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  • AID0101010199
  • DOI10.1111/boj.12385
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REFERENCES (from publication)
Albach DC, Yan K, Rosendal Jensen SR, Li HQ. 2009.

Phylogenetic placement of Triaenophora (formerly Scrophulariaceae) with some implications for the phylogeny of Lamiales. Taxon 58: 749–756. APG. 1998. An ordinal classification for the families of flowering plants. Annals of the Missouri Botanical Garden 85: 531–553. APG II. 2003. An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG II. Botanical Journal of the Linnean Society 141: 399–436. APG III. 2009. An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants. APG III. Botanical Journal of the Linnean Society 161: 105–121. Applequist WL. 2013. Report of the Nomenclature Committee for Vascular Plants: 65. Taxon 62: 1315–1326. Applequist WL. 2014. Report of the Nomenclature Committee for Vascular Plants: 66. Taxon 63: 1315–1326. Backlund A, Bremer K. 1998. To be or not to be – principles of classification and monotypic plant families. Taxon 47: 391–401. Backlund M, Oxelman B, Bremer B. 2000. Phylogenetic relationships within the Gentianales based on ndhF and rbcL sequences, with particular reference to the Loganiaceae. American Journal of Botany 87: 1029–1043. Barkman TJ, Lim SH, Salleh KM, Nais K. 2004. Mitochondrial DNA sequences reveal the photosynthetic relatives of Rafflesia, the world’s largest flower. Proceedings of the National Academy of Sciences USA 101: 787– 792. Barrett CF, Baker WJ, Comer JR, Conran JG, Lahmeyer SC, Leebens-Mack JH, Li J, Lim GS, Mayfield- Jones DR, Perez L, Medinz J, Pires JC, Santos C, Stevenson DW, Zomlefer WB, Davis JI. 2016. Plastid genomes reveal support for deep phylogenetic relationships and extensive rate variation among palms and other commelinid monocots. New Phytologist 209: 855–870. Batsch AIGC. 1786. Dispositio generum plantarum jenensium. Jena: Heller. Batsch AIGC. 1794. Synopsis universalis analytica generum plantarum, vol. 2. Jena: Croeker. Bayer C, Fay MF, de Bruijn AY, Savolainen V, Morton CM, Kubitzki K, Chase MW. 1999. Support for an expanded concept of Malvaceae within a recircumscribed order Malvales: a combined analysis of plastid atpB and rbcL DNA sequences. Botanical Journal of the Linnean Society 129: 267–303. Bissinger K, Khoshravesh R, Kotrade JP, Oakley J, Sage TL, Sage RF, Hartmann HE, Kadereit G. 2014. Gisekia (Gisekiaceae): phylogenetic relationships, biogeography, and ecophysiology of a poorly known C4 lineage in the Caryophyllales. American Journal of Botany 101: 499–509. Borsch T, Hern�andez-Ledesma P, Berendsohn WG, Flores-Olvera H, Ochoterena H, Zuloaga FO, Mering S, Kilian N. 2015. An integrative and dynamic approach for monographing species-rich plant groups – building the global synthesis of the angiosperm order Caryophyllales. Perpectives in Plant Ecology, Evolution and Systematics 17: 284–300. Briggs BG, Marchant AD, Perkins AJ. 2014. Phylogeny of the restiid clade (Poales) and implications for the classification of Anarthriaceae, Centrolepidaceae and Australian Restionaceae. Taxon 63: 24–46. Brockington SF, Alexandre R, Ramdial J, Moore MJ, Crawley S, Dhinga A, Hilu K, Soltis DE, Soltis PS. 2009. Phylogeny of the Caryophyllales sensu lato: revisiting hypotheses on pollination biology and perianth differentiation in the core Caryophyllales. International Journal of Plant Sciences 170: 627–643. Brockington SF, Walker RH, Glover B, Soltis PS, Soltis DE. 2011. Complex pigment evolution in the Caryophyllales. New Phytologist 190: 854–865. Brummitt RK. 2011. Valid publication of the family name Pteleocarpaceae. Kew Bulletin 66: 1–3. Buerki S, Lowry PP, Alvarez N, Razafimandimbison SG, K€upfer P, Callmander MW. 2010. Phylogeny and circumscription of Sapindaceae revisited: molecular sequence data, morphology, and biogeography support recognition of a new family, Xanthoceraceae. Plant Ecology and Evolution 143: 148–159. Byng JW. 2014. The flowering plants handbook: a practical guide to families and genera of the world. Hertford: Plant Gateway. Byng JW, Bernardini B, Joseph JA, Chase MW, Utteridge TMA. 2014. Phylogenetic relationships of Icacinaceae s.s. focusing on the vining genera. Botanical Journal of the Linnean Society 176: 277–294. Caddick LR, Wilkin P, Rudall PJ, Hedderson TAJ, Chase MW. 2002. Yams reclassified: a recircumscription of Dioscoreaceae and Dioscoreales. Taxon 51: 103–114. Cantino PD, Judd WS, Soltis PE, Soltis DE, Olmstead RG, Graham SW, Donoghue MJ. 2007. Towards a phylogenetic nomenclature of Tracheophyta. Taxon 56: E1–E44. Chase MW, Reveal JL. 2009. A phylogenetic classification of the land plants to accompany APG III. Botanical Journal of the Linnean Society 161: 122–127. Chase MW, Duvall MR, Hills HG, Conran JG, Cox AV, Eguiarte LE, Hartwell J, Fay MF, Caddick LR, Cameron KM, Hoot S. 1995. Molecular phylogenetics of Lilianae. In: Rudall PJ, Cribb PJ, Cutler DF, Humphries CJ, eds. Monocotyledons: systematics and evolution. Kew: Royal Botanic Gardens, 109–137. Chase MW, Morton CM, Kallunki J. 1999. Molecular phylogenetics of Rutaceae: evidence from combined plastid atpB and rbcL. American Journal of Botany 86: 1191–1199. Chase MW, Zmarzty S, Lled�o MD, Wurdack KJ, Swensen SM, Fay MF. 2002. When in doubt, put it in Flacourtiaceae: a molecular phylogenetic analysis based on plastid rbcL DNA sequences. Kew Bulletin 57: 141–181. Christenhusz MJM, Chase MW. 2014. Trends and concepts in fern classification. Annals of Botany 113: 571–594. Christenhusz MJM, Fay MF, Clarkson JJ, Gasson P, Morales Can J, Jim�enez JB, Chase MW. 2010. Petenaeaceae, a new angiosperm family in Huerteales with a distant relationship to Gerrardina (Gerrardinaceae). Botanical Journal of the Linnnean Society 164: 16–25. Christenhusz MJM, Reveal JL, Farjon A, Gardiner MF, Mill RP, Chase MW. 2011. A new classification and linear sequence of extant gymnosperms. Phytotaxa 19: 55–70. Christenhusz MJM, Brockington SF, Christin PA, Sage RF. 2014. On the disintegration of Molluginaceae: a new genus and family (Kewa, Kewaceae) segregated from Hypertelis, and placement of Macarthuria in Macarthuriaceae. Phytotaxa 181: 238–242. Christenhusz MJM, Vorontsova MS, Fay MF, Chase MW. 2015. Results from an online survey of family delimitation in angiosperms and ferns: recommendations to the Angiosperm Phylogeny Group for thorny problems in plant classification. Botanical Journal of the Linnnean Society 178: 501–528. Christin PA, Sage TL, Edwards EJ, Ogburn RM, Khoshravesh R, Sage RF. 2011. Complex evolutionary transitions and the significance of C3–C4 intermediate forms of photosynthesis in Molluginaceae. Evolution 65: 643–660. Conti E, Fischbach A, Sytsma KJ. 1993. Tribal relationships in Onagraceae: implications from rbcL data. Annals of the Missouri Botanical Garden 80: 672–685. Cronquist A. 1981. An integrated system of classification of flowering plants. New York: Columbia University Press. Davis CC, Latvis M, Nickrent DL, Wurdack KL, Baum DA. 2007. Floral gigantism in Rafflesiaceae. Science 315: 1812. Der JP, Nickrent DL. 2008. A molecular phylogeny of Santalaceae. Systematic Botany 33: 107–116. Doweld A, Reveal JL. 2008. New suprageneric names for vascular plants. Phytologia 90: 416–417. Ducousso M, B�ena G, Bourgeois C, Buyck B, Eyssartier G, Vincelette M, Rabevohitra R, Randrihasipara L, Dreyfus B, Prin Y. 2004. The last common ancestor of Sarcolaenaceae and Asian dipterocarp trees was ectomycorrhizal before the India–Madagascar separation, about 88 million years ago. Molecular Ecology 13: 231–236. Endress PK, Davis CC, Matthews ML. 2013. Advances in the floral structural characterization of the major subclades of Malpighiales, one of the largest orders of flowering plants. Annals of Botany 111: 969–985. Fay MF, Rudall PJ, Sullivan S, Stobart KL, de Bruijn AY, Reeves G, Qamaruz-Zaman F, Hong W-P, Joseph J, Hahn WJ, Conran JG, Chase MW. 2000. Phylogenetic studies of Asparagales based on four plastid DNA loci. In: Wilson KL, Morrison DA, eds. Monocots - systematics and evolution, Vol. 1. Melbourne: CSIRO, 360–371. Feodorova TA, Voznesenskaya EV, Edwards GE, Roalson EH. 2010. Biogeographic patterns of diversification and the origins of C4 in Cleome (Cleomaceae). Systematic Botany 35: 811–826. Filipowicz N, Renner SS. 2010. The worldwide holoparasitic Apodanthaceae confidently placed in the Cucurbitales by nuclear and mitochondrial gene trees. BMC Evolutionary Biology 10: 219. Fischer E, Sch€aferhoff B, M€uller KF. 2012. The new monotypic genus Bardotia (Orobanchaceae) from Madagascar and remarks on the phylogenetic relationships of the African and Madagascan genera Micrargeria, Parastriga, Radamaea, Rhamphicarpa and Sieversandreas. Phytotaxa 46: 19–33. Givnish TJ, Ames M, McNeal JR, McKain MR, Steele PR, dePamphilis CW, Graham SW, Pires JC, Stevenson DW, Zomlefer WB, Briggs BG, Duvall MR, Moore MJ, Heaney JM, Soltis DE, Soltis PS, Thiele K, Leebens- Mack JH. 2010. Assembling the tree of the monocotyledons: plastome sequence phylogeny and evolution of Poales. Annals of the Missouri Botanical Garden 97: 584–616. Hardy NB, Cook LG. 2012. Testing for ecological limitation of diversification: a case study using parasitic plants. American Naturalist 180: 438–449. Harrington MG, Edwards KJ, Johnson SA, Chase MW, Gadek PA. 2005. Phylogenetic inference in Sapindaceae sensu lato using plastid matK and rbcL DNA sequences. Systematic Botany 30: 366–382. Haston E, Richardson JE, Stevens PF, Chase MW, Harris DJ. 2009. The linear Angiosperm Phylogeny Group (LAPG) III: a linear sequence of the families in APG III. Botanical Journal of the Linnean Society 161: 128–131. Hern�andez-Ledesma P, Berendsohn WG, Borsch T, von Mering S, Akhani H, Arias S, Casta~na-Noa I, Eggli U, Eriksson R, Flores-Plvera H, Fuentes-Baz�an S, Kadereit G, Klak C, Korotkova N, Nyffeler R, Ocamp G, Ochoterena H, Oxelman B, Rabeler RK, Sanches A, Schlumpberger BO, Uotila P. 2015. A taxonomic backbone for the global synthesis of species diversity in the angiosperm order Caryophyllaes. Willdenowia 45: 281–383. Hertweck K, Kinney M, Stuart S, Maurin O, Mathews S, Chase MW, Gandolfo M, Pires JC. 2015. Phylogenetics, divergence times, and diversification from three genomics partitions in monocots. Botanical Journal of the Linnean Society 178: 375–393. Judd WS, Kron KA. 1993. Circumscription of Ericaceae (Ericales) as determined by preliminary cladistic analyses based on morphological, anatomical and embryological features. Brittonia 45: 99–114. Judd WS, Manchester SR. 1997. Circumscription of Malvaceae (Malvales) as determined by a preliminary cladistic analysis of morphological, anatomical, palynological and chemical characters. Brittonia 49: 384–405. Judd WS, Campbell CS, Kellogg EA, Stevens PF, Donoghue MJ. 2016. Plant systematics: a phylogenetic approach, 4th edn. Sunderland, MA: Sinauer Associates. K�arehed J. 2001. Multiple origins of the tropical forest tree family Icacinaceae. American Journal of Botany 88: 2259– 2274. Klopper RR, Smith GF, van Wyk AE. 2013. Proposal to conserve the family name Asphodelaceae (Spermatophyta: Magnoliidae: Asparagales). Taxon 62: 402–403. Kron KA, Chase MW. 1993. Systematics of Ericaceae, Empetraceae, Epacridaceae, and related taxa based upon rbcL sequence data. Annals of the Missouri Botanical Garden 80: 735–741. Kubitzki K. 2014. Ixonanthaceae. In: Kubitzki K, ed. The families and genera of vascular plants, XI. Heidelberg: Springer, 233–236. Les DH, Tippery NP. 2013. In time and with water . . . the systematics of alismatid monocotyledons. In: Wilkin P, Mayo SJ, eds. Early events in monocot evolution. Cambridge: Cambridge University Press, 118–164. Mabberley DJ. 2008. Mabberley’s plant-book: a portable dictionary of plants, their classification and uses. 3rd ed. [second reprint with corrections, 2014]. Cambridge: Cambridge University Press. Mal�ecot V, Nickrent DL. 2008. Molecular phylogenetic relationships of Olacaceae and related Santalales. Systematic Botany 33: 97–106. Martinov I. 1820. Technic-botanical dictionary, in Latin and Russian. St. Petersburg: Russian Imperial Academy. Massoni J, Forest F, Sauquet H. 2014. Increased sampling of both genes and taxa improves resolution of phylogenetic relationships within Magnoliidae, a large and early-diverging clade of angiosperms. Molecular Phylogenetics and Evolution 70: 84–93. McNeil A, Brummitt RK. 2003. The usage of alternative names of eight flowering plant families. Taxon 52: 853–856. McNeill J, Barrie FR, Buck WR, Demoulin V, Greuter W, Hawksworth DL, Herendeen PS, Knapp S, Marhold K, Prado J, Prud’homme van Reine WF, Smith GF, Wiersema JH, Turland NJ. 2012. International code of nomenclature for algae, fungi, and plants (Melbourne Code). K€onigstein: Koeltz. Meisner CDF. 1841. Denkschriften der K€oniglich-Baierischen Botanischen Gesellschaft. Regensburg: Commission der Montag. Merckx VSFT, Smets EF. 2014. Thismia americana, the 101st anniversary of a botanical mystery. International Journal of Plant Sciences 175: 165–175. Merckx V, Bakker FT, Huysmans S, Smets EF. 2009. Bias and conflict in phylogenetic inference of mycoheterotrophic plants: a case study in Thismiaceae. Cladistics 25: 64–77. Merckx V, Huysmans S, Smets EF. 2010. Cretaceous origins of mycoheterotrophic lineages in Dioscoreales. In: Seberg O, Petersen G, Barfod AS, Davis JI, eds. Diversity, phylogeny and evolution in the monocotyledons. �A rhus: Aarhus University Press, 39–53. Morgan DR, Soltis DE. 1993. Relationships among members of Saxifragaceae sensu lato based on rbcL sequence data. Annals of the Missouri Botanical Garden 80: 631–660. Morton CM. 2011. Newly sequenced nuclear gene (Xdh) for inferring angiosperm phylogeny. Annals of the Missouri Botanical Garden 98: 63–89. Naumann J, Salomo K, Der JP, Wafula EK, Bolin JF, Maass E, Frenzke L, Samain MS, Neinhuis C, dePamphilis CW, Wanke S. 2013. Single-copy nuclear genes place haustorial Hydnoraceae within Piperales and reveal a Cretaceous origin of multiple parasitic angiosperm lineages. PLoS ONE 8: e79204. Nickrent DL, Mal�ecot V, Vidal-Russell R, Der JP. 2010. A revised classification of Santalales. Taxon 59: 538–558. Palazzesi L, Gottschling M, Barreda V, Weigend M. 2012. First Miocene fossils of Vivianiaceae shed new light on phylogeny, divergence times, and historical biogeography of Geraniales. Biological Journal of the Linnean Society 107: 67–85. Patchell MJ, Roalson EH, Hall JC. 2014. Resolved phylogeny of Cleomaceae based on all three genomes. Taxon 63: 315–328. Perret M, Chautems A, de Araujo AO, Salamin N. 2012. Temporal and spatial origin of Gesneriaceae in the New World inferred from plastid DNA sequences. Botanical Journal of the Linnean Society 171: 61–79. Pires JC, Maureira IJ, Givnish TJ, Sytsma KJ, Seberg O, Petersen G, Davis JI, Stevenson DW, Rudall PJ, Fay MF, Chase MW. 2006. Phylogeny, genome size, and chromosome evolution of Asparagales. In: Columbus JT, Friar EA, Hamilton CW, Porter JM, Prince LM, Simpson MG, eds. Monocots: comparative biology and evolution (vol. 1, excluding Poales). Claremont: Rancho Santa Ana Botanic Garden, 287–304. Price RA, Palmer JD. 1993. Relationsips of the Geraniaceae and Geraniales from rbcL sequence comparisons. Annals of the Missouri Botanical Garden 80: 661–671. Qiu YL, Dombrovska O, Lee J, Li L, Whitlock BA, Bernasconi- Quadroni F, Rest JS, Davis CC, Borsch T, Hilu KW, Renner SS, Soltis DE, Soltis PS, Zanis MJ, Cannone JJ, Gutell RR, Powell M, Savolainen V, Chatrou LW, Chase MW. 2005. Phylogenetic analysis of basal angiosperms based on nine plastid mitochondrial and nuclear genes. International Journal of Plant Sciences 166: 815–842. Qiu YL, Li LB, Wang B, Xue JY, Hendry TA, Li RQ, Brown JW, Liu Y, Hudson YH, Chen ZD. 2010. Angiosperm phylogeny inferred from sequences of four mitochondrial genes. Journal of Systematics and Evolution 48: 391– 425. Refulio-Rodr�ıguez NF, Olmstead R. 2014. Phylogeny of Lamiidae. American Journal of Botany 101: 287–299. Reveal J. 2008. Proposals to conserve the name Viburnaceae (Magnoliophyta), the name Adoxaceae against Viburnaceae, a “superconservation” proposal, and as an alternative, the name Sambucaceae. Taxon 57: 303. Reveal J. 2010. A checklist of familial and suprafamilial names for extant vascular plants. Phytotaxa 6: 1–402. Ruhfel BR, Gitzendanner MA, Soltis PS, Soltis DE, Burleigh JG. 2014. From algae to angiosperms – inferring phylogeny of green plants (Viridiplantae) from 360 plastid genomes. BMC Evolutionary Biology 14: 23. Savolainen V, Fay MF, Albach DC, Backlund A, van der Bank M, Cameron KM, Johnson SA, Lled�o MD, Pintaud JC, Powell M, Sheahan MC, Soltis DE, Soltis PS, Weston P, Whitten MW, Wurdack KJ, Chase MW. 2000. Phylogeny of the eudicots: a nearly complete familial analysis based on rbcL gene sequences. Kew Bulletin 55: 257–309. Sch€aferhoff B, M€uller K, Borsch T. 2009. Caryophyllales phylogenetics: disentangling Phytolaccaceae and Molluginaceae and the description of Microteaceae as a new isolated family. Willdenowia 39: 209–228. Sch€aferhoff B, Fleischmann A, Fischer E, Albach DC, Borsch T, Heubl G, M€uller KF. 2010. Towards resolving Lamiales relationships: insights from rapidly evolving chloroplast sequences. BMC Evolutionary Biology 10: 352. Sennikov AN, Barkworth ME, Welker CAD, Prado J. 2015. Proposals to add a new interpretative paragraph with new examples to Art. 36, dealing with certain designations published without explicit acceptance. Taxon 64: 653–655. Shipunov AB, Shipunova E. 2011. Haptanthus story: rediscovery of enigmatic flowering plant from Honduras. American Journal of Botany 98: 761–763. Simmons MP. 2004. Celastraceae. In: Kubitzki K, ed. The families and genera of vascular plants. VI. Flowering plants. Dicotyledons. Celastrales, Oxalidales, Rosales, Cornales, Ericales. Berlin: Springer, 29–64. Smith AR, Pryer KM, Schuettpeiz E, Korall P, Schneider H, Wolff PG. 2006. A classification of extant ferns. Taxon 55: 705–731. Soltis DE, Smith SA, Cellinese N, Wurdack KJ, Tank DC, Brockington SF, Refulio-Rodriguez NF, Walker JB, Moore MJ, Carlsward BS, Bell CD, Latvis M, Crawley S, Black C, Diouf D, Xi Z, Rushworth CA, Gitzendanner MA, Sytsma KJ, Qiu YL, Hilu KW, Davis CC, Sanderson MJ, Beaman RS, Olmstead RG, Judd WS, Donoghue MJ, Soltis PS. 2011. Angiosperm phylogeny: 17 genes, 640 taxa. American Journal of Botany 98: 704–740. Stevens PF. 2001 onwards. Angiosperm phylogeny website. Version 12, July 2012 [and more or less continuously updated since]. Available at: http://www.mobot.org/MOBOT/ research/APweb/ Struwe L, Soza VL, Manickam S, Olmstead RG. 2014. Gelsemiaceae (Gentianales) expanded to include the enigmatic Asian genus Pteleocarpa. Botanical Journal of the Linnean Society 175: 482–496. Stull GW, Duno de Stefano R, Soltis DE, Soltis PS. 2015. Resolving basal lamiid phylogeny and the circumscription of Icacinaceae with a plastome-scale data set. American Journal of Botany 102: 1794–1813. Su JX, Wang W, Zhang LB, Chen ZD. 2012. Phylogenetic placement of two enigmatic genera, Borthwickia and Stixis, based on molecular and pollen data, and the description of a new family of Brassicales, Borthwickiaceae. Taxon 61: 601–611. Su HJ, Hu JM, Anderson FE, Der JP, Nickrent DL. 2015. Phylogenetic relationships of Santalales with insights into the origins of holoparasitic Balanophoraceae. Taxon 64: 491–506. Sun M, Soltis DE, Soltis PS, Zhu X, Burleigh GJ, Chen Z. 2015. Deep phylogenetic incongruence in the angiosperm clade Rosidae. Molecular Phylogenetics and Evolution 83: 156–166. Sun Y, Moore MJ, Zhang S, Soltis PS, Soltis DE, Zhao T, Meng A, Li X, Wang H. 2016. Phylogenomic and structural analyses of 18 complete plastomes across nearly all families of early-diverging eudicots, including an angiosperm- wide analysis of IR gene content evolution. Molecular Phylogenetics and Evolution 96: 93–101. Sytsma KJ, Spalink D, Berger B. 2014. Calibrated chronograms, fossils, outgroup relationships, and root priors: re-examining the historical biogeography of Geraniales. Biological Journal of the Linnean Society 113: 29–49. Vences M, Guayasamin JM, Miralles A, de la Riva I. 2013. To name or not to name: criteria to promote economy of change in Linnaean classification schemes. Zootaxa 3636: 201–244. Von Mering S, Kadereit JW. 2010. Phylogeny, systematics and recircumscription of Juncaginaceae – a cosmopolitan wetland family. In: Seberg O, Petersen G, Barfod AS, Davis JI, eds. Diversity, phylogeny and evolution in the monocotyledons. �A rhus: Aarhus University Press, 55–79. Wagstaff SJ, Olmstead RG. 1997. Phylogeny of Lamiaceae and Verbenaceae inferred from rbcL sequences. Systematic Botany 22: 165–179. Wanke S, Jaramillo MA, Borsch T, Samain M-S, Quandt D, Neinhuis C. 2007. Evolution of Piperales – matK gene and trnK intron sequence data reveal lineage specific resolution contrast. Molecular Phylogeny and Evolution 42: 477–497. Wearn JA, Chase MW, Mabberley DJ, Couch C. 2013. Utilizing a phylogenetic plant classification in systematic arrangements in botanic gardens and herbaria. Botanical Journal of the Linnean Society 172: 127–141. Weigend M, Hilger HH. 2010. Codonaceae – a new required family name in Boraginales. Phytotaxa 10: 26–30. Wickett NJ, Mirarab S, Nguyen N, Warnow T, Carpenter E, Matasci N, Ayyampalayam S, Barker MS, Burleigh JG, Gitzendanner MA, Ruhfel BR, Wafula E, Der JS, Graham SW, Mathews S, Melkonian M, Soltis DE, Soltis PS, Miles NW, Rothfels CJ, Pokorny L, Shaw AJ, DeGironimo L, Stevenson DW, Surek B, Villarreal JC, Roure B, Philippe H, dePamphilis CW, Chen T, Deyholos MK, Baucom RS, Kutchan TM, Augustin MM, Wang J, Zhang Y, Tian Z, Yan Z, Wu X, Sun X, Wong GKS, Leebens-Mack J. 2014. Phylotranscriptomic analysis of the origin and early diversification of land plants. Proceedings of the National Academy of Sciences USA 111: E4859–E4868. Wiersema JH, McNeill J, Turland NJ, Barrie FR, Buck WR, Demoulin V, Greuter W, Hawksworth DL, Herendeen PS, Knapp S, Marhold K, Prado J, Prud’- homme van Reine WF, Smith GF. 2015. International code of nomenclature for algae, fungi, and plants (Melbourne Code). Appendices II–VIII. K€onigstein: Koeltz. Xi Z, Ruhfel BR, Schaefer H, Amorim AM, Sugumaran M, Wurdack KJ, Endress PK, Matthews M, Stevens PF, Mathews S, Davis CC III. 2012. Phylogenomics and a posteriori data partitioning resolve the Cretaceous angiosperm radiation in Malpighiales. Proceedings of the National Academy of Sciences of the USA 109: 17519– 17524. Xia Z, Wang YZ, Smith JF. 2009. Familial placement and relations of Rehmannia and Triaenophora (Scrophulariaceae s.l.) inferred from five gene regions. American Journal of Botany 96: 519–530. Xiang QY, Thomas DT, Xiang QP. 2011. Resolving and dating the phylogeny of Cornales – effects of sampling, data partitions and fossil calibrations. Molecular Phylogenetics and Evolution 50: 123–138. Zeng L, Zhang Q, Sun R, Kong H, Zhang N, Ma H. 2014. Resolution of deep angiosperm phylogeny using conserved nuclear genes and estimates of divergence times. Nature Communications 5: 4956. Zhou QM, Jensen SR, Liu GL, Wang S, Li HQ. 2014. Familial placement of Wightia (Lamiales). Plant Systematics and Evolution 300: 2009–2017. Zhu XY, Chase MW, Qiu YL, Kong HZ, Dilcher DL, Li JH, Chen ZD. 2007. Mitochondrial matR sequences help to resolve deep phylogenetic relationships in rosids. BMC

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