Targeted Chromosomal Sequencing of Wild Bonobos Identifies a Genetically Distinct Subpopulation East of the Lomami River

Mar Crego-Walters; Sebastian Cuadros-Espinoza; Irune Ruiz-Gartzia; Sojung Han; Nuria Hermosilla; Philippe Helsen; Peter Frandsen; Alexandra Maria Brumwell Prats; Pol Alentorn-Moron; Claudia Fontsere; Marina Alvarez Estape; Muzungu Ngofuna; Claude Monghiemo; Fabian Leendertz; Jo Thompson; David Fasbender; Paula Dieguez; Albert Lotana Lokasola; Colin Brand; Jean-Bosco Ndjango; Alexander V Georgiev; Jasmin A Giles; Weimin Liu; Yingying Li; Paul M Sharp; Zjef Pereboom; Aida M Andrés; Martin Kuhlwilm; Ilan Gronau; Hjalmar Kuehl; Erin G Wessling; Victor Narat; Martin Surbeck; John A Hart; Terese B Hart; Christina Hvilsom; Michael Krutzen; Jeroen Stevens; Beatrice H Hahn; Esther Lizano; Javier Prado-Martinez; Tomas Marques-Bonet

doi:10.64898/2026.01.08.698381

Targeted Chromosomal Sequencing of Wild Bonobos Identifies a Genetically Distinct Subpopulation East of the Lomami River

Mar Crego-Walters, Sebastian Cuadros-Espinoza, Irune Ruiz-Gartzia, Sojung Han, Nuria Hermosilla, Philippe Helsen, Peter Frandsen, Alexandra Maria Brumwell Prats, Pol Alentorn-Moron, Claudia Fontsere, Marina Alvarez Estape, Muzungu Ngofuna, Claude Monghiemo, Fabian Leendertz, Jo Thompson, David Fasbender, Paula Dieguez, Albert Lotana Lokasola, Colin Brand, Jean-Bosco NdjangoAlexander V Georgiev, Jasmin A Giles, Weimin Liu, Yingying Li, Paul M Sharp, Zjef Pereboom, Aida M Andrés, Martin Kuhlwilm, Ilan Gronau, Hjalmar Kuehl, Erin G Wessling, Victor Narat, Martin Surbeck, John A Hart, Terese B Hart, Christina Hvilsom, Michael Krutzen, Jeroen Stevens, Beatrice H Hahn, Esther Lizano, Javier Prado-Martinez^*, Tomas Marques-Bonet^*

^*Corresponding author af dette arbejde

Patologiafdelingen AHH

Abstract

Bonobos (Pan paniscus), an endangered species, have for decades been genetically understudied, partly due to difficulties in obtaining high-quality samples. The study of their genome is important not only for understanding their evolution, but also for improving conservation efforts, including population management, diversity and inbreeding assessment, and tracking rescued individuals to combat illegal wildlife trafficking. Here, we use chromosome 21 target capture data from 156 non-invasively collected faecal samples from wild bonobos to perform a comprehensive analysis of their population structure. We confirm the existence of three previously suggested subpopulations identified here as Western, Central and Eastern bonobos which are defined by natural barriers of gene flow such as the Lomami River. By estimating levels of inbreeding, diversity and differentiation, we find support for isolation of mainly Western and Eastern populations and add information on the dispersal routes of their ancestors. We infer split times and separation of these populations and apply a genetic framework to geolocalize samples of unknown origin, showing that locations of their potential origin can be estimated with a precision of up to a median of ~50 km. Our study provides valuable insight into the evolution and population structure of bonobos and reveals how rivers act as strong barriers between populations. It also offers resources for conservation efforts and highlights the need to monitor bonobo populations more closely, in particular isolated ones.

Originalsprog	Engelsk
DOI	https://doi.org/10.64898/2026.01.08.698381
Status	Udgivet - 9 jan. 2026

Navn	bioRxiv : the preprint server for biology
ISSN	2692-8205

Adgang til dokumentet

10.64898/2026.01.08.698381Licens: CC BY-NC-ND

Citationsformater

Crego-Walters, M., Cuadros-Espinoza, S., Ruiz-Gartzia, I., Han, S., Hermosilla, N., Helsen, P., Frandsen, P., Prats, A. M. B., Alentorn-Moron, P., Fontsere, C., Estape, M. A., Ngofuna, M., Monghiemo, C., Leendertz, F., Thompson, J., Fasbender, D., Dieguez, P., Lokasola, A. L., Brand, C., ... Marques-Bonet, T. (2026). Targeted Chromosomal Sequencing of Wild Bonobos Identifies a Genetically Distinct Subpopulation East of the Lomami River. bioRxiv : the preprint server for biology https://doi.org/10.64898/2026.01.08.698381

Crego-Walters, M, Cuadros-Espinoza, S, Ruiz-Gartzia, I, Han, S, Hermosilla, N, Helsen, P, Frandsen, P, Prats, AMB, Alentorn-Moron, P, Fontsere, C, Estape, MA, Ngofuna, M, Monghiemo, C, Leendertz, F, Thompson, J, Fasbender, D, Dieguez, P, Lokasola, AL, Brand, C, Ndjango, J-B, Georgiev, AV, Giles, JA, Liu, W, Li, Y, Sharp, PM, Pereboom, Z, Andrés, AM, Kuhlwilm, M, Gronau, I, Kuehl, H, Wessling, EG, Narat, V, Surbeck, M, Hart, JA, Hart, TB, Hvilsom, C, Krutzen, M, Stevens, J, Hahn, BH, Lizano, E, Prado-Martinez, J & Marques-Bonet, T 2026 'Targeted Chromosomal Sequencing of Wild Bonobos Identifies a Genetically Distinct Subpopulation East of the Lomami River' bioRxiv : the preprint server for biology. https://doi.org/10.64898/2026.01.08.698381

@misc{52b5c5c816e3428e983db8e8a5501800,

title = "Targeted Chromosomal Sequencing of Wild Bonobos Identifies a Genetically Distinct Subpopulation East of the Lomami River",

abstract = "Bonobos (Pan paniscus), an endangered species, have for decades been genetically understudied, partly due to difficulties in obtaining high-quality samples. The study of their genome is important not only for understanding their evolution, but also for improving conservation efforts, including population management, diversity and inbreeding assessment, and tracking rescued individuals to combat illegal wildlife trafficking. Here, we use chromosome 21 target capture data from 156 non-invasively collected faecal samples from wild bonobos to perform a comprehensive analysis of their population structure. We confirm the existence of three previously suggested subpopulations identified here as Western, Central and Eastern bonobos which are defined by natural barriers of gene flow such as the Lomami River. By estimating levels of inbreeding, diversity and differentiation, we find support for isolation of mainly Western and Eastern populations and add information on the dispersal routes of their ancestors. We infer split times and separation of these populations and apply a genetic framework to geolocalize samples of unknown origin, showing that locations of their potential origin can be estimated with a precision of up to a median of \textasciitilde{}50 km. Our study provides valuable insight into the evolution and population structure of bonobos and reveals how rivers act as strong barriers between populations. It also offers resources for conservation efforts and highlights the need to monitor bonobo populations more closely, in particular isolated ones.",

author = "Mar Crego-Walters and Sebastian Cuadros-Espinoza and Irune Ruiz-Gartzia and Sojung Han and Nuria Hermosilla and Philippe Helsen and Peter Frandsen and Prats, \{Alexandra Maria Brumwell\} and Pol Alentorn-Moron and Claudia Fontsere and Estape, \{Marina Alvarez\} and Muzungu Ngofuna and Claude Monghiemo and Fabian Leendertz and Jo Thompson and David Fasbender and Paula Dieguez and Lokasola, \{Albert Lotana\} and Colin Brand and Jean-Bosco Ndjango and Georgiev, \{Alexander V\} and Giles, \{Jasmin A\} and Weimin Liu and Yingying Li and Sharp, \{Paul M\} and Zjef Pereboom and Andr{\'e}s, \{Aida M\} and Martin Kuhlwilm and Ilan Gronau and Hjalmar Kuehl and Wessling, \{Erin G\} and Victor Narat and Martin Surbeck and Hart, \{John A\} and Hart, \{Terese B\} and Christina Hvilsom and Michael Krutzen and Jeroen Stevens and Hahn, \{Beatrice H\} and Esther Lizano and Javier Prado-Martinez and Tomas Marques-Bonet",

year = "2026",

month = jan,

day = "9",

doi = "10.64898/2026.01.08.698381",

language = "English",

series = "bioRxiv : the preprint server for biology",

publisher = "Cold Spring Harbor Laboratory Press",

type = "WorkingPaper",

institution = "Cold Spring Harbor Laboratory Press",

}

TY - UNPB

T1 - Targeted Chromosomal Sequencing of Wild Bonobos Identifies a Genetically Distinct Subpopulation East of the Lomami River

AU - Crego-Walters, Mar

AU - Cuadros-Espinoza, Sebastian

AU - Ruiz-Gartzia, Irune

AU - Han, Sojung

AU - Hermosilla, Nuria

AU - Helsen, Philippe

AU - Frandsen, Peter

AU - Prats, Alexandra Maria Brumwell

AU - Alentorn-Moron, Pol

AU - Fontsere, Claudia

AU - Estape, Marina Alvarez

AU - Ngofuna, Muzungu

AU - Monghiemo, Claude

AU - Leendertz, Fabian

AU - Thompson, Jo

AU - Fasbender, David

AU - Dieguez, Paula

AU - Lokasola, Albert Lotana

AU - Brand, Colin

AU - Ndjango, Jean-Bosco

AU - Georgiev, Alexander V

AU - Giles, Jasmin A

AU - Liu, Weimin

AU - Li, Yingying

AU - Sharp, Paul M

AU - Pereboom, Zjef

AU - Andrés, Aida M

AU - Kuhlwilm, Martin

AU - Gronau, Ilan

AU - Kuehl, Hjalmar

AU - Wessling, Erin G

AU - Narat, Victor

AU - Surbeck, Martin

AU - Hart, John A

AU - Hart, Terese B

AU - Hvilsom, Christina

AU - Krutzen, Michael

AU - Stevens, Jeroen

AU - Hahn, Beatrice H

AU - Lizano, Esther

AU - Prado-Martinez, Javier

AU - Marques-Bonet, Tomas

PY - 2026/1/9

Y1 - 2026/1/9

N2 - Bonobos (Pan paniscus), an endangered species, have for decades been genetically understudied, partly due to difficulties in obtaining high-quality samples. The study of their genome is important not only for understanding their evolution, but also for improving conservation efforts, including population management, diversity and inbreeding assessment, and tracking rescued individuals to combat illegal wildlife trafficking. Here, we use chromosome 21 target capture data from 156 non-invasively collected faecal samples from wild bonobos to perform a comprehensive analysis of their population structure. We confirm the existence of three previously suggested subpopulations identified here as Western, Central and Eastern bonobos which are defined by natural barriers of gene flow such as the Lomami River. By estimating levels of inbreeding, diversity and differentiation, we find support for isolation of mainly Western and Eastern populations and add information on the dispersal routes of their ancestors. We infer split times and separation of these populations and apply a genetic framework to geolocalize samples of unknown origin, showing that locations of their potential origin can be estimated with a precision of up to a median of ~50 km. Our study provides valuable insight into the evolution and population structure of bonobos and reveals how rivers act as strong barriers between populations. It also offers resources for conservation efforts and highlights the need to monitor bonobo populations more closely, in particular isolated ones.

AB - Bonobos (Pan paniscus), an endangered species, have for decades been genetically understudied, partly due to difficulties in obtaining high-quality samples. The study of their genome is important not only for understanding their evolution, but also for improving conservation efforts, including population management, diversity and inbreeding assessment, and tracking rescued individuals to combat illegal wildlife trafficking. Here, we use chromosome 21 target capture data from 156 non-invasively collected faecal samples from wild bonobos to perform a comprehensive analysis of their population structure. We confirm the existence of three previously suggested subpopulations identified here as Western, Central and Eastern bonobos which are defined by natural barriers of gene flow such as the Lomami River. By estimating levels of inbreeding, diversity and differentiation, we find support for isolation of mainly Western and Eastern populations and add information on the dispersal routes of their ancestors. We infer split times and separation of these populations and apply a genetic framework to geolocalize samples of unknown origin, showing that locations of their potential origin can be estimated with a precision of up to a median of ~50 km. Our study provides valuable insight into the evolution and population structure of bonobos and reveals how rivers act as strong barriers between populations. It also offers resources for conservation efforts and highlights the need to monitor bonobo populations more closely, in particular isolated ones.

U2 - 10.64898/2026.01.08.698381

DO - 10.64898/2026.01.08.698381

M3 - Preprint

C2 - 41542450

T3 - bioRxiv : the preprint server for biology

BT - Targeted Chromosomal Sequencing of Wild Bonobos Identifies a Genetically Distinct Subpopulation East of the Lomami River

ER -

Targeted Chromosomal Sequencing of Wild Bonobos Identifies a Genetically Distinct Subpopulation East of the Lomami River

Abstract

Adgang til dokumentet

Fingeraftryk

Citationsformater