#NEXUS [!This data set was downloaded from TreeBASE, a relational database of phylogenetic knowledge. TreeBASE has been supported by the NSF, Harvard University, Yale University, SDSC and UC Davis. Please do not remove this acknowledgment from the Nexus file. Generated on April 27, 2024; 2:57 GMT TreeBASE (cc) 1994-2008 Study reference: Baker W.J., Dransfield J., & Hedderson T. 2000. Phylogeny, Character Evolution, and a New Classification of the Calamoid Palms. Systematic Botany, 25(2): 297–322. TreeBASE Study URI: http://purl.org/phylo/treebase/phylows/study/TB2:S578] BEGIN TAXA; TITLE Taxa1; DIMENSIONS NTAX=38; TAXLABELS Asterogyne_martiana Calamus_castaneus Calamus_conirostris Calamus_deerratus Calamus_hollrungii Calamus_nanodendron Calamus_thysanolepis Calospatha_scortechinii Ceratolobus_concolor Ceroxylon_quindiuense Daemonorops_didymophylla Daemonorops_fissa Eleiodoxa_conferta Eremospatha_wendlandiana Eugeissona_tristis Eugeissona_utilis Kerriodoxa_elegans Korthalsia_cheb Laccosperma_acutiflorum Laccosperma_opacum Lepidocaryum_tenue Mauritia_flexuosa Mauritiella_armata Metroxylon_sagu Metroxylon_salomonense Myrialepis_paradoxa Oncocalamus_mannii Pigafetta_elata Pigafetta_filaris Plectocomia_elongata Plectocomia_mulleri Plectocomiopsis_geminiflora Pogonotium_ursinum Raphia_farinifera Retispatha_dumetosa Salacca_glabrescens Salacca_ramosiana Salacca_rupicola ; END; BEGIN TAXA; TITLE Taxa2; DIMENSIONS NTAX=31; TAXLABELS Asterogyne_martiana Calamus_hollrungii Calamus_ornatus Calamus_warburgii Calospatha_scortechinii Ceratolobus_concolor Ceroxylon_quindiuense Daemonorops_didymophylla Daemonorops_fissa Eleiodoxa_conferta Eremospatha_wendlandiana Eugeissona_utilis Kerriodoxa_elegans Korthalsia_cheb Laccosperma_acutiflorum Lepidocaryum_tenue Mauritia_flexuosa Mauritiella_armata Metroxylon_sagu Metroxylon_salomonense Myrialepis_paradoxa Nypa_fruticans Oncocalamus_mannii Pigafetta_elata Plectocomia_mulleri Plectocomiopsis_geminiflora Pogonotium_ursinum Raphia_farinifera Retispatha_dumetosa Salacca_glabrescens Salacca_ramosiana ; END; BEGIN TAXA; TITLE Taxa3; DIMENSIONS NTAX=38; TAXLABELS Asterogyne_martiana Calamus_castaneus Calamus_conirostris Calamus_deerratus Calamus_hollrungii Calamus_nanodendron Calamus_thysanolepis Calospatha_scortechinii Ceratolobus_concolor Ceroxylon_quindiuense Daemonorops_didymophylla Daemonorops_fissa Eleiodoxa_conferta Eremospatha_wendlandiana Eugeissona_tristis Eugeissona_utilis Kerriodoxa_elegans Korthalsia_cheb Laccosperma_acutiflorum Laccosperma_opacum Lepidocaryum_tenue Mauritia_flexuosa Mauritiella_armata Metroxylon_sagu Metroxylon_salomonense Myrialepis_paradoxa Oncocalamus_mannii Pigafetta_elata Pigafetta_filaris Plectocomia_elongata Plectocomia_mulleri Plectocomiopsis_geminiflora Pogonotium_ursinum Raphia_farinifera Retispatha_dumetosa Salacca_glabrescens Salacca_ramosiana Salacca_rupicola ; END; BEGIN CHARACTERS; [! TreeBASE Matrix URI: http://purl.org/phylo/treebase/phylows/matrix/TB2:M2209] TITLE Baker3.nex; LINK TAXA = Taxa3; DIMENSIONS NCHAR=66; FORMAT DATATYPE=Standard SYMBOLS= "0 1 2 3" MISSING=? GAP= -; CHARSTATELABELS 1 Aerial_branching / absent present, 2 Dichotomous_branching / absent present, 3 Internode_length / extremely_short moderate elongate, 4 Lamina_splitting / adaxial abaxial, 5 Lamina_division / pinnate palmate, 6 Leaflet_margin / entire praemorse, 7 Cirrus_with_acanthophylls / absent present, 8 Cirrus_without_acanthophylls / absent present, 9 Subcirrus / absent present, 10 Flagellum / absent present, 11 Knee / absent present, 12 Rachis_and_cirrus_spines / absent present, 13 Spine_modification / simple 'grapnel-like', 14 Spine_organisation / not_organised organised, 15 Root_spines / absent present, 16 Reproductive_strategy / hapaxanthic pleonanthic, 17 Inflorescence_adnation / free adnate_internode adnate_internode_sheath, 18 Inflorescence_capturing / not_captured captured, 19 Rachis_bract_shape / tubular incomplete, 20 Primary_bract_armature / unarmed armed, 21 Primary_bract_persistence / persistent caducous, 22 Prophyll_splitting / apical abaxial_or_adaxial lateral, 23 Prophyll$rachis_ratio / prophyll_shorter_than_rachis prophyll_exceeding_rachis, 24 Adnation_of_first_order_branch / free adnate_to_rachis_above_bract, 25 Bract_subtending_rachilla / shorter_than_rachilla exceeding_rachilla, 26 Rachilla_stalk / absent present, 27 Rachilla_bract / tubular incomplete, 28 Proximal_rachilla_bracts / empty subtending_flower_cluster, 29 Distal_rachilla_bracts / empty subtending_flower_cluster, 30 Rachilla_bract_arrangement / 'distichous (including subdistic' spiral distichous_and_spiral, 31 Rachilla_bract_fusion / free connate_laterally, 32 Pedicelliform_involucrophore / absent present, 33 Floral_bracteole_abaxial_surfac / glabrous hairy, 34 Flower_cluster / strictly_solitary dyad triad complex, 35 Dioecy / absent present, 36 Terminal_flower_in_pistillate_a / absent present, 37 Terminal_flower_in_pistillate_a / fertile sterile, 38 Terminal_flower / hermaphrodite male female, 39 Lateral_flower_in_staminate_and / absent present, 40 Lateral_flower / hermaphrodite unisexual, 41 Fertile_staminate_and_pistillat / not_in_single_rachilla in_single_rachilla, 42 Perianth_differentiation / tepals sepals_and_petals, 43 Flower_opening / congenitally_closed congenitally_open, 44 Stamen_number / 3 6 '>6', 45 Anther_attachment / 'medifixed (including basifixed)' dorsifixed, 46 Anther_dehiscence / latrorse introrse extrorse, 47 Stigmas / pyramidal divergent, 48 Gynoecium / apocarpous syncarpous, 49 Ovary_locule_partitioning / incomplete complete, 50 Ovule_orientation / not_twisted twisted_on_funicle, 51 Ovule_form / anatropous hemianatropous, 52 Epicarp_scales / absent present, 53 Endocarp / absent 'present (inner carpel wall)' 'present (mid-fruit layer)', 54 Sarcotesta / absent present, 55 Knob_on_seed_apex / absent present, 56 Endosperm / homogeneous ruminate, 57 Embryo_position / basal lateral, 58 Germination / adjacent_ligular remote_ligular, 59 Aperture_number / 0 1 2 3, 60 Aperture_position / polar subequatorial equatorial meridional, 61 Aperture_type / sulcate extended_sulcate porate trichotomosulcate, 62 Symmetry / symmetric assymetric, 63 Shape / spheroidal ellipsoidal oblate_spheroidal oblate_rounded_triangular, 64 Tectum / 'tectate (including semitectate)' intectate, 65 Supratectate_processes / absent present, 66 Intectate_processes / absent present, ; MATRIX [ 10 20 30 40 50 60 ] [ . . . . . . ] Asterogyne_martiana 00{01}100000000--010010010000111100020-----11020111101010000010011000 Calamus_castaneus 0001000000011101200{01}0001000110000111110101011011010101000022001000 Calamus_conirostris 002100001111110120010001000110000111110101011011010101010022001000 Calamus_deerratus 002100000111100120010001000110000111110101011011010101000022001000 Calamus_hollrungii 002100010011100120000001000110000111110101011011010101010022001000 Calamus_nanodendron 000100000001000120010001000110000111110101011011010101010022001000 Calamus_thysanolepis 0011000000011001200000010001100001111101010110110101010000220010?0 Calospatha_scortechinii 002100001011110120010101000110000111110101011011010101000022001000 Ceratolobus_concolor 0021010100111101200{01}0211000110000111110101011011010101010022001000 Ceroxylon_quindiuense 001100000000--010010000?00111100001-----01120011101010001010001000 Daemonorops_didymophylla 002100010011110120011101000110010111110101011011010101010022001000 Daemonorops_fissa 002100010011110120010111000110010111110101011011010101010022001010 Eleiodoxa_conferta 00010000000101000000010001100110111111110101001101010100{01}021201000 Eremospatha_wendlandiana 0021011000011001?0100-01001100000101001001010001010100001010101000 Eugeissona_tristis 0001000000010000100{01}0001000001000101011001020001010120000110101000 Eugeissona_utilis 001100000001001010000001000001000101011001020001010120000110101000 Kerriodoxa_elegans 00{01}010000000--010000010100011100001-----01010011100010010110001000 Korthalsia_cheb 102101010001110010000001011001101100--1001010001010100011022?0?101 Laccosperma_acutiflorum 002100100001100000000000000010000101001001010001010100001010001000 Laccosperma_opacum 102100100001100000000000000010000101001001010001010100001010001000 Lepidocaryum_tenue 001110000000--0100000001000110000110-10101010001010100101010000101 Mauritia_flexuosa 001110000000--0100000000000102000110-11101010001010100100010000101 Mauritiella_armata 001110000000--1100000001000102000110-10101010001010100100010200101 Metroxylon_sagu 00110000000101001000000?011001101101011001011001010101000021001000 Metroxylon_salomonense 00110000000101001000000?011001101101011001011001010101000022001000 Myrialepis_paradoxa 002100010001110010000001000110000110-10101010101010101000022001000 Oncocalamus_mannii 00210010000100010000000000000000030102111101000101?100001?10001010 Pigafetta_elata 001100000001010100000001011011001110-1110101001101010100100--00000 Pigafetta_filaris 001100000001010100000001011011001110-1110101001101010100100--00000 Plectocomia_elongata 002100010001110010000001101112000110-11101010001010101000022001000 Plectocomia_mulleri 002100010001110010000001101112000110-11101010001010101000022001000 Plectocomiopsis_geminiflora 002100010001110010000001000110000110-10101010101010101000022001101 Pogonotium_ursinum 002100000011110120010111000110000111110101011011010101000011201000 Raphia_farinifera 001100000000--0000000000000000000101011111010001010100011010001000 Retispatha_dumetosa 002100000001110120010101100110000110-10101011011010101000022001010 Salacca_glabrescens 000100000001010101000101011001100111111101010011010101000022001010 Salacca_ramosiana 000100000001010101000101101001101110-11101010011010101000022001010 Salacca_rupicola 000100000001010101000101011001101111111101010011010101000022001010 ; END; BEGIN CHARACTERS; [! TreeBASE Matrix URI: http://purl.org/phylo/treebase/phylows/matrix/TB2:M2210] TITLE Baker2.nex; LINK TAXA = Taxa1; DIMENSIONS NCHAR=874; FORMAT DATATYPE=Standard SYMBOLS= "A C G T" MISSING=? GAP= -; CHARSTATELABELS 1 ITS_1, 2 ITS_2, 3 ITS_3, 4 ITS_4, 5 ITS_5, 6 ITS_6, 7 ITS_7, 8 ITS_8, 9 ITS_9, 10 ITS_10, 11 ITS_11, 12 ITS_12, 13 ITS_13, 14 ITS_14, 15 ITS_15, 16 ITS_16, 17 ITS_17, 18 ITS_18, 19 ITS_19, 20 ITS_20, 21 ITS_21, 22 ITS_22, 23 ITS_23, 24 ITS_24, 25 ITS_25, 26 ITS_26, 27 ITS_27, 28 ITS_28, 29 ITS_29, 30 ITS_30, 31 ITS_31, 32 ITS_32, 33 ITS_33, 34 ITS_34, 35 ITS_35, 36 ITS_36, 37 ITS_37, 38 ITS_38, 39 ITS_39, 40 ITS_40, 41 ITS_41, 42 ITS_42, 43 ITS_43, 44 ITS_44, 45 ITS_45, 46 ITS_46, 47 ITS_47, 48 ITS_48, 49 ITS_49, 50 ITS_50, 51 ITS_51, 52 ITS_52, 53 ITS_53, 54 ITS_54, 55 ITS_55, 56 ITS_56, 57 ITS_57, 58 ITS_58, 59 ITS_59, 60 ITS_60, 61 ITS_61, 62 ITS_62, 63 ITS_63, 64 ITS_64, 65 ITS_65, 66 ITS_66, 67 ITS_67, 68 ITS_68, 69 ITS_69, 70 ITS_70, 71 ITS_71, 72 ITS_72, 73 ITS_73, 74 ITS_74, 75 ITS_75, 76 ITS_76, 77 ITS_77, 78 ITS_78, 79 ITS_79, 80 ITS_80, 81 ITS_81, 82 ITS_82, 83 ITS_83, 84 ITS_84, 85 ITS_85, 86 ITS_86, 87 ITS_87, 88 ITS_88, 89 ITS_89, 90 ITS_90, 91 ITS_91, 92 ITS_92, 93 ITS_93, 94 ITS_94, 95 ITS_95, 96 ITS_96, 97 ITS_97, 98 ITS_98, 99 ITS_99, 100 ITS_100, 101 ITS_101, 102 ITS_102, 103 ITS_103, 104 ITS_104, 105 ITS_105, 106 ITS_106, 107 ITS_107, 108 ITS_108, 109 ITS_109, 110 ITS_110, 111 ITS_111, 112 ITS_112, 113 ITS_113, 114 ITS_114, 115 ITS_115, 116 ITS_116, 117 ITS_117, 118 ITS_118, 119 ITS_119, 120 ITS_120, 121 ITS_121, 122 ITS_122, 123 ITS_123, 124 ITS_124, 125 ITS_125, 126 ITS_126, 127 ITS_127, 128 ITS_128, 129 ITS_129, 130 ITS_130, 131 ITS_131, 132 ITS_132, 133 ITS_133, 134 ITS_134, 135 ITS_135, 136 ITS_136, 137 ITS_137, 138 ITS_138, 139 ITS_139, 140 ITS_140, 141 ITS_141, 142 ITS_142, 143 ITS_143, 144 ITS_144, 145 ITS_145, 146 ITS_146, 147 ITS_147, 148 ITS_148, 149 ITS_149, 150 ITS_150, 151 ITS_151, 152 ITS_152, 153 ITS_153, 154 ITS_154, 155 ITS_155, 156 ITS_156, 157 ITS_157, 158 ITS_158, 159 ITS_159, 160 ITS_160, 161 ITS_161, 162 ITS_162, 163 ITS_163, 164 ITS_164, 165 ITS_165, 166 ITS_166, 167 ITS_167, 168 ITS_168, 169 ITS_169, 170 ITS_170, 171 ITS_171, 172 ITS_172, 173 ITS_173, 174 ITS_174, 175 ITS_175, 176 ITS_176, 177 ITS_177, 178 ITS_178, 179 ITS_179, 180 ITS_180, 181 ITS_181, 182 ITS_182, 183 ITS_183, 184 ITS_184, 185 ITS_185, 186 ITS_186, 187 ITS_187, 188 ITS_188, 189 ITS_189, 190 ITS_190, 191 ITS_191, 192 ITS_192, 193 ITS_193, 194 ITS_194, 195 ITS_195, 196 ITS_196, 197 ITS_197, 198 ITS_198, 199 ITS_199, 200 ITS_200, 201 ITS_201, 202 ITS_202, 203 ITS_203, 204 ITS_204, 205 ITS_205, 206 ITS_206, 207 ITS_207, 208 ITS_208, 209 ITS_209, 210 ITS_210, 211 ITS_211, 212 ITS_212, 213 ITS_213, 214 ITS_214, 215 ITS_215, 216 ITS_216, 217 ITS_217, 218 ITS_218, 219 ITS_219, 220 ITS_220, 221 ITS_221, 222 ITS_222, 223 ITS_223, 224 ITS_224, 225 ITS_225, 226 ITS_226, 227 ITS_227, 228 ITS_228, 229 ITS_229, 230 ITS_230, 231 ITS_231, 232 ITS_232, 233 ITS_233, 234 ITS_234, 235 ITS_235, 236 ITS_236, 237 ITS_237, 238 ITS_238, 239 ITS_239, 240 ITS_240, 241 ITS_241, 242 ITS_242, 243 ITS_243, 244 ITS_244, 245 ITS_245, 246 ITS_246, 247 ITS_247, 248 ITS_248, 249 ITS_249, 250 ITS_250, 251 ITS_251, 252 ITS_252, 253 ITS_253, 254 ITS_254, 255 ITS_255, 256 ITS_256, 257 ITS_257, 258 ITS_258, 259 ITS_259, 260 ITS_260, 261 ITS_261, 262 ITS_262, 263 ITS_263, 264 ITS_264, 265 ITS_265, 266 ITS_266, 267 ITS_267, 268 ITS_268, 269 ITS_269, 270 ITS_270, 271 ITS_271, 272 ITS_272, 273 ITS_273, 274 ITS_274, 275 ITS_275, 276 ITS_276, 277 ITS_277, 278 ITS_278, 279 ITS_279, 280 ITS_280, 281 ITS_281, 282 ITS_282, 283 ITS_283, 284 ITS_284, 285 ITS_285, 286 ITS_286, 287 ITS_287, 288 ITS_288, 289 ITS_289, 290 ITS_290, 291 ITS_291, 292 ITS_292, 293 ITS_293, 294 ITS_294, 295 ITS_295, 296 ITS_296, 297 ITS_297, 298 ITS_298, 299 ITS_299, 300 ITS_300, 301 ITS_301, 302 ITS_302, 303 ITS_303, 304 ITS_304, 305 ITS_305, 306 ITS_306, 307 ITS_307, 308 ITS_308, 309 ITS_309, 310 ITS_310, 311 ITS_311, 312 ITS_312, 313 ITS_313, 314 ITS_314, 315 ITS_315, 316 ITS_316, 317 ITS_317, 318 ITS_318, 319 ITS_319, 320 ITS_320, 321 ITS_321, 322 ITS_322, 323 ITS_323, 324 ITS_324, 325 ITS_325, 326 ITS_326, 327 ITS_327, 328 ITS_328, 329 ITS_329, 330 ITS_330, 331 ITS_331, 332 ITS_332, 333 ITS_333, 334 ITS_334, 335 ITS_335, 336 ITS_336, 337 ITS_337, 338 ITS_338, 339 ITS_339, 340 ITS_340, 341 ITS_341, 342 ITS_342, 343 ITS_343, 344 ITS_344, 345 ITS_345, 346 ITS_346, 347 ITS_347, 348 ITS_348, 349 ITS_349, 350 ITS_350, 351 ITS_351, 352 ITS_352, 353 ITS_353, 354 ITS_354, 355 ITS_355, 356 ITS_356, 357 ITS_357, 358 ITS_358, 359 ITS_359, 360 ITS_360, 361 ITS_361, 362 ITS_362, 363 ITS_363, 364 ITS_364, 365 ITS_365, 366 ITS_366, 367 ITS_367, 368 ITS_368, 369 ITS_369, 370 ITS_370, 371 ITS_371, 372 ITS_372, 373 ITS_373, 374 ITS_374, 375 ITS_375, 376 ITS_376, 377 ITS_377, 378 ITS_378, 379 ITS_379, 380 ITS_380, 381 ITS_381, 382 ITS_382, 383 ITS_383, 384 ITS_384, 385 ITS_385, 386 ITS_386, 387 ITS_387, 388 ITS_388, 389 ITS_389, 390 ITS_390, 391 ITS_391, 392 ITS_392, 393 ITS_393, 394 ITS_394, 395 ITS_395, 396 ITS_396, 397 ITS_397, 398 ITS_398, 399 ITS_399, 400 ITS_400, 401 ITS_401, 402 ITS_402, 403 ITS_403, 404 ITS_404, 405 ITS_405, 406 ITS_406, 407 ITS_407, 408 ITS_408, 409 ITS_409, 410 ITS_410, 411 ITS_411, 412 ITS_412, 413 ITS_413, 414 ITS_414, 415 ITS_415, 416 ITS_416, 417 ITS_417, 418 ITS_418, 419 ITS_419, 420 ITS_420, 421 ITS_421, 422 ITS_422, 423 ITS_423, 424 ITS_424, 425 ITS_425, 426 ITS_426, 427 ITS_427, 428 ITS_428, 429 ITS_429, 430 ITS_430, 431 ITS_431, 432 ITS_432, 433 ITS_433, 434 ITS_434, 435 ITS_435, 436 ITS_436, 437 ITS_437, 438 ITS_438, 439 ITS_439, 440 ITS_440, 441 ITS_441, 442 ITS_442, 443 ITS_443, 444 ITS_444, 445 ITS_445, 446 ITS_446, 447 ITS_447, 448 ITS_448, 449 ITS_449, 450 ITS_450, 451 ITS_451, 452 ITS_452, 453 ITS_453, 454 ITS_454, 455 ITS_455, 456 ITS_456, 457 ITS_457, 458 ITS_458, 459 ITS_459, 460 ITS_460, 461 ITS_461, 462 ITS_462, 463 ITS_463, 464 ITS_464, 465 ITS_465, 466 ITS_466, 467 ITS_467, 468 ITS_468, 469 ITS_469, 470 ITS_470, 471 ITS_471, 472 ITS_472, 473 ITS_473, 474 ITS_474, 475 ITS_475, 476 ITS_476, 477 ITS_477, 478 ITS_478, 479 ITS_479, 480 ITS_480, 481 ITS_481, 482 ITS_482, 483 ITS_483, 484 ITS_484, 485 ITS_485, 486 ITS_486, 487 ITS_487, 488 ITS_488, 489 ITS_489, 490 ITS_490, 491 ITS_491, 492 ITS_492, 493 ITS_493, 494 ITS_494, 495 ITS_495, 496 ITS_496, 497 ITS_497, 498 ITS_498, 499 ITS_499, 500 ITS_500, 501 ITS_501, 502 ITS_502, 503 ITS_503, 504 ITS_504, 505 ITS_505, 506 ITS_506, 507 ITS_507, 508 ITS_508, 509 ITS_509, 510 ITS_510, 511 ITS_511, 512 ITS_512, 513 ITS_513, 514 ITS_514, 515 ITS_515, 516 ITS_516, 517 ITS_517, 518 ITS_518, 519 ITS_519, 520 ITS_520, 521 ITS_521, 522 ITS_522, 523 ITS_523, 524 ITS_524, 525 ITS_525, 526 ITS_526, 527 ITS_527, 528 ITS_528, 529 ITS_529, 530 ITS_530, 531 ITS_531, 532 ITS_532, 533 ITS_533, 534 ITS_534, 535 ITS_535, 536 ITS_536, 537 ITS_537, 538 ITS_538, 539 ITS_539, 540 ITS_540, 541 ITS_541, 542 ITS_542, 543 ITS_543, 544 ITS_544, 545 ITS_545, 546 ITS_546, 547 ITS_547, 548 ITS_548, 549 ITS_549, 550 ITS_550, 551 ITS_551, 552 ITS_552, 553 ITS_553, 554 ITS_554, 555 ITS_555, 556 ITS_556, 557 ITS_557, 558 ITS_558, 559 ITS_559, 560 ITS_560, 561 ITS_561, 562 ITS_562, 563 ITS_563, 564 ITS_564, 565 ITS_565, 566 ITS_566, 567 ITS_567, 568 ITS_568, 569 ITS_569, 570 ITS_570, 571 ITS_571, 572 ITS_572, 573 ITS_573, 574 ITS_574, 575 ITS_575, 576 ITS_576, 577 ITS_577, 578 ITS_578, 579 ITS_579, 580 ITS_580, 581 ITS_581, 582 ITS_582, 583 ITS_583, 584 ITS_584, 585 ITS_585, 586 ITS_586, 587 ITS_587, 588 ITS_588, 589 ITS_589, 590 ITS_590, 591 ITS_591, 592 ITS_592, 593 ITS_593, 594 ITS_594, 595 ITS_595, 596 ITS_596, 597 ITS_597, 598 ITS_598, 599 ITS_599, 600 ITS_600, 601 ITS_601, 602 ITS_602, 603 ITS_603, 604 ITS_604, 605 ITS_605, 606 ITS_606, 607 ITS_607, 608 ITS_608, 609 ITS_609, 610 ITS_610, 611 ITS_611, 612 ITS_612, 613 ITS_613, 614 ITS_614, 615 ITS_615, 616 ITS_616, 617 ITS_617, 618 ITS_618, 619 ITS_619, 620 ITS_620, 621 ITS_621, 622 ITS_622, 623 ITS_623, 624 ITS_624, 625 ITS_625, 626 ITS_626, 627 ITS_627, 628 ITS_628, 629 ITS_629, 630 ITS_630, 631 ITS_631, 632 ITS_632, 633 ITS_633, 634 ITS_634, 635 ITS_635, 636 ITS_636, 637 ITS_637, 638 ITS_638, 639 ITS_639, 640 ITS_640, 641 ITS_641, 642 ITS_642, 643 ITS_643, 644 ITS_644, 645 ITS_645, 646 ITS_646, 647 ITS_647, 648 ITS_648, 649 ITS_649, 650 ITS_650, 651 ITS_651, 652 ITS_652, 653 ITS_653, 654 ITS_654, 655 ITS_655, 656 ITS_656, 657 ITS_657, 658 ITS_658, 659 ITS_659, 660 ITS_660, 661 ITS_661, 662 ITS_662, 663 ITS_663, 664 ITS_664, 665 ITS_665, 666 ITS_666, 667 ITS_667, 668 ITS_668, 669 ITS_669, 670 ITS_670, 671 ITS_671, 672 ITS_672, 673 ITS_673, 674 ITS_674, 675 ITS_675, 676 ITS_676, 677 ITS_677, 678 ITS_678, 679 ITS_679, 680 ITS_680, 681 ITS_681, 682 ITS_682, 683 ITS_683, 684 ITS_684, 685 ITS_685, 686 ITS_686, 687 ITS_687, 688 ITS_688, 689 ITS_689, 690 ITS_690, 691 ITS_691, 692 ITS_692, 693 ITS_693, 694 ITS_694, 695 ITS_695, 696 ITS_696, 697 ITS_697, 698 ITS_698, 699 ITS_699, 700 ITS_700, 701 ITS_701, 702 ITS_702, 703 rps_1, 704 rps_2, 705 rps_3, 706 rps_4, 707 rps_5, 708 rps_6, 709 rps_7, 710 rps_8, 711 rps_9, 712 rps_10, 713 rps_11, 714 rps_12, 715 rps_13, 716 rps_14, 717 rps_15, 718 rps_16, 719 rps_17, 720 rps_18, 721 rps_19, 722 rps_20, 723 rps_21, 724 rps_22, 725 rps_23, 726 rps_24, 727 rps_25, 728 rps_26, 729 rps_27, 730 rps_28, 731 rps_29, 732 rps_30, 733 rps_31, 734 rps_32, 735 rps_33, 736 rps_34, 737 rps_35, 738 rps_36, 739 rps_37, 740 rps_38, 741 rps_39, 742 rps_40, 743 rps_41, 744 rps_42, 745 rps_43, 746 rps_44, 747 rps_45, 748 rps_46, 749 rps_47, 750 rps_48, 751 rps_49, 752 rps_50, 753 rps_51, 754 rps_52, 755 rps_53, 756 rps_54, 757 rps_55, 758 rps_56, 759 rps_57, 760 rps_58, 761 rps_59, 762 rps_60, 763 rps_61, 764 rps_62, 765 rps_63, 766 rps_64, 767 rps_65, 768 rps_66, 769 rps_67, 770 rps_68, 771 rps_69, 772 rps_70, 773 rps_71, 774 rps_72, 775 rps_73, 776 rps_74, 777 rps_75, 778 rps_76, 779 rps_77, 780 rps_78, 781 rps_79, 782 rps_80, 783 rps_81, 784 rps_82, 785 rps_83, 786 rps_84, 787 rps_85, 788 rps_86, 789 rps_87, 790 rps_88, 791 rps_89, 792 rps_90, 793 rps_91, 794 rps_92, 795 rps_93, 796 rps_94, 797 rps_95, 798 rps_96, 799 rps_97, 800 rps_98, 801 rps_99, 802 rps_100, 803 rps_101, 804 rps_102, 805 rps_103, 806 rps_104, 807 rps_105, 808 rps_106, 809 mo_1, 810 mo_2, 811 mo_3, 812 mo_4, 813 mo_5, 814 mo_6, 815 mo_7, 816 mo_8, 817 mo_9, 818 mo_10, 819 mo_11, 820 mo_12, 821 mo_13, 822 mo_14, 823 mo_15, 824 mo_16, 825 mo_17, 826 mo_18, 827 mo_19, 828 mo_20, 829 mo_21, 830 mo_22, 831 mo_23, 832 mo_24, 833 mo_25, 834 mo_26, 835 mo_27, 836 mo_28, 837 mo_29, 838 mo_30, 839 mo_31, 840 mo_32, 841 mo_33, 842 mo_34, 843 mo_35, 844 mo_36, 845 mo_37, 846 mo_38, 847 mo_39, 848 mo_40, 849 mo_41, 850 mo_42, 851 mo_43, 852 mo_44, 853 mo_45, 854 mo_46, 855 mo_47, 856 mo_48, 857 mo_49, 858 mo_50, 859 mo_51, 860 mo_52, 861 mo_53, 862 mo_54, 863 mo_55, 864 mo_56, 865 mo_57, 866 mo_58, 867 mo_59, 868 mo_60, 869 mo_61, 870 mo_62, 871 mo_63, 872 mo_64, 873 mo_65, 874 mo_66, ; MATRIX [ 10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320 330 340 350 360 370 380 390 400 410 420 430 440 450 460 470 480 490 500 510 520 530 540 550 560 570 580 590 600 610 620 630 640 650 660 670 680 690 700 710 720 730 740 750 760 770 780 790 800 810 820 830 840 850 860 870 880] [ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .] Asterogyne_martiana CGCCGCCCGTGACG-TCGCGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCATA----ACAAG-GTTTCTGTAGGTGAACCTGCG-GAA-GGATAATTGCCGAGA---CCCG-GACGAGGAAG----ACCCGCG-AACTAGTGAAATG???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????CACCG---TACGGCTCTCGACAATGGAT-ATCTCAGCTCTTGCATCGATG------------AAGAACGTAGCGAAA-TGCGGTACCTGGTGTGAATTGCAGAATC-CCACGA-ACCATTGAGTCTT-TGAA-TGCAAGTTGCGCCTGAGG--CCATCTGGTCGAGGGCAC-GCCT-GCCTGGGCA------------------TCACGCCAA-GTGACACTCCGTTACGTCG--GGGGCCACGAAATCCGGACGCGGATGCTGGCCT????????????????GCACGGCGGGCC-----GAAGAGCGGGCCGCTGAC-GGGGCCGAAACGGCGGATGGTGGACGCT--CTCGCGATCCTGCCATCGTGCCGTAGGACACCA????????????????????????ATAGCTGAGACGGCTAACGGACCGGTAAATCAAACAACGCCTATCAATACAAGGTCCCAGAGCGATGAGGGCCGCCCCCCGCTGCGCCTCCC---ATACCTTAG-CAA{AC}CAAAAAAAA--ACAACAACAAAACCCCAAAGA-----CCAGACCCCACACAAAAACAACCAAA Calamus_castaneus CGCCACTCACGACA-TCGTGA-GAAGTCCACT-GAACCTTATCATTTAGAGGA---AGAAGTCGTA----ACAAG-GTTTCCGTAGGTGAACCCGCG-GAA-GGATTATTGCTGAGA---CCC--AACGAGCCAT----ACCCACA-AACACGTGAACTCTCCTTCAGTGCCATCGCCCGGACCCC-CGC-----------GTCGTTGAG---ACCGGCGGTTGCTGGGCGATGGAAGG--AAC-ATACC--CAGCGC----GGA-TGGCGCCAA-GGAACCTTG-AGCT-TGGACACGG---TACGACTCTCGGCAACGGAT-ATCTCGGCTCTCGCATCGACG------------AAGAATGTAGCAAAA-TGCGATATGTGGTGCGAATTGCAGAATC-CCGCAA-ACCATTGAGTCTT-CAAA-CGCAAGTTGCGCTCAAGG--CCATTCGACCGAGGGCAC-GCCT-GCCTGGGCG------------------CCAACCCAA-GCGGCGCTCCGCTCCCTC---GGGTTCCTTATTGCCGGACGAGGACGATGGCCGCACGCACCGAGCGC--GTGCGGCGTGCC-----AAAGATTTGGATGCAGGC-GAGGCCGAAGCGACGGGTGGTGGATGCA--CCAGCTATCCCGTTGTCGTGCCTCCGAACCTCG--GCCCT---TAGG---GCCCGCAATGGACGAGATGGTTAACGTACCCGTAAAGCAATCAACGACAATCAATAGGAAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCGATTCCCCTAATACCTTAGCCAAACAAAAAAACCCACGAA{AC}AAACAAACCAAAACCCCCACACACCACCACACACAAAAGGAACAAA Calamus_conirostris CGCCGCCCGCGACG-TCGTGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCTGTAGGTGAACCTGCG-GAA-GGATCATTGCCGAGA---CCC--GACGAGACAA----ACCCGTG-AACACGTGAACTCCGCTCCGGCTTCATCGCCAGGACCCC-CGC-----------GCCATCGAG---ACCGGCAGCTGCGGGGCGGCGGGAGG--ACC-GGACC--CGGTGCCCTCGAA-GGGCGCCAA-GGATCCTTG-AGTG-CGGACACGG---TACGACTCTCGACAACGGAT-ATCTCAGCTCTCGCATCGATG------------AAGAACGTAGCGAAA-TGCGATACGTGGTGCGAATTGCAGAATC-CCGCGA-ACCATCGAGTCTT-CGAA-CGCAAGTTGCGCCCGAGG--CCATCCGGCCGAGGGCAC-GCCT-GCCTGGGCG------------------CCAACCCAA-GCGGCGCTCTGCTCCCCC---AAGTTCCCTATTGCCGGACACGGATGATGGCCCCCCGTACCGAGCAT--GCGCGGCGTGCC-----GAAGATTGGGCCGCAGGCTGGGGCCGGAGTGGTGGGTGGTGGACGCG--CCCGCGATCTCGTCGTCGTGCCTTCGGACCCCG--GCCCT---TAGG---GCCTGCAATGGACGAGATGGTTAACGTACCCGTAAATCAATCAACGACAATCAATACGAAGTTCCGGAGCGATGAGGGCCACCCCCCACTGCGATTCCCCTAATACCTTAGCCAAGCAAAACCCCCCACGAACAAACAAACCAAAACCCCCACACACCACCACACACACAAGGAACAAA Calamus_deerratus CGTCGCCCGTGACA-TCACAA-GAAGTCCACT-AAACATTATCATTTAGAGAAAGGAGAAGTCATA----ACAAG-GTTTCCATAGGTGAACTTGTG-GAA-GGATCATTGCCGAGA---CCC--GACGAGACAA----ACCCATG-AACACATGAACTCTGCTTCGACTTCATCAACCAGACCCC-CGTA----------GCCACCAAGA--CTCGGCGGCTGTGGTGTGGCTAGAGG--ACC-GGACA--CGGCACCCTCGGA-GGGTGCCAA-GGAACCTTG-AGGG-TGGCCACGG---TATGACTCTCGGCAATGGAT-ATCTTGGCTCTTGCATCGATG------------AAGAATGTAGCGAAA-TGCGATACGTGGTGCGAATTGCAGAATC-CCATGA-ACCATCGAGTCTT-TGAA-TGCAAGTTGCGCCCGAGG--CCATTCAGCCAAGGGCAT-GCCT-ACCTGGGCA------------------CCAAGCCAA-GTAGCGCTATGCTCCCCT---AGGTTCCCTATTGCCAAACATGGACGATGGCCCCTCACACTGAGTGC--GCGCGGCGTGCC-----AAAGATTGGGTCGTAGGCTAGGGCTGGAGAGGTGGGTGGTGGATGCG--CCCACGATCCCATCACTGTGCCTCTGGACCCTG--GCCCT---TAGG---GCGCGCAATGGACAAGATGGTTAACGTACCCGTAAATCAATCAACGACAATCAATACGAAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCGATTCCCCTAATACCTTAGCCAAGCAAAAACCCCAACGAACAAACAAACCAAAACCCCCACACACCACCACACACAAAAGGAACAAA Calamus_hollrungii CGCCTCGCGTGACA-TCGCAA-TAAGTCCATTGGAACCTTATCATTTAGAGAAAGAAGAAGTTGTA----ACAAG-GTTTCTGTAGGTGAACCTACG-GAA-GGATCATTGCCGACA---CCC--GACGAGCCAA----ACCTGCG-AACACATGAACTCTACTTCAGCTTCATCGCTCGAACCCC-TGC-----------GCTATTGAG---ACCGGTGGCTGTGGGGTGGCGGGAGG--ACT-AGACA--CGGCACGCTCAGA--GGTGCCAA-GGAACCTTG-AGCA-TGGACACAG---TACAACTCTCGATAATGGAT-ATCTCGACTCTCGCATCGACA------------AAGAACGTAGCGAAA-TGTGATACGTGGTGCGAATTGCAGAATC-GCACAA-ACCATTGAGTCTT-CGAA-TGCAAGTTGTGCCCGAGG--CCATCCAACCGAGGGCAC-GCCT-GCCTGGGTG------------------CCAACCCAA-GCGGCGCTTCACTCCCTT---AGGTTCCCTATTGCCAGACATGGATGATGGCCCCCCGCGCTGAGTGC--GGGCGGCGTGCC-----AAAGATTGGGCCACAGGTTAGGACCGGAGCAGCAGGTTGTGGATGCA--CCCAAGATCCCATCGCTGAGCCTTTGGATCCCA--GCCCT---TAGG---GCCCATGATGGACGAAATGGTTAACGTACCCGTAAATCAATCAACGACAATCAATACGAAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCGATTCCCCTCATATCTTAGCCAAGCAAACAACCCAACGAAAAAACAAACCAAAACCCCCACACACCACCACACACACAAGGAACAAA Calamus_nanodendron CGCCGCTCATGACA-TCGCAA-GAAGTCCATT?GAACCTTATCATTTAGAGAAAGAAGAAGTCATA----ACAGG-GTTTCTGTAGGTGAACCTGCG-GAA-GGATCATTGTCGAGA---CCC--GACGAGCCAA----ACCCGCG-AACACATGAACTCTACTTCAGCTTCATCGCTCGAACCCC-CAC-----------GCTGTTGAG---ACCAGTGGCTATGGGGTGGCGGGAGG--ACC-AGACA--CGGCACCCTCGGA-GGGCGCCAA-GGAACCTTG-AGCA-TGGACACGG---TACGACTCTCGATAATGGAT-ATCTTAACTCTCGCATCGACA------------AAGAACGTAGCGAAA-TGCGATACGTGGTGCGAATTGCAGAATC-CCACAA-ACCATTGAGTCTT-CGAA-CGCAAGTTGTGCCCGAGG--CCATCCGACCGAGGGCAC-GCCT-GCCTGGGTG------------------CCAACCCAA-GCGGCGCTTCACTCCCTC---AGGTTCCCTATTGCCAGACACGGATGATGGCCCCCCGTGCCAAGTGC--GGGCGGTGTGCC-----AAAGATTGGGCCACAGGCTAGGACCGGAGCAGCAGGTTGTGGATGCA--CCCAAGATCCCATCGCTGAGCCTTTGGACCCCA--GCCCT---TAGG---GCCCACGATGGACGAGATGGTTAACGTACCCGTAAATCAATCAACGACAATCAATACGAAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCGATT----TAATACCTTAGCCAAACAAAAAAACAAACGAACAAACAAACCAAAACCCCCACACACCACCACACACACAAGGAACAAA Calamus_thysanolepis TGCTGCCCGCGACG-TCGCGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAAGAGAAGCCGTA----ACAAG-GTTTCCATAGGTGAACCTGCG-GAA-GGATCATTGCCGAGA---CTC--GACGAGCCAA----ACCCGCG-AACACGTGAACTCTGCTCCGGTGCCATCGCCCGAACCCC-TGT-----------GTCATCGAG---ACTAGCGACTGTGGGGCGGTGGGAGG--ACC-GAACC--CAGCGC----GGA-TGGCGCCAA-GGAACCTTG-AGCG-TGGACACGG---TATGACTCTAGGCAACGGAT-ATCTCGGCTCTCGCATTGACG------------AAGAACGTAGTGAAA-TGCGATACGTGGTGCGAATTGCAGAATC-CCGCGA-ACCATTGAGTCTT-CGAA-CGCAAGTTGCGCCTAAGG--CCATCCGGTCGAGGGCAC-GCCT-GCCTGGGCG------------------CCAACCGAA-GCGGCGCTCCACTCCCCC---GGGTTCCCTATTGCTGAACGTGGACGATGGCCCCCCACGCTGAGCGT--GCGTGGCATGCC-----AAAGATTGGGCCATAGGCTAGG-CTGGAGCGGCGGGTGGTGGACGCG--CCCGCGATCTCATCGCCGTGCCTCCGAACCCCA--GCCCT---TAGG---GCCCGCAATGGACGAGATGGTTAACGTACCCGTAAATCAATCAACGACAATCAATACGAAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCGATTCCCCTAATACCTTAGCCAACCAAAAAAACCAACGAAAAAACAAACCAAAACCCCCACACACCACCACACACAAAAGGAACA?A Calospatha_scortechinii CGCCGCCCGCGACG-TCGTGAAGAA-TCCACTGAAACCTTATCATTTAGAGGAAGGAGAAGTCATA----ACAAG-GTTTCCGTAGGTGAACCTGCG-GAA-GGATCATTGCTGAGA---CCC--GACGAGACAA----ACCCGCG-AACACGTGAACTCCGCTCCGGCTTCATCGCCAGGACCCC-CGC-----------GCCGTCAAG---ACTGGCGGCTGCGGGGCGGCTGGAGG--ACC-GGACC--CGGTGCCCTCTGA-GGGCGCCAA-GGAACCTTG-AGCG-CGGACACGG---TATGACTCTCGGCAACGGAT-ATCTCGGCTCTCGCATCGACG------------AAGAACGTGGCGAAA-TGTGATATGAGGTGCGAATTGCAGAATC-CCGCGA-ACCATCGAGTCTT-CGAA-CGCAAGTTGCGCCCAAGG--CCATCCGGCCGAAGGCAC-GCTT-GCCAGGGCG------------------CCAACCCAA-GCGGCGCTCTGCTCCCCC---GGTTTCCCTATTGCCGAACGCAGACGATGGCCCCCCGTGCCGAGCGC--GCGTGGCATGCC-----AAAGATTGGGCCGCAGGCTGGGGCCGGAGCGGCGGGTGGTGGACGCG--CCCGCGATCCCGTCGCCATGCCTTCAAACCCTG--GCCCT---TAGG---GCCCGCAATGGACGAGATTGTTAACGTACCCGTAAATCAATCAACGACAATCAATACGAAGTTCCGGAGCGATGAGGACCACCCCCCACTGCGATTCCCCTAATACCTTAGCCAAGCAAAACACCCCACGAACACACAAACCAAAACCCCCACACACCACCACACACAAAAGGAACAAA Ceratolobus_concolor CACCCCTCATGATG-TCACAAGAAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCGTAGGTGAACCTACA-GAA-GGATCATTATCGAGA---CCC--GACGAGCCAA----ACCTGCA-AACATGTGAACTCTACTCCAACTTCATCGCTCCGACCCC-TGC-----------GCCATCGAG---ACCGGTGGCCATTGGGTAGCAGGAGG--ACC-AGACC--CGGCACCTACGGA-GGGCGCCAA-GGAACCTTG-AGAGACATACACGG---TATGACTCTTGGCAATGGAT-ATCTCAGCTCTCGCATCGACG------------AAGAACGTAGCAAAA-TGCGATACATGGTGCGATTTGTAGAATC-CCGTGA-ACCATCGAGTCTT-CAAA-TGCAAGTTGCGCCCGAGG--CCATCCAGTCGAGGGCAA-GCTT-GCCTGGGCA------------------CCAACCCAA-GAGGCACTCTGCTCCCTC---AGGTTCCCTATTGCTGAATGCAGACGATGGTACCTCACACCGAGCAC--TCACGACGTGCC-----AAAGATTAGGCTACAGGCTGGGGCCGGAGCGGCAGGTGGTGGACGCG--CTCGTGATCCCATCGCCATGCCT?TGGACCCTA--GCCCT---CAGG---GCCCACGATGGACGAGATGGTTAACGTACCCGTAAATAAATCAACGACAATCAATACGAAGTTCCGGAGCGAAGAGGGCCACCCCCCGCTGCGATTCCCCTAATACCTTAGCCAAGCACACAACCCCACGAA{AC}AGCCAAACCAAAACCCCCACACACCACCACACACACAAGGAACAAA Ceroxylon_quindiuense CGCCGCCCGCGACG-TCGCGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCGTAGGTGAACCTGCG-GAA-GGATCATTGCCGAGA---CCCG-GATGAGGCAG----ACCCGCG-AACATGTGAACGT???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????CACTG---TACGACTCTCGGCAACGGAT-ATCTCGGCTCTCGCATCGATG------------AAGAACGTAGCGAAA-TGCGATACCTGGTGTGAATTGCAGAATC-CCGCGA-ACCATCGAGTCTT-TGAA-CGCAAATTGCGCCCGAGG--CCATTCGGCCGAGGGCAC-GCCT-GCTTGGGCG------------------TCACGCCAA-GCGACGCTCCGCACACCT---TGGGCCATGATGTCCGGATGCGGACACTGGCCC????????????????GCGTGGCGGGCC-----GAAGAGTGGGCCTCCGGC-GGGGCCGGAACGGCGGATGGTGGACGCG--GTCGCGATCCTGCCGCTGTGCTGCCGGGCCCCG????????????????????????ATGGCTGAGACGGCTAATGGACAGGTAAATCAAACAACGCCTATCAATACAAAGTCTAAGAACGATGAGGGCCACCCCCCGCTGCGCCTCCC---ATACCTTAG-CAACCAAAAAAAA--ACAACAAAA?AACCCCAAAAC-----ACCGAACCCACACAAACACAAACAAA Daemonorops_didymophylla CGCCGCTCGCGACA-TCGCGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCGTAGGTGAACCTGCG-GAA-GGATCATTGTCGAGA---CCC--GACGAGCCAA----ACCCACG-AACACGTTAACTCCGCTCCGGCCTCATCGCCCGGACCCC-CGC-----------GCCGTCGAG---ACTGGCAGCCGCGGGGCGGCGGGAGG--ACC-GGACC--CGGCGCCCTCGAA-GGGTGCCAA-GTAACCTTG-AGCG-CGGACACGG---TACGACTCTCGGCAACGGAT-ATCTCGGCTCTCGCATCGACG------------AAGAACGTAGCGAAA-TGCGATACGTGGTGCGAATTGCAGAATC-CCGCGA-ACCATCGAGTCTT-CGAA-CGAAAGTTGCGCCCGAGG--CCATCCGGCCGAGGGCAC-GCCTTGCCTGGGCG------------------CCAACCCAA-GCGGCGCTCCGCTCCCCC---GGGTTCCCTATTGCAGGACGCAGACGATGGCACCCTGCGCCGAGCGC--GCGCGGCGTGCC-----AAAGATTGGGCCGTAGGCTGGGTCCGGAGCGACGGGTGGTGGACGCG--CCCGCGATCCCATCGCCGTGCCTTCGGACACCG--GCCCT---TAGG---GCCCGCAATGGACGAGATGGTTAACGTACCCGTAAATAAATCAACGACAATCAATACGAAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCTATTCCCCTAATACCTTAGCCAAGCAAACAACCCCACGAACCCACAAACCAACACCCCCACACACCACCACACACACAAGGAACAAA Daemonorops_fissa CGCTGCTCGTGACG-TTGTGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTTGTA----ACAAG-GTTTCCATAAGTGAACCTGAG-GAA-GGATCGTTATCGAGA---CCC--GATGAGCCAA----ACTCATG-AACACGTGAACTCCGCTCCGGCTTCATTGCCCTGACCCC-CAC-----------GCCATCGAG---ATCGGCGGCCGCGGGGCAGCGGGAGG--ACC-GGACC--CAACGCCCTCGGA-GGGCGCCAA-GGAACCTTG-AGCG-TGGACATGG---TACAACTCTCGGCAATGGAT-ATCTCGGCTCTCGCATCGATG------------AAGAATGTAGCAAAA-TGCGATACATGGTGCGAATTGCAGAATC-CCGCGA-ACCATCGAGTCTT-CAAA-CGCAAGTTACGCCTGAGG--CCATCCGGTCAAAGGAAT-GCCT-GCCTGGGCA------------------CCAACCCAA-GTGGCGCTCCACTCCCCC---GGGTTCCCTATTGCTGGACGCGGACGATGGCACCTCGCGCCGAGCGC--GTGCGGCGTGCC-----GAAGATTGGGCTGCAGGCTGGGGCCGAAGCAGTGGGTGGTGGACGTG--CCCACGATCCTGTCGCCGTGCCTTTGAACCTCG--GCCAT---TAGG---GCCCGCAATGGACGAGGTGGTTAACGTACCCGTAAATCAATCAACGACAATCAATACTAAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCGATTCCCCTAATACCTTAGCCAAGCAAACAACCCCACGAACACCCAAACCAACACCCCCACACACCACCACACACACAAGGAACACA Eleiodoxa_conferta CGCCGCTCACGACG-TCGCCA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCATAGGTGAACCTGCA-GAA-GGATCATTGCCGAGA---CCC---ATGGGGCAAACCAGCCAGTG-AACATGTGAACATGGCTCTAGCGCCATCCATCGGGCCCT-GCA------------CCATTGAA---ACCATCGGACGCGAGGCGTTGGGAGG--ATC-GGACC--CGGCGC----AAA------------------------------CATGG---TACGACTCTCGGCAATGGAT-ATCTGGTCCCTCACATCGATG------------AAGAACATAGCAAAA-TGCAATACATGGTGTGAATTGCAGAATC-CCGTGA-ACCATTGAGTCTT-CGAA-TGCAAGTTGTGCCCGAGG--CCATCGAGCCGAGGGCAC-GCCT-GCCTGGGCA------------------TCACGGCAA-TCGTTGCTCCTCTTCCTT---GGGTTGCCGATTGTCGGATGCGAAGGATGCCCCCCCGCGGTGAACGC--GAGCGGCGTGCC-----AAAGTTTGGGCCTCAAGC-GGAGTCGAAACGATGGGTGGTGGATGCG--CCTGCAATCCTGTCGCCGTGGCCTCGGCTCTCG--GTCTG---TAGT---GGGCCCAATGGACGAGATGGCTAACGTACCCGTAAATCAATCAACGACAATCAATACGAAATCCCGAAGCGATGAGGGCCACCCCCCGCTGCGATTCTC-TAATACCTTAGCCAAACAAAAAAACACAAAAAAACAAACCAACCACCCCCCCCACACAACCACACACAA{AC}AGCGACAAA Eremospatha_wendlandiana CGCCACCCACGACG-TCGCGA-GAAGTCCACT-GAACCTTATCATTTAAAGGAAGGAGAAGTCATA----ACAAG-GTTTTCATAGGTGAACCTATG-GAA-GGATCATTGTCGAGA---CCC--GATGAGAAAG----ATCCATG-AACACGTCAATGAT-CTCCGGTGCTTTGGCCCTACCCCC-CGC-----------ACCTTTGAG---AGCGGCAGTCGTGGGGCGGCGGGGGG--ACT-CGACC--CAGCAC----GGA-GGGTGCCAA-GGAAGCACG-AGAA-TGGACGCGG---TATGACTCTCGATAATGGAT-ATCTCGGCTCTTGCATTGATG------------AAGAACGTAGCAAAA-TGCGATACATGGTGTGAATTATAGAATC-CCGCGAAACCATCGAGTCTT-TGAA-TGCAAGTTGCGCCCGAGG--CTATCCGATTGAGGGCAC-GCCT-GCTTGGACG------------------CCATTCAAAAGCATTGCTCCCCCTCCCTCA-GGGCCCCGAATGGCCGGATGCGGATACTGGACCCCCACGGCCCCCGT--GCATGGCATGCC-----ATAGTTCGGTCCGCAGGC-GGTGCCGAAACGGTGGGTGGTGGATGCG--CCCGCAAACTCATCGCCGTGCCTCTGGACCCCG--GCTTG---TAGG---TCCCACGATGGACGCGACGGCTAACGGACCCTTAAATCTTACAAT----TCCAATACGAAGTCCAGGAGCGATGAGGGCCACCCCTCGCTACGACTCCA-CAATACCTTAACAAAGCACCAAAACCAAC?ACAA-ACAACCAAAAACACAACAACACAAACACACAAAACACACACAAA Eugeissona_tristis CGCCTCCTACGATG-TCGCGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAATGAGAAGTCATA----ACAAG-GTTTCCGTAGGTGAACCTGCG-GAA-GGATCATTGCCGAGA---CCT---ACGTGGGAG----ACCCGTG-AACATGACAACGTCGCCCCATCGCCATCGCCCGGTGCCC-CGC-----------ACCGTCGAA---ACCGACGGACGGGGGGCAACGGGAGG--ACC-GGACC--TGGTGC----GAA-GAGCACCAA-GGAACCGCG-ATCA-CGGACACGG---TATGACTCTCGGTAACGGAT-ATCTCGGCTCTCGCATCGATG------------AAGAACGTAGCGAAA-TGCGATATGTGGTGTGAATTGCAGAATC-CCATGA-ACCATCGAGTCCTTTGAA-TGCAAGTTGCACCCGAGG--CCATCCGATCGAGGGCAT-GC-T-ACCTGGGCG------------------TCACTCCAA-GGGACGCTCCACCCCCTT---GGGGCCCCGATGGGTGGATGCGGTCACTGGCACCCCATGCACTTCGT--GCATGGTGTGAC-----GAAGTTCGGGCCATAGGC-GGGGCCGGAACGATGGATGGTGGACGCG--CCTGCGATCTCATCACCGTGCCCCAGACCCCGG---GCTG---CAGG---GCCTCCTATGGACGAGACGGCTAACGGACCCGAAAATTAAACAACGACAATCAATACGAAGTCCCGGAGCGATGAGGGCGACCCCCCGCCGCGACTCCC-TAGTACTTTAGCCAAACAAAAAAACAAAACAA{AC}AAACAAAAACAAACACACCAACAGAAACACACGAAAACCACACAAA Eugeissona_utilis CGCCGCTTACGATA-TCACGA-GAAGTCCACT-GAACCTAATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCATAGGTGAACCTGCG-GAA-GGATCATTGCCGAGA---CCT---ACGAGGCAG----ACCCGTG-AACATGTCAACGTCGCCCCGATGCCATTGCCCAGCGCCC-CGC-----------ACCATCGAG---ATCGGCAGACGCGGGGCAACAGGAGG--ACC-GGACC--TGGCAC----GGA-GAGTGCCAA-GGAAGCATG-ATCA-TGGACACGG---TACGACCCTCGGCAACGGAT-ATCTCGGCTCTCGCATCAATG------------AAGAACGTAGTGAAA-TGCGATACATGGTGTGAATTGCAGAATC-CCGTGA-ACCATTGAGTCTT-TGAA-CGCAAGTTGGACCTGAGA--CCATCCGACCAAGGGCAC-GCCT-ACCTGGGTG------------------TCACTCCAA-GCGACGCTCTGCTCCCCC---GGGGCCCCAATGGGCGGATGCGAAAACTGGCCCCCCGTGGCCCTTGT--GCGCGGCGTGCC-----AAAGTTCGGGCCTCAGGC-GGGTCTGGAACGACAGTTGGTGGATGCG--CCTGCGATCCCATCGCCATGCCCCTGGACCCTG--GGCTG---CAGG---GCCTCCTATGGACGAGACGGCTAACGGACCCGAAAATTAAACAACGACAATCAATACGAAGTCCCGGAGCGATGAGGGCGACCCCCCGCCGCGACTACC-TAGTACTTTAGCCAACCAAAAAAACAACACAAAAAACAAAAACAAACACACCAACAGAAACACACGAAAACCACACAAA Kerriodoxa_elegans CGCCGCCCGCGACG-TCGTGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCGTAGGTGAACCTGCG-GAA-GGATCATTGCCGAGA---CCCG-AGCGAGGAAAG---ACCCGCG-AACATATGAGCGC???????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????????CATGG---TACGACTCTCGGCAACGGAT-ATCTTGGCTCTCGCATCGATG------------AAGAACGTAGCGAAA-TGCGATGCCTGGTGTGAATTGCAGAATC-CCGCGA-ACCATCGAGTCTT-TGAA-CGCAAGTTGCGCCCGAGG--CCATACGGTCGAGGGCAC-GCCT-GCCTGGGCG------------------TCACGTCAA-GCGGCGCTTCGCTCCCTC---GGAGCCGCGA-AGCCGGACGAGGACATTGGCCC????????????????CCCGGGCGCGGCGGTCCGAAGAGCGCGTCGCCGAT-GGGGCTGGATCGGCGGATGGTGGATGCGC-CTTGCGATCCAATCGTCGTGGAGCCGGACCCTA????????????????????????ATGGCTGAGACGGC---------------------------TA---GTACAAAGTCCCAGTGCGATGGGGGCCACCCCCCGCTGCGCCTCTC--CATACCTTAG-CAA{AC}ACAAAAAAA--ACAAAAACACAAACCCAAAAC-----ACACAACCCAAACAACACCAAACAAA Korthalsia_cheb CGCCGCCCGCGACG-TCGCAA-GAA-TCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCATA----AAAAG-GTTTCCATAGGTGAACCTACG-GAA-GGATCATTGACAGAG---ACCC-GATGAGGCAG----ACCCGCA-AACACGTGAGCGTCGCTTCGATGCCGTCCCTGGCCCCCCTCACAG---------TTGGTCGCG---------------GGATGGGCGGGAGG--GTC-GCACCCCCCGCGC----GGA-GGGCGCCAA-GGAACCATG-AGCA-TGGACATGG---TACGACTCTTGGCAATGGAT-ATCTTGGCTCTCGCATCGACG------------AAGAATGTAGCGAAA-TGCGATACGTGGTGTGAATTGCAGAATC-CTGTGA-ACCATCGAGTCTT-TGAA-TGCAAGTTGCGCCCGTGG--CCGTCCGGCTGAGGGCAC-GCCT-GCCTGGGCA------------------TCATGCCAA-GCGACGCTCCGCTCCCTG---GGGTACCCAATTGCGGGACACAGTAGATGGCCCCCCGCACTAGACGC--GCATGGCAGGCC-----TAAGCTTGGGCCGCAAGC-GGGGCCGGAACGGTGGGTGGAGGACTTT--CCCGCGCTCACGTTGCGGTGTCACCGGACCCCT--GCCCG---CAGG---GCCCCCCATGGACGAGACGGCTACCGTACCCGTGCCTCAAACAACGACAATCAATACGAAGCCCCGGAGCGATGAGGGCCAGCCCCCGCTGCGATTCCC-TAATACCTCGGCCCAGCACACAAACCCAACAAAAAACACCAACCACCAA--CAACACAAACACACAAACCAGG?A?CAC Laccosperma_acutiflorum CGCCGCCCGCGACA-TCGCGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTTGTA----ACAAG-GTTTCCATAGGTGAACCTACG-AAA-GGATCATTGCCAAGA---CCC--AATGAGGCAG----ACCTGCA-AACACGTTAAAGACGCTCCGACGCCATGGCCCGGCCCCC-CGT-----------ACCATCTAG---ACTGGCGGTCGCGGGGCGAC?GGGGG--ACC--GACC--TGGCAT----GGA-GGGCGCCAA-GGAAGCATG-AGCA-TGGACGCTG---TACGACTCTCAGCAACGGAT-ATCTCGACTCTCGCATCGATG------------AAGAACGTAGCGAAA-TGCGATACGTGGTGTGAATTGCAGAATC-CCGTGA-ACCATCGAGTGTT-TGAA---CAAGTTGCTCCCGAGG--CCATCCGGCCAAGGGAAC-GCCT-GCCTGGGCG------------------TCATGCCAAAGTGGCACTCCGCTCCCCT---CGGGGCCCGGTGGCCGGATGTGGACACTAGCCCCCTGTGCCCCTCGC--GTGCGGTGTGCC-----GAAGTTTGGGCCGTAGGT-AGGGCCGGAACGGTGGGTGGTGGACACG--CCCACAAACCCATTATCGTTCCTTCGGGCCCCTG-GCGTA---CAGG---TCCCACGACGGACGAGACGGCTAACGGACCCTTAAATCAAACAAT----TTCAATACGAAGTCCAGGAGCGATAAGGGCCACCCCTCGCTACGACTCCA-TAATACCATAACCAAGCAACAAAACCAAAAAAAAAAAAAAACAAAACACAACAACACAAACACACAAAACACAAACAAA Laccosperma_opacum CGCCACCCGCGACG-TCGCGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCATAGGTGAACCTACG-GAA-GAATCATTATCGAGA---CCC--GATGAGGCAG----ACCCACG-AACACGTTAAAGCCACTCCGGCACCATGGCCCGACCCCC-CGC-----------ACCGTCAAG---ACCAGCGATCGCGGGGTGGCGGGGGG--ACC-CGACC--CGGCGC----GGA-GGGCGCCAA-GGAAGCATG-AGAG-CGGACGTGG---TATGACTCTCAGCAACGGAT-ATCTCAGCTCTCGCATCAACG------------AAGAATGTAGCGAAA-TGCGATACATGGTGTGAATTGCAGAATC-CCATGA-ACCATCGAGTCTT-TGAA-AGCAAGTTGCGCCTGAGG--CCATCCGGCCGATGGCAT-GCCT-GCCTGGGTGGCACGCCTGCCTGGGCG-GCATGCCAAAGTGGCGCTCCGCTCCCCC---CCGGGGCCCCTGGCAGGATGCGGACACTGGCCCCCCACGCCCCCCGT--GCATCGTGTGCC-----GAAGTTCAGAATGCAGGT-GGGGCCAGAACCGCAGGTGGTGGATGCA--CCCGTGAACCCATCGCCGTGCCTCCGGACCCCTG-GCCTG---CAGG---TCCCACGACGGACGAGACGGCTAACGGA-CCTTAAATCAAACAAT----TTCAATACGAAGTCCAGGAGCGATGAGGGCCACCCCTCGATACGACTCCA-TAATACCATAACCCAGCAACAAAACCAAAAAAAAAAAAAAACAAAACACAACAACACAAACACACAAAACACAAACAAA Lepidocaryum_tenue CGCCACCCACGATG-TCGCAA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCGTAGGTAAACCTACG-GCA-GGAACATTGCCGAGACGCCCC--GACGAGGCAG----ACCCGTG-AACACGTGAATGCCGCTCCAATGCCATGTCCCGGCTCCC-CGC-----------ACCATCGAA---ACCGGCAAACGTCGGGCGGTGGGACG--ACCCGTACC--CTGCAC----GGA-GGGTGCCAA-GGAACCGCG-AGCA-TGGACGAGG---TACAACTTTCGACAACGAAT-ATCTCGGCCTTCGTATGGACGGTAGCGTGACCAACACACGTAGCGAAA-TGCGATACGTGGTGTGAATTGCAGAATC-ACACGA-ACCATGGAGTCTT-TGAA-CGTAAGTTGCGCCCGAGG--CTATTTGGTTGAGGGCAC-AC{AC}T-G--------------------------------TAGATTGGCGTTCCACCCCCTC---GGGTGCCCCCTGGTTGGATGCGGACATTGGCCCCCTGCTCCTGGTGG--GCATGGCATGCC-----GAAGCTTGGGCCGCAGGC-AGTGCCGAGATGGTGGGTGGTGGACACA--CCCGCGATCCCATCGCCGTGCTATCGGTACACG--GCCTG---CAGC---GCCCCCCATGAACGAGACGGCTAACGGACCGGTAAATCAAACAACCACAATCAATACGAAGTCCCGGAGCGATGAGGGCCACCCCCCGCTGCGACTCCA-TAATACCTTAGTCAACCCAAAAAAA--ACAAAAAAACAAACCAAAACCA-CACACACAAACACACAACACACAAAACAC Mauritia_flexuosa CGCCACCTACGATG-TCGTGA-GAAGTCCACT-GAACCTTATCATATAGAGGAAGGAGAAGTCATA----ACAAG-GTTTCCATAGGTGAACCTACG-GAA-GGATCATTGTCGAGA---CCCATGATGAGGCAA----ACCCGTG-AACATGTGAATGCCGCTCCGGCACCATCATCCGACCCCT-CGTGC---------ACCATCGAG---ACCGACGGGCATGGGGCGGTGAGAGG--ACCTAGACC--CGACGT----GGA-TTGCACCAA-GGAAAAACC-CGCC-TGCACATGG---TACAACTCTCGATAGTGGAT-ATCTCAACCCTTGCATCGAGG------------AAGAATGTAGCAAAA-TGCGATATGTGGTGTGGATTGCAGAATC-TCATGA-GCCATCAAGTCTT-TCAA-TGCAAGTTGCACCCGAGG--CCATCCGATTGAGGGCAT-GCCT-GCCTGGGCA------------------TCATGCTAGATTGGTGCTCCACCCCCTT---GGGTCCCACTTGGCCGGATGTGGATGGTGGCCCCCCATGCCCATCGG--GTGCGGCATGCC-----GAAGCATGGGCCACAGGC-GGTGTCGGGATGGTAGGTTGTGGATGCG--CCTGTGATCCCATTGCCATGACAACGATACCCA--GCCTG---TAGC---ACCCCCCGTGGACGAGACGGCTAACGGACCGGTAAATCAAACAACCACAATCAATACGAAGTCCCGGAGCGATGAGGGCCACCCCCCGCTGTGACTCCA-TAATACCTTAGTCAACCCAAAAAAA--ACAAAAAAAAAAACAGAAACCA-CCCACACAAACACACAACAAACAAAACAC Mauritiella_armata CGCTGCCCACGACA-TCGTGA-AAAGTCCACT-AAACCTTAT-ATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GCTTCCCTAGGTGGACCTGCG-GAA-GGATCATTGCCGAGA---CCCACGACGAGGCAG----ACCCACG-AACACGTGAATGCCACTTCGGCGCCATCGCCCGGCCCCC-CACGC---------ACCGTCGAG---ACTGGCGGGCATGGGGAGGTGGGTGG--GACCGGACC--CAGCGC----GGA-TTGTGCCAA-GGAACAAGC-TGCT-TGATCACGG---TACGACTCTCGACAATGGAT-ATCTCAGCCCTCGCATCGATG------------AAGAATGTAGCGAAA-TGTGATACGTGGTGTGAATTGCAGAATC-CTGCGA-ACCATCGAG-CTT-TGAA-TGCAAGTTGCACCCGAGG--CCATCAGGCCGAGGGCAT-GCCT-GCCTGGGCA------------------TCACACCAAATTGGTGCTCCGCCACTCC---CCCTCCCCCCTGGTCGGATGCAGATAGTGGCCCCCCGTGCCTACCGG--GCACGGCATGCC-----GAAGCATGGGCTGCAGGC-GGTGCCGGGACGATGGGTGGTGGATGCG--CCTGCAATCCCATTGCCGTGCTATCGATACTTG--ACCTA---TAGT---GCCCCCCATGGACGAGACGGCTAACGGACCGGTAAATCAAACAACCACAATCAATACGAAGTCCCGGAGCGATGAGGGCCACCCCCCGCTGCGACTCCA-TAATACCTTAGTCAACCCAAAAAAA--CCAAAAAAACAAACAGAAACCA-CACACACAAACACACAACAAACAGAACAC Metroxylon_sagu -GCCGCCCATGACG-TTGCGG-GAAG-CCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTTCGTAGGTGAACCTGCG-GAA-GGATCATTGCCGAGA---CCCA-AACAAGGCAG----ACCCGCA-AACACGTGAACACCGCTCCGGTGCCATCGCCCGGGCCTC-CAG-----------GCCATCGAG---ATCGACGGATGCGAAGGGGCAACAAG--ACC-GGACC--CGACAC----AGA-GGGTGCCAA-GGAACCTTG-AGCA-CGGACACGG---CAGGACTCCCAGCAACGGAT-ATCTCGGCTCTCGCATCGATG------------AAGAACATAGCGAAA-TGCGATACGTGGTGTGAATTGCAGAATC-CCGTGA-ACCATCAAGTCTT-TGAA-CGCAAGTTGCGCCCGAGG--CCATCCGGCCGAGGGCAT-GCCT-GCTTGAGCA------------------TCATGCCAA-GCGGCGCTCTTCTCCCCC---GAGTTCCCGATCACCGGATGTGAACGATGGACCCCTGCGCTGAGCAT--GCACGGCGTGTC-----GAAGTTTGGGCTGCGGGC-GGGGCCAGAGTGGAGGGTGGTGGACACG--CCCGCGATCCCGTCGCCGTGCCTTCGGTCCCCG--GGCCG---CAGG---GCCCCCGATGGACGAGATGGCTAACGTACCCGTAAATCAATCAACGACAATCAATACGAAGTCCCGGAGCGATGAGGGCCACCCCCCGCTGCGATTCCC-TAATACCTTAGCCAACCAAAAAAACACAACAAAAAA?ACCAACCACCACACCAACACCAACACACACAAAAGCAACAAA Metroxylon_salomonense CGCCGCCTGCGACG-TCGCGA-GAAGTCCATT-GAACCTTATCATT-AGAGGAAG---AAGTCGAA----ACAAG-CTTTTCATAGGTGAACCTGCG-GAA-GGATCATTACCAAGA---CCCG-GACGAGGCAG----ACCCGTG-AACACATGAACGCTGCTCCGGCGCCATGGCCCGGGCCCC-TGC-----------GCCGTCGAG---ATCAGCGGATGCGAAGGGGCAGGAGG--ATC-GGACC--CGGCAC----GGA-GGGCGCCAA-GGAACCTTG-AGCA-CGGACACGG---TAGGACTCTCGGCAACAGAT-ATCTCGGCTCTCGCATCGATG------------AAGAACGTAGCGAAA-TGCGATACGTGGTGTGAATTCCAGAATC-CTGCAA-ACCATCGAGTCTT-TGAA-TGCAAGTTGCGCTCGAGG--CCATCCGACCGAGGGCAC-GCCT-GCCTGGGCG------------------TCACGCCAA-GCGGCGCTCCGCTCCCCA---GGGTTCCCGATTGCCGGACGTGGACGATGACCCCCCGCACCGAGCGT--GCGCGGCGTGCC-----GAAGTTTGGGCCACGGGC-GGGGCCGGAGCGGTGGGTGGTGGACGCG--CCCGTGATCCTACCGCCGTGCCTTAGGTCCTTG--GGCCG---TAGG---ACCACCAATGGACGAGATGGCTAACGTACCCGTAAATCAATCAACGACAATCAATACGAAGTCCCGGAGCGATGAGGGCCACCCCCCGCTGCGATTCCC-TAATACCTTAGCCAACCAAAAAAACACAACAAAAAA?ACCAACCACCACACCAACACCAACACACACAAAAGGAACAAA Myrialepis_paradoxa CGTGGTCTGCGACA-TCATGA-GAAGTCCAGT-GAACCTTATCATTTAGAAGAAGGAGAAGTCATA----ACAGG-GTTTC-GTAGGTGAACTTGTG-GAA-GGATCATTACCGAGA---TCC--GACGAGGCAT----ACCCATG-AACATGTGAATGCCACTCCGGCACCATCGCCTGCCTACC-CGGCAACATGTGAATCCATCGAG---ACCGGCAGTTTCGGGGCGATGGGAGG--ACT-GGTCC--AAGCAC----GAA-AGGCATCAA-GGAACCTTG-ATCA-TGGTCACAG---TACAACTCTCAGCAATGAAT-ATCTTGGCTCTCGCATCAATG------------AAGAATGTAGCAAAA-TGTGATATGTGGTGCAAATTGCAGAATC-CCACAA-ACCATTGAGTCTT-TGAA-TGCAAGTTGTGCCCGAGG--CCATCCGACTGAGGGCAT-GCCT-GCTTGGGCG------------------CCAAGAGAA-GCGGCACTCCTCTCCCTC---AAGTTCCCGATTGCCAGACATGGACGATGGCCCCCCATGTCGAGCGC--ACGCAGCATGCC-----AAAGCTTGGGCTGCAGGC-AGGGCCGGAGTGGCAGGTGGTGGACAAG--CCCGTGATCCCGTTGCCGTGCCTTTGGACCCGA--CCCG----CAGG---GCTCACAATGGACGAGATGGCTAACGTACCCGTAAATCAATCAACGACAATCAATACGAAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCAATTCCCCTAAAACCTTAGCCAAGCAAACAAACCCAACAAAAAACAAACCAAAACCA-CACACACACACACACACAAAAGGAACAAA Oncocalamus_mannii CGCCGCCCGCGACG-TCGCGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-ATTTCCGTAGGTGAACCTGTG-GAA-GGATCATTGCCGAGA---CCG--GACGAGGTAG----ACCGGTG-AATGTGTTAACG-CGCCCCAGCGCCATCTCCCGACCCCC-CG------------ACCGTCGGG---AACGGCGGTCGCGGGGCGGTGGGGGGGGACC-TGACC--TGACGC----GGA-GGGTGCCAA-GGAAGCGCG-AGCA-CGTCCGCGG---TACGACTCTCGGCAATGGAT-ATCTTAGCTCTCGCATCGACG------------AAGAATGTAGCGAAA-TGCGATACGTGGTGTGAATTGCAGAATC-CCACGA-ACCATCGAGTCTT-TGAA-CGCGAGTTGCGCCCGAGG----------------------------------------------------------------------------------------------CGGTCGGATGCAGAGACTGGCCCCCCACGCCCACCGC--GCGCGGTGTTCC-----GAAGTTCGGGCCGTAGGC-GGGGCCGGAACGACGGGTGGTGGACGCA--CCTGCGAACCCATCGCCGTGCCTCCGGACCCCA--TCCCG---TAGG---TCCCACAATGGACGAGACGGCTAACGGACCCTTCAATCAAACAAT----TCCAATACGAAGTCCAGGAGCGATGAGGGCCACCCCTCGCTACGACTCCA-TAAATCCTTAACCAAGCAACAAAACAAACAAAAAAAAAAAAAAAAATACAGCCCCACAAACAC?CAAAAC?CAAACACA Pigafetta_elata CACCGCCCACAACG-TCGCGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGCA----ACAAG-GTTTTCGTAGGTGAACCTGCG-GAA-GGATCATTGCTGAGA---CAT--GATGAGGCAG----ACTCATG-AACACATGAACGCGGCTCC-CCGC------------------------------ACCATCGAGT--TCCATCGGATGCGGGGCACCGGGAGG--ACC-GGACC--CGGCTC----GGA-GAGCGCCAA-GGAACCTTG-AGTG-CGGGCACGG---TATGACTCTCGGCAATGGAT-ATCTCGACTCTCACATCGACG------------AATAACTTAGCAAAA-TGCAACACGTTGTGTGAATTGCAGAATC-CCATGA-GCCATTGAGTCTT-TGAA-CGCAAGTTGCGCCTGAAG--CCATCCGACCGAGGGCAT-GCCT-ACCTGGGCG------------------TCATGCCAA-GCGGCGCTCCGCTCCCCC---AGGATCCCAATTGCCAGACACGAACGATGGCCCCCCGCGCCAAGGGC--ATGCGGCATGCC-----AGAGTTTGGGCCGCAGGC-GGGGCTGGAGCGGCGGGTGGTGGACGCT--CCCGTGATCCCATCGCCATGCCTTTGGACCCCA--TCCCC---TAGG---GCCCCTGATGGACGAGATGGCTAACGTACCCGTAAATCAATCAACGACAATCAATATGAAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCGATTCCCCTAATACCTTAGCCAACCAAAAAAACACACAAAAAAACACCACCAACCCA-CCCACACAACCACACACAACAA--AAAAA Pigafetta_filaris CACCACCCACGATG-TCACGA-GAAGTCCATT-GAACCTTATCATTTAGAGGAAGGAAAAGTCATA----ATAAG-GTTTCCGTAGGTGAACCTATG-GAA-GGATTATTGCTGAGA---CCC--GACGAGGCAG----ACCCATA-AACACGTGAACGCGACCCC-CTGC------------------------------GCCATCGAGA--CCCGACGGATGCAGGACGGCAAGAGG--ATC-GGACC--CGACAC----GAA-GGGTGCCAA-GGAACCTTG-AGCG-CAATCACGG---TATGACTC--AGCAATAGAT-ATCTCGGCTCTCGCATTGACG------------AAGAACGTAGCGAAA-TATGACATGTGGTATGAATTATAGAATC-CCGCGA-GCCATCGAGTCTT-TGAA-TGCAAGTTGCACCCGAGG--CCATCCGACCGAGGGCAT-GCCT-GCTTGGGCA------------------TCACGCCAA-GCAGTGCTCCACTCCTTT---AGGATCTCGATTGCCGGACATGAACAATGGCCCCTTGCACCAAGTGT--GCGTGGCATACC-----GAAGTTTGGGCCACGTGT-GGGGCCGGAGCAATGGGTGGTGGATTCA--CCTGTGATTCTGTTGCCTTGCCTTCGAACCCCA--TCCCC---TAGG---GCCCCTAATGGACGAGATGGCTAACGTACCCGTAAATCAATCAACGACAATCAATATGAAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCGATTCCCCTAATACCTTAGCCAACCAAAAAAACACACAAAAAAACACCACCAACCCA-CCCACACAACCACACACAACAA--AAAAA Plectocomia_elongata ----CGCCGCGACG-TCGTGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCGTAGGTGAACCTGTG-GAA-GGATCATTGCCGAGA---CTT--GATGAGGCAT----AGCCGCA-AACAAGTGTACAC---------------GCCCGCCTCCC-CGC-----------ATCACGGGG---ACCGGCAATTCTGGGTTGGCGGGAGG--ACC-AGACC--CGGCAC----GGA-GGGCACCAA-GGAAA-----AGCT-CGATCATGG---TACAACTCTCGGCAATGGAT-ATCTCAGCTCTCACATCGATG------------AAGAATGTAGTGAAA-AGCGATAAGTGGTGCGAATTGCAGAATC-TCGTGA-ACCATCGAGTCTT-TGAA-CGCAAGTTGCACCTGAGG--CCATCCGATCGAGGGCAC-GCCT-GCTCGGGCG------------------TCGAGCCCA-ACATCGCTCAGCTCCCTT---GGGTTCCCGATTTTTGGATGCGGACGATGGCCCCCTGCACCGAGCAT--GTGCGGCATGCC-----GAAGATTGGGCCGCAGGC-GGGGCCGGAGTGGCGGTTGGTGGATGCGTGACCCTGATTTCATCACCGTGCCTTTGGACCCCG--ACCCG---CAGG---GCTTGCAATGGACGAGATGGCTAACGTTACCGTAAATCAATCAACGACAATCAATACGAAGTCCCGGAGCGATGAGAGCCACCCCCTGCTGCGATTCCCCTAATACCTTAGCCAAGCAAACAAACCCAACAAAAAACCACCCGAAACCA-CCCACACAAACACACACAAAAGGAACAAA Plectocomia_mulleri CGCCACCCATGACG-TCTTGA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTTGTA----ACAAG-GTTTCCGTAGGTGAACCTACG-GAA-GGATCATTGCCGAGA---CCC--GATGAGGCAT----AGCCGCG-AACAAGTGAATGCCACTCCGGAGCCATCGCCCGCCTCCC-CGT-----------GCAGTGGGG---ATCAGCGGTTGCAGGTTGGCGGGAGG--ACC-ATACC--CAACGC----GGA-GGGCACCAA-GGAAA-----AGCT-CGATCACGG---TACGACTCTCGGCAATGGAT-ATCTTGGCTCTGGCATCAACG------------AAGAATGTAGCAAAA-TGCGATACATGGTTCAAATTGTAGAATC-CCACGA-ACCATCGAGTCTT-TGAA-TGCAAGTTGGGCCCGAGG--CCATCAGGTCGAGGGCAT-GCCT-GCCTGGGCG------------------CCGAGCCCA-GCGTCGCTCCACTCCCTT---GGGTTCCCGATTGCTGGACGTGGACGATGGCCCCCCGCGCTGAGCGC--ATGCGGCGTGCC-----AAAGATTGGGCCGCAGGC-GAGGCCGGAGCGGCGGGTGGTGGACGTGTGACCCCGATCCCATCGTCGTGCCTTCGGACCCTG--GCCCA---CAGG---GCTCGCAATGGACGAGATGGCTAACGTTACCGTAAATCAATCAACGACAATCAATACGAAGTCCCGGAGCGATGATAGCCACCCCCTGCTGCGATTCCCCTAATACCTTAGCCAAGCAAACAAACCCAACAAAAAACCACCCGAAACCA-CCCACACAAACACACACAAAAGGAACAAA Plectocomiopsis_geminiflora -------CGCAACA-TCATGA-GAAGTCCACT-CAACCTTATCATTTAGATGAAGGAGAAGTCGTA----ACAAG-GTTTATGTAGGTGAACCTACG-GAA-GGATCATTGTCGAGA---CCT--GACGAGGCAT----ACCCGTG-AACACATGAACGCCACTTTGGCACCATCACCCACCTCCC-CGA-----------GCAGTGGAGACCACCAGCAGTGGTGGGTTGGCAGAAGG--ATC-AGACC--CAGCAT----GGA-GGGCACAAA-GGAACCTTG-ATCG-TGGTCACGG---TATGAATCTTGGCAATAGAT-ATCTTGGCTCTCGCATCGACG------------AAGAATGTAGTGAAA-TGTGATACATGGTGTGAATTGCAAAATC-CCTCGA-ACCATTGAGTCAT-TGAA-TGCAAGTTGTGCCTGAGG--CCATCTG-TCGAGGGCAC-GCCT-ACCTGGGCA------------------TTGAGCCAA-GCGGTGCTCCACTCCCTC---GGGTTCCCGATTGCTGGATGCAAATGATAGCTTCTAATGCTAAGCAT--GCACGGCATGCC-----AACGATTTGGCCGCAGGT-GGGGCCAGAGTGGCAAGTGGTGGATGCACGCCCATAATCCCGTCGTCATGTCTTCGAACCCCA--TACCG---CATG---GCTCGCAATGGACGAGATGGCTAACGTCCCCGTAAATCAATCAACGACAATCAAAACGAAGTCCCGGAGCGATGAGAGCCACCCCCCGCTGCGATTCCCTTAATACCTTAGCCAAGCAAACAAACCCAACAAAAAACAAACCAAAACCA-CACACACACACACACACAAAAGGAACCAC Pogonotium_ursinum TGCCGCTTATGACG-TCACAA-GAAGTCCACT-GAACCTTATCATT-AGAGAAATGTGAAGTCGTA----ACAAG-GTTTCCGTAGGTGAACCTGTG-GAA-GGATCATTGCCGAGA---CCC--GATGAGCCAA----ACCCGCG-AACACGTGAACTCCGCTCCGGCTTAATCGCCCGGACCCC-TGC-----------GCCATCGAG---ACCGGCGACCACGGGGCGGCGGGAGG--ACCCGGACC--CGACGCCCTTGGA-GGGCACCAA-GTAACCTTG-AGCA-CGGACATGG---TACAACTCTCAGCAATGGAT-ATCTCATCTCTCACATCGATG------------AAGAACGTAGCGAAA-TGCGATACATGATGCGAATTGCAGAATC-TCGTGA-ACCATCGAGTCTT-CGAA-TGCAAGTTGCGCCTGAGG--CCATCCGGCCGAGGGCAC-GCTT-GCCTGGGCA------------------CCAACCCAA-GCAGCGCTTCGCTCCACC---GAGTTCCCTATTGTCGGATGCGGACAATGGCACCCTGCACCGAGCGC--ATGCGGCATGCC-----AAAGATTGGGCCGCAGGCTGGGGCCGGAGCGGCGGGTGGTGGACGCA--CTTGCGATCCCATCGTCGTGCCTCCGAACCCTG--GCCCT---TAGG---GCCCGCAATGGACGAGATGGTTAACGTACCCGTAAATCAATCAACGACAATCAATACGGAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCGATTCCCCTAATACCTTAGTCAAGCAAAAAACCCCACGAACACCCAAACCAAAACCCCCACACACCACCACACACAAAACCGACAAA Raphia_farinifera CACCACCTGTAACACTCGAGA-GAA-TCCACT-AAACCTTATCATTTAGAGGAAGGAGAAGTTGTA----ACAAG-GTTTTCGTAGGTGAACCTGTG-GAA-GGATCATTGTTGAGA---CCC--GAGGAGGCAG----ACCTGTG-AACACATGAACACTACTCTGGAGGGATGGCCCGACCCCC-TAC-----------ATCATTGAG---ATCGGTGGACATGGGGCAGCGGGAGG--TCT-GCAACC-CGGCAC----GGA-GGGTGCTAA-GGAACCTCG-AGCA-TGGACAAGG---CATGACTCTCGGCAATGGAT-ATCTTGGCTCTTGCATCGATG------------AAGAATGTAGCAAAA-TGTGATACATGGTCTGAATTGTAGAATC-CCATGA-TCCATCAAGTCTT-TGAA-TGCAAGTTGCACCTGAGG--CCATCCGACTGAGGGCAT-GCCT-ACCTGGGCG------------------TCATGCCTCTCCTATGCTCCACACCCCC---AAGGCCCTGATGGACGGATGTGAGCACTGGCCCCC----------AT--GAAAGGTGTGTC-----GAAGCTTGGGCCACAGGT-GGGTCCGTAACTACGGGTTGTGGACACG--CCCACGATCCCATCGTCGTGCCATAGGACCTTG--GCCTG---TAGG---GCCCCCAATGGACGAGACGGCTAAATGACCGGTAAATCAAATAACCACAA---ATCGGAAGTCCCGGAGTAATGAGGGCCACTCCCCGCTGCGACTCCA-TAATACCATAGCCAACCAAAAAAAA--AAAAAAAAAAAAAAAAAAACACACCCCCACAAACACACAAACCACAAACAAA Retispatha_dumetosa TGCCACCTGCGACA-TCGCGA-GAAGTCCAGT-GAACCTTATCATTTAGAGGAAGGAGAAGTCATA----ACAAG-GTTTCCGTAGGTGAACCTACG-GAA-GGATCAATGCCAAGA---CCC--GATGAGCCAT----ACCCATG-AACACGTGAACTCTGCTCCGACACCATCGCCCGGACCCC-CGC-----------GCCATTGAG---ACCAGTGGCTGCAGGGCAGCAGGAGG--ACC-AGACC--CAACGT----GGA-GGGCACCAA-GGAACCTTG-AGCG-CGGACATGG---TACGACTCTCAAAAATGGAT-ATCTCGGCTCTTGCATCGATG------------AAGAATGTAACAAAA-TGCGATACATGGTGCGAATTGCAGAATC-CCATGA-ATCATTGAGTCTT-CGAA-TGCAAGTTGCACCCGAGG--CCATCTGGCCGAGGGCAT-GCCT-GCTTGGGCA------------------CCAACCCAA-GCAGCGCTCCGCTCCCCC---GAGTTCCCTATTGCTGAATGCGGATGATGGCCCCCTGTGCCGAGCGT--GCG{AT}GGCGTGCC-----AAAGATTGGGCCG{AC}AGGC-TGGGCCAGAAGGTCGGATGGTGGATGCG--CCCGCAATCCCATAGTCATGCCTCCGGACATCG--GCCCT---TAGG---GCTTGCAATGGACGAGATGGTTAACGTACCCGTAAATCAATCAACGACAATCAATACGAAGTTCCGGAGCGATGAGGGCCACCCCCCGCTGCGATTCCCCTAATACCTTAGCCAAGCAAAAAAACCCACGAACACACCAACCAAAACCA-CACACACCACCACACACAAAAGGAACACA Salacca_glabrescens CGCCGCTCGCGACG-TCGCCA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCGTAGGTGAACCTGCG-GAA-GGATCATTGCTGAGA---CCC--GAGGAGGCAAG---ACCCGCG-AACACGTGAATGTGTCTCCGGCGCCATCTATCGGCCCCC-GGC-----------ACCGCCAAG---ACCGTCGGACTTGGGGCGTTGGGAGG--ATC-GGAAC--CGGCGC----GGA-AGGCGCCAA-GGAACGTTG-AGCG-CGGACACTG---TACGACTCTCGGCAACGGAT-ATCTCGGCTCTCGCATCGACG------------AAGAACGTAGCGAAA-TGCGATACGTGGTGTGAATTGCAGAATC-CCGCGA-ACCACCGAGTCTT-TGAA-CGCAAGTTGCGCCCGAGG--CCATCCGGCGGAGGGCAC-GCCT-GCCTGGGCG------------------TCACGCCAA-GCGGCGCTCCGGTTCCCC---CTGTTCCAGATTGTCGGACGCGGAGGATGGCCCCCTGCGCCGAAGGC--GCGTGGCGCGCC-----GAAGTTTGGTCCGCAGGC-GGGGCCGGCACGGCGGGTGGTGGACTGT--CCCTCGATCCCGTCGCCGTTCCTTCGGACCCCG--GCCTG---CAGG---GCCCTCGATGGACGAGATGGCTAACGTACCCGTAAATCAATCAACGACAATCTATACGAAGTCCCGGATCGATGAGGGCCACCCCCCGCTGCGATTCTC-TAATACCTTAGCCAAACAAAAAAACACACACAAACACACCAACCAACCCCCCCACACAACCACACACAAAAGGAACACA Salacca_ramosiana CGCCGCTCGCGACG-TCGCCA-GAAGTCCACT-GAACCTTATCATTTAGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCGTAGGTGAACCTGCG-GAA-GGATCATCGCCGAGA---CCC--AAGGAGGCAAG---ACCCGCG-AACATGTGAACGCGTCTCCGGCGCCATCAATCGGCCCCC-GGC-----------ACCGCCGAA---ACCGTCGGACTCGGGGCGTTGGGAGG--ATC-GGAAC--CGGCGC----GGA-AGGCGCCAA-GGAACGTTG-AGCG-CGGACACTG---TACGACTCTCGGCAACGGAT-ATCTCGGCTCTCGCATCGACG------------AAGAACGTAGCGAAA-TGCGATACGTGGTGTGAATTGCAGAATC-CCGTGA-ACCACCGAGTCTT-TGAA-CGCAAGTTGCGCCCGAGG--CCATCCGGCCGAGGGCAC-GCCT-GCCTGGGCG------------------TCACGCCAA-GCGGCGCTCCGGTTCCCC---CTGTTCCAGATTGTCGGACGCGGAGGATGGCCCCCTGCGCCGAAGGC--GCGTGGCGTGCC-----GAAGTTTGGTCCGCAGGC-GGGGCGGGCACGGCGGGTGGTGGACTGT--CCCGCGATCCCGTCGCCGTGCCTTCGGACCCCG--GCCTG---CAGG---GCCCTTGATGGACGAGATGGCTAACGTACCCGTAAATCAATCAACGACAATCTATACGAAGTCCCGGATCGATGAGGGCCACCCCCCGCTGCGATTCTC-TAATACCTTAGCCAAACAAAAAAACACACACAAACACCACAACCACCCA-CCCACACAACCACACACAAAAGGAACACA Salacca_rupicola CGCCGCTCGCGACG-TCGCCA-GAAGTCCACT-GAACCTTATCATT-AGAGGAAGGAGAAGTCGTA----ACAAG-GTTTCCGTAGGTGAACCTGCG-GAA-GGATCATTGCCGAGA---CCC--GAGGAGGCAAG---ACCCGCG-AACACGTGAACGCGTCTCCGGCGCCATCTATCGGCCCTC-GGC-----------ACCGCCGAG---ACCGTCGGACTTGGGGCGTTGGGAGG--ACC-GGAAC--CGGCGC----GGA-AGGCGCCAA-GGAACGTTG-AGCG-CGGACACTG---TACGACTCTCGGCAACGGAT-ATCTCGGCTCTCGCATCGACG------------AAGAACGTAGCGAAA-TGCGATACGTGGTGTGAATTGCAGAATC-CCGCGA-ACCACCGAGTCTT-TGAA-CGCAAGTTGCGCCCGAGG--CCATCCGGCCGAGGGCAC-GCCT-GCCTGGGCG------------------TCACGCCAA-GCGGCGCTCCTGTTCCCC---CTGTTCCAGATTGTCGGACGCGGAGGATGGCCCCCTGCGCCGAAGGC--GCGTGGCGTGCC-----GAAGTTTGGTCCGCAGGC-GGGGCGGGCACGGCGGGTGGTGGAGTGT--CCCGCGATCCCGTCGCCGTGCCTTCGGACCCCG--GCCTG---CTGG---GCCCTCGATGGACGAGATGACTAACGTACCCGTAAATCAATCAACGACAATATATACGAAGTCCCGGATCGATGAGGGCCACCCTCCGCTGCGATTCTC-TAATACCTTAGCCAAACAAAAAAACACACACAAACACACCAACCACCCCCCCCACACAACCACACACAAAAGGAACACA ; END; BEGIN SETS; CHARSET its (CHARACTERS = Baker2.nex) = 1-702; CHARSET morphology (CHARACTERS = Baker2.nex) = 809-874; CHARSET rps16 (CHARACTERS = Baker2.nex) = 703-808; END; BEGIN CHARACTERS; [! TreeBASE Matrix URI: http://purl.org/phylo/treebase/phylows/matrix/TB2:M2211] TITLE Baker1.nex; LINK TAXA = Taxa2; DIMENSIONS NCHAR=66; FORMAT DATATYPE=Standard SYMBOLS= "0 1 2 3 4 5" MISSING=? GAP= -; CHARSTATELABELS 1 Aerial_branching / absent present, 2 Dichotomous_branching / absent present, 3 Internode_length / extremely_short moderate elongate, 4 Lamina_splitting / adaxial abaxial, 5 Lamina_division / pinnate palmate, 6 Leaflet_margin / entire praemorse, 7 Cirrus_with_acanthophylls / absent present, 8 Cirrus_without_acanthophylls / absent present, 9 Subcirrus / absent present, 10 Flagellum / absent present, 11 Knee / absent present, 12 Rachis_and_cirrus_spines / absent present, 13 Spine_modification / simple 'grapnel-like', 14 Spine_organisation / not_organised organised, 15 Root_spines / absent present, 16 Reproductive_strategy / hapaxanthic pleonanthic, 17 Inflorescence_adnation / free adnate_internode adnate_internode_sheath, 18 Inflorescence_capturing / not_captured captured, 19 Rachis_bract_shape / tubular incomplete, 20 Primary_bract_armature / unarmed armed, 21 Primary_bract_persistence / persistent caducous, 22 Prophyll_splitting / apical abaxial_or_adaxial lateral, 23 Prophyll$rachis_ratio / prophyll_shorter_than_rachis prophyll_exceeding_rachis, 24 Adnation_of_first_order_branch / free adnate_to_rachis_above_bract, 25 Bract_subtending_rachilla / shorter_than_rachilla exceeding_rachilla, 26 Rachilla_stalk / absent present, 27 Rachilla_bract / tubular incomplete, 28 Proximal_rachilla_bracts / empty subtending_flower_cluster, 29 Distal_rachilla_bracts / empty subtending_flower_cluster, 30 Rachilla_bract_arrangement / 'distichous (including subdistic' spiral distichous_and_spiral, 31 Rachilla_bract_fusion / free connate_laterally, 32 Pedicelliform_involucrophore / absent present, 33 Floral_bracteole_abaxial_surfac / glabrous hairy, 34 Flower_cluster / strictly_solitary dyad triad complex, 35 Dioecy / absent present, 36 Terminal_flower_in_pistillate_a / absent present, 37 Terminal_flower_in_pistillate_a / fertile sterile, 38 Terminal_flower / hermaphrodite male female, 39 Lateral_flower_in_staminate_and / absent present, 40 Lateral_flower / hermaphrodite unisexual, 41 Fertile_staminate_and_pistillat / not_in_single_rachilla in_single_rachilla, 42 Perianth_differentiation / tepals sepals_and_petals, 43 Flower_opening / congenitally_closed congenitally_open, 44 Stamen_number / 3 6 '>6', 45 Anther_attachment / 'medifixed (including basifixed)' dorsifixed, 46 Anther_dehiscence / latrorse introrse extrorse, 47 Stigmas / pyramidal divergent, 48 Gynoecium / apocarpous syncarpous, 49 Ovary_locule_partitioning / incomplete complete, 50 Ovule_orientation / not_twisted twisted_on_funicle, 51 Ovule_form / anatropous hemianatropous, 52 Epicarp_scales / absent present, 53 Endocarp / absent 'present (inner carpel wall)' 'present (mid-fruit layer)', 54 Sarcotesta / absent present, 55 Knob_on_seed_apex / absent present, 56 Endosperm / homogeneous ruminate, 57 Embryo_position / basal lateral, 58 Germination / adjacent_ligular remote_ligular, 59 Aperture_number / 0 1 2 3, 60 Aperture_position / polar subequatorial equatorial meridional, 61 Aperture_type / sulcate extended_sulcate porate trichotomosulcate incomplete_zonosulcate zonosulcate, 62 Symmetry / symmetric assymetric, 63 Shape / spheroidal ellipsoidal oblate_spheroidal oblate_rounded_triangular, 64 Tectum / 'tectate (including semitectate)' intectate, 65 Supratectate_processes / absent present, 66 Intectate_processes / absent present, ; MATRIX [ 10 20 30 40 50 60 ] [ . . . . . . ] Asterogyne_martiana 00{01}100000000--010010010000111100020-----11020111101010000010011000 Calamus_hollrungii 002100010011100120000001000110000111110101011011010101010022001000 Calamus_ornatus 0021000011111101200100010001100001111101010210110101010100220010?0 Calamus_warburgii 0021000100111101200100010101100001111101010110110101010000220010?0 Calospatha_scortechinii 002100001011110120010101000110000111110101011011010101000022001000 Ceratolobus_concolor 0021010100111101200{01}0211000110000111110101011011010101010022001000 Ceroxylon_quindiuense 001100000000--010010000?00111100001-----01120011101010001010001000 Daemonorops_didymophylla 002100010011110120011101000110010111110101011011010101010022001000 Daemonorops_fissa 002100010011110120010111000110010111110101011011010101010022001010 Eleiodoxa_conferta 00010000000101000000010001100110111111110101001101010100{01}021201000 Eremospatha_wendlandiana 0021011000011001?0100-01001100000101001001010001010100001010101000 Eugeissona_utilis 001100000001001010000001000001000101011001020001010120000110101000 Kerriodoxa_elegans 00{01}010000000--010000010100011100001-----01010011100010010110001000 Korthalsia_cheb 102101010001110010000001011001101100--1001010001010100011022?0?101 Laccosperma_acutiflorum 002100100001100000000000000010000101001001010001010100001010001000 Lepidocaryum_tenue 001110000000--0100000001000110000110-10101010001010100101010000101 Mauritia_flexuosa 001110000000--0100000000000102000110-11101010001010100100010000101 Mauritiella_armata 001110000000--1100000001000102000110-10101010001010100100010200101 Metroxylon_sagu 00110000000101001000000?011001101101011001011001010101000021001000 Metroxylon_salomonense 00110000000101001000000?011001101101011001011001010101000022001000 Myrialepis_paradoxa 002100010001110010000001000110000110-10101010101010101000022001000 Nypa_fruticans 011100000000--0100000101001?0100000-----001002-0-00010000013500010 Oncocalamus_mannii 00210010000100010000000000000000030102111101000101?100001?10001010 Pigafetta_elata 001100000001010100000001011011001110-1110101001101010100100--00000 Plectocomia_mulleri 002100010001110010000001101112000110-11101010001010101000022001000 Plectocomiopsis_geminiflora 002100010001110010000001000110000110-10101010101010101000022001101 Pogonotium_ursinum 002100000011110120010111000110000111110101011011010101000011201000 Raphia_farinifera 001100000000--0000000000000000000101011111010001010100011010001000 Retispatha_dumetosa 002100000001110120010101100110000110-10101011011010101000022001010 Salacca_glabrescens 000100000001010101000101011001100111111101010011010101000022001010 Salacca_ramosiana 000100000001010101000101101001101110-11101010011010101000022001010 ; END; BEGIN TREES; TITLE Tb5613; LINK TAXA = Taxa1; TRANSLATE 1 Eugeissona_tristis, 2 Eugeissona_utilis, 3 Laccosperma_acutiflorum, 4 Laccosperma_opacum, 5 Oncocalamus_mannii, 6 Eremospatha_wendlandiana, 7 Raphia_farinifera, 8 Lepidocaryum_tenue, 9 Mauritia_flexuosa, 10 Mauritiella_armata, 11 Kerriodoxa_elegans, 12 Ceroxylon_quindiuense, 13 Asterogyne_martiana, 14 Calamus_castaneus, 15 Calamus_conirostris, 16 Calamus_deerratus, 17 Calamus_hollrungii, 18 Calamus_nanodendron, 19 Calamus_thysanolepis, 20 Calospatha_scortechinii, 21 Ceratolobus_concolor, 22 Daemonorops_didymophylla, 23 Daemonorops_fissa, 24 Pogonotium_ursinum, 25 Retispatha_dumetosa, 26 Myrialepis_paradoxa, 27 Plectocomia_elongata, 28 Plectocomia_mulleri, 29 Plectocomiopsis_geminiflora, 30 Eleiodoxa_conferta, 31 Salacca_glabrescens, 32 Salacca_ramosiana, 33 Salacca_rupicola, 34 Korthalsia_cheb, 35 Metroxylon_sagu, 36 Metroxylon_salomonense, 37 Pigafetta_elata, 38 Pigafetta_filaris; TREE Fig._2 = [&R] (12,((11,13),((1,2),((5,(6,(3,4))),(7,(8,(9,10))),((34,(35,36),(37,38),(30,(32,(31,33)))),(((26,29),(27,28)),((14,19),((16,(17,18)),((24,25),((15,20),(22,(21,23))))))))))Calamoideae))Arecaceae; TREE Fig._3 = [&R] (12,((11,13),((1,2),(((5,(6,(3,4))),(7,(8,(9,10)))),(((34,(35,36)),((37,38),(30,(32,(31,33))))),(((26,29),(27,28)),((14,19),((16,(17,18)),((24,25),((15,20),(22,(21,23))))))))))Calamoideae))Arecaceae; END; BEGIN TREES; TITLE Tb5615; LINK TAXA = Taxa3; TRANSLATE 1 Calamus_castaneus, 2 Calamus_conirostris, 3 Calamus_deerratus, 4 Calamus_hollrungii, 5 Calamus_nanodendron, 6 Calamus_thysanolepis, 7 Calospatha_scortechinii, 8 Ceratolobus_concolor, 9 Daemonorops_didymophylla, 10 Daemonorops_fissa, 11 Pogonotium_ursinum, 12 Retispatha_dumetosa, 13 Myrialepis_paradoxa, 14 Plectocomia_elongata, 15 Plectocomia_mulleri, 16 Plectocomiopsis_geminiflora, 17 Eleiodoxa_conferta, 18 Salacca_glabrescens, 19 Salacca_ramosiana, 20 Salacca_rupicola, 21 Korthalsia_cheb, 22 Metroxylon_sagu, 23 Metroxylon_salomonense, 24 Pigafetta_elata, 25 Pigafetta_filaris, 26 Eugeissona_tristis, 27 Eugeissona_utilis, 28 Laccosperma_acutiflorum, 29 Laccosperma_opacum, 30 Oncocalamus_mannii, 31 Eremospatha_wendlandiana, 32 Raphia_farinifera, 33 Lepidocaryum_tenue, 34 Mauritia_flexuosa, 35 Mauritiella_armata, 36 Kerriodoxa_elegans, 37 Ceroxylon_quindiuense, 38 Asterogyne_martiana; TREE Fig._2 = [&R] (37,((36,38),((26,27),((30,(31,(28,29))),(32,(33,(34,35))),((21,(22,23),(24,25),(17,(19,(18,20)))),(((13,16),(14,15)),((1,6),((3,(4,5)),((11,12),((2,7),(9,(8,10)))))))))))); TREE Fig._3 = [&R] (37,((36,38),((26,27),(((30,(31,(28,29))),(32,(33,(34,35)))),(((21,(22,23)),((24,25),(17,(19,(18,20))))),(((13,16),(14,15)),((1,6),((3,(4,5)),((11,12),((2,7),(9,(8,10)))))))))))); END; BEGIN TREES; TITLE Tb5612; LINK TAXA = Taxa1; TRANSLATE 1 Eugeissona_tristis, 2 Eugeissona_utilis, 3 Laccosperma_acutiflorum, 4 Laccosperma_opacum, 5 Oncocalamus_mannii, 6 Eremospatha_wendlandiana, 7 Raphia_farinifera, 8 Lepidocaryum_tenue, 9 Mauritia_flexuosa, 10 Mauritiella_armata, 11 Kerriodoxa_elegans, 12 Ceroxylon_quindiuense, 13 Asterogyne_martiana, 14 Calamus_castaneus, 15 Calamus_conirostris, 16 Calamus_deerratus, 17 Calamus_hollrungii, 18 Calamus_nanodendron, 19 Calamus_thysanolepis, 20 Calospatha_scortechinii, 21 Ceratolobus_concolor, 22 Daemonorops_didymophylla, 23 Daemonorops_fissa, 24 Pogonotium_ursinum, 25 Retispatha_dumetosa, 26 Myrialepis_paradoxa, 27 Plectocomia_elongata, 28 Plectocomia_mulleri, 29 Plectocomiopsis_geminiflora, 30 Eleiodoxa_conferta, 31 Salacca_glabrescens, 32 Salacca_ramosiana, 33 Salacca_rupicola, 34 Korthalsia_cheb, 35 Metroxylon_sagu, 36 Metroxylon_salomonense, 37 Pigafetta_elata, 38 Pigafetta_filaris; TREE Fig._4 = [&R] (12,((11,13),((1,2),(((5,(6,(3,4))),(7,(8,(9,10)))),((30,(32,(31,33))),((37,38),((34,(35,36)),(((26,29),(27,28)),((14,19),(25,((16,(17,18)),((15,20),(22,(23,(21,24)))))))))))))Calamoideae))Arecaceae; END; BEGIN TREES; TITLE Tb5614; LINK TAXA = Taxa2; TRANSLATE 1 Laccosperma_acutiflorum, 2 Eremospatha_wendlandiana, 3 Oncocalamus_mannii, 4 Eugeissona_utilis, 5 Metroxylon_salomonense, 6 Metroxylon_sagu, 7 Korthalsia_cheb, 8 Eleiodoxa_conferta, 9 Salacca_ramosiana, 10 Salacca_glabrescens, 11 Daemonorops_fissa, 12 Daemonorops_didymophylla, 13 Calamus_hollrungii, 14 Calamus_ornatus, 15 Calamus_warburgii, 16 Calospatha_scortechinii, 17 Pogonotium_ursinum, 18 Ceratolobus_concolor, 19 Retispatha_dumetosa, 20 Myrialepis_paradoxa, 21 Plectocomiopsis_geminiflora, 22 Plectocomia_mulleri, 23 Pigafetta_elata, 24 Raphia_farinifera, 25 Mauritia_flexuosa, 26 Mauritiella_armata, 27 Lepidocaryum_tenue, 28 Nypa_fruticans, 29 Kerriodoxa_elegans, 30 Ceroxylon_quindiuense, 31 Asterogyne_martiana; TREE Fig._1 = [&R] (28,((29,(30,31)),((27,(25,26)),(24,((3,(1,2)),(4,(7,((5,6),((8,(9,10)),(23,(22,((20,21),(13,(15,((14,16),19,(17,(18,(11,12))))))))))))))))Calamoideae))Arecaceae; END;