Genetic structure offers insights into the evolution of migration and the taxonomy of the Barred Long-tailed Cuckoo Cercococcyx montanus species complex

Research output: Contribution to journalJournal articleResearchpeer-review

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Genetic structure offers insights into the evolution of migration and the taxonomy of the Barred Long-tailed Cuckoo Cercococcyx montanus species complex. / Engel, Joshua I.; Byamana, Kizungu; Kahindo, Charles; Bates, John M.; Fjeldså, Jon.

In: Ibis, Vol. 156, No. 2, 2014, p. 330-340.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Engel, JI, Byamana, K, Kahindo, C, Bates, JM & Fjeldså, J 2014, 'Genetic structure offers insights into the evolution of migration and the taxonomy of the Barred Long-tailed Cuckoo Cercococcyx montanus species complex', Ibis, vol. 156, no. 2, pp. 330-340. https://doi.org/10.1111/ibi.12145

APA

Engel, J. I., Byamana, K., Kahindo, C., Bates, J. M., & Fjeldså, J. (2014). Genetic structure offers insights into the evolution of migration and the taxonomy of the Barred Long-tailed Cuckoo Cercococcyx montanus species complex. Ibis, 156(2), 330-340. https://doi.org/10.1111/ibi.12145

Vancouver

Engel JI, Byamana K, Kahindo C, Bates JM, Fjeldså J. Genetic structure offers insights into the evolution of migration and the taxonomy of the Barred Long-tailed Cuckoo Cercococcyx montanus species complex. Ibis. 2014;156(2):330-340. https://doi.org/10.1111/ibi.12145

Author

Engel, Joshua I. ; Byamana, Kizungu ; Kahindo, Charles ; Bates, John M. ; Fjeldså, Jon. / Genetic structure offers insights into the evolution of migration and the taxonomy of the Barred Long-tailed Cuckoo Cercococcyx montanus species complex. In: Ibis. 2014 ; Vol. 156, No. 2. pp. 330-340.

Bibtex

@article{4145ff15389f43dcaf7ca35c1f58a766,
title = "Genetic structure offers insights into the evolution of migration and the taxonomy of the Barred Long-tailed Cuckoo Cercococcyx montanus species complex",
abstract = "Barred Long-tailed Cuckoo (Cercococcyx montanus) currently comprises two morphologically distinct subspecies, one resident in the Albertine Rift (montanus) and one in east and southeast Africa (patulus) in which there are migrations that are poorly understood. Based on nuclear and mitochondrial DNA sequences, we find that two specimens collected in relatively low-elevation forest in the Albertine Rift were correctly identified from plumage as the migratory subspecies whose closest known breeding area is > 800 km to the east. We discuss ways in which this unique migratory pattern could have evolved and argue that migration was gained and then lost in the C. montanus complex. Based on consistent morphological and genetic differences, we suggest that Barred Long-tailed Cuckoo is best treated as two species, one of which (C. montanus) is a non-migratory Albertine Rift endemic.",
author = "Engel, {Joshua I.} and Kizungu Byamana and Charles Kahindo and Bates, {John M.} and Jon Fjelds{\aa}",
year = "2014",
doi = "10.1111/ibi.12145",
language = "English",
volume = "156",
pages = "330--340",
journal = "Ibis",
issn = "0019-1019",
publisher = "Wiley-Blackwell",
number = "2",

}

RIS

TY - JOUR

T1 - Genetic structure offers insights into the evolution of migration and the taxonomy of the Barred Long-tailed Cuckoo Cercococcyx montanus species complex

AU - Engel, Joshua I.

AU - Byamana, Kizungu

AU - Kahindo, Charles

AU - Bates, John M.

AU - Fjeldså, Jon

PY - 2014

Y1 - 2014

N2 - Barred Long-tailed Cuckoo (Cercococcyx montanus) currently comprises two morphologically distinct subspecies, one resident in the Albertine Rift (montanus) and one in east and southeast Africa (patulus) in which there are migrations that are poorly understood. Based on nuclear and mitochondrial DNA sequences, we find that two specimens collected in relatively low-elevation forest in the Albertine Rift were correctly identified from plumage as the migratory subspecies whose closest known breeding area is > 800 km to the east. We discuss ways in which this unique migratory pattern could have evolved and argue that migration was gained and then lost in the C. montanus complex. Based on consistent morphological and genetic differences, we suggest that Barred Long-tailed Cuckoo is best treated as two species, one of which (C. montanus) is a non-migratory Albertine Rift endemic.

AB - Barred Long-tailed Cuckoo (Cercococcyx montanus) currently comprises two morphologically distinct subspecies, one resident in the Albertine Rift (montanus) and one in east and southeast Africa (patulus) in which there are migrations that are poorly understood. Based on nuclear and mitochondrial DNA sequences, we find that two specimens collected in relatively low-elevation forest in the Albertine Rift were correctly identified from plumage as the migratory subspecies whose closest known breeding area is > 800 km to the east. We discuss ways in which this unique migratory pattern could have evolved and argue that migration was gained and then lost in the C. montanus complex. Based on consistent morphological and genetic differences, we suggest that Barred Long-tailed Cuckoo is best treated as two species, one of which (C. montanus) is a non-migratory Albertine Rift endemic.

U2 - 10.1111/ibi.12145

DO - 10.1111/ibi.12145

M3 - Journal article

VL - 156

SP - 330

EP - 340

JO - Ibis

JF - Ibis

SN - 0019-1019

IS - 2

ER -

ID: 140152507