A. C. Spinks

Food availability and foraging by wild colonies of Damaraland mole-rats (Cryptomys damarensis): implications for sociality

Abstract We investigated some of the ecological determinants of sociality in the Damaraland mole-rat, including the spatial distribution and biomass of resources (geophytes) available to foraging Damaraland mole-rats in partly vegetated sand dunes in the Kalahari and in grasslands near Dordabis, Namibia, and the foraging behaviour and residency characteristics of colonies at Dordabis. In both study areas, the geophytes had a clumped distribution, but the highest coefficients of dispersion and mean biomass occurred in the Kalahari where the principal food was the gemsbok cucumber. However, because the coefficient of digestibility was lower in geophytes from the Kalahari than from Dordabis, and the mole-rats only ate about half of a gemsbok cucumber, there was less energy available to mole-rats in the Kalahari. At Dordabis, large established colonies occur in the areas with the richest resources and remain resident in the same area for many years; within this area they search (blindly) for food during brief periods when the soil, at burrow depth, is moist and easily worked. Initially, long straight burrows are dug and few bulbs are taken; once the soil dries, minor changes are made to the burrow system as the mole-rats exploit the food patches they located immediately after the rain. Our results show that the characteristics of the resources, and the short time interval during which location of new resources is possible, favour group living; however, the constraints imposed by these features affect large and small colonies in different ways. Small colonies are more likely to fail than large ones and some crucial factors in the survival of these newly formed colonies are the richness of the area in which their burrows are located, and the size of the colony work force available to locate the food.

A comparison of the ecology of two populations of the common mole-rat, Cryptomys hottentotus hottentotus: the effect of aridity on food, foraging and body mass

Abstract The aridity food distribution hypothesis (AFDH) maintains that ecological constraints in arid habitats curtail dispersal and promote the evolution of cooperative foraging social groups within the African mole-rats. To evaluate the validity of the AFDH, we investigated inter-habitat differences in food resource characteristics, foraging behaviour, colony size and individual body mass in two common mole-rat populations, one from a mesic and one from an arid habitat. Although food was clumped at both localities, the geophyte density was lower at the arid site. However, geophytes from the arid site were larger than those from the mesic region, and this is suggested to compensate for the reduced geophyte density, enabling colonies to meet their energy requirements. Differences in food resource characteristics in turn influenced the pattern of foraging, the burrow systems at the arid site being longer and more linear than those from the mesic site. Mean colony size did not differ between the two sites, but animals from the arid site exhibited a reduced individual mass relative to those from the mesic area, probably an adaptation to reduce total colony energy expenditure given the elevated foraging costs in arid environments. The common mole-rat from the arid localities should occur in larger colonies than their mesic counterparts. The results from this investigation do not support this contention.

Molecular insight into patterns of colony composition and paternity in the common mole-rat Cryptomys hottentotus hottentotus

We report the discovery of intraspecific variation in both colony composition and patterns of paternity in two populations of the social common mole‐rat Cryptomys hottentotus hottentotus. These two populations represent the mesic and arid habitat extremes of the species’ broad ecological range in South Africa. Until recently colonies of the common mole‐rat were thought to consist of familial groups whereby all colony members were the offspring of a monogamous reproductive pair. The remaining colony members were thought to forego reproduction until both social and ecological conditions favoured dispersal and opportunities for independent outbreeding. Results from genetic assignment tests using microsatellite markers indicate that while colony composition is dominated by familial groups, colonies within both populations included both adult and subadult foreign conspecifics. Analysis of parentage reveals that the social organization of C. h. hottentotus is not that of strict monogamy; paternity of offspring was not assigned consistently to the largest, most dominant male within the colony. Moreover, a number of significantly smaller males were found to sire offspring, suggesting a sneak‐mating strategy by subordinate within‐colony males. Extra‐colony extra‐pair paternity (ECP) was also found to characterize C. h. hottentotus colonies, occurring with similar frequencies in both habitats. Both dominant established breeding males and subordinate males were identified as siring young in nonsource colonies. Furthermore, established breeding males were found to sire extra‐colony young in the same season as siring young within their source colonies. We discuss the significance of these results within the context of the divergent ecological regimes characterizing the two sites and observe that our results revisit the accuracy of using behavioural and morphological characters, which have structured the basis of our understanding of the behavioural ecology of this species, as indicators of breeding status in mark–recapture studies.

LH responses to single doses of exogenous GnRH by social Mashona mole–rats:a continuum of socially induced infertility in the family Bathyergidae

The Mashona mole‐rat, Cryptomys darlingi exhibits an extreme reproductive division of labour. Reproduction in the colony is restricted to a single breeding pair. The non–reproductive male and female colony members are restrained from sexual activity by being familiar and related to one another and the reproductive animals. Circulating basal concentrations of luteinizing hormone (LH) as well as LH levels measured in response to a single exogenous gonadotropin releasing hormone (GnRH) challenge are not significantly different between the reproductive and non–reproductive groups of either sex. Socially induced infertility in both non–reproductive males and females does not result from a reduced pituitary secretion of LH or decreased sensitivity to hypothalamic GnRH, but rather appears to result from an inhibition of reproductive behaviour in these obligate outbreeders. The African mole–rats exhibit a continuum of socially induced infertility with differing social species inhabiting regions of varying degrees of aridity. In this continuum a transition from a predominantly behavioural repression in a social mesic–adapted species through to complete physiological suppression lacking incest avoidance in an arid–adapted eusocial species occurs in this endemic African family of rodents.

Is the distribution of the arid-occurring otomyine rodents of southern Africa related to physiological adaptation or refuge type?

Aspects of the physiology of the arid-occurring otomyine rodents of southern Africa ( Parotomys brantsii , Parotomys littledalei and Otomys unisulcatus ) were examined, including: (1) renal function; (2) thermal physiology. Parotomys littledalei exhibited a maximum predicted urine-concentrating ability similar to other arid-occurring rodents. Maximum concentrating abilities were moderate for O. unisulcatus and low for P. brantsii . The extension of P. littledalei into the driest regions, in which it occurs allopatrically, suggests the importance of renal function in determining the distributional limits of these species. The thermophysiology of these otomyine species demonstrated a mixed ability to cope with aridity. Typical of arid-occurring diurnal rodents, all became hyperthermic at high ambient temperatures. However, none exhibited several additional thermophysiological characteristics common to arid-occurring rodents. Thus, resting metabolic rate was not lower than expected for body size, while lower critical temperatures were relatively low and the thermal neutral zone was broad. Nevertheless, the upper limit of thermoneutrality of P. littledalei was lower than that of P. brantsii or O. unisulcatus . The failure of P. littledalei to occur in hotter areas, in which P. brantsii occurs, seems to be related to its thermal physiology. Whereas renal function or thermophysiology may influence the arid extension of P. brantsii and P. littledalei , the high vulnerability of its refuges to fire damage may limit the distribution of O. unisulcatus . Reviewing the thermophysiology of the Otomyinae from more mesic habitats, we argue that their thermophysiology is more closely related to refuge type than aridity. Compared to the apparently specialized physiological mechanisms used by omnivorous or granivorous desert rodents, our study suggests behavioural adaptations such as refuge type and food selection are more important to the survival of these herbivorous desert rodents.

Circulating LH Levels and the Response to Exogenous GnRH in the Common Mole-Rat: Implications for Reproductive Regulation in This Social, Seasonal Breeding Species

The effects of breeding season and reproductive status on male and female reproduction were investigated in the common mole-rat, Cryptomys hottentotus hottentotus, a cooperatively breeding rodent which exhibits a unique combination of seasonal breeding and a reproductive division of labor. Pituitary function was examined by measuring the luteinizing hormone (LH) responses to single doses of 2 microg exogenous gonadotrophin-releasing hormone (GnRH) and physiological saline in 69 males and 58 females from 35 wild caught colonies. Neither males nor females exhibited any apparent manifestation of season on basal LH concentrations or on pituitary sensitivity to stimulation by exogenous GnRH. The continuance of reproductive function during the nonbreeding period is essential in common mole-rat males and females, as this period coincides with the period of maximal dispersal opportunity in the winter rainfall area they inhabit. Normal circulating levels of reproductive hormones in dispersing animals may aid intersexual recognition, assist pairbond formation, and thus prime animals for independent reproduction. Circulating basal concentrations of LH as well as LH levels measured in response to a single exogenous GnRH challenge were not significantly different between the reproductive and non-reproductive groups of either sex, suggest the absence of a physiologically well-defined suppression of reproduction in subordinate common mole-rats.