny J, Mártonfi P, Štork F & Mártonfiová L (2011). Copper Uptake, Physiology and Cytogenetic Characteristics in Three Matricaria chamomilla Cultivars. Earth and Environmental Science 218: 681-691.
109. Dušková et al (2010). Dušková E, Kolář F, Sklenář P, Rauchová J, Kubešová M, Fér T, Suda J & Marhold K (2010). Genome size correlates with growth form, habitat and phylogeny in the Andean genus Lasiocephalus (Asteraceae). Preslia 82: 127-148.
110. Enke et al (2011). Enke N, Fuchs J & Gemeinholzer B (2010). Shrinking genomes? Evidence from genome size variation in Crepis (Compositae). Plant Biology 13 (1): 185-193.
111. Weiss-Schneeweiss et al (2011). Weiss-Schneeweiss H, Blöch C, Turner B, Villaseñor JL, Stuessy TF & Schneeweiss GM (2011). The promiscuous and the chaste: frequent allopolyploid speciation and its genomic consequences in american daisies (Melampodium sect. Melampodium; Asteraceae). Evolution 66 (1): 211-228.
112. Rebernig et al (2012). Rebernig CA, Weiss-Schneeweiss H, Blöch C, Turner B, Stuessy TF, Obermayer Re, Villaseñor JL & Schneeweiss GM (2012). The evolutionary history of the white-rayed species of Melampodium (Asteraceae) involved multiple cycles of hybridization and polyploidization. American Journal of Botany 99 (6): 1043-1057.
113. Záveský et al (2005). Záveský L, Jarolímová V & Stepánek J (2005). Nuclear DNA content variation within the genus Taraxacum (Asteraceae). Folia Geobotanica 40: 91-104.
114. Morgan & Westoby (2005). Morgan HD & Westoby M (2005). The relationship between nuclear DNA content and leaf strategy in seed plants. Annals of Botany 96: 1321-1330.
115. Koce et al (2008). Koce JD, Skondric´ S, Bacic T & Dermastia M (2008). Amounts of nuclear DNA in marine halophytes. Aquatic Botany 89: 385-389.
116. Suda et al (2007). Suda J, Krahulcová A, Trávníček P, Rosenbaumová R, Peckert T & Krahulec F (2007). Genome size variation and species relationships in Hieracium sub-genus Pilosella (Asteraceae) as inferred by flow cytometry. Annals of Botany 100: 1323-1335.
117. Bai et al (2012). Bai C, Alverson WS, Follansbee A & Waller DM (2012). New reports of nuclear DNA content for 407 vascular plant taxa from the United States. Annals of Botany 110 (8): 1623-1629.
118. Schie & Debener (2013). Schie S & Debener T (2013). The generation of novel species hybrids between garden dahlias and Dahlia macdougallii to increase the gene pool for variety breeding. Plant Breeding 132 (2): 224-228.
119. Schlaepfer et al (2008). Schlaepfer DR, Edwards PJ, Semple JC & Billeter R (2008). Cytogeography of Solidago gigantea (Asteraceae) and its invasive ploidy level. Journal of Biogeography 35: 2119-2127.
120. Suda et al (2007). Suda J, Weiss-Schneeweiss H, Tribsch A, Schneeweiss GM, Trávnícek P & Schönswetter P (2007). Complex distribution patters of di-, tetra-, and hexaploid cytotypes in the European high mountain plant Senecio carniolicus (Asteraceae). American Journal of Botany 94: 1391-1401.
121. Koutecký et al (2012). Koutecký P, Štěpánek J & Baďurová T (2012). Differentiation between diploid and tetraploid Centaurea phrygia: mating barriers, morphology and geographic distribution. Preslia 84: 1-32.
122. Johnston et al (1996). Johnston JS, Jensen A, Czeschin DG & Price HJ (1996). Environmentally induced nuclear 2C DNA content instability in Helianthus annuus (Asteraceae). American Journal of Botany 83 (9): 1113-1120.
123. Barb et al (2008). Barb JG, Werner DJ & Tallury SP (2008). Cytogenetic Characterization and Nuclear DNA Content of Diploid and Tetraploid Forms of Stokes Aster. HortScience 43 (7): 2005-2012.
124. Perison et al (2012). Peirson JA, Reznicek AA & Semple JC (2012). Polyploidy, infraspecific cytotype variation, and speciation in Goldenrods: The cytogeography of Solidago subsect. Humiles (Asteraceae) in North America. Taxon 61: 197-210.
125. Price et al (1998). Price HJ, Morgan PW & Johnston JP (1998). Environmentally Correlated Variation in 2C Nuclear DNA Content Measurements in Helianthus annuusL.. Annals of Botany 82: 95-98.
126. Cavallini et al (1986). Cavallini A, Zolfino C, Cionini G, Cremonini R, Natali L, Sassoli O & Cionini PG (1986). Nuclear DNA changes within Helianthus annuus L.: cytophotometric, karyological and biochemical analyses. Theorical and Applied Genetics 73: 20-26.
127. Russell et al (2013). Russell A, Safer S, Weiss-Schneeweiss H, Temsch E, Stuppner H, Stuessy TF & Samuel R (2013). Chromosome counts and genome size of Leontopodium species (Asteraceae: Gnaphalieae) from south-western China. Botanical Journal of Linnean Society 171: 627-636.
128. Nora et al (2013). Nora S, Castro S, Loureiro J, Gonçalves AC, Oliveira H, Castro M, Santos C & Silveira P (2013). Flow cytometric and karyological analyses of Calendula species from Iberian Peninsula. Plant Systematics and Evolution 299: 853-864.
129. Garcia et al (2013). Garcia S, Hidalgo O, Jakovljević I, Siljak-Yakoblev S, Vigo J, Garnatje T & Vallès J (2013). New data on genome size in 128 Asteraceae species and subspecies, with first assessments for 40 genera, 3 tribes and 2 subfamilies. Plant Biosystems 147: 1219-1227.
130. Pellicer et al (2010). Pellicer J, Garcia S, Canela MA, Garnatje T, Korobkov AA, Twibell JD & Vallès J (2010). Genome Size Dynamics in Artemisia L. (Asteraceae): Following the Track of Polyploidy. Plant Biology 12: 820-30.
131. Khaldi et al (2014). Khaldi S, Hidalgo O, Garnatje T & El Gazzah M (2014). Karyological and genome size insights into cardoon (Cynara cardunculus L., Asteraceae) in Tunisia. Caryologia 67: 57-62.
132. Trávnícek et al (2013). Trávnícek P, Kirschner J, Chudáckova H, Rooks F & Stepánek J (2013). Substantial Genome Size Variation in Taraxacum stenocephalum (Asteraceae, Lactuceae). Folia Geobotanica 48: 271-284.
133. Sliwinska & Thiem (2007). Sliwinska E & Thiem B (2007). Genome size stability in six medicinal plant species propagated in vitro. Biologia Plantarum 51: 556-558.
134. Sapci et al (2015). Sapci H, Rewers M, Vural C & Sliwinska, E (2015). Flow cytometric estimation of the nuclear genome size of 22 Echinops (Asteraceae) taxa from Turkey. Turkish Journal of Botany 39: 1-8.
135. Pellicer et al (2014). Pellicer J, Hidalgo H, Garnatje T, Kondo K & Vallès J (2014). Life cycle versus systematic placement: phylogenetic and cytogenetic studies in annual Artemisia (Asteraceae, Anthemideae). Turkish Journal of Botany 38: 1112-1122.
136. Enke et al (2015). Enke N, Kunze R, Pustahija F, Glöckner G, Zimmermann J, Oberländer J, Kamari G & Siljak-Yakovlev S (2015). Genome size shifts: karyotype evolution in Crepis section Neglectoides (Asteraceae). Plant Biology 17: 775-786.
137. Ray et al (2015). Ray A, Bashir Y, Rather IA & Konwar BK (2015). Genome size determination of Eclipta alba and Aloe barbadensis. Bangladesh Journal of Pharmacology 10: 697-702.
138. Azizi et al (2014). Azizi N, Sheidai M, Mozaffarian V & Nourmohammadi Z (2014). Karyotype and genome size analyses in species of Helichrysum (Asteraceae). Acta Botanica Brasilica 28: 367-375.
139. Sanchez et al (2014). Sanchez PL, Costich DE, Friebe B, Coffelt T, Jenks MA & Gore MA (2014). Genome size variation in guayule and mariola: Fundamental descriptors for polyploid plant taxa. Industrial Crops and Products 54: 1-5.
140. Rosenbaumová & Krahulec (2015). Rosenbaumová R & Krahulec F (2015). Sexual reproduction as a source of ploidy level variation in the model agamic complex of Pilosella bauhini and P. officinarum (Asteraceae: Lactuceae). Plant Syst Evol 301: 279-290.
141. Dirkse et al (2014). Dirkse GM, Diustermaat H and Zonneveld BJM (2014). Morphology and genome weight of Symphyotrichum species (Asteraceae) along rivers in The Netherlands. New Journal of Botany 4: 134-142.
142. Olšavská et al (2013). Olšavská K, Perný M, Löser CJ, Stimper R & Hodálová I (2013). Cytogeography of European perennial species of Cyanus (Asteraceae). Botanical Journal of the Linnean Society 173: 230-257.
143. Vallès et al (2014). Vallès J, Bašić N, Bogunić F, Bourge M, Brown SC, Garnatje T, Hajrudinović A, Muratović E, Pustahija F, Šolić EM & Siljak-Yakovlev S (2014). Contribution to plant genome size knowledge: first assessments in five genera and 30 species of angiosperms from western Balkans. Botanica Serbica 38 : 25-33.
144. Olanj et al (2015). Olanj N, Garnatje T, Sonboli A, Vallès J & Garcia S (2015). The striking and unexpected cytogenetic diversity of genus Tanacetum L. (Asteraceae): a cytometric and fluorescent in situ hybridisation study of Iranian taxa. BMC Plant Biology 15: 174.
145. Bou Dagher-Kharrat et al (2013). Bou Dagher-Kharrat M, Abdel-Samad N, Douaihy B, Bourge M, Siljak-Yakovlev S & Brown SC (2013). Nuclear DNA C-values for biodiversity screening: Case of the Lebanese flora. Plant Biosystems 147: 1228-1237.
146. Ilut et al (2015). Ilut DC, Sanchez PL, Costich DE, Friebe B, Coffelt TA, Dyer JM, Jenks MA & Gore MA (2015). Genomic diversity and phylogenetic relationships in the genus Parthenium (Asteraceae). Industrial Crops and Products 76: 920-929.
147. Matthews et al (2015). Matthews A, Emelianova K, Hatimy AA, Chester M, Pellicer J, Ahmad KS, Guignard MS, Rouhan G, Soltis DE, Soltis PS, Leitch IJ, Leitch AR, Mavrodiev EV & Buggs RJA (2015). 250 years of hybridisation between two biennial herb species without speciation. AOB Plants 7: plv081.
148. Mas de Xaxars et al (2015). Mas de Xaxars G, Garnatje T, Pellicer J, Siljak-Yakovlev S, Vallès J & Garcia S (2015). Impact of dysploidy and polyploidy on the diversification of high mountain Artemisia (Asteraceae) and allies. Alpine Botany 126: 35-48.
149. Mas de Xaxars et al (2015). Mas de Xaxars G, Fridlender A, Garnatje T & Vallès J (2015). Molecular and cytogenetic confirmation of the hybrid origin of Jacobaea × mirabilis (Asteraceae, Senecioneae), with nomenclatural notes on this name. Phytotaxa 234: 271-279.
150. Conti et al (2015). Conti F, Niketic M, Vukojicic S, Siljak-Yakovlev S, Zoltán B & Lakusic D (2015). A new species of Reichardia (Asteraceae, Cichorieae) from Albania and re-evaluation of R. macrophylla. Phytotaxa 236: 121-134.
151. Bougoutaia et al (2016). Bougoutaia Y, Garcia S, Garnatje T, Kaid-Harche M & Vallès J (2016). Genome size, chromosome number and rDNA organisation in Algerian populations of Artemisia herba-alba (Asteraceae), a basic plant for animal feeding facing overgrazing erosion. Anales del Jardín Botánico de Madrid 73: e043.
152. Dusková et al (2010). Duskova E, Kolár F, Sklenár P, Rauchová J, Kubesová M, Fér T, Suda J & Marhold K (2010). Genome size correlates with growth form, habitat and phylogeny in the Andean genus Lasiocephalus. Preslia 82: 127-148.
153. Vega & Dematteis (2017). Vega AJ & Dematteis M (2017). DNA content in species of Vernonia and Vernonanthura from South America: An approach to systematics and evolution of the Vernonieae (Asteraceae). Plant Biosystems-An International Journal Dealing with all Aspects of Plant Biology 151: 131-138.
154. Sears et al (2016). Sears CJ & Whitton J (2016). A reexamination of the North American Crepis agamic complex and comparison with the findings of Babcock and Stebbins’ classic biosystematic monograph. American Journal of Botany 103: 1289-1299.
155. Gonçalves et al (2016). Gonçalves AC, Nora S, Castro S, Loureiro J, Oliveira H, Santos C & Silveira P (2016). Towards a taxonomical revision of Calendula L. (Asteraceae) in the Iberian Peninsula. Poster. Unidentified venue.
156. Garcia et al (2011). Garcia S, McArthur ED, Pellicer J, Sanderson SC, Vallès J & Garnatje T (2011). A molecular phylogenetic approach to western North America endemic Artemisia and allies (Asteraceae): Untangling the sagebrushes. American Journal of Botany 98: 638-653.
157. Garcia et al (2016). Personal communication. Data to be published.
158. Carev et al (2016). Carev I, Ruščić M, Skočibušić M, Maravić A, Siljak‐Yakovlev S & Politeo O (2016). Phytochemical and cytogenetic characterization of Centaurea solstitialis L. (Asteraceae) from Croatia. Chemistry and Biodiversity 14: 1600213.
159. Inceer et al (2016). Inceer H, Kalmuk NA, Imamoglu KV, Duman O, Hayirlioglu-Ayaz S & Arslan G (2016). Micromorphological, anatomical and cytogenetical studies in endemic Crepis macropus Boiss. & Heldr.(Asteraceae) from Turkey. Acta Botanica Croatica 75: 173-178..
160. Giorgi et al (2016). Giorgi D, Pandozy G, Farina A, Grosso V, Lucretti S, Gennaro A, Crinò P & Saccardo F (2016). First detailed karyo-morphological analysis and molecular cytological study of leafy cardoon and globe artichoke, two multi-use Asteraceae crops. Comparative Cytogenetics, 10: 447.
161. Luo et al (2016). Luo C, Chen D, Cheng X, Zhao H, Huang C (2016). Genome size estimations in Chrysanthemum and correlations with molecular phylogenies. Genetic Resources and Crop Evolution 64: 1451-1463.
162. Li et al (2013). Li J, Wan Q, Abbott RJ, Rao GY (2013). Geographical distribution of cytotypes in the Chrysanthemum indicum complex as evidenced by ploidy level and genome‐size variation. Journal of Systematics and Evolution 51: 196-204.
163. Hidalgo et al (2017). Hidalgo O, Vitales D, Vallès J, Garnatje T, Siljak-Yakovlev S, Leitch IJ, Pellicer J (2017). Cytogenetic insights into an oceanic island radiation: The dramatic evolution of pre-existing traits in Cheirolophus (Asteraceae: Cardueae: Centaureinae). Taxon 66: 146-157.
164. Khaldi et al (2014). Khaldi S, Hidalgo O, Garnatje T, El Gazzah M (2014). Karyological and genome size insights into cardoon (Cynara cardunculus L., Asteraceae) in Tunisia. Caryologia 67: 57-62.
165. Verloove et al (2017). Verloove, Filip, Ben JM Zonneveld, John C. Semple (2017). First evidence for the presence of invasive Solidago altissima (Asteraceae) in Europe. Willdenowia 47: 69-75.
166. Sujatha et al (2008). Sujatha M, Geetha A, Sivakumar P, and Palanisamy N (2008). Biotechnological interventions for genetic improvement of safflower. Proceedings of the 7th International Safflower Conference., p 3–6.
167. Salih et al (2017). Salih, M, Rubar Hussein (2017). Nuclear and chloroplast genome diversity in apomictic microspecies of Taraxacum. PhD dissertation. Department of Genetics, University of Leicester.
168. Al-Ahmad H et al (2017). Al-Ahmad H, Kania SA, Trent DJ, Stewart Jr CN (2017). Estimation of nuclear DNA contents of three economically important plant species by laser flow cytometry. An-Najah University Journal for Research (N. Sc.) 31: 35-54.
169. Castelli et al (2017). Castelli, M, Miller, CH, Schmidt-Lebuhn, AN (2017). Polyploidization and Genome Size Evolution in Australian Billy Buttons (Craspedia, Asteraceae: Gnaphalieae). International Journal of Plant Sciences 178: 352-361.
170. Vidic et al (2009). Vidic, T, Greilhuber, J, Vilhar, B, Dermastia, M (2009). Selective significance of genome size in a plant community with heavy metal pollution. Ecological Applications 19: 1515-1521.
171. Temsch et al (2010). Temsch, EM, Temsch, W, Ehrendorfer-Schratt, L, Greilhuber (2010). Heavy metal pollution, selection, and genome size: the species of the Žerjav study revisited with flow cytometry. Journal of Botany 2010: 596542.
172. Balao et al (2015). Balao, F, Casimiro‐Soriguer, R, García‐Castaño, JL, Terrab, A & Talavera, S (2015). Big thistle eats the little thistle: does unidirectional introgressive hybridization endanger the conservation of Onopordum hinojense? New Phytologist 206: 448-458.
173. Benamara-Bellagha et al (2016). Benamara-Bellagha M, Baziz K, Pustahija F, Khalfallah N & Siljak-Yakovlev S (2016). Cytogenetic characterization and nuclear DNA content of three North African endemic Centaurea species. Plant Biosystems-An International Journal Dealing with all Aspects of Plant Biology 150: 501-511.
174. Chrtek et al (2014). Chrtek, J, Plačková, I, Dočkalová, Z, Krahulcová, A & Trávníček P (2014). Patterns of genetic variation in Pilosella echioides and its selected relatives: results of variation in ploidy level, facultative apomixis and past and present hybridization. Plant Systematics and Evolution 300: 2091-2104.
175. Roy et al (2015). Roy A, Bashir Y, Rather IA & Konwar BK (2015). Genome size determination of Eclipta alba and Aloe barbadensis. Bangladesh Journal of Pharmacology 10: 697-702.
176. Gong et al (2014). Gong N, Wang YT, Björn LO & Li SS (2014). DNA C-values of 20 invasive alien species and 3 native species in South China. Archives of Biological Sciences 66: 1465-1472.
177. Guo et al (2015). Guo S, Yu J, Li D, Zhou P, Fang Q, Yin L & Quarantine B (2015). DNA C-values of 138 herbaceous species and their biological significance. Acta Ecologica Sinica 19: 030.
178. Jourdan et al (2014). Jourdan P, Zale P & Stieve S (2014). Germplasm characterization for Phlox, Rudbeckia and Coreopsis: determination of genome size by flow cytometry. In XXIX International Horticultural Congress on Horticulture: Sustaining Lives, Livelihoods and Landscapes (IHC2014): 1104 (pp. 349-356).
179. Kantar et al (2014). Kantar MB, Betts K, Michno JM, Luby JJ, Morrell PL, Hulke BS, Stupar RM & Wyse DL (2014). Evaluating an interspecific Helianthus annuus× Helianthus tuberosus population for use in a perennial sunflower breeding program. Field Crops Research 155: 254-264..
180. Moyers et al (2013). Moyers BT & Rieseberg LH (2013). Divergence in gene expression is uncoupled from divergence in coding sequence in a secondarily woody sunflower. International Journal of Plant Sciences 174: 1079-1089.
181. Via do Pico et al (2013). Via Do Pico GM & Dematteis M (2013). Karyotype analysis and DNA content in some species of Chrysolaena (Vernonieae, Asteraceae). Plant Biosystems-An International Journal Dealing with all Aspects of Plant Biology 147: 864-873.
182. Olsavska et al (2015). Olšavská K, Šingliarová B, Kochjarova J, Labdikova Z, Škodová I, Hegedüšova K & Janišová M (2015). Exploring patterns of variation within the central-European Tephroseris longifolia agg.: karyological and morphological study. Preslia 87: 163-194.
183. Zenkteler & Zenkteler (2016). Zenkteler E & Zenkteler M (2016). Development of haploid embryos and plants of Lactuca sativa induced by distant pollination with Helianthus annuus and H. tuberosus. Euphytica 208: 439-451.
184. Skala et al (2015). Skała E, Grąbkowska R, Sitarek P, Kuźma Ł, Błauż A & Wysokińska H (2015). Rhaponticum carthamoides regeneration through direct and indirect organogenesis, molecular profiles and secondary metabolite production. Plant Cell, Tissue and Organ Culture (PCTOC) 123: 83-98.
185. Staton & Burke (2015). Staton SE & Burke JM (2015). Evolutionary transitions in the Asteraceae coincide with marked shifts in transposable element abundance. BMC Genomics 16: 623.
186. Tetrault & Ungerer (2016). Tetreault HM & Ungerer MC (2016). Long Terminal Repeat retrotransposon content in eight diploid sunflower species inferred from Next-Generation Sequence data. G3: Genes, Genomes, Genetics 6: 2299-2308.
187. Iaffaldano et al (2017). Iaffaldano BJ, Zhang Y, Cardina J & Cornish K (2017). Genome size variation among common dandelion accessions informs their mode of reproduction and suggests the absence of sexual diploids in North America. Plant Systematics and Evolution 303: 719-725.
188. Mascagni et al (2017). Mascagni F, Giordani T, Ceccarelli M, Cavallini A & Natali L (2017). Genome-wide analysis of LTR-retrotransposon diversity and its impact on the evolution of the genus Helianthus L. BMC Genomics 18: 634..
189. Siljak-Yakovlev et al (2017). Siljak-Yakovlev S, Godelle B, Zoldos V, Vallès J, Garnatje T & Hidalgo O (2017). Evolutionary implications of heterochromatin and rDNA in chromosome number and genome size changes during dysploidy: A case study in Reichardia genus. PloS one 12(8): e0182318.
190. Yang et al (2017). Yang J, Zhang G, Zhang J, Liu H, Chen W, Wang X, ... & Yang S (2017). Hybrid de novo genome assembly of the Chinese herbal fleabane Erigeron breviscapus. GigaScience 6: 1-7..
191. Vallès et al (2017). Vallès J, Malik S, Gomez M & Siljak-Yakovlev S (2017). Contribution to knowledge about nuclear DNA amounts in the family Asteraceae: first assessments in one genus and 12 species, with chromosome counts for three taxa. Botanica Serbica 41: 213-219.
192. Nardi F. D et al (2018). Nardi FD, Pustahija F, Andreucci A, Siljak-Yakovlev S & Peruzzi L. Does Solidago litoralis (Asteraceae) merit specific rank? Insights from cytogenetic, molecular and ecological data. Phytotaxa 346: 121-140 .
193. Palomino et al (2018). Palomino G, Soto-Trejo F, Correa H, Méndez I & Villaseñor JL. (2018) Nuclear genome size and chromosome number in the Mexican genus Pittocaulon (Asteraceae). Caryologia 71: 113-119.
194. Inceer et al (2018). Inceer H, Kalmuk NA, Čížková J & Doležel J (2018). Genome size in some taxa of Crepis L. (Asteraceae) from Turkey. Caryologia, in press. .
195. Echeverría & Camadro (2017). Echeverría ML & Camadro EL (2017). Chromosome numbers, meiotic abnormalities, and 2n pollen formation in accessions of the wild species Chrysolaena flexuosa (Vernonieae, Compositae) from its distribution range in Argentina. Boletín de la Sociedad Argentina de Botánica 52: 737-752 .
196. Irimia et al (2017). Irimia R, Montesinos D, Eren Ö, Lortie CJ, French K, Cavieres LA, Sotes GJ, Hierro JL, Jorge A & Loureiro J (2017). Extensive analysis of native and non-native Centaurea solstitialis L. populations across the world shows no traces of polyploidization. PeerJ5: e3531 .
197. Hamidi et al (2018). Hamidi F, Karimzadeh G, Monfared SR & Salehi M (2018). Assessment of Iranian endemic Artemisia khorassanica: karyological, genome size, and gene expressions involved in artemisinin production. Turkish Journal of Biology 42: 322-333..
198. Paniego et al (2018). Paniego A, Panero JL, Vallès J & Garcia S (2018). Contribution to the genome size knowledge of New World species from the Heliantheae alliance (Asteraceae). Plant Biosystems-An International Journal Dealing with all Aspects of Plant Biology, in press. .