Ecology and activity of mesic Afrotropic mole-rats / Ecology and activity of mesic Afrotropic mole-rats

LÖVY, Matěj

January 2011

This Ph.D. thesis focuses on the ecology and activity of mesic Afrotropic mole-rats. In particular, ecological characteristics in habitats of two mole-rat species with different social system, the solitary Heliophobius argenteocinereus and social Fukomys whytei, were analysed in an area of sympatry and the results are discussed in relation with available ecological data on other species. Two studies bring to light novel data on the ecology and behaviour of the free-living largest social bathyergid, the giant mole-rat Fukomys mechowii, especially in relation to ecological characteristics in its natural habitat, burrow system architecture, kin structure and spatial and temporal activity patterns. In the final study, new data on the field metabolism of the silvery mole-rat H. argenteocinereus are presented. These new findings are discussed in further detail and expand upon existing explanations for low resting metabolism in subterranean rodents and the differences in field metabolism in relation to seasonality of habitat.

Mammalian energetic savings in subterranean environment. The case of African mole-rats. / Mammalian energetic savings in subterranean environment. The case of African mole-rats.

OKROUHLÍK, Jan

January 2014

Mole-rats are placental mammals which are perfectly adapted to subterranean life. In this thesis I present novel findings on working metabolism and thermoregulatory physiology of mole-rats. These animals cope with low availability of food and have thus employed multiple strategies how to conserve energy and/or use it more effectively. Among other adaptations this resulted in lower resting body temperature, tolerance to increase in body temperature during exercise or while at rest, surprisingly efficient cooling while digging and precise diurnal and seasonal timing of activity with regards to environmental conditions. My focus in this work is on the digging metabolic rate and thermoregulation of social Fukomys mechowii and solitary Heliophobius argenteocinereus in soft and hard substrate, thermoregulatory abilities of Fukomys darlingi, seasonal changes of activity in free living Heliophobius argenteocinereus measured as daily energy expenditure and, finally, energetic consequences of the daily activity patterns of Fukomys anselli.

The evolution of nuclear microsatellite DNA markers and their flanking regions using reciprocal comparisons within the African mole-rats (Rodentia: Bathyergidae)

Ingram, Colleen Marie

30 October 2006

Microsatellites are repetitive DNA characterized by tandem repeats of short motifs (2 – 5 bp). High mutation rates make them ideal for population level studies. Microsatellite allele genesis is generally attributed to strand slippage, and it is assumed that alleles are caused only by changes in repeat number. Most analyses are limited to alleles (electromorphs) scored by mobility only, and models of evolution rarely account for homoplasy in allele length. Additionally, insertion/deletion events (indels) in the flanking region or interruptions in the repeat can obfuscate the accuracy of genotyping. Many investigators use microsatellites, designed for a focal species, to screen for genetic variation in non-focal species. Comparative studies have shown different mutation rates of microsatellites in different species, and even individuals. Recent studies have used reciprocal comparisons to assess the level of polymorphism of microsatellites between pairs of taxa. In this study, I investigated the evolution of microsatellites within a phylogenetic context, using comparisons within the rodent family Bathyergidae. Bathyergidae represents a monophyletic group endemic to sub-Saharan Africa and relationships are well supported by morphological and molecular data. Using mitochondrial and nuclear DNA, a robust phylogeny was generated for the Bathyergidae. From my results, I proposed the new genus, Coetomys. I designed species-specific genotyping and microsatellite flanking sequence (MFS) primers for each genus. Sequencing of the MFS provided direct evidence of the evolutionary dynamics of the repeat motifs and their flanking sequence, including rampant electromorphic homoplasy, null alleles, and indels. This adds to the growing body of evidence regarding problems with genotype scores from fragment analysis. A number of the loci isolated were linked with repetitive elements (LTRs and SINEs), characterized as robust phylogenetic characters. Results suggest that cryptic variation in microsatellite loci are not trivial and should be assessed in all studies. The phylogenetic utility of the nucleotide variation of the MFS was compared to the well-resolved relationships of this family based on the 12S/TTR phylogeny. Variation observed in MFS generated robust phylogenies, congruent with results from 12S/TTR. Finally, a number of the indels within the MFS provided a suite of suitable phylogenetic characters.

Microsatellite DNA

Molecular Evolution

Microsatellite Flanking Sequences

MFS

Ascertainment Bias

Null Alleles

Electromorphic Homoplasy

Microsatellite Indels

Phylogenetics

Fragment Analysis

Africa

Mole-Rats

Bathyergidae

Rodentia

Coetomys

Cryptomys

Bathyergus

Georychus

Heliophobius

Heterocephalus

Mammalia