Advanced search
Publication Cover
Critical Reviews in Plant Sciences Volume 42, 2023 - Issue 1
Submit an article Journal homepage
1,271
Views
0
CrossRef citations to date
0
Altmetric
Articles

Evolution of the Cotton Genus, Gossypium, and Its Domestication in the Americas

Christopher R. Viota CIRAD, UMR AGAP Institut, INRAE, Institut Agro, Univ Montpellier, Montpellier, FranceCorrespondence[email protected]
&
Jonathan F. Wendelb Department of Ecology, Evolution, and Organismal Biology (EEOB), Bessey Hall, Iowa State University, Ames, IA, USACorrespondence[email protected]
Pages 1-33 | Published online: 09 Jan 2023

References

  • Alavez, V., Cuervo-Robayo, Á. P., Martínez-Meyer, E., and Wegier, A. 2021. Eco-geography of feral cotton: a missing piece in the puzzle of gene flow dynamics among members of Gossypium hirsutum primary gene pool. Front. Ecol. Evol. 9:653271.
  • Alvarez, I., and Wendel, J. F. 2006. Cryptic interspecific introgression and genetic differentiation within Gossypium aridum (Malvaceae) and its relatives. Evol. Int. J. Org. Evol. 60:505–517. https://www.jstor.org/stable/4095313.
  • Ano, G., Schwendiman, J., Fersing, J., and Lacape, M. 1982. Les cotonniers primitifs G. hirsutum race yucatanense de la Pointe des Chateaux en Guadeloupe et l’origine possible des cotonniers tetraploides du Nouveau Monde. Coton. Fibres Trop. 37:327–332.
  • Arnaiz-Villena, A. , Gomez-Casado, E., Moscoso, J., Zamora, J., Martin-Villa, J. M., Perez-Blas, M., Lopez-Santalla, M., Lucas-Gramajo, P., Silvera, C., Lowy, E., Serrano-Vela, J. I., and Martinez-Laso, J. 2004. Origin of Mayans according to HLA genes and the uniqueness of Amerindians. Hum. Immunol. 65:S112.
  • Barnard‐Kubow, K. B., So, N., and Galloway, L. F. 2016. Cytonuclear incompatibility contributes to the early stages of speciation. Evolution 70:2752–2766.
  • Bastide, P., Solís-Lemus, C., Kriebel, R., William Sparks, K., and Ané, C. 2018. Phylogenetic comparative methods on phylogenetic networks with reticulations. Syst. Biol. 67:800–820.
  • Bauhin, C. 1623. Pinax theatri botanici. Basileae Helvet, Basel.
  • Beasley, J. 1940. The origin of American tetraploid Gossypium species. Am. Nat. 74:285–286.
  • Beckert, S. 2014. Empire of Cotton: A Global History. Vintage, New York, USA.
  • Bellaloui, N., Stetina, S. R., and Turley, R. B. 2015. Cottonseed protein, oil, and mineral status in near-isogenic Gossypium hirsutum cotton lines expressing fuzzy/linted and fuzzless/linted seed phenotypes under field conditions. Front. Plant Sci. 6:137.
  • Bennetzen, J. L., and Kellogg, E. A. 1997. Do plants have a one-way ticket to genomic obesity? Plant Cell. 9:1509–1514.
  • Beresford-Jones, D., Pullen, A., Chauca, G., Cadwallader, L., García, M., Salvatierra, I., Whaley, O., Vásquez, V., Arce, S., Lane, K., and French, C. 2018. Refining the maritime foundations of Andean civilization: how plant fiber technology drove social complexity during the Preceramic period. J. Archaeol. Method Theory 25:393–425.
  • Birchler, J. A., and Veitia, R. A. 2021. One hundred years of gene balance: how stoichiometric issues affect gene expression, genome evolution, and quantitative traits. Cytogenet. Genome Res. 161:529–550.
  • Birchler, J. A., and Yang, H. 2022. The multiple fates of gene duplications: deletion, hypofunctionalization, subfunctionalization, neofunctionalization, dosage balance constraints, and neutral variation. Plant Cell. 34:2466–2474.
  • Bird, J. B. 1948. Preceramic cultures in Chicama and Virú. Mem. Soc. Am. Archaeol. 4:21–28.
  • Brown, M. S. 1951. The spontaneous occurrence of ampliploidy in species hybrids of Gossypium. Evolution 5:25.
  • Brown, M. S., and Menzel, M. Y. 1952. Polygenomic hybrids in Gossypium. I. Cytology of hexaploids, pentaploids and hexaploid combinations. Genetics 37:242–263.
  • Brubaker, C. L., Bourland, F. M., and Wendel, J. F. 1999. The origin and domestication of cotton. In Cotton: origin, History, Technology and Production; Smith, C. W. and Cothren, J. T., Eds. John Wiley & Sons, New York, pp 23–32.
  • Brubaker, C. L., Koontz, J. A., and Wendel, J. F. 1993. Bidirectional cytoplasmic and nuclear introgression in the New World cottons Gossypium barbadense and G. Hirsutum (Malvaceae). Am. J. Bot. 80:1203–1208.
  • Brubaker, C. L., and Wendel, J. F. 1994. Reevaluating the origin of domesticated cotton Gossypium hirsutum (Malvaceae) using nuclear restriction fragment length polymorphisms (RFLP). Am. J. Bot. 81:1309–1326.
  • Campbell, L. 1997. American Indian Languages: The Historical Linguistics of Native America. Oxford University Press, New York.
  • Carvalho, M. R., Herrera, F. A., Jaramillo, C. A., Wing, S. L., and Callejas, R. 2011. Paleocene Malvaceae from northern South America and their biogeographical implications. Am. J. Bot. 98:1337–1355.
  • Castro, A. A., Hoffmann, L. V., Lima, T. H., Oliveira, A. I. D., Brito, R. R., Mendes, L. d M. O., Pereira, C. C. O., Malafaia, G., and Menezes, I. P. P. de 2016. Gossypium barbadense: an approach for in situ conservation in Cerrado, Brazil. JAS 8:59.
  • Chen, Z., Feng, K., Grover, C. E., Li, P., Liu, F., Wang, Y., Xu, Q., Shang, M., Zhou, Z., Cai, X., Wang, X., Wendel, J. F., Wang, K., and Hua, J. 2016. Chloroplast DNA structural variation, phylogeny, and age of divergence among diploid cotton species. PLoS One 11:e0157183.
  • Chen, Z. J., Sreedasyam, A., Ando, A., Song, Q., De Santiago, L. M., Hulse-Kemp, A. M., Ding, M., Ye, W., Kirkbride, R. C., Jenkins, J., Plott, C., Lovell, J., Lin, Y.-M., Vaughn, R., Liu, B., Simpson, S., Scheffler, B. E., Wen, L., Saski, C. A., Grover, C. E., Hu, G., Conover, J. L., Carlson, J. W., Shu, S., Boston, L. B., Williams, M., Peterson, D. G., McGee, K., Jones, D. C., Wendel, J. F., Stelly, D. M., Grimwood, J., and Schmutz, J. 2020. Genomic diversifications of five Gossypium allopolyploid species and their impact on cotton improvement. Nat. Genet. 52:525–533.
  • Chen, Z., Zhao, N., Li, S., Grover, C. E., Nie, H., Wendel, J. F., and Hua, J. 2017. Plant mitochondrial genome evolution and cytoplasmic male sterility. Crit. Rev. Plant Sci. 36:55–69.
  • Coppens d’Eeckenbrugge, G., and Lacape, J.-M. 2014. Distribution and differentiation of wild, feral, and cultivated populations of perennial Upland cotton (Gossypium hirsutum L.) in Mesoamerica and the Caribbean. PLoS One 9:e107458.
  • Coyne, J. A., and Orr, H. A. 1998. The evolutionary genetics of speciation. Philos. Trans. R Soc. Lond. B Biol. Sci. 353:287–305.
  • Cronn, R., Small, R. L., Haselkorn, T., and Wendel, J. F. 2003. Cryptic repeated genomic recombination during speciation in Gossypium gossypioides. Evolution 57:2475–2489.
  • Cronn, R., and Wendel, J. F. 2004. Cryptic trysts, genomic mergers, and plant speciation. New Phytol. 161:133–142.
  • Cronn, R. C., Small, R. L., Haselkorn, T., and Wendel, J. F. 2002. Rapid diversification of the cotton genus (Gossypium : Malvaceae) revealed by analysis of sixteen nuclear and chloroplast genes. Am. J. Bot. 89:707–725.
  • Damp, J. E., and Pearsall, D. M. 1994. Early cotton from coastal Ecuador. Econ. Bot. 48:163–165.
  • de Lery, J. 1580. Histoire D’un Voyage Fait en la Terre du Brésil, Autrement Dite Amérique. Alphonse Lemerre, Éditeur, Paris.
  • DeJoode, D. R., and Wendel, J. F. 1992. Genetic diversity and origin of the Hawaiian Islands Cotton, Gossypium tomentosum. Am. J. Bot. 79:1311–1319.
  • Denham, H. J. 1924. The cytology of the cotton plant I. Microspore formation in Sea Island Cotton. Ann. Bot. os-38:407–432.
  • Dillehay, T. D., Bonavia, D., Goodbred, S. L., Pino, M., Vásquez, V., and Tham, T. R. 2012. A late Pleistocene human presence at Huaca Prieta, Peru, and early Pacific coastal adaptations. Quat. Res. 77:418–423.
  • Dillehay, T. D., Ramírez, C., Pino, M., Collins, M. B., Rossen, J., and Pino-Navarro, J. D. 2008. Monte Verde: seaweed, food, medicine, and the peopling of South America. Science 320:784–786.
  • Dillehay, T. D., Rossen, J., Andres, T. C., and Williams, D. E. 2007. Preceramic adoption of peanut, squash, and cotton in northern Peru. Science 316:1890–1893.
  • Ding, M., Ye, W., Lin, L., He, S., Du, X., Chen, A., Cao, Y., Qin, Y., Yang, F., Jiang, Y., Zhang, H., Wang, X., Paterson, A. H., and Rong, J. 2015. The hairless stem phenotype of cotton (Gossypium barbadense) is linked to a Copia-like retrotransposon insertion in a Homeodomain-Leucine Zipper gene (HD1). Genetics 201:143–154.
  • Endrizzi, J. E., Turcotte, E. L., and Kohel, R. J. 1985. Genetics, cytology, and evolution of Gossypium. Adv. Genet. 23:271–375.
  • Estrada-Belli, F. 2010. The First Maya Civilization. Ritual and Power before the Classic Period. Routledge, Abingdon & New York.
  • Fang, L., Gong, H., Hu, Y., Liu, C., Zhou, B., Huang, T., Wang, Y., Chen, S., Fang, D. D., Du, X., Chen, H., Chen, J., Wang, S., Wang, Q., Wan, Q., Liu, B., Pan, M., Chang, L., Wu, H., Mei, G., Xiang, D., Li, X., Cai, C., Zhu, X., Chen, Z. J., Han, B., Chen, X., Guo, W., Zhang, T., and Huang, X. 2017. Genomic insights into divergence and dual domestication of cultivated allotetraploid cottons. Genome Biol. 18:33.
  • FAO. 2021. Recent Trends and Prospects in the World Cotton Market and Policy Developments. Food and Agriculture Organization of the United Nations, Markets and Trade Division - Economic and Social Development Stream Markets. https://www.fao.org/3/cb4589en/cb4589en.pdf.
  • Feng, C., Ulloa, M., Perez-M, C., and Stewart, J. M. D. 2011. Distribution and molecular diversity of arborescent Gossypium species. Botany 89:615–624.
  • Filloy Nadal, L. 2017. Mesoamerican archaeological textiles: an overview of materials, techniques, and contexts. In PreColumbian textile conference VII/Jornadas de Textiles PreColombinos VII; Lena, B. and Ann, P., Eds.; Zea Books, Lincoln, NE, pp 7–39.
  • Follensbee, B. J. A. 2008. Fiber technology and weaving in formative-period Gulf Coast cultures. Ancient Mesoam. 19:87–110.
  • Francis, D., Fonseca, R., Nelli, N., Cuesta, J., Weston, M., Evan, A., and Temimi, M. 2020. The atmospheric drivers of the major Saharan dust storm in June 2020. Geophys. Res. Lett. 47: e2020GL090102.
  • Fryxell, P. A. 1968. A redefinition of the tribe Gossypieae. Bot. Gaz. 129:296–308.
  • Fryxell, P. A. 1971. Phenetic analysis and the phylogeny of the diploid species of Gossypium L. (Malvaceae). Evolution 25:554–562.
  • Fryxell, P. A. 1976. A Nomenclator of Gossypium: The Botanical Names of Cotton. Agricultural Research Service, US Department of Agriculture, Hyattsville, MD.
  • Fryxell, P. A. 1979. The Natural History of the Cotton Tribe (Malvaceae, Tribe Gossypieae). Texas A&M University Press, College Station, TX.
  • Fryxell, P. A. 1992. A revised taxonomic interpretation of Gossypium L. (Malvaceae). Rheedea 2:108–165.
  • Gallagher, J. P., Grover, C. E., Rex, K., Moran, M., and Wendel, J. F. 2017. A new species of cotton from Wake Atoll, Gossypium stephensii (Malvaceae). Syst. Bot. 42:115–123.
  • Gao, W., Xu, F.-C., Long, L., Li, Y., Zhang, J.-L., Chong, L., Botella, J. R., and Song, C.-P. 2020. The gland localized CGP1 controls gland pigmentation and gossypol accumulation in cotton. Plant Biotechnol. J. 18:1573–1584.
  • Gross, B. L., and Strasburg, J. L. 2010. Cotton domestication: dramatic changes in a single cell. BMC Biol. 8:137.
  • Grover, C. E., Arick, M. A., Conover, J. L., Thrash, A., Hu, G., Sanders, W. S., Hsu, C.-Y., Naqvi, R. Z., Farooq, M., Li, X., Gong, L., Mudge, J., Ramaraj, T., Udall, J. A., Peterson, D. G., and Wendel, J. F. 2017. Comparative genomics of an unusual biogeographic disjunction in the cotton tribe (Gossypieae) yields insights into genome downsizing. Genome Biol. Evol. 9:3328–3344.
  • Grover, C. E., Arick, M. A., Thrash, A., Conover, J. L., Sanders, W. S., Peterson, D. G., Frelichowski, J. E., Scheffler, J. A., Scheffler, B. E., and Wendel, J. F. 2019. Insights into the evolution of the New World diploid cottons (Gossypium, subgenus Houzingenia) based on genome sequencing. Genome Biol. Evol. 11:53–71.
  • Grover, C. E., Gallagher, J. P., Jareczek, J. J., Page, J. T., Udall, J. A., Gore, M. A., and Wendel, J. F. 2015a. Re-evaluating the phylogeny of allopolyploid Gossypium L. Mol. Phylogenet. Evol. 92:45–52.
  • Grover, C. E., Grupp, K. K., Wanzek, R. J., and Wendel, J. F. 2012. Assessing the monophyly of polyploid Gossypium species. Plant Syst. Evol. 298:1177–1183.
  • Grover, C. E., Zhu, X., Grupp, K. K., Jareczek, J. J., Gallagher, J. P., Szadkowski, E., Seijo, J. G., and Wendel, J. F. 2015b. Molecular confirmation of species status for the allopolyploid cotton species, Gossypium ekmanianum Wittmack. Genet. Resour. Crop Evol. 62:103–114.
  • Hancock, J. F. 2012. Plant Evolution and the Origin of Crop Species. CABI, Wallingford, Oxfordshire, UK; Cambridge, MA.
  • Harlan, J. R. 1971. Agricultural origins: centers and noncenters: agriculture may originate in discrete centers or evolve over vast areas without definable centers. Science 174:468–474.
  • Harland, S. C. 1936. The genetical conception of the species. Biol. Rev. 11:83–112.
  • Hawkins, J. S., Proulx, S. R., Rapp, R. A., and Wendel, J. F. 2009. Rapid DNA loss as a counterbalance to genome expansion through retrotransposon proliferation in plants. Proc. Natl. Acad. Sci. U S A. 106:17811–17816.
  • Hendrix, B., and Stewart, J. M. 2005. Estimation of the nuclear DNA content of Gossypium species. Ann. Bot. 95:789–797.
  • Hernández-Gutiérrez, R., and Magallón, S. 2019. The timing of Malvales evolution: incorporating its extensive fossil record to inform about lineage diversification. Mol. Phylogenet. Evol. 140:106606.
  • Hinze, L. L., Gazave, E., Gore, M. A., Fang, D. D., Scheffler, B. E., Yu, J. Z., Jones, D. C., Frelichowski, J., and Percy, R. G. 2016. Genetic diversity of the two commercial tetraploid cotton species in the Gossypium diversity reference set. J. Hered. 107:274–286.
  • Hu, G., Grover, C. E., Jareczek, J., Yuan, D., Dong, Y., Miller, E., Conover, J. L., and Wendel, J. F. 2021. Evolution and diversity of the cotton genome. In Cotton Precision Breeding; Rahman, M., Zafar, Y., and Zhang, T., Eds. Springer International Publishing, Cham, pp 25–78.
  • Hu, Y., Chen, J., Fang, L., Zhang, Z., Ma, W., Niu, Y., Ju, L., Deng, J., Zhao, T., Lian, J., Baruch, K., Fang, D., Liu, X., Ruan, Y.-L., Rahman, M.-U., Han, J., Wang, K., Wang, Q., Wu, H., Mei, G., Zang, Y., Han, Z., Xu, C., Shen, W., Yang, D., Si, Z., Dai, F., Zou, L., Huang, F., Bai, Y., Zhang, Y., Brodt, A., Ben-Hamo, H., Zhu, X., Zhou, B., Guan, X., Zhu, S., Chen, X., and Zhang, T. 2019. Gossypium barbadense and Gossypium hirsutum genomes provide insights into the origin and evolution of allotetraploid cotton. Nat. Genet. 51:739–748.
  • Huang, G., Wu, Z., Percy, R. G., Bai, M., Li, Y., Frelichowski, J. E., Hu, J., Wang, K., Yu, J. Z., and Zhu, Y. 2020. Genome sequence of Gossypium herbaceum and genome updates of Gossypium arboreum and Gossypium hirsutum provide insights into cotton A-genome evolution. Nat. Genet. 52:516–524.
  • Huang, K., and Rieseberg, L. H. 2020. Frequency, origins, and evolutionary role of chromosomal inversions in plants. Front. Plant Sci. 11:296.
  • Hutchinson, J. B. 1951. Intra-specific differentiation in Gossypium hirsutum. Heredity 5:161–193.
  • Hutchinson, J. B., Silow, R., and Stephens, S. 1947. The Evolution of Gossypium and the Differentiation of the Cultivated Cottons. Empire Growing Corporation. Oxford University Press, London, UK, p 160.
  • Inomata, T., Triadan, D., Vázquez López, V. A., Fernandez-Diaz, J. C., Omori, T., Méndez Bauer, M. B., García Hernández, M., Beach, T., Cagnato, C., Aoyama, K., and Nasu, H. 2020. Monumental architecture at Aguada Fénix and the rise of Maya civilization. Nature 582:530–533.
  • Isendahl, C. 2011. The domestication and early spread of manioc (Manihot esculenta Crantz): a brief synthesis. Latin Am. Antiq. 22:452–468.
  • Jeanson N. 2020. Édition annotée et analyse d’une partie du catalogue de curiosités de la bibliothéque de Sainte-Geneviéve par Claude du Molinet (Le Cabinet de la Bibliothéque de Sainte Geneviéve, Paris, Dezallier, 1692) à savoir les quatre premiers chapitres de la seconde partie “Histoire naturelle”, ainsi que la préface générale, l’éloge du pére du Molinet et les Page 2 of 2 gravures synoptiques. Sciences de l’Homme et Société. https://doi.org/https://dumas.ccsd.cnrs.fr/dumas-02996017.
  • Jenderek, M. M., and Frelichowski, J. 2019. Fiber crops: cotton and Hesperaloe. In North American Crop Wild Relatives, Volume 2; Greene, S. L., Williams, K. A., Khoury, C. K., Kantar, M. B., and Marek, L. F., Eds. Springer International Publishing, Cham, pp 543–577.
  • Jiang, C., Chee, P. W., Draye, X., Morrell, P. L., Smith, C. W., and Paterson, A. H. 2000. Multilocus interactions restrict gene introgression in interspecific populations of polyploid Gossypium (cotton). Evolution 54:798–814.
  • Jolie, E. A., Lynch, T. F., Geib, P. R., and Adovasio, J. M. 2011. Cordage, textiles, and the Late Pleistocene peopling of the Andes. Curr. Anthropol. 52:285–296.
  • Kennett, D. J., Lipson, M., Prufer, K. M., Mora-Marín, D., George, R. J., Rohland, N., Robinson, M., Trask, W. R., Edgar, H. H. J., Hill, E. C., Ray, E. E., Lynch, P., Moes, E., O'Donnell, L., Harper, T. K., Kate, E. J., Ramos, J., Morris, J., Gutierrez, S. M., Ryan, T. M., Culleton, B. J., Awe, J. J., and Reich, D. 2022. South-to-north migration preceded the advent of intensive farming in the Maya region. Nat. Commun. 13:1530.
  • Kennett, D. J., Prufer, K. M., Culleton, B. J., George, R. J., Robinson, M., Trask, W. R., Buckley, G. M., Moes, E., Kate, E. J., Harper, T. K., O'Donnell, L., Ray, E. E., Hill, E. C., Alsgaard, A., Merriman, C., Meredith, C., Edgar, H. J. H., Awe, J. J., and Gutierrez, S. M. 2020. Early isotopic evidence for maize as a staple grain in the Americas. Sci. Adv. 6:eaba3245.
  • Konan, N. O., Baudoin, J.-P., D’Hont, A., and Mergeai, G. 2009. Bridging classical and molecular cytogenetics of Gossypium. In Genetics and Genomics of Cotton; Paterson, A. H., Ed. Springer US, New York, NY, pp 257–281.
  • Lazo, J. 1991. Contribution à l’étude de l’origine, de la domestication et de la dispersion du cotonnier Gossypium barbadense L.: polymorphisme enzymatique, morphologique et agronomique des populations sauvages, subspontanees et cultivees. Thèse de doctorat en Sciences biologiques et fondamentales appliquées, Université Paris Sud Orsay.
  • Leitch, I. J., and Leitch, A. R. 2013. Genome size diversity and evolution in land plants. In Plant Genome Diversity. Springer, Vienna, pp 307–322.
  • Lentz, D. L., Ramírez, C. R., and Griscom, B. W. 1997. Formative-period subsistence and forest-product extraction at the Yarumela Site, Honduras. Ancient Mesoam. 8:63–74.
  • Lewton, F. L. 1920. The history of kidney cotton. J. Wash. Acad. Sci. 10:591–597.
  • Li, F., Fan, G., Lu, C., Xiao, G., Zou, C., Kohel, R. J., Ma, Z., Shang, H., Ma, X., Wu, J., Liang, X., Huang, G., Percy, R. G., Liu, K., Yang, W., Chen, W., Du, X., Shi, C., Yuan, Y., Ye, W., Liu, X., Zhang, X., Liu, W., Wei, H., Wei, S., Huang, G., Zhang, X., Zhu, S., Zhang, H., Sun, F., Wang, X., Liang, J., Wang, J., He, Q., Huang, L., Wang, J., Cui, J., Song, G., Wang, K., Xu, X., Yu, J. Z., Zhu, Y., and Yu, S. 2015. Genome sequence of cultivated Upland cotton (Gossypium hirsutum TM-1) provides insights into genome evolution. Nat. Biotechnol. 33:524–530.
  • Linnaeus, C. 1753. Species plantarum: exhibentes plantas rite cognitas, ad genera relatas, cum differentiis specificis, nominibus trivialibus, synonymis selectis, locis natalibus, secundum systema sexuale digestas. Holmiae: Impensis Laurentii Salvii, Stockholm, Sweden.
  • Linnaeus, C. 1763. Species Plantarum: exhibentes Plantas Rite Cognitas, Ad Genera Relatas, Cum Differentiis Specificis, Nominibus Trivialibus, Synonymis Selectis, Locis Natalibus, Secundum Systema Sexuale Digestas. 2nd ed. Impensis Laurentii Salvii, Stockholm.
  • Liu, Q., Brubaker, C. L., Green, A. G., Marshall, D. R., Sharp, P. J., and Singh, S. P. 2001. Evolution of the FAD2-1 fatty acid desaturase 5′ UTR intron and the molecular systematics of Gossypium (Malvaceae). Am. J. Bot. 88:92–102.
  • Lohse, J. C., Awe, J., Griffith, C., Rosenswig, R. M., and Valdez, F. 2006. Preceramic occupations in Belize: updating the Paleoindian and Archaic record. Latin Am. Antiq. 17:209–226.
  • Lubbers, E. L., and Chee, P. W. 2009. The worldwide gene pool of G. hirsutum and its improvement. In Genetics and Genomics of Cotton; Paterson, A. H., Ed. Springer US, New York, NY, pp 23–52.
  • MacNeish, R. S. 1967a. An interdisciplinary approach to an archaeological problem. In The Prehistory of the Tehuacan Valley, Volume One, Environment and Subsistence. Robert S. Peabody Foundation Phillips Academy Andover, University of Texas Press, Austin & London, pp 14–24.
  • MacNeish, R. S. 1967b. Introduction. In The Prehistory of the Tehuacan Valley, Vol.1: Environment and Subsistence. University of Texas Press, Austin, TX, pp 3–12.
  • MacNeish, R. S., Nelken-Terner, A., and Johnson, I. W. 1967. The Prehistory of the Tehuacán Valley. Vol. 2: The Non-Ceramic Artifacts. University of Texas Press, Austin, TX.
  • Magallón, S., and Castillo, A. 2009. Angiosperm diversification through time. Am. J. Bot. 96:349–365.
  • Magallón, S., Gómez‐Acevedo, S., Sánchez‐Reyes, L. L., and Hernández‐Hernández, T. 2015. A metacalibrated time‐tree documents the early rise of flowering plant phylogenetic diversity. New Phytol. 207:437–453.
  • Menzel, M. Y., and Brown, M. S. 1954. The Significance of multivalent formation in three-species Gossypium Hybrids. Genetics 39:546–557.
  • Miksicek, C. A. 1990. Early Wetland Agriculture in the Maya Lowlands: Clues from Preserved Plant Remains in: Ancient Maya Wetland Agriculture: excavations on Albion Island, Northern Belize. Westview Press, Boulder, CO, pp 295–312.
  • Molinet, C. D. 1692. Le Cabinet de la Bibliothèque de Sainte Geneviève. Dezallier, Paris.
  • Moret B.M., Nakhleh L., Warnow T., Linder C.R., Tholse A., Padolina A., Sun J., and Timme R. 2004. Phylogenetic networks: modeling, reconstructibility, and accuracy. IEEE/ACM Trans Comput Biol Bioinform. 1:13–23.
  • Moseley, M. E. 1992. Maritime foundations and multilinear evolution: retrospect and prospect. Andean Past. 3:5–42.
  • Moulherat, C., Tengberg, M., Haquet, J.-F., and Mille, B. 2002. First evidence of cotton at Neolithic Mehrgarh, Pakistan: analysis of mineralized fibres from a copper bead. J. Archaeol. Sci. 29:1393–1401.
  • Pagán-Jiménez, J. R., Rodríguez-Ramos, R., Reid, B. A., van den Bel, M.., and Hofman, C. L. 2015. Early dispersals of maize and other food plants into the southern Caribbean and northeastern South America. Quat. Sci. Rev. 123:231–246.
  • Page, J. T., Huynh, M. D., Liechty, Z. S., Grupp, K., Stelly, D., Hulse, A. M., Ashrafi, H., Van Deynze, A., Wendel, J. F., and Udall, J. A. 2013. Insights into the evolution of cotton diploids and polyploids from whole-genome re-sequencing. G3 3:1809–1818.
  • Pan, Y., Meng, F., and Wang, X. 2020. Sequencing multiple cotton genomes reveals complex structures and lays foundation for breeding. Front. Plant Sci. 11:560096.
  • Pearsall, D. M. 2008. Plant domestication and the shift to agriculture in the Andes. In The Handbook of South American Archaeology; Silverman, H. and Isbell, W. H., Eds. Springer New York, New York, NY, pp 105–120.
  • Percival, A. E., Wendel, J. F., and Stewart, J. M. D. 1999. Taxonomy and germplasm resources. In Cotton: Origin, History, Technology and Production; Smith, C. W. and Cothren, J. T., Eds. John Wiley & Sons: New York, pp 33–63.
  • Percy, R. G. 2009. The worldwide gene pool of Gossypium barbadense L. and its improvement. In Genetics and Genomics of Cotton; Paterson, A. H., Ed. Springer US, New York, NY, pp 53–68.
  • Percy, R. G., and Wendel, J. F. 1990. Allozyme evidence for the origin and diversification of Gossypium barbadense L. Theor. Appl. Genet. 79:529–542.
  • Phillips, L. L. 1963. The cytogenetics of Gossypium and the origin of New World cottons. Evolution 17:460.
  • Phillips, L. L. 1966. The cytology and phylogenetics of the diploid species of Gossypium. Am. J. Bot. 53:328–335.
  • Phillips, L. L., 1976. Cotton. In Evolution of Crop Plants; Simmonds, N. W., Ed.; Longman: New York, pp 196–200.
  • Phuphathanaphong, L. 2006. Thepparatia (Malvaceae), a new genus from Thailand. Thai For. Bull. Bot. 34:195–200.
  • Piperno, D. R. 2011. The origins of plant cultivation and domestication in the New World Tropics: patterns, process, and new developments. Curr. Anthropol. 52:S453–S470.
  • Pool, C. 2007. Olmec Archaeology and Early Mesoamerica. Cambridge University Press, Cambridge.
  • Pope, K. O., Pohl, M. E. D., Jones, J. G., Lentz, D. L., Nagy, C., von Vega, F. J., and Quitmyer, I. R. 2001. Origin and environmental setting of ancient agriculture in the lowlands of Mesoamerica. Science 292:1370–1373.
  • Postel, Z., and Touzet, P. 2020. Cytonuclear genetic incompatibilities in plant speciation. Plants 9:487.
  • Rapp, R. A., Alvarez, I., and Wendel, J. F. 2005. Molecular confirmation of the position of Gossypium trifurcatum Vollesen. Genet. Resour. Crop Evol. 52:749–753.
  • Rendón-Anaya, M., Montero-Vargas, J. M., Saburido-Álvarez, S., Vlasova, A., Capella-Gutierrez, S., Ordaz-Ortiz, J. J., Aguilar, O. M., Vianello-Brondani, R. P., Santalla, M., Delaye, L., Gabaldón, T., Gepts, P., Winkler, R., Guigó, R., Delgado-Salinas, A., and Herrera-Estrella, A. 2017. Genomic history of the origin and domestication of common bean unveils its closest sister species. Genome Biol. 18:60.
  • Reynaud, C., Thoury, M., Dazzi, A., Latour, G., Scheel, M., Li, J., Thomas, A., Moulhérat, C., Didier, A., and Bertrand, L. 2020. In-place molecular preservation of cellulose in 5,000-year-old archaeological textiles. Proc. Natl. Acad. Sci. U S A. 117:19670–19676.
  • Richardson, J. E., Whitlock, B. A., Meerow, A. W., and Madriñán, S. 2015. The age of chocolate: a diversification history of Theobroma and Malvaceae. Front. Ecol. Evol. 3:120.
  • Rieseberg, L., and Soltis, D. 1991. Phylogenetic consequences of cytoplasmic gene flow in plants. Evol. Trends Plants 5:65–84.
  • Robert, S. 1997. L'Egypte, passion française. Editions du Seuil, Paris, France.
  • Seelanan, T., Brubaker, C. L., Stewart, J. McD, Craven, L. A., and Wendel, J. F. 1999. Molecular systematics of Australian Gossypium Section Grandicalyx (Malvaceae). Syst. Bot. 24:183.
  • Seelanan, T., Schnabel, A., and Wendel, J. F. 1997. Congruence and consensus in the cotton tribe (Malvaceae). Syst. Bot. 22:259.
  • Senchina, D. S., Alvarez, I., Cronn, R. C., Liu, B., Rong, J., Noyes, R. D., Paterson, A. H., Wing, R. A., Wilkins, T. A., and Wendel, J. F. 2003. Rate variation among nuclear genes and the age of polyploidy in Gossypium. Mol. Biol. Evol. 20:633–643.
  • Silva, E. F d., Duarte Filho, L. S. C., Santos Maia, A. K. dos, Silva, A. V d., and Lins e Silva, A. C. B. 2018. The occurrence of wild cotton Gossypium mustelinum Miers ex Watt populations in the coast of Pernambuco, northeastern Brazil. Genet. Resour. Crop Evol. 65:1551–1557.
  • Skovsted, A. 1934. Cytological studies in cotton – II. Two interspecific hybrids between Asiatic and New World cottons. J. Genet. 28:407–424.
  • Smith, B. D. 1997. The initial domestication of Cucurbita pepo in the Americas 10,000 years ago. Science 276:932–934.
  • Smith, C. E. 1967. Plant remains. In The Prehistory of the Tehuacan Valley, Vol.1: Environment and Subsistence; Byers D. S., Ed. University of Texas Press, Austin, TX, pp 220–255.
  • Smith, C. E., and Stephens, S. G. 1971. Critical identification of Mexican archaeological cotton remains. Econ. Bot. 25:160–168.
  • Smith, C. W., and Cantrell, R. G. 1999. History of cultivar development in the United States. In Cotton: Origin, History, Technology, and Production; Smith, C. W. and Cothren, J. T., Eds. John Wiley & Sons, New York, pp 99–171.
  • Söchtig, J., Álvarez-Iglesias, V., Mosquera-Miguel, A., Gelabert-Besada, M., Gómez-Carballa, A., and Salas, A. 2015. Genomic insights on the ethno-history of the Maya and the ‘Ladinos’ from Guatemala. BMC Genomics 16:131.
  • Splitstoser, J. C., Dillehay, T. D., Wouters, J., and Claro, A. 2016. Early pre-Hispanic use of indigo blue in Peru. Sci. Adv. 2:e1501623.
  • Stark, B. L., Heller, L., and Ohnersorgen, M. A. 1998. People with cloth: Mesoamerican economic change from the perspective of cotton in south-central Veracruz. Latin Am. Antiq. 9:7–36.
  • Stephens, S. G. 1949. The cytogenetics of speciation in Gossypium. I. Selective elimination of the donor parent genotype in interspecific backcrosses. Genetics 34:627–637.
  • Stephens, S. G. 1958. Salt water tolerance of seeds of Gossypium species as a possible factor in seed dispersal. Am. Nat. 92:83–92.
  • Stephens, S. G. 1966. Problems on the origin, dispersal, and establishment of the Galapagos cottons. In The Galápagos. Proceedings of the Symposia of the Galápagos International Scientific Project; Bowman, R. I., Ed. University of California Press, Los Angeles, pp 201–208.
  • Stephens, S. G. 1967. Evolution under domestication of the New World cottons (Gossypium spp.). Cienc. E Cult. 19:118–134.
  • Stephens, S. G. 1973. Geographical distribution of cultivated cottons relative to probable centers of domestication in the New World. In Genes, Enzymes, and Populations; Srb, A. M., Ed. Springer US, Boston, MA, pp 239–254.
  • Stephens, S. G. 1975. A reexamination of the cotton remains from Huaca Prieta, north coastal Peru. Am. Antiq. 40:406–419.
  • Stephens, S. G. 1976. The origin of Sea Island cotton. Agric. Hist. 50:391–399.
  • Stephens, S. G., and Moseley, M. E. 1974. Early domesticated cottons from archaeological sites in central coastal Peru. Am. Antiq. 39:109–122.
  • Stephens, S. G., and Phillips, L. L. 1972. The history and geographical distribution of a polymorphic system in New World cottons. Biotropica 4:49.
  • Stitzer, M. C., and Ross‐Ibarra, J. 2018. Maize domestication and gene interaction. New Phytol. 220:395–408.
  • Turcotte, E. L., and Percy, R. G. 1990. Genetics of kidney seed in Gossypium barbadense L. Crop Sci. 30:384.
  • Ulloa, M. 2014. The diploid D genome cottons (Gossypium spp.) of the New World. In World Cotton Germplasm Resources; Abdurakhmonov, I. Y., Ed. InTech, London, Chapter 8.
  • Ulloa, M., Stewart, J. McD, Garcia-C, E. A., Godoy-A, S., Gaytan-M, A., and Acosta, N. S. 2006. Cotton genetic resources in the western states of Mexico: in situ conservation status and germplasm collection for ex situ preservation. Genet. Resour. Crop Evol. 53:653–668.
  • Viot, C. 2019. Domestication and varietal diversification of Old World cultivated cottons (Gossypium sp.) in the antiquity. Rev. d’ethnoécologie 2019:15.
  • Viot, C., Jacobs, J., Arioli, T., Llewellyn, D., Derijcker, R., Claverie, M., and Lacape, M. 2009. Non-independence between markers on homoeologous chromosomes in an interspecific allopolyploid cotton RILs population. International Conference on Polyploidy, Hybridization and Biodiversity (ICPHB 2009), May 17–20, 2009, Saint-Malo – France, Program and Abstracts. Saint Malo, France, p. 135.
  • Wang, B., Liu, L., Zhang, D., Zhuang, Z., Guo, H., Qiao, X., Wei, L., Rong, J., May, O. L., Paterson, A. H., and Chee, P. W. 2016. A genetic map between Gossypium hirsutum and the Brazilian endemic G. mustelinum and its application to QTL mapping. G3 6:1673–1685.
  • Wang, J.-H., Moore, M. J., Wang, H., Zhu, Z.-X., and Wang, H.-F. 2021. Plastome evolution and phylogenetic relationships among Malvaceae subfamilies. Gene 765:145103.
  • Wang, M., Tu, L., Yuan, D., Zhu, D., Shen, C., Li, J., Liu, F., Pei, L., Wang, P., Zhao, G., Ye, Z., Huang, H., Yan, F., Ma, Y., Zhang, L., Liu, M., You, J., Yang, Y., Liu, Z., Huang, F., Li, B., Qiu, P., Zhang, Q., Zhu, L., Jin, S., Yang, X., Min, L., Li, G., Chen, L.-L., Zheng, H., Lindsey, K., Lin, Z., Udall, J. A., and Zhang, X. 2019. Reference genome sequences of two cultivated allotetraploid cottons, Gossypium hirsutum and Gossypium barbadense. Nat. Genet. 51:224–229.
  • Watt, G. 1907. The Wild and Cultivated Cotton Plants of the World. Longmans, Green & Co, London.
  • Wegier, A., Piñeyro-Nelson, A., Alarcón, J., Gálvez-Mariscal, A., Alvarez-Buylla, E. R., and Piñero, D. 2011. Recent long-distance transgene flow into wild populations conforms to historical patterns of gene flow in cotton (Gossypium hirsutum) at its centre of origin: historical and recent gene flow in wild cotton. Mol. Ecol. 20:4182–4194.
  • Wen, D., Yu, Y., Zhu, J., and Nakhleh, L. 2018. Inferring phylogenetic networks using PhyloNet. Syst. Biol. 67:735–740.
  • Wendel, J. F. 1989. New World tetraploid cottons contain Old World cytoplasm. Proc. Natl. Acad. Sci. U S A. 86:4132–4136.
  • Wendel, J. F., and Albert, V. A. 1992. Phylogenetics of the cotton genus (Gossypium): character-state weighted parsimony analysis of chloroplast-DNA restriction site data and its systematic and biogeographic implications. Syst. Bot. 17:115.
  • Wendel, J. F., Brubaker, C., Alvarez, I., Cronn, R., and Stewart, J. M. D. 2009. Evolution and natural history of the cotton genus. In Genetics and Genomics of Cotton; Paterson, A. H., Ed. Springer US, New York, NY, p 322.
  • Wendel, J. F., Brubaker, C. L., and Percival, A. E. 1992. Genetic diversity in Gossypium hirsutum and the origin of upland cotton. Am. J. Bot. 79:1291–1310.
  • Wendel, J. F., Brubaker, C. L., and Seelanan, T. 2010. The origin and evolution of Gossypium. In Physiology of Cotton; Stewart, J. M., Oosterhuis, D. M., Heitholt, J. J., and Mauney, J. R., Eds. Springer Netherlands, Dordrecht, p 118.
  • Wendel, J. F., and Cronn, R. C. 2003. Polyploidy and the evolutionary history of cotton. Adv. Agron. 78:139–186.
  • Wendel, J. F., Cronn, R. C., Spencer Johnston, J., and James Price, H. 2002. Feast and famine in plant genomes. Genetica 115:37–47.
  • Wendel, J. F., and Grover, C. E. 2015. Taxonomy and evolution of the cotton genus Gossypium. In Cotton. 2nd. ed. Agronomy Monographs 57; Fang, D. D. and Percy, R. G., Eds. American Society of Agronomy, Inc., Crop Science Society of America, Inc., and Soil Science Society of America, Inc., Madison, WI, pp 25–44.
  • Wendel, J. F., and Percy, R. G. 1990. Allozyme diversity and introgression in the Galapagos Islands endemic Gossypium darwinii and its relationship to continental G. barbadense. Biochem. Syst. Ecol. 18:517–528.
  • Wendel, J. F., Schnabel, A., and Seelanan, T. 1995. An unusual ribosomal DNA sequence from Gossypium gossypioides reveals ancient, cryptic, intergenomic introgression. Mol. Phylogenet. Evol. 4:298–313.
  • Wendel, J. F., Stewart, J. McD, and Rettig, J. H. 1991. Molecular evidence for homoploid reticulate evolution among Australian species of Gossypium. Evolution 45:694–711.
  • Westengen, O. T., Huamán, Z., and Heun, M. 2005. Genetic diversity and geographic pattern in early South American cotton domestication. Theor. Appl. Genet. 110:392–402.
  • Wu, Y., Liu, F., Yang, D.-G., Li, W., Zhou, X.-J., Pei, X.-Y., Liu, Y.-G., He, K.-L., Zhang, W.-S., Ren, Z.-Y., Zhou, K.-H., Ma, X.-F., and Li, Z.-H. 2018. Comparative chloroplast genomics of Gossypium species: insights into repeat sequence variations and phylogeny. Front. Plant Sci. 9:376.
  • Yang, Z., Ge, X., Yang, Z., Qin, W., Sun, G., Wang, Z., Li, Z., Liu, J., Wu, J., Wang, Y., Lu, L., Wang, P., Mo, H., Zhang, X., and Li, F. 2019. Extensive intraspecific gene order and gene structural variations in upland cotton cultivars. Nat. Commun. 10:2989.
  • Yuan, D., Grover, C. E., Hu, G., Pan, M., Miller, E. R., Conover, J. L., Hunt, S. P., Udall, J. A., and Wendel, J. F. 2021. Parallel and intertwining threads of domestication in allopolyploid cotton. Adv. Sci. 8:2003634.
  • Yu-Xiang, W., Jin-Hong, C., Qiu-Ling, H., and Shui-Jin, Z. 2013. Parental origin and genomic evolution of tetraploid Gossypium species by molecular marker and GISH analyses. Caryologia 66:368–374.
  • Zaitsev, G. S. 1928. A contribution to the classification of the genus Gossypium L. Bull. Appl. Bot. Genet Plant Breed 5:39–65.
  • Zarrillo, S., Gaikwad, N., Lanaud, C., Powis, T., Viot, C., Lesur, I., Fouet, O., Argout, X., Guichoux, E., Salin, F., Solorzano, R. L., Bouchez, O., Vignes, H., Severts, P., Hurtado, J., Yepez, A., Grivetti, L., Blake, M., and Valdez, F. 2018. The use and domestication of Theobroma cacao during the mid-Holocene in the upper Amazon. Nat. Ecol. Evol. 2:1879–1888.
  • Zeder, M. A. 2015. Core questions in domestication research. Proc. Natl. Acad. Sci. U S A. 112:3191–3198.
  • Zhang, S., Cai, Y., Guo, J., Li, K., Peng, R., Liu, F., Roberts, J. A., Miao, Y., and Zhang, X. 2019. Genotyping-by-sequencing of Gossypium hirsutum races and cultivars uncovers novel patterns of genetic relationships and domestication footprints. Evol. Bioinform. Online 15:117693431988994.
  • Zhao, X., Si, Y., Hanson, R. E., Crane, C. F., Price, H. J., Stelly, D. M., Wendel, J. F., and Paterson, A. H. 1998. Dispersed repetitive DNA has spread to new genomes since polyploid formation in cotton. Genome Res. 8:479–492.
  • Zizumbo-Villarreal, D., and Colunga-GarcíaMarín, P. 2010. Origin of agriculture and plant domestication in West Mesoamerica. Genet. Resour. Crop Evol. 57:813–825.
  • Zupok, A., Kozul, D., Schöttler, M. A., Niehörster, J., Garbsch, F., Liere, K., Fischer, A., Zoschke, R., Malinova, I., Bock, R., and Greiner, S. 2021. A photosynthesis operon in the chloroplast genome drives speciation in evening primroses. Plant Cell 33:2583–2601.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.