Detailed Information on Publication Record
2016
Evolutionary history and species diversity of African pouched mice (Rodentia: Nesomyidae: Saccostomus)
MIKULA, Ondřej, Radim ŠUMBERA, Tatiana AGHOVÁ, Judith S. MBAU, Josef BRYJA et. al.Basic information
Original name
Evolutionary history and species diversity of African pouched mice (Rodentia: Nesomyidae: Saccostomus)
Authors
MIKULA, Ondřej (203 Czech Republic), Radim ŠUMBERA (203 Czech Republic), Tatiana AGHOVÁ (703 Slovakia, belonging to the institution), Judith S. MBAU (404 Kenya), Josef BRYJA (203 Czech Republic, belonging to the institution), Abdul S. KATAKWEBA (834 Tanzania, United Republic of) and Christopher A. SABUNI (834 Tanzania, United Republic of)
Edition
Zoologica Scripta, Hoboken, Wiley, 2016, 0300-3256
Other information
Language
English
Type of outcome
Článek v odborném periodiku
Field of Study
10613 Zoology
Country of publisher
United States of America
Confidentiality degree
není předmětem státního či obchodního tajemství
Impact factor
Impact factor: 2.837
RIV identification code
RIV/00216224:14310/16:00095877
Organization unit
Faculty of Science
UT WoS
000386075500003
Keywords in English
MYOMYS-STENOCEPHALEMYS COMPLEX; MUROID RODENTS; POPULATION-DYNAMICS; CLIMATIC ADAPTATION; GENETIC-DIVERGENCE; STATISTICAL-METHOD; DNA POLYMORPHISM; CENTRAL KENYA; MOLE-RATS; PHYLOGENY
Změněno: 13/4/2018 13:27, Ing. Nicole Zrilić
Abstract
V originále
We explore diversity of African pouched mice, genus Saccostomus (Rodentia, Nesomyidae), by sampling molecular and morphological variation across their continental-scale distribution in southern and eastern African savannahs and woodlands. Both mitochondrial (cytochrome b) and nuclear DNA (IRBP, RAG1) as well as skull morphology confirm the distinction between two recognized species, S.campestris and S.mearnsi, with disjunct distribution in the Zambezian and Somali-Maasai bioregions, respectively. Molecular dating suggests the divergence of these taxa occurred in the Early Pliocene, 3.9Ma before present, whereas the deepest divergences within each of them are only as old as 2.0Ma for S.mearnsi and 1.4Ma for S.campestris. Based on cytochrome b phylogeny, we defined five clades (three within S.campestris, two in S.mearnsi) whose species status was considered in the light of nuclear DNA markers and morphology. We conclude that S.campestris group consists of two subspecies S.campestris campestris (Peters, 1846; comprising two cytochrome b clades) and S.campestris mashonae (de Winton, 1897) that are moderately differentiated, albeit distinct in IRBP and skull form. They likely hybridize to a limited extent along the Kafue-Zambezi Rivers. Saccostomus mearnsi group consists of two species, S.mearnsi (Heller, 1910) and S.umbriventer (Miller, 1910), that are markedly differentiated in both nuclear markers and skull form and may possibly co-occur in south-western Kenya and north-eastern Tanzania. Analysis of historical demography suggests both subspecies of S.campestris experienced population expansion dated to the Last Glacial. In the present range of S.campestris group, the distribution modelling suggests a moderate fragmentation of suitable habitats during the last glacial cycle, whereas in the range of S.mearnsi group it predicts substantial shifts of its occurrence in the same period.