<scp>IAPT</scp> chromosome data 40

KM, https://orcid.org/0000-0002-7658-0844; JK, https://orcid.org/0000-0002-9983-7630; FPA, https://orcid.org/0000-0002-5006-4833; DA, https://orcid.org/0000-0003-3751-047X; EMA, https://orcid.org/0000-0001-8033-5334; WSA, https://orcid.org/0000-0001-7443-6008; MFA, https://orcid.org/0000-0002-9612-6614; CMB, https://orcid.org/0000-0001-9546-5721; IAB, https://orcid.org/0009-0006-7941-0417; AFSB, https://orcid.org/0000-0002-5641-024X; EPC, https://orcid.org/0000-0001-6972-3555; AGTC, https://orcid.org/0000-0002-8948-7817; DSC-T, https://orcid.org/0000-0002-4561-8811; LCC, https://orcid.org/0000-0002-2105-9859; MANC, https://orcid.org/0000-0003-1039-6777; JMPC, https://orcid.org/0000-0001-9833-0822; PC-M, https://orcid.org/0009-0008-4154-0368; JGD, https://orcid.org/0000-0002-2724-9346; ZDL, https://orcid.org/0000-0002-5277-9082; JE, https://orcid.org/0000-0002-4999-1883; LPF, https://orcid.org/0000-0001-9202-9828; JF, https://orcid.org/0009-0005-4241-3123; PGM, https://orcid.org/0000-0002-8331-4771; GPG, https://orcid.org/0009-0009-8691-5714; FG, https://orcid.org/0000-0003-1971-0558; AG, https://orcid.org/0000-0001-5355-9666; CG, https://orcid.org/0000-0002-3414-7989; PJ-M, https://orcid.org/0000-0003-2815-4477; EK-S, https://orcid.org/0000-0002-0002-0234; HK, https://orcid.org/0009-0002-5724-2695; SK, https://orcid.org/0000-0002-8919-1856; IJL, https://orcid.org/0000-0002-3837-8186; TKPL, https://orcid.org/0000-0002-8830-8450; FM, https://orcid.org/0009-0006-4772-0576; JIM-C, https://orcid.org/0000-0003-4277-2933; SM-B, https://orcid.org/0000-0003-0626-0770; JAM, https://orcid.org/0000-0001-6393-6496; AMM, https://orcid.org/0009-0001-7985-103X; SM, https://orcid.org/0000-0001-7828-0629; PM-S, https://orcid.org/0009-0001-7070-4121; RGSN, https://orcid.org/0000-0002-7133-4994; SN, https://orcid.org/0009-0001-7200-7493; FN, https://orcid.org/0000-0002-1362-685X; PN, https://orcid.org/0000-0003-2108-9449; RCO, https://orcid.org/0000-0001-7891-2630; JP, https://orcid.org/0000-0001-7632-9775; DNP, https://orcid.org/0000-0002-0760-4128; DSBP, https://orcid.org/0000-0001-8559-7894; PR, https://orcid.org/0000-0003-0698-2757; PAR, https://orcid.org/0009-0004-4982-0269; AROR, https://orcid.org/0000-0002-0085-3113; GR, https://orcid.org/0000-0003-2167-6774; ASS, https://orcid.org/0000-0003-1061-9504; AMSS, https://orcid.org/0000-0001-8765-8291; MS-A, https://orcid.org/0000-0003-0651-243X; GMS, https://orcid.org/0000-0003-4266-4422; ASS, https://orcid.org/0000-0001-8023-4963; RSS, https://orcid.org/0000-0003-1838-6362; ADS, https://orcid.org/0000-0002-9177-9384; GLS, https://orcid.org/0000-0003-1728-4006; GS, https://orcid.org/0000-0002-5700-6097; TTS-C, https://orcid.org/0000-0002-1818-8748; EMS-A, https://orcid.org/0000-0003-1733-7315; LOT, https://orcid.org/0009-0003-0530-7888; LT, https://orcid.org/0000-0002-4235-5382; ST, https://orcid.org/0000-0002-3785-0434; ET, https://orcid.org/0009-0001-3779-214X; CT, https://orcid.org/0000-0002-0562-7027; ATV, https://orcid.org/0000-0003-3366-5001; LFAV, https://orcid.org/0000-0002-7947-7498 *Address for correspondence: [email protected] This study was supported by CNPq (Conselho Nacional de Desenvolvimento Científico e Tecnológico, Brazil – grants no. 130071/2022-6 and 131999/2021-4), CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível Superior, Brazil – grant no. 88887.648978/2021-00) and FAPERGS (Fundação de Amparo à Pesquisa do Estado do Rio Grande do Sul, Brazil – grant no. 21/2551-0000780-0). We acknowledge Universidade Federal do Rio Grande do Sul and Universidade de Caxias do Sul for the support provided to this research. We acknowledge laboratory technician Pedro Erê Disconzi Brum for his help in handling the cytometer to obtain genome size data for this work. We would also like to thank colleagues Fernando Fernandes de Oliveira Neto, Gustavo Pedroso de Moraes, Guilherme Pecoits Goldstein and Taciane Schroder Jorge for the support and assistance in the analyses performed. All materials CHN; all records from Brazil; all vouchers in HUCS. Hymenophyllum asplenioides (Sw.) Sw., n = 36; Rio Grande do Sul, F. Gonzatti & F.P. Abreu 6844. Hymenophyllum fucoides (Sw.) Sw., n = 56; Paraná, F. Gonzatti, F.P. Abreu & I.A. Bahima 7244. Hymenophyllum magellanicum (Desv.) Willd. ex Kunze, n = 27; Paraná, F. Gonzatti, F.P. Abreu & I.A. Bahima 7250; Rio Grande do Sul, F. Gonzatti & F.P. Abreu 6845; Santa Catarina, F. Gonzatti, F.P. Abreu & P.L. Casa 6996. Hymenophyllum megachilum C.Presl, n = 13; Rio Grande do Sul, F. Gonzatti & F.P. Abreu 6846; Santa Catarina, F. Gonzatti & F.P. Abreu 6992. *Address for correspondence: [email protected] This study was funded by projects Flora of Chile, Flora of Biobio Region, University of Concepcion, Chile, and Institute of Ecology and Biodiversity (IEB), ANID/BASAL FB210006, Chile. All materials CHN. Alstroemeria piperata A.R.Flores & J.M.Watson, 2n = 16; Chile, Valparaiso Region, G. Rojas 2590 (SGO). Alstroemeria pulchra var. maxima Phil., 2n = 16; Chile, Valparaiso Region, N. Villalobos 1911 (CONC). Miersia chilensis Lindl., 2n = 22; Chile, O'Higgins Region, I. Escobar 74 (CONC). Phycella australis Ravenna, 2n = 16; Chile, Biobio Region, C. Baeza & E. Thielemann 4436 (CONC). Rhodolirium montanum Phil., 2n = 16; Argentina, Córdoba Province, 24 Feb 2023, J. Espejo s.n. (CONC). Zephyranthes maculata (L'Hér.) Nic.García, 2n = 18; Chile, Biobio Region, C. Baeza 4439 (CONC). Zephyranthes monantha (Ravenna) Nic.García, 2n = 18; Chile, Biobio Region, C. Baeza 4435 (CONC). Zephyranthes aff. splendens (Renjifo) Nic.García, 2n = 18; Chile, Biobio Region, C. Baeza 4447a (CONC). Zephyranthes splendens (Renjifo) Nic.García, 2n = 18; Chile, Biobio Region, C. Baeza 4435 (CONC). Agoseris coronopifolia (d'Urv.) K.L.Chambers, 2n = 18; Chile, Biobio Region, C. Baeza 4463 (CONC); Chile, Metropolitana Region, S. Teillier & al. 8626 (CONC). Chaetanthera microphylla (Cass.) Hook. & Arn., 2n = 24; Chile, Biobio Region, C. Baeza 4439a (CONC). Chaetanthera moenchioides Less., 2n = 26; Chile, Biobio Region, C. Baeza 4447 (CONC). Crepis capillaris (L.) Wallr., 2n = 6; Chile, Biobio Region, C. Baeza 4459 (CONC). Crepis pulchra L., 2n = 8; Chile, Biobio Region, S. Teillier & al. 8642 (CONC). Haplopappus bustillosianus J.Rémy, 2n = 10; Chile, Biobio Region, S. Teillier & al. 8643 (CONC). Haplopappus glutinosus Cass., 2n = 10; Chile, Biobio Region, S. Teillier & al. 8644 (CONC). Haplopappus paucidentatus Phil., 2n = 10; Chile, Biobio Region, S. Teillier & al. 8645 (CONC). Hieracium glaucifolium Poepp. ex Froel., 2n = 18; Chile, Biobio Region, C. Baeza 4455a (CONC). Hypochaeris acaulis (J.Rémy) Britton, 2n = 8; 2n = 16; Chile, Biobio Region, C. Baeza 4464a (CONC). Hypochaeris apargioides Hook. & Arn., 2n = 8; Chile, Biobio Region, C. Baeza 4444a, 4459a (CONC). Hypochaeris clarionoides (J.Rémy) Reiche, 2n = 8; Chile, Metropolitana Region, 15 Jan 2023, J. Espejo s.n. (CONC). Hypochaeris gayana (DC.) Cabrera, 2n = 8; Chile, Biobio Region, C. Baeza 4458 (CONC). Hypochaeris glabra L., 2n = 10; Chile, Biobio Region, C. Baeza 4444b (CONC). Hypochaeris radicata L., 2n = 8; Chile, Biobio Region, C. Baeza & al. 4469 (CONC). Hypochaeris scorzonerae (DC.) F.Muell., 2n = 8; Chile, Valparaíso Region, 22 Mar 2023, P. Novoa s.n. (CONC). Lactuca serriola L., 2n = 18; Chile, Biobio Region, C. Baeza 4455 (CONC). Leontodon hirtus L., 2n = 8; Chile, Valparaiso Region, 18 Apr 2022, P. Novoa s.n. (CONC). Leontodon saxatilis Lam., 2n = 8; Chile, Biobio Region, 15 Jan 2021, C. Baeza s.n. (CONC). Noticastrum antucense Phil., 2n = 8; Chile, Biobio Region, C. Baeza 4465 (CONC). Notopappus prunelloides (Poepp. ex Less.) Klingenb., 2n = 12; Chile, Biobio Region, C. Baeza 4460 (CONC). Picris echioides L., 2n = 10; Chile, Biobio Region, C. Baeza 4457 (CONC). Lathyrus magellanicus Lam., 2n = 14; Chile, Biobio Region, S. Teillier & al. 8646 (CONC). Azara serrata Ruiz & Pav. var. serrata, 2n = 18; Chile, Biobio Region, 20 Jan 2022, C. Baeza s.n. (CONC). *Address for correspondence: [email protected] This study was supported by research projects CGL2010-16512 and PGC2018-099608-B-100 (REPROGRAD) of the Spanish Ministry of Science and Innovation. All materials CHN. Narcissus cuatrecasasii Fern.Casas, M.Laínz & Ruiz Rejón, 2n = 14; Spain, Mejías s.n. (SEV 289807). Muscari armeniacum Leichtlin ex Baker, 2n = 18; Turkey, Mejías & Sánchez s.n. (SEV 256836); Turkey, Mejías & Sánchez s.n. (SEV 256837). Sonchus fragilis Ball, 2n = 18; Morocco, Ajbilou, Arroyo, Marañón & Mejías s.n. (SEV 215728, SEV 217382). Sonchus masguindalii Pau & Font Quer, 2n = 18, n = 9; Morocco, Arroyo & Mejías s.n. (SEV 215733, SEV 217381). Sonchus nymanii Tineo & Guss., 2n = 18; Italy, Sicily, Lim, Mejías & Silva IT27/11 (SEV 284705), Lim, Mejías & Silva IT22/11 (SEV 284703). Sonchus pustulatus Willk., 2n = 18; Morocco, Mejías s.n. (SEV 217476, SEV 217476). *Address for correspondence: [email protected] The study was supported by financial grant under JRF programme of CSIR providing Junior Research Fellowship financial assistance to Poonam Rani under scheme of CSIR (award letter no. 09/140(0161)/2016-EMR-I). All materials CHN; collectors: FM = Farhana Majid, HK = Hardeesh Kaur, PR = Poonam Rani, SK = Satinder Kaur. Mammillaria carnea Zucc. ex Pfeiff., n = 11; India, Haryana, Panchkula, HK s.n. (PUN 39015). Mammillaria magnimamma Haw., n = 11; India, Haryana, Panchkula, HK s.n. (PUN 39065); India, Punjab, Jalandhar, HK s.n. (PUN 39066). Murdannia nudiflora (L.) Brenan., n = 10 India, PR s.n. (PUN n = India, PR s.n. (PUN n = 14; India, Punjab, PR s.n. (PUN L., n = 12; India, and FM s.n. (PUN L., n = 16; India, and FM s.n. (PUN n = 16; India, and FM s.n. (PUN n = India, SK s.n. (PUN *Address for correspondence: [email protected] This research was supported by CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível Superior, Brazil – grant CNPq (Conselho Nacional de Desenvolvimento Científico e Tecnológico, Brazil – grant 130071/2022-6 and and FAPERGS (Fundação de Amparo à Pesquisa do Estado do Rio Grande do Sul, Brazil – grant 21/2551-0000780-0). We acknowledge laboratory technician Pedro Erê Disconzi Brum for his help in handling of the cytometer to obtain genome size data of this work. All materials CHN. & 2n = 14; Rio Grande do Sul, & & 2n = 14; Rio Grande do Sul, & C. Rio Grande do Sul, C. & Santa Catarina, C. & & 2n = = Rio Grande do Sul, J. & Ravenna, 2n = 14; Rio Grande do Sul, C. Silva & G. Pecoits Rio Grande do Sul, C. & Rio Grande do Sul, & C. & 2n = 14; Rio Grande do Sul, C. & 2n = 14; Santa Catarina, C. & 2n = 14; Rio Grande do Sul, J. & 2n = 14; Rio Grande do Sul, J. & & & ex 2n = 14; Rio Grande do Sul, & Rio Grande do Sul, & Oliveira Rio Grande do Sul, C. & Rio Grande do Sul, do Sul, & aff. Ravenna, 2n = 14; Santa Catarina, C. & s.n. Ravenna, 2n = 12; Rio Grande do Sul, & Ravenna, 2n = 14; Rio Grande do Sul, & de *Address for correspondence: [email protected] support from CNPq (Conselho Nacional de Desenvolvimento Científico e and CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível All materials CHN; collectors: = = Neto, = = S. vouchers in de ex 2n = 36; & 2n = & 2n = ex & 2n = & 2n = 2n = 2n = 2n = 2n = & 2n = 2n = 2n = 2n = 2n = 2n = 2n = 24; *Address for correspondence: [email protected] This study was supported by the Research to also was by the the and and the Ministry of under the grants for the of the Spanish by the de The was funded by to P. and S. by the Spanish Ministry of Science and The thank P. G. and Baeza for support the and of de the S. help the of to and for support the of the The would also like to thank the of Ministry of for to the All materials collectors: = = = P. = P. = S. Ruiz & = = Chile, & & = = Chile, & al. = = Chile, & al. & = = Chile, & al. = = Chile, & al. = = Chile, & = = Chile, & = = Chile, & = = Chile, & (CONC). = = Chile, & al. Phil., = = Chile, & al. & = = Chile, & al. (CONC). = = Chile, & = = Chile, & al. = = Chile, & al. & = = Chile, & al. = = Chile, & al. = = Chile, & = = Chile, & (DC.) = = Chile, & = = Chile, & = = Chile, & chilensis & = = Chile, & al. & = = Chile, & & = = Chile, & *Address for correspondence: [email protected] to CNPq (Conselho Nacional de Desenvolvimento Científico e and CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível for financial and Nacional do for All materials CHN; vouchers in de L., 2n = 2n = L., 2n = 2n = 2n = 2n = 2n = 26; 2n = 2n = 18; 2n = 2n = 2n = L., 2n = & 2n = 22; 2n = 2n = 22; (Sw.) 2n = Rio Grande do L., 2n = & 2n = L., 2n = 24; L., 2n = 2n = 24; 2n = & 2n = ex 2n = 36; *Address for correspondence: [email protected] support from de Aperfeiçoamento de Pessoal de Nível Nacional de Desenvolvimento Científico e the research and de Amparo à Pesquisa do and All materials CHN; vouchers in 2n = Oliveira & Silva Oliveira & Silva 2n = 16; 2n = & Oliveira & 2n = 8; Oliveira & al. 2n = 24; 2n = 26; & I.A. & 2n = 24; & 2n = Oliveira & al. & 2n = & *Address for correspondence: [email protected] support from CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível CNPq (Conselho Nacional de Desenvolvimento Científico e and Nacional do All materials CHN; vouchers in de 2n = 2n = 2n = 2n = 2n = L., 2n = 16; 2n = 2n = 2n = hirtus 2n = 16; 2n = & 2n = 2n = 2n = 18; 2n = 2n = 22; 2n = 2n = ex 2n = Lam., 2n = 2n = Lam., 2n = *Address for correspondence: [email protected] The to de Amparo à Pesquisa do Estado do no. for financial and also to Nacional de Desenvolvimento Científico e no. and de Aperfeiçoamento de Pessoal de Nível no. for All CHN. ex 2n = 22; de *Address for correspondence: [email protected] We thank the Universidade Federal de for providing the for the of and the of the the and of the for and assistance the and of the the for to this and the de Aperfeiçoamento de Pessoal de Nível for the to the All materials CHN; in 2n = n = 11; & al. s.n. & al. s.n. n = 11; & al. s.n. 2n = n = 11; & al. s.n. & al. s.n. n = 12; & al. s.n. 2n = 24; & al. s.n. *Address for correspondence: [email protected] This research was supported by and from CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível – was also supported by FAPERGS and CNPq and and CAPES for the for and for grants CAPES for FAPERGS and for We acknowledge the of and in We also to the laboratory technician for help in of for All materials CHN. = & = & = & = E. & = C. & = & I. = & = & = & in & 2n = 14; Rio Grande do Sul, aff. 2n = 14; Rio Grande do Sul, 2n = Rio Grande do Sul, 2n = 56; Rio Grande do Sul, 2n = Rio Grande do Sul, aff. Ravenna, 2n = 14; Rio Grande do Sul, Ravenna, 2n = Rio Grande do Sul, de S. de de de de S. Pedro P. Guilherme Pecoits Pedro Hardeesh Satinder J. Farhana de Silva do de N. de Poonam de Oliveira S. Gustavo & Science and Biodiversity Institute of of of de de e Universidade Federal do Rio Grande do Sul, Brazil de (IEB), Universidade Federal de de de Brazil Universidade Federal de de de e Brazil Universidade Federal de de e de Brazil de de de de de Universidade Federal do Rio Grande do Sul, Brazil 10 Nacional de de e Universidade Federal de de Universidade de Universidade de de de Brazil de do Rio de do 22 Rio de Rio de Brazil 15 Universidade Federal de e de Brazil of and of University of de de Universidade Federal do Rio Grande do Sul, Brazil 18 de e de de Universidade de Caxias do Sul, Universidade de Caxias do Sul – Caxias do Sul, Brazil 20 of Punjab, 22 de de de Universidade Federal de de de e Brazil 24 de de de de de de Chile, de de Universidade Federal do de Universidade de de Universidade Federal do do de de Universidade Federal do de Universidade Federal de de e de Universidade Federal de de de Universidade Federal do Rio Grande do Sul, Brazil Research and of Province, de de Chile, de (IEB), de e Universidade Federal de *Address for correspondence: [email protected] This study was supported by CNPq (Conselho Nacional de Desenvolvimento Científico e Tecnológico, Brazil – grants no. 130071/2022-6 and 131999/2021-4), CAPES (Coordenação de Aperfeiçoamento de Pessoal de Nível Superior, Brazil – grant no. 88887.648978/2021-00) and FAPERGS (Fundação de Amparo à Pesquisa do Estado do Rio Grande do Sul, Brazil – grant no. 21/2551-0000780-0). We acknowledge Universidade Federal do Rio Grande do Sul and Universidade de Caxias do Sul for the support provided to this research. We acknowledge laboratory technician Pedro Erê Disconzi Brum for his help in handling the cytometer to obtain genome size data for this work. We would also like to thank colleagues Fernando Fernandes de Oliveira Neto, Gustavo Pedroso de Moraes, Guilherme Pecoits Goldstein and Taciane Schroder Jorge for the support and assistance in the analyses performed. for the from of the of the asplenioides (Sw.) n = 36; CHN. Rio Grande do Sul, do Sul, 2022, F. Gonzatti & F.P. Abreu fucoides (Sw.) n = 56; CHN. Paraná, Grande do Sul, Apr 2023, F. Gonzatti, F.P. Abreu & I.A. Bahima magellanicum (Desv.) Willd. ex n = 27; CHN. Paraná, Grande do Sul, Apr 2023, F. Gonzatti, F.P. Abreu & I.A. Bahima Rio Grande do Sul, do Sul, 2022, F. Gonzatti & F.P. Abreu Santa Catarina, 18 Feb 2023, F. Gonzatti, F.P. Abreu & P.L. Casa megachilum n = 13; CHN. Rio Grande do Sul, do Sul, 2022, F. Gonzatti & F.P. Abreu Santa Catarina, 18 Feb 2023, F. Gonzatti & F.P. Abreu the in the in C.Presl, and the Hymenophyllum the 10 & in for & & ex & and & The data for the and of the & & data to and of and from the in this of this of in for 24 The was for the and of genome size the was to the by & al. & and & The & was in The was and and the & and genome size data was for Hymenophyllum This the for in from and of this study also the data for Hymenophyllum in the The genome in this research of the Hymenophyllum asplenioides and from to the of Brazil Gonzatti & The n = for asplenioides in by for from This to for the data in from this genome size of = also in for Hymenophyllum fucoides for from The for this was n = the for to genome fucoides = the genome size for the also the for the this the genome size was of = & Hymenophyllum magellanicum from of n = the for this This the for this from n = to n = for and in The genome size for magellanicum was = in genome size was the for this = We the for Hymenophyllum This to the and to The n = and the = in genome size was the = from the the (L.) Hymenophyllum megachilum and for analyses & the the by for fucoides = and megachilum = the and for Hymenophyllum & from the and J. G. to of G. – of of S. & S. of for of in & genome size by J. & J. of in & and of the in and J. S. & of & of genome in genome and Gonzatti, F. & Flora do Hymenophyllum Gonzatti, S. & Hymenophyllum Hymenophyllum in the and & in Hymenophyllum to the & The of in of Hymenophyllum and Hymenophyllum I. of and in the University for and J. P. & for genome size and of and of of the of do Rio Grande do for correspondence: [email protected] This study was funded by projects Flora of Flora of Biobio Region, University of Concepcion, Chile, and Institute of Ecology and Biodiversity (IEB), ANID/BASAL FB210006, for the piperata A.R.Flores & 2n = CHN. Chile, Valparaiso Region, 2022, G. Rojas 2590 Alstroemeria piperata to Chile, and & pulchra var. maxima 2n = CHN. Chile, Valparaiso Region, to N. Villalobos 1911 Alstroemeria pulchra and pulchra and pulchra The 2n = & Miersia chilensis 2n = CHN. Chile, O'Higgins Region, and Pedro de I. Escobar 74 by Escobar & al. for the 2n = this for this Phycella australis 2n = CHN. Chile, Biobio Region, 10 2022, C. Baeza & E. Thielemann 4436 for this the & Rhodolirium montanum 2n = CHN. Argentina, Córdoba Province, 24 Feb 2023, J. Espejo s.n. by & for this also in Zephyranthes maculata (L'Hér.) 2n = 18, CHN. Chile, Region, to 24 2022, C. Baeza 4439 Zephyranthes monantha (Ravenna) 2n = 18, CHN. Chile, Region, Santa 2022, C. Baeza 4435 Zephyranthes aff. splendens (Renjifo) 2n = 18, CHN. Chile, Region, of 2022, C. Baeza Zephyranthes splendens (Renjifo) 2n = 18, CHN. Chile, Region, 2022, C. Baeza 4435 Zephyranthes of for & All in this the and in the The in this in under the Agoseris coronopifolia (d'Urv.) 2n = 18, CHN. Chile, Biobio Region, from to Feb 2023, C. Baeza 4463 (CONC); Chile, Metropolitana Region, Province, S. Teillier & al. 8626 of from of this & this the for this Chaetanthera microphylla (Cass.) Hook. & 2n = CHN. Chile, Biobio Region, of in of the 24 2022, C. Baeza 4439a Chaetanthera moenchioides 2n = CHN. Chile, Region, Province, to 2022, Baeza 4447 for of in & Baeza & Crepis capillaris (L.) 2n = CHN. Chile, Region, Jan 2023, C. Baeza 4459 Crepis pulchra 2n = CHN. Chile, Region, Province, and 18 22 2022, S. Teillier s.n. 8642 Crepis all from the records of in in Haplopappus bustillosianus 2n = CHN. Chile, Region, Province, Jan 2023, S. Teillier & al. 8643 n = this the for this Haplopappus glutinosus 2n = CHN. Chile, Region, Province, Jan 2023, S. Teillier & al. 8644 by Baeza & of Haplopappus paucidentatus 2n = CHN. Chile, Region, Province, Jan 2023, S. Teillier & al. 8645 & al. the of this this the of this Hieracium glaucifolium Poepp. ex 2n = 18, CHN. Chile, Region, the Jan 2023, C. Baeza 4455a the for from Hypochaeris acaulis (J.Rémy) 2n = CHN. Chile, Region, from to Feb 2023, C. Baeza 4464a of this by & & Hypochaeris apargioides Hook. & 2n = CHN. Chile, Region, from to to Pedro 24 2022, C. Baeza (CONC); Chile, to Santa 20 Jan 2023, C. Baeza 4459a This and in & & & Hypochaeris clarionoides (J.Rémy) 2n = CHN. Chile, Valparaíso Region, 15 Jan 2023, J. Espejo s.n. by & al. for of the gayana (DC.) 2n = CHN. Chile, Region, Jan 2023, C. Baeza 4458 This and in and & Hypochaeris glabra 2n = CHN. Chile, Region, from to to Pedro 24 2022, C. Baeza 4444b for by Baeza & al. Hypochaeris radicata 2n = CHN. Chile, Region, Feb 2023, C. Baeza & al. 4469 by Baeza & al. Hypochaeris scorzonerae (DC.) 2n = CHN. Chile, to 22 Mar 2023, P. Novoa s.n. by & al. Lactuca serriola 2n = 18, CHN. Chile, Region, Jan 2023, C. Baeza 4455 and of this in This the for in Leontodon hirtus 2n = CHN. Chile, Valparaíso Region, 20 18 Apr 2022, P. Novoa s.n. in for this from & and 2n = 22 2n = This 2n = for this Leontodon saxatilis 2n = CHN. Chile, Region, to Santa 15 Jan 2021, C. Baeza s.n. by & and & This the for antucense 2n = 18, CHN. Chile, Region, Feb 2023, C. Baeza 4465 Notopappus prunelloides (Poepp. ex Less.) 2n = CHN. Chile, Region, Feb 2023, C. Baeza 4460 by Baeza & prunelloides (Poepp. ex Less.) & Picris echioides 2n = CHN. Chile, Region, Jan 2023, C. Baeza 4457 for and This the for Lathyrus magellanicus 2n = CHN. Chile, Region, Jan 2023, S. Teillier & al. 8646 by and & serrata Ruiz & Pav. var. serrata 2n = 18, CHN. Chile, Region, to Santa 20 20 Jan 2022, C. Baeza s.n. = for Azara serrata var. & & to the from in and in and of for 24 in for in the and of for 24 from 20 in the was & C. Chile. C. & in Haplopappus and Willd. by & de Hypochaeris de Chile. J. & Chile. I. & Chile. S. & in of Hypochaeris apargioides Hook. & from Chile. E. & de Phycella australis & of Chaetanthera moenchioides by in E. & P. de Ravenna, Phycella C. de Chile. L., P. & N. de Alstroemeria pulchra de Chile. & in J. of Chaetanthera Ruiz & and the of Poepp. & E. & C. in of from Chile. P. & de de F. and of the P. & of P. to C. & & G. the Leontodon P. & F. of C. & of G. à de G. & from the of the J. J. & and in of Lathyrus J. & from the of the C. & of Hypochaeris & C. of I. J. & C. from Hypochaeris C. & J. in of Hypochaeris de *Address for correspondence: [email protected] This study was supported by research projects CGL2010-16512 and PGC2018-099608-B-100 (REPROGRAD) of the Spanish Ministry of Science and Innovation. for the for the Narcissus cuatrecasasii Fern.Casas, M.Laínz & Ruiz 2n = CHN. Spain, to from Apr Mejías s.n. (SEV & & Ruiz & also the 2n = of of the of the also to the of of the and The size from to of the to and also The of the to of and the The of and = and = Muscari armeniacum Leichtlin ex 2n = 18, CHN. Turkey, Province, of the