Historic manioc genomes illuminate maintenance of diversity under long-lived clonal cultivation

Logan Kistler; Fabio de Oliveira Freitas; Rafal M. Gutaker; S. Yoshi Maezumi; Jazmín Ramos-Madrigal; Marcelo F. Simon; J. Moises Mendoza F; Sergei V. Drovetski; Hope Loiselle; Eder Jorge de Oliveira; Eduardo Alano Vieira; Luiz Joaquim Castelo Branco Carvalho; Marina Ellis Perez; Audrey T. Lin; Hsiao Lei Liu; Rachel Miller; Natalia A.S. Przelomska; Aakrosh Ratan; Nathan Wales; Kevin Wann; Shuya Zhang; Magdalena García; Daniela Valenzuela; Francisco Rothhammer; Calogero M. Santoro; Alejandra I. Domic; José M. Capriles; Robin G. Allaby

doi:10.1126/science.adq0018

Historic manioc genomes illuminate maintenance of diversity under long-lived clonal cultivation

Logan Kistler
, Fabio de Oliveira Freitas
, Rafal M. Gutaker
, S. Yoshi Maezumi
, Jazmín Ramos-Madrigal
, Marcelo F. Simon
, J. Moises Mendoza F
, Sergei V. Drovetski
, Hope Loiselle
, Eder Jorge de Oliveira
, Eduardo Alano Vieira
, Luiz Joaquim Castelo Branco Carvalho
, Marina Ellis Perez
, Audrey T. Lin
, Hsiao Lei Liu
, Rachel Miller
, Natalia A.S. Przelomska
, Aakrosh Ratan
, Nathan Wales
, Kevin Wann

Shuya Zhang, Magdalena García, Daniela Valenzuela, Francisco Rothhammer, Calogero M. Santoro, Alejandra I. Domic, José M. Capriles, Robin G. Allaby

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

9 Citas (Scopus)

Resumen

Manioc—also called cassava and yuca—is among the world’s most important crops, originating in South America in the early Holocene. Domestication for its starchy roots involved a near-total shift from sexual to clonal propagation, and almost all manioc worldwide is now grown from stem cuttings. In this work, we analyze 573 new and published genomes, focusing on traditional varieties from the Americas and wild relatives from herbaria, to reveal the effects of this shift to clonality. We observe kinship over large distances, maintenance of high genetic diversity, intergenerational heterozygosity enrichment, and genomic mosaics of identity-by-descent haploblocks that connect all manioc worldwide. Interviews with Indigenous traditional farmers in the Brazilian Cerrado illuminate how traditional management strategies for sustaining, diversifying, and sharing the gene pool have shaped manioc diversity.

Idioma original	Inglés
Número de artículo	eadq0018
Publicación	Science
Volumen	387
N.º	6738
DOI	https://doi.org/10.1126/science.adq0018
Estado	Publicada - 7 mar. 2025

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Kistler, L., Freitas, F. D. O., Gutaker, R. M., Maezumi, S. Y., Ramos-Madrigal, J., Simon, M. F., Mendoza F, J. M., Drovetski, S. V., Loiselle, H., de Oliveira, E. J., Vieira, E. A., Carvalho, L. J. C. B., Perez, M. E., Lin, A. T., Liu, H. L., Miller, R., Przelomska, N. A. S., Ratan, A., Wales, N., ... Allaby, R. G. (2025). Historic manioc genomes illuminate maintenance of diversity under long-lived clonal cultivation. Science, 387(6738), Artículo eadq0018. https://doi.org/10.1126/science.adq0018

@article{049ed25e3c334a9387f23bc8c46b7339,

title = "Historic manioc genomes illuminate maintenance of diversity under long-lived clonal cultivation",

abstract = "Manioc—also called cassava and yuca—is among the world{\textquoteright}s most important crops, originating in South America in the early Holocene. Domestication for its starchy roots involved a near-total shift from sexual to clonal propagation, and almost all manioc worldwide is now grown from stem cuttings. In this work, we analyze 573 new and published genomes, focusing on traditional varieties from the Americas and wild relatives from herbaria, to reveal the effects of this shift to clonality. We observe kinship over large distances, maintenance of high genetic diversity, intergenerational heterozygosity enrichment, and genomic mosaics of identity-by-descent haploblocks that connect all manioc worldwide. Interviews with Indigenous traditional farmers in the Brazilian Cerrado illuminate how traditional management strategies for sustaining, diversifying, and sharing the gene pool have shaped manioc diversity.",

author = "Logan Kistler and Freitas, \{Fabio de Oliveira\} and Gutaker, \{Rafal M.\} and Maezumi, \{S. Yoshi\} and Jazm{\'i}n Ramos-Madrigal and Simon, \{Marcelo F.\} and \{Mendoza F\}, \{J. Moises\} and Drovetski, \{Sergei V.\} and Hope Loiselle and \{de Oliveira\}, \{Eder Jorge\} and Vieira, \{Eduardo Alano\} and Carvalho, \{Luiz Joaquim Castelo Branco\} and Perez, \{Marina Ellis\} and Lin, \{Audrey T.\} and Liu, \{Hsiao Lei\} and Rachel Miller and Przelomska, \{Natalia A.S.\} and Aakrosh Ratan and Nathan Wales and Kevin Wann and Shuya Zhang and Magdalena Garc{\'i}a and Daniela Valenzuela and Francisco Rothhammer and Santoro, \{Calogero M.\} and Domic, \{Alejandra I.\} and Capriles, \{Jos{\'e} M.\} and Allaby, \{Robin G.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 the authors, some rights reserved.",

year = "2025",

month = mar,

day = "7",

doi = "10.1126/science.adq0018",

language = "English",

volume = "387",

journal = "Science",

issn = "0036-8075",

number = "6738",

}

Kistler, L, Freitas, FDO, Gutaker, RM, Maezumi, SY, Ramos-Madrigal, J, Simon, MF, Mendoza F, JM, Drovetski, SV, Loiselle, H, de Oliveira, EJ, Vieira, EA, Carvalho, LJCB, Perez, ME, Lin, AT, Liu, HL, Miller, R, Przelomska, NAS, Ratan, A, Wales, N, Wann, K, Zhang, S, García, M, Valenzuela, D , Rothhammer, F, Santoro, CM, Domic, AI, Capriles, JM & Allaby, RG 2025, 'Historic manioc genomes illuminate maintenance of diversity under long-lived clonal cultivation', Science, vol. 387, n.º 6738, eadq0018. https://doi.org/10.1126/science.adq0018

TY - JOUR

T1 - Historic manioc genomes illuminate maintenance of diversity under long-lived clonal cultivation

AU - Kistler, Logan

AU - Freitas, Fabio de Oliveira

AU - Gutaker, Rafal M.

AU - Maezumi, S. Yoshi

AU - Ramos-Madrigal, Jazmín

AU - Simon, Marcelo F.

AU - Mendoza F, J. Moises

AU - Drovetski, Sergei V.

AU - Loiselle, Hope

AU - de Oliveira, Eder Jorge

AU - Vieira, Eduardo Alano

AU - Carvalho, Luiz Joaquim Castelo Branco

AU - Perez, Marina Ellis

AU - Lin, Audrey T.

AU - Liu, Hsiao Lei

AU - Miller, Rachel

AU - Przelomska, Natalia A.S.

AU - Ratan, Aakrosh

AU - Wales, Nathan

AU - Wann, Kevin

AU - Zhang, Shuya

AU - García, Magdalena

AU - Valenzuela, Daniela

AU - Rothhammer, Francisco

AU - Santoro, Calogero M.

AU - Domic, Alejandra I.

AU - Capriles, José M.

AU - Allaby, Robin G.

PY - 2025/3/7

Y1 - 2025/3/7

N2 - Manioc—also called cassava and yuca—is among the world’s most important crops, originating in South America in the early Holocene. Domestication for its starchy roots involved a near-total shift from sexual to clonal propagation, and almost all manioc worldwide is now grown from stem cuttings. In this work, we analyze 573 new and published genomes, focusing on traditional varieties from the Americas and wild relatives from herbaria, to reveal the effects of this shift to clonality. We observe kinship over large distances, maintenance of high genetic diversity, intergenerational heterozygosity enrichment, and genomic mosaics of identity-by-descent haploblocks that connect all manioc worldwide. Interviews with Indigenous traditional farmers in the Brazilian Cerrado illuminate how traditional management strategies for sustaining, diversifying, and sharing the gene pool have shaped manioc diversity.

AB - Manioc—also called cassava and yuca—is among the world’s most important crops, originating in South America in the early Holocene. Domestication for its starchy roots involved a near-total shift from sexual to clonal propagation, and almost all manioc worldwide is now grown from stem cuttings. In this work, we analyze 573 new and published genomes, focusing on traditional varieties from the Americas and wild relatives from herbaria, to reveal the effects of this shift to clonality. We observe kinship over large distances, maintenance of high genetic diversity, intergenerational heterozygosity enrichment, and genomic mosaics of identity-by-descent haploblocks that connect all manioc worldwide. Interviews with Indigenous traditional farmers in the Brazilian Cerrado illuminate how traditional management strategies for sustaining, diversifying, and sharing the gene pool have shaped manioc diversity.

UR - https://www.scopus.com/pages/publications/86000674418

U2 - 10.1126/science.adq0018

DO - 10.1126/science.adq0018

M3 - Article

C2 - 40048537

AN - SCOPUS:86000674418

SN - 0036-8075

VL - 387

JO - Science

JF - Science

IS - 6738

M1 - eadq0018

ER -

Historic manioc genomes illuminate maintenance of diversity under long-lived clonal cultivation

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