Water metabolism in the Namib Desert golden mole, Eremitalpa granti namibensis (Chrysochloridae)

1. Laboratory and field studies of energy and water metabolism employing isotopic dilution methods examined the ability of Namib Desert moles to survive on an insect diet without drinking water. 2. Water independence is achieved through efficient renal function while low rates of energy usage and torpor are further effective in reducing overall water requirements.     

Locomotory activity in the Namib Desert golden mole Eremitalpa granti namibensis (Chrysochloridae)

Eremitalpa granti namibensis is a small, blind, subterranean insectivore endemic to the Namib Desert sand dunes. Unlike other subterranean mammals which seldom leave their burrow systems, the Namib mole forages extensively on the dune surface for its insectivorous prey. Activity phasing in this atypical mole was examined in the field and in the laboratory. Free-living moles were almost exclusively nocturnal, while moles kept in the laboratory were active day and night. These findings are discussed in relation to prey availability, predator pressure and avoidance of diurnal extremes. Light and temperature appeared to be important cues for daily onset and cessation of activity.     

Home range and movements of the Namib Desert golden mole, Eremitalpa granti namibensis (Chrysochloridae)

Eremitalpa granti namibensis is a small, blind, subterranean insectivore endemic to the Namib desert sand dunes. Unlike most other subterranean mammals, E. g. namibensis lacks a permanent burrow system and is a surface forager. Population density and home range utilization were studied by following surface trails and capture, mark and recapture. Population density was low but stable and home range size large, a reflection of the low food availability in the Namib dune environment. No permanent nests or burrows were found while the pattern of home range utilization was nomadic but circumscribed. Home ranges overlapped with those of neighbouring animals.     

Habitat use by radio-tagged Namib Desert golden moles (Eremitalpa granti namibensis)

The Namib Desert golden mole (Eremitalpa granti namibensis) is morphologically, physiologically and behaviourally specialized for living in the harsh loose‐sand desert. Ecological studies have relied on visually tracking animals on the surface of sand dunes. A radio tag would allow individuals to be more reliably located, even while under the sand. We developed a radio attachment and gathered preliminary data on winter habitat use by six individuals during 21 days. We compare data from previous studies and suggest that the greater diurnal activity, smaller home ranges, and more restricted movement patterns that we found are related to the unusual thermal and metabolic biology of Eremitalpa.     

Morphofunctional study of the digging system of the Namib Desert Golden mole (Eremitalpa granti namibensis): cinefluorographical and anatomical analysis

Digging locomotion of Namib Golden moles has been studied by making X–ray cinematograph films, and the morphology of their locomotor system investigated by means of radiographs and dissections. Biomechanical interpretations of the data so obtained show that moving forwards results from a cyclical compacting and decompacting of the surrounding sand. The whole step–cycle IS made up of a buttressing phase followed by several digging propulsion phases.     

The ecology of the golden mole Amblysomus hottentotus

The Hottentot golden mole Amblysomus hottentotus is a small, blind, burrowing insectivore of solitary habit. It lives in a wide climatic range of terrestrial habitats from sea-level to 3300 metres in soil temperatures ranging from 0–8d?C to 32d?C. Morphological, physiological and behavioural studies were carried out on Amblysomus caught at various altitudes in Natal, South Africa.     

Morphology of the middle ear of golden moles (Chrysochloridae)

The middle ear structures of nine species of golden moles (family Chrysochloridae) were examined under the light microscope. Auditory structures of several of these species are described here for the first time in detail, the emphasis being on the ossicular apparatus. Confirming previous observations, some golden moles (e.g. Amblysomus species) have ossicles of a morphology typical of mammals, whereas others ( Chrysospalax , Chrysochloris , Cryptochloris and Eremitalpa species) have enormously hypertrophied mallei. Golden moles differ in the nature and extent of the interbullar connection, the shape of the tympanic membrane and that of the manubrium. The stapes has an unusual orientation, projecting dorsomedially from the incus. It has been proposed that hypertrophied ossicles in golden moles are adapted towards the detection of seismic vibrations. The functional morphology of the middle ear apparatus is reconsidered in this light, and it is proposed that adaptations towards low-frequency airborne hearing might have predisposed golden moles towards the evolution of seismic sensitivity through inertial bone conduction. The morphology of the middle ear apparatus sheds little light on the disputed ordinal position of the Chrysochloridae.     

Diet and foraging behaviour of huntsman spiders in the Namib dunes (Araneae: Heteropodidae)

Diet and foraging behaviour of three species of burrowing huntsman spiders, Leucorchestris arenicola, L. steyni and Carparachne aureoflava , from the Namib dunes were investigated over a three-year period. These nocturnal spiders are polyphagous predators that prey on more than 97 species of insects, arachnids and reptiles. Most prey were nocturnal or crepuscular tenebrionid beetles, moths and weevils. Diet varied regionally owing to faunal differences, but was relatively constant over seasons. Although spiders occasionally captured prey greater than themselves, average prey length was about two-thirds their own length. Prey size was not strongly related to spider size. Larger spiders were both cannibals and intraguild predators. Foraging pattern of L. arenicola was variable with several nights of activity followed by one or several nights of rest. Spiders foraged within 3 m of the burrow, but occasionally pursued prey or neighbouring conspecifics further. Large prey (> 3 mm) were captured approximately every five weeks in summer and every seven weeks in winter, producing an average annual consumption of ≅ 10 prey/spider. Namib huntsmen are sit-and-wait predators within narrow territories waiting for the fortuitous arrival of prey and are thus unlikely to limit prey populations. They compensate for food shortages by cannibalism, thus restricting their own population.     

Functional and systematic implications of the ear in golden moles (Chrysochloridae)

Golden moles (Chrysochloridae) are fossorial mammals known to have unusual mallei. The aim of this study was to describe and quantify aspects of the auditory morphology of golden moles in order to determine their systematic and functional implications. Observations were made on skeletal material as well as histological sections. The results of this study do not support the separation of the genus Calcochloris from Amblysomus . It was found that the morphology shared by all the studied genera is indicative of specialization for hearing low frequency sound. The tympanic membrane to stapes footplate ratios, ossicular lever arm ratios and incudomallear joint morphology suggest low frequency specializations in genera with small mallear heads and high frequency specializations in genera with large mallear heads. However, the size and degree of trabeculation of the tympanic cavity are not consistent with this result. It is proposed that all golden moles are low frequency hearers with differences in their range of sensitivity according to how much time they spend foraging above ground.     

A phylogenetic estimate for golden moles (Mammalia,Afrotheria, Chrysochloridae)

Background  

Golden moles (Chrysochloridae) are small, subterranean, afrotherian mammals from South Africa and neighboring regions. Of the 21 species now recognized, some (e.g., Chrysochloris asiatica, Amblysomus hottentotus) are relatively common, whereas others (e.g., species of Chrysospalax, Cryptochloris, Neamblysomus) are rare and endangered. Here, we use a combined analysis of partial sequences of the nuclear GHR gene and morphological characters to derive a phylogeny of species in the family Chrysochloridae.     

Feeding ecology and foraging behaviour of impala Aepyceros melampus in Lake Mburo National Park, Uganda

Intersexual and seasonal variation in foraging behaviour of impala (Aepyceros melampus), was studied in the Lake Mburo National Park, Uganda. There was a moderate seasonal difference in foraging efficiency (as measured by ‘acceptable food abundance’), with a minimum in dry season and a maximum in Rainy season. The variation between sexes was more distinct with a pronounced minimum in time spent browsing of males in early wet season. By distinguishing between feeding time spent grazing and feeding time spent browsing the seasonal variation was confirmed. The proportion of foraging time spent feeding (expressed as ‘food ingestion rate’) showed an inverse pattern with a maximum in the late dry season (75.5%), decreasing values throughout the Rainy season and a minimum in early dry season (57.8%). Differences between sexes were explained in terms of reproductive demands and seasonal balance in terms of moderate climate throughout the year. Impala foraging patterns in the bimodal tropics (two Rainy seasons) is discussed and compared with unimodal tropics. The findings are matched against current ideas on optimal foraging.     

Bone conduction and seismic sensitivity in golden moles (Chrysochloridae)

Some genera of golden moles are known to possess enormously hypertrophied auditory ossicles. These structures have been implicated as potentially mediating a form of inertial bone conduction, used by the golden mole to detect seismic vibrations. A simple model of ossicular inertial bone conduction, based on an existing model of the human middle ear from the literature, was used in an attempt to examine vibrational sensitivity in these animals. Those golden moles with hypertrophied ossicles are predicted to possess a sensitive inertial bone conduction response at frequencies below a few hundred hertz, whereas species lacking these middle ear adaptations are predicted to have a far less sensitive response in this ecologically important frequency range. An alternative mode of inertial bone conduction in golden moles, potentially conferring sensitivity to vertically-polarized seismic vibrations such as Rayleigh waves, is proposed. Certain behaviours of golden moles described in the literature are interpreted as augmenting seismic sensitivity.     

Chromosomal evolution and distribution of telomeric repeats in golden moles (Chrysochloridae, Mammalia)

Golden moles (Chrysochloridae) are small, subterranean mammals endemic to sub-Saharan Africa that together with tenrecs constitute one of six orders in Afrotheria. Here we present a comprehensive karyotypic comparison among six species/subspecies of golden moles based on G-banding and chromosome painting. By expanding the species representation to include a further five species recently published in a companion paper, we were able to map the distribution of telomeric repeats in ten species/subspecies that are representative of six of the nine currently recognized genera. We conclude that: (i) the monophyly of Amblysomus is supported by the amplification of heterochromatin in several pericentric regions and one intrachromosomal rearrangement; (ii) A. hottentotus meesteri groups as sister to a clade that contains A. h. hottentotus, A. h. longiceps, A. h. pondoliae and A. robustus, an association that is underpinned by a shared intrachromosomal rearrangement and the detection of telomeric sequences in the centromeres of all chromosomes of the three A. hottentotus subspecies and A. robustus but, importantly, not in those of A. h. meesteri. These findings indicate an absence of gene flow suggesting that A. h. meesteri should be elevated to specific status. We hypothesize that the lack of gene flow may, in part, reflect hybrid dysgenesis resulting from abnormal meiotic segregation as a consequence of differences in the nature of the centromeric specific satellites; (iii) chromosomes 7 and 13 of Chrysochloris asiatica are fused in both Calcochloris obtusirostris and Eremitalpa granti, but that the position of the centromere in the fused chromosome differs in each species. This suggests that rather than being indicative of common ancestry, the fusion is more likely a convergent character which has arisen independently in each lineage. Furthermore our painting data show two centromeric shifts that are probably autapomorphic for C. obtusirostris. Finally, we conclude that (iv) golden moles are characterized by strong karyotypic conservatism but in marked contrast to the constrained rates of change exhibited by most species, A. robustus is unique in that three autapomorphic fissions define its evolutionary history, and hence the more extensive reshuffling of its genome.     

Feeding behaviour and feeding ecology of the Octocorallia (Coelenterata: Anthozoa)

The feeding behaviour of some 30 species of Octocorallia was examined in the laboratory and in the field. All of the species from the Orders–Alcyonacea, Gorgonacea, Stolonifera and Telestacea, appear to have a common, basic feeding strategy. Fine particulate matter and zooplankton were captured in a raptorial manner by the tentacles and pinnules. Upon capture of food particles, the tentacles were flexed rapidly inwards and closed or wiped across the mouth. At the same time the mouth opened and ingestion was accomplished by directional ciliary currents in the mouth and the pharynx. Food capture by means of mesenterial filaments, mucus strands or ciliary currents was not observed. The examination of gut contents of Alcyonacea showed that they feed upon zooplankton. Epibenthic copepods from the demersal coral reef zooplankton were an important element of the diet of alcyonaceans.     

Iridescent colour production in hairs of blind golden moles (Chrysochloridae)

Relative to other metazoans, the mammalian integument is thought to be limited in colour. In particular, while iridescence is widespread among birds and arthropods, it has only rarely been reported in mammals. Here, we examine the colour, morphology and optical mechanisms in hairs from four species of golden mole (Mammalia: Chrysochloridae) that are characterized by sheens ranging from purple to green. Microspectrophotometry reveals that this colour is weak and variable. Iridescent hairs are flattened and have highly reduced cuticular scales, providing a broad and smooth surface for light reflection. These scales form multiple layers of light and dark materials of consistent thickness, strikingly similar to those in the elytra of iridescent beetles. Optical modelling suggests that the multi-layers produce colour through thin-film interference, and that the sensitivity of this mechanism to slight changes in layer thickness and number explains colour variability. While coloured integumentary structures are typically thought to evolve as sexual ornaments, the blindness of golden moles suggests that the colour may be an epiphenomenon resulting from evolution via other selective factors, including the ability to move and keep clean in dirt and sand.     

Maternal behaviour and neonatal development in three species of Namib Desert rodents

Gerhillurus paeba paeba, G. tytonis and Pelromyscus collinus inhabit arid areas of southern Africa. Several litters of each species were bred in the laboratory; aspects of maternal behaviour and development of neonates are reported. Pelromyscus collinus has a smaller litter size and the young are less altricial at birth than young of G. paeba or G. tytonis. Gerhillurus tytonis young have the slowest rate of physical and behavioural development, while P. collinus young develop most rapidly. Young of P. collinus nipple-cling from birth, but those of G. paeba and G. tytonis do not. This dichotomy may be related to phylogeny, mode of locomotion, and/or nesting habits.     

Tick infestation of baboons (Papio ursinus) in the Namib Desert.

Chacma baboons (Papio ursinus) living in an arid environment in Namibia were heavily infested with ticks of the genus Rhipicephalus. A survey to assess tick numbers and identity was undertaken in the baboons' habitat. It appears that there is a strong correlation between the number of ticks and the amount of time the baboons spend in an area. It is speculated that tick infestations were responsible for more than half (n = 18) of recorded infant deaths amongst these baboons.     

Feeding ecology and its influence on social organization in Brown hyenas (Hyaena brunnea, Thunberg) of the Central Kalahari Desert

(1) Observations are presented on the diet, feeding habits, hunting and foraging behaviour of Brown hyaenas of the Central Kalahari. (2) The remains of kills left by other predators are the single most important food item in the Brown hyaena's diet. The diet also consists of small scavenged items, small prey such as rodents which the hyaena itself kills, and wild fruits. (3) Brown hyaenas hunt and scavenge small items solitarily, but congregate for communal scavenging of the large kills left by other predators. (4) Individual hyaenas are not territorial and there is great overlap in home ranges. They use common pathways and frequently meet to socialize while foraging. (5) Resident adults form a group with a social hierarchy maintained through neck-biting, muzzle-wrestling, chasing, and other social interactions. Subadult hyaenas often leave the group when approximately 22 months old. (6) Brown hyaenas have a complex system of communication including visual displays, social interactions, vocalizations, and extensive pasting. These are described. (7) Since carrion is an important source of food, Brown hyaenas have developed distinct relationships with other predators and these are described. (8) In conclusion, the Brown hyaena exhibits a highly flexible social system, foraging and hunting small items solitarily and congregating for the common utilization of a large carcass. The social organization is therefore influenced by the feeding ecology.     

Functional morphology of the middle ear in Chlorotalpa golden moles (Mammalia, Chrysochloridae): predictions from three models

The ossicular apparatus of golden moles in the genus Chlorotalpa has received comparatively little attention in the literature, although the malleus is known to be intermediate in size between the "unmodified" malleus of Amblysomus and the hypertrophied mallei found in some other golden moles. In the present study, the middle ear structures of three Chlorotalpa species (C. duthieae, C. sclateri, and C. arendsi) are described. Measurements of middle ear structures were applied into three existing models of middle ear function. The predictions from the models suggest that the airborne hearing of Chlorotalpa species is limited to relatively low frequencies, but the impedance transformation by the middle ear apparatus is expected to be reasonably efficient. The sensitivity of the middle ear apparatus to inertial bone conduction is intermediate between that predicted for Amblysomus and that predicted for species with hypertrophied mallei. Hearing in fossorial mammals may be limited by factors other than the middle ear apparatus: the predictions for Chlorotalpa must therefore be treated with caution. However, a consideration of the "intermediate" middle ear morphology of Chlorotalpa species sheds some light on the origin of ossicular hypertrophy in golden moles. The limited enlargement of the malleus seen in Chlorotalpa is expected to have improved seismic sensitivity by bone conduction significantly at low frequencies, while airborne hearing might not have been adversely affected.