The reproductive biology of the solitary Cape mole-rat, Georychus capensis and the social Natal mole-rat, Cryptomys hottentotus natalensis (Rodentia : Bathyergidae)

Oosthuizen, Maria Kathleen

29 July 2008

The seasonality of wild caught Cape mole-rats was investigated, focusing on endocrine, neuroendocrine and neuroanatomical parameters. The Cape mole-rat reproduces only during the winter rainfall period of the western Cape Province. Interestingly, the gonadal steroid hormones do not show any significant seasonal patterns in either males or females. In addition, the pituitary does not exhibit a reduced sensitivity to GnRH stimulation during the non-breeding season in either sex. Moreover, in the brain the distribution, number and size of GnRH perikarya do not differ with respect to season. Therefore, although only producing young during a specific period of the year, the Cape mole-rat does not appear to be physiologically repressed from reproducing throughout the year. The results of this study imply that the Cape mole-rat is an opportunistic breeder that is reproductively quiescent during the dry season as a consequence of ecological factors such as lack of favourable burrowing conditions and that when opportunities avail themselves following aseasonal rainfall, reproduction may occur. The seasonality and socially induced infertility of the Natal mole-rat was examined via endocrine, neuroendocrine and neuroanatomical investigations. In contrast with the phylogenetically closely related common mole-rat and highveld mole-rat, the Natal mole-rat does not appear to breed seasonally. Post-mortem examination of animals collected revealed pregnant reproductive females throughout the year. A similar scenario is reflected in gonadal steroid concentrations, with no major seasonal differences observed in either males or females. Likewise, pituitary sensitivity to GnRH does not change over season in males or females, and all neuroanatomical parameters investigated remained stable over season in both males and females. Natal mole-rats captured for this study occur in an area with a high annual rainfall, (almost double that of the common mole-rat habitat and one and a half times that of the highveld mole-rat) and the relatively higher rainfall and hence soil moisture content may provide the Natal mole-rat with increased foraging time a result of increased periods over which the soil is optimal for burrowing. Socially induced infertility in the Natal mole-rat appears to be enforced behaviourally as a result of active incest avoidance. The circulating testosterone concentrations were not significantly different in reproductive and non-reproductive males, and likewise oestrogen concentrations did not differ between reproductive and non-reproductive females. Progesterone concentrations were very low in subordinate females, but markedly higher in reproductive females. This is not surprising since the Natal mole-rat is an induced ovulator, thus coitus is required to induce the LH surge that stimulates ovulation. The sensitivity of the pituitary to a GnRH challenge did not differ between reproductive and non-reproductive animals from either sex. No neuroanatomical differences were observed between reproductive and non-reproductive animals of either sex, however, non-reproductive males and females had significantly higher amounts of GnRH in the median eminence, implying that GnRH is synthesized and transported to the median eminence but not released in the portal system to the anterior pituitary. These findings suggest that non-reproductive animals of both sexes are not sterile, but merely sexually quiescent. Copyright / Thesis (PhD)--University of Pretoria, 2008. / Zoology and Entomology / unrestricted

Cape mole-rat (Georychus capensis)

Western Cape Province, South Africa

Winter rainfall period

Reproduction

Natal mole-rat

Georychus capensis

Cryptomys hottentotus natalensis

UCTD

A comparison of some aspects of the masticatory apparatus of the cape mole-rat, Georychus capensis with that of the cape dune molerat, Bathyergus suillus

Kouame, Koffi

January 2009

Magister Scientiae (Medical Bioscience) - MSc(MBS) / Some African mole-rats of the family Bathyergidea have dramatically different ecological niches which may cause selective anatomical adaptations. Bathyergus suillus lives in sandy soil and eats a wide range of food whereas Georychus capensis is restricted to the mountainous hard soil and eats mainly geophytes. Georychus capensis is considered a chisel-tooth digger in that it uses its incisors to dislodge soil while Bathyergus suillus is a scratch-digger that uses both its incisors and large front paws to dislodge soil. The purpose of this study was to compare certain aspects of the masticatory anatomy of Bathyergus suillus and Georychus capensis. In particular the question that drives this study is: Do the differences in ecology of the two species reflect in the anatomical adaptation of their masticatory apparatus? Nine whole body specimens of each species were obtained for this study. The masticatory apparatus of each specimen was dissected, examined and analysed.Selected bones of their skulls were investigated to determine their gross morphology. Digitalized images were captured by a high-resolution Olympus digital camera and were analysed by DOCU analysis software, in order to determine the morphometric parameters. In addition, the cleaned skulls of each species were weighed with a chemical balance. In order to make the comparison of the four muscles of mastication more effective than when using only their linear measurements, the mass (in grams) of each skull was divided by the length of each metric traits squared in order to yield their respective indices. Various statistical tests were used.This study has thus revealed some dissimilarities between the two species.Comparison of the two species reveals that one of the more distinguishing differences between the two is their upper incisors. There are also significant differences in the morphology and dimensions of their angular plates. And the external pterygoid muscle is significantly larger in Georychus capensis than in Bathyergus suillus, there are no significant differences between the others of the masticatory muscles of the two species.The feeding and foraging activities of Bathyergus suillus as well as Georychus capensis have close relationship with their lifestyles (digging abilities and adaptations). Bathyergus suillus is predisposed to dig with its incisors as well as its large front paws, and the range of food is large, whereas Georychus capensis uses its incisors only to dig, and the range of food is limited. Subsequently the skull of Bathyergus suillus is bigger than Georychus capensis. But, due to the environment of the latter, strong incisors are needed to perform its feeding and digging activities. The investigation thus reveals that the two selected species have successfully adapted their anatomical masticatory elements to their environments.

Angular plate

Bathyergus suillus

Condyloid process

Coronoid process

Comparative anatomy

Digging

Foraging

Georychus capensis

Incisors

Mandible

Masticatory apparatus

Masticatory muscles

Masticatory muscles indices

Rodentia

Scratch-digger

Tooth-digger

Aspects of memory in the Damaraland mole-rat, Cryptomys damarensis : spatial learning and kin recognition

Costanzo, Marna S.

03 July 2007

African mole-rats (Bathyergidae) exhibit a wide range of social structures ranging from solitary to eusocial. This allows for studies looking at links between sociality and measurable characteristics such as spatial learning and kin-recognition. Furthermore, the existence of species with differing level of sociality allows for comparison between the highly social species and the solitary species. The existence of differences in spatial learning ability and memory between the sexes has long been debated. Eusocial Damaraland mole-rats (Cryptomys damarensis) and solitary Cape mole-rats (Georychus capensis) were tested to see if there were sex or species differences in the ability to locate food in an artificial maze task with the express purpose of investigating spatial learning and memory. Measurements of the time taken to complete the task, the distance travelled, wrong turns taken, and the average velocity at which animals travelled were used to compare performance between animals. Both sexes in each of the species exhibited learning and a decay in memory over time. The Damaraland mole-rat exhibited superior learning and memory retention when compared to the Cape mole-rat. Male Cape mole-rats had superior learning and longer term memory retention when compared to females of the same species. There was no significant difference in learning curves between male and female Damaraland mole-rats, but this species did exhibit a tendency for females to show better medium term memory retention while males performed better on long term memory trials. Species differences are likely to be linked to social organization and possibly the resultant burrow-structure in the natural environment, while sex-differences may be due to differing life histories. Kin-recognition is important in maintaining the social structure and hierarchy in the eusocial species of African mole-rat, Cryptomys damarensis. Opposite sex sibling pairs from reproductively quiescent colonies were tested to see if exposure to colony urine odour would reinforce recognition of opposite sex siblings and the concomitant incest avoidance. Control sibling pairs from the same colonies were exposed to water. Mating, social, and non-social behaviours were measured in all sibling pairs. In addition, urinary levels of cortisol, progesterone and testosterone were measured to examine the interaction between four factors: colony olfactory cues (urinary odour), hormone levels, mating behaviour and relatedness. Exposure to urinary odour reinforced recognition and was correlated to a decrease in mating behaviour. Hormonal assays suggest that female hormone levels are modified based on exposure to colony urine odour, while males are not affected. Olfactory cues such as colony urinary odour is linked to the alteration and correlation of hormone levels and mating behaviour. The Damaraland mole-rat and other species in the family Bathyergidae provide a useful system for investigating aspects of learning and memory, as well as the potential correlation between cognitive processes and sociality. / Dissertation (MSc (Zoology))--University of Pretoria, 2007. / Zoology and Entomology / unrestricted

Spatial memory

Spatial learning

Species differences

Sex differences

Sibling recognition

Urinary odour

Mating behaviour

Hormone levels

Cryptomys damarensis

Sociality

Georychus capensis

UCTD

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