Welcome to the Babe-in-the-Bush blog. This page is to naturalism and wildlife adventure as the Naked Chef is to cooking! Join me as I bare all about my latest travels and the wonders of the bush...

Monday, May 17, 2010

"Shaving the Rhino"


The surge in demand for rhino horn is driven by a combination of poverty, the existence of a lucrative black market niche in South East Asia and the availability of sophisticated channels to ship the ‘cargo’ out of South Africa. A lot of work is underway to stabilise the situation but how and where does one begin to curb the trade in traditional medicine that has a history of 23 centuries and is worth billions of rand a year? Traditional medicine might be an ancient practice but organized crime employs cutting edge technology to track and poach rhino. Policing is an integral part of this war but many other elements are needed if we are to succeed and private rhino owners are finding their own solutions. In this week's episode of 5050 (17 May) a game farmer proposes that the most effective way of reducing poaching is to open up legal trade from naturally harvested horns and thereby force the price of rhino horn on the black market down. This in turn should cause organised crime to shift from poaching to more lucrative opportunities. His idea is somewhat controversial but desperate times call for creative counter-measures!


In the meantime, stakeholders have been hard at work formulating a new website as a central data collection point for rhino poaching-related information and support - intelligence and tip-offs can be reported here, financial support pledged and information gathered by any related or interested party. http://www.stoprhinopoaching.com/ is a must visit if you care about the plight of our planet's rhino!

Sunday, April 25, 2010

Rhino: Extinction Countdown





High demand from Asia is driving rhino poaching to its highest level in more than a decade. Throughout South Africa, between two and three rhinos are being poached every week. In the past, ruthless poachers targeted South Africa's National Parks but now private game reserves have become easy pickings for brazen crime syndicates. But is enough being done to stop the clock on Rhino extinction. 50/50 follows the bloody trail of the latest victims and investigates…watch SABC2 Monday 26 Apr 2010 19h30 http://www.5050.co.za/

To learn more about rhino…read on


White rhino are the second largest land mammals on earth and as such enjoy a position amongst the ‘Big 5’ – historically those animals most dangerous to hunt but now the most sought after by tourists.


The shape of the lips led to the naming of this rhinoceros as Dutch settlers referred to the ‘wyd’ mouth (meaning wide) and colonialists misinterpreted this to mean white. The wide muzzle (20cm) comprises a more sensitive upper lip (which is used to manoeuvre grass clumps into the mouth) and a hard lower lip (against which the top lip presses to severe the grass). Both lips are swiped upwards to effect the neat cropping of grass. No incisors are involved at all in ingesting grass but broad, intricately enamelled molars inside the cheeks provide a grinding surface for mastication. A rhino crops the grass continuously moving its head in a semi-circle and then stepping forward to repeat the action. White rhinos maintain their own neatly cropped pastures in stands of favoured grass species (like Themeda triandra, Panicum maximum and Urochloa mossambicensis) which are often well concealed amongst taller grass. They rotate the use of their favourite feeding areas so as not to obliterate them. Rhinos practice geophagia (chewing of soil) to supplement minerals deficient in their all grass diet.


Because of the large quantity of fibrous grass that a rhino must consume to satisfy its energy requirements, it requires daily (if not twice daily) access to drinking water to assist with digestion. Rhino usually make their way to water late in the afternoon or even after dark. Because of their reliance on water, bulls that do not have a water source within their own territory will have to leave their turf and enter other bulls’ territories in order to drink. So long as an intruding rhino behaves submissively, territorial bulls will tolerate water-related visits from neighbours. A bull rhino shows its submission by urinating in a stream (on his own territory he would spray). He may also flatten his ears and squeal to reassure the territory owner of his innocuous intentions. If water is scarce, rhino can only go for up to four days without drinking.

White rhino are fond of wallowing in mud in order to help them cope with excessive summer heat conditions. A good caking of mud prevents sunburn and keeps a layer of moisture close to the skin to assist with keeping cool. The mud once dried also acts as a parasite-removing wax treatment that the rhino will rub free of their skin against trees, rocks or termite mounds. Rhinos are prone to reusing their rubbing posts that eventually become quite smooth and polished. They may also use these posts to scratch in hard to reach areas such as the inner legs and belly. While they wallow in the mud, terrapins will also pluck parasites off the rhino’s hide.

They have massive necks with a large nuchal hump over the shoulders. The thick albeit short neck supports the large head which is held low to the ground in order for the rhino to feed on the lowest-lying form of vegetation, grass. Having its head close to the ground also facilitates the use of its nostrils to detect olfactory (scent-related) clues regarding territory and the location of other rhino. Rhino rely on their sense of smell since eyesight is limited. The powerful neck also provides the force behind the defensive horns.


The most prominent feature of the rhino is its horns. These are weapons of defence used to protect itself and its offspring from predators or during bouts of combat. Horns are made of keratin (the same substance as fingernails) and grow 2-6 cm in a year and continue to grow throughout life. They are often worn down through usage and tend to be longer and thinner in cows which do not engage them as frequently as the bulls. The record horn length for a white rhino is 1.58m.


Rhino are active throughout both the day and night and spend at least half their time feeding in order to satisfy the nutritional demands of their huge bodies. They prefer to rest during the heat of the day which they will do under the cover of dense bush. They also take refuge in thickets should the weather turn particularly cold or windy. When they sleep they do so relatively soundly breathing heavily. During sleep the ears may be seen instinctively flicking in all directions and rhino can react to disturbing sounds with impressive speed if the need arises.

White rhino females are fairly gregarious (live with others of their own kind) and it is quite unusual to find a cow alone. A female is most often accompanied by her latest calf but sometimes the previous calf (who would have been chased off when the newest one arrived) will also accompany her. Cows without calves will often pair up and newly independent adults may form groups of the same (or even mixed) sexes of up to five individuals. Where there is good grazing or localized water, white rhino cows and their young may form aggregations sometimes numbering ten or more. Most of the time, female rhinos live in undefended home ranges that overlap with one another. Sometimes these home ranges can coincide with the territories of up to seven different bulls. Where there is abundant food and water, these ranges may be as small as 6km2 but may expand to 20km2 during dry and difficult seasons.


White rhino bulls are fiercely territorial and are always found alone unless courting a female. Although they mature at around four years old, bulls are not usually able to contend with other bulls for territories until they are twelve years old. So long as they demonstrate submissiveness to the older and larger territory holders, younger bulls are tolerated.

A bull rhino defends an area between 0.75 and 14km2 depending on the availability of resources. His territorial boundaries typically follow natural barriers like water courses, topographical ridges and even man-made roads.


To demarcate his territory a bull rhino employs a number of visual and olfactory signals. Patrols along well used paths take place to establish and reinforce boundaries. While patrolling, the bull will urine-spray backwards onto bushes and other conspicuous objects. Every 30m or so, the bull will also create visual scrape-markings with his feet that simultaneously become impregnated with his urine. As he continues his patrol, the scent is laid in the form of an olfactory (smell) trail wherever his feet touch. This is also achieved by kicking his dung with his hind feet after defecating. Intermittently along the territory boundaries, large accumulations of dung (known as middens) are formed and constantly added to by the bull and even by his neighbour. Cows (and subordinate bulls) will deposit their dung on a bull’s midden as and when they pass but refrain from breaking up their dung in the manner of the territorial bull. These sites provide important information to the territory owners such as when and who has passed through his turf.


When territorial bulls encounter one another along their boundaries, their responses are ritualized and posturing displays will satisfy one another of their independent statuses. However, when there is a new territory to claim or an oestrus cow in question, bulls will fight. Their primary weapons are their horns with which they will spar and attempt to hook one another. The skin over a rhino’s shoulders is 25mm thick to help reinforce this area against blows from opponents’ horns. Fights can be fatal.


Rhinos have relatively poor eyesight and can only really see well at close range. They do however respond to movement at greater distances. To compensate, the senses of hearing and smell are very well developed and both are employed for the purposes of communication and detecting danger. A rhino’s ears are constantly moving rotating independently in all directions to collect auditory clues. When a sound is detected, both ears focus in that direction. The ears are conveniently placed a top the long head to collect sounds while the low slung muzzle is optimally placed to smell.


The collective known for a group of rhino is appropriately ‘a crash of rhino’. Although they seem quite ungainly, rhino are able to charge at a speed of 40kmph if they need to. Rhinos that are stresses will perform displacement behaviour. This may take the form of curling up the tail, a nervous bouncy gait around the same spot, turning side on to the disturbance or rubbing the horn on the ground. Cows with young are especially protective. When a cow and her offspring flee from danger, the calf always runs ahead.

White rhinos differ from black rhinos in several ways. Black rhino are smaller than white rhino overall. They have shorter heads that are carried higher up on their shoulders than the white rhino to accommodate their browsing (not grazing) habits. The black rhino has a prehensile hook-shaped lip to help it secure leaves and twigs (compared to the wide mouth that the white rhino uses to graze). Twigs are cropped at a 45 degree angle due to the shape of the black rhino’s teeth and this angle is clearly identifiable in the twigs in their droppings. The ears of the black rhino are smaller and rounder and it lacks the large nuchal hump of the white rhino over the shoulders. The black rhino is one of Africa’s top 10 most endangered animals.

Thursday, April 1, 2010

50|50 is back! SA's longest running environ show...




I've been a little quiet lately but not for any reason except that it's been a month of new challenges which have kept me extremely busy...hard at work doing my bit for conservation! I joined the 5050 team at the start of March and we launch the new season on Monday 5 April 2010 (http://www.5050.co.za/). Below I have outlined the stories we will be featuring, all poignant conservation stories!

Lion’s Rock Sanctuary

Lion’s Rock is a sanctuary for lion rescued from atrocious conditions in zoos around the world. In the last season of 5050 we saw several Romanian lions brought to Lion’s Rock in an emotionally charged story. Wendy Willson now follows up on the rehabilitation of one particular lion “Caesar” and we have a look at how Lion’s Rock provides a second chance to these abused animals. Recently more lion were brought into the relative freedom of Lion’s Rock Sanctuary. The latest arrivals are rescued from various zoos in Arman, Jordan thanks to the valiant efforts of the Princess Alia Foundation and Lion’s Rock members. In this story questions are asked about the validity of zoos and 5050 explore the basic right of all animals to life.

Verlorenvlei (http://www.verlorenvlei.co.za/)

The main story is about another pristine wetlands area that has come under threat to mining. Verlorenvlei is one of the largest natural wetlands on the West Coast. It offers important bird habitat, houses unique biodiversity and is a RAMSAR site of international conservation importance. One of the rivers that feed into it, the Krom Antonies River, has its source in the Moutonshoek Valley. In this productive part of the otherwise water-stressed sandveld, agriculture produces export fruit and potatoes. But under the same soils is a rich deposit of tungsten, a metallic element used for things like light bulb filaments and hardened drill-bits. In order to access this, Bongani Minerals proposes to dig a hole much the size of the Kimberly mine in the middle of the Moutonshoek pivotal area. This will have huge implications on the lives of farmers, workers and conservationists alike in the region. A coalition has been formed to dispute the mining application, advised by the previous head of the Green Scorpions, but the process is a complex fight costing millions and potentially threatening to destroy the Verlorenvlei ecosystem irreversibly.

Geneva Car (http://www.optimalenergy.co.za/)

The Geneva Motor Show is the biggest car expo in the world and this year many of the exhibitors had their latest green technology on show. Simon Gear visits the show and test drives the electric and hydro-fuel cell cars. 5050 explore the variety of technologies involved in greening the motor industry and closer to home, examine South Africa’s very own Joule that starts and accelerates on electricity. But how sustainable is this type of vehicle where one would need to plug into the national grid to charge it, a supply that is coal-generated and carbon heavy on the environment.

Crocs of the Olifants River

An ongoing saga where the crocodiles and barbel fish of the once pristine Olifants River, are dying from a disease called pansteatitis that hardens their internal fat. The hardened fat causes the crocodiles to become immobile which leads to starvation and even drowning of the affected animals. While clues point to pollution from various sources the exact trigger that started the process of crocodile deaths remains elusive. This is one of the questions South Africa’s leading researchers, scientists, conservationists and wildlife pathologists hope to answer through ground-breaking and risky research.

5050 SABC 2 April 5th 19h30

Monday, February 22, 2010

Feb Birding: Finding feathers in a furnace!





February has proven a productive birding month and in just a few days we clocked up 130 species on the basic birding course at Karongwe Game Reserve with the year-long Ecotraining students (http://www.ecotraining.co.za/). This is remarkable simply because the weather was exceptionally hot with one particularly eager thermometer clocking a 480C at one point. We resorted to very early starts and much birding from the vehicle so that in between bouts of viewing we could engage the ‘manual air-conditioning solution’ that an open Land Rover provides!


Being in a vehicle also enables you to cover more habitats which house different species. The most obvious feathered feature wherever we went was the Woodlands Kingfisher. These are conspicuous birds thanks to their bright colours and noisy, active habits. The “chip-crrrrrrrrr” is unmistakeable and unrelenting but when one considers that the Woodland’s is a migrant, it is understandable that they call so incessantly. Their breeding efforts need to be wracked-stacked-and-packed before its time to move on again.


Most species of kingfisher are strictly monogamous (one male and one female pair up). The males defend territories and establish a pair bond with the female through visual displays and courtship feeding. The Woodland’s Kingfisher has a particularly elaborate display in which it opens its wings and pivoting on a branch displays the white and then the blue side of the wing alternately all the time vocalizing loudly. A female taken by his exhibitions will be further convinced to pair up with a male depending on the nuptial gifts he brings her. Some bird species (including the kingfishers) engage in courtship feeding where the male proves his ability to care for a female and her brood by bringing her morsels of food. This also serves to build up the female’s reserves before she must produce and then incubate for an egg.


The bright blue of the Woodlands kingfisher’s feathers is the result of an effect called tyndal scattering. This is where the layers of structural keratin that make up the feathers are interspersed with air spaces and reflect particular wavelengths of light to appear blue. There is no colour pigment in the feathers.


Without any colour yet just as conspicuous for its vocal habits as the Woodlands, is the fork-tailed drongo. It’s a resident species but to impress females and ward of rivals it has developed a unique technique. In a process known as mimicry, the fork-tailed drongo copies phrases of songs and sounds belonging to other species of bird much like robin-chats. The complexity of the assembled tune is suspected to be an indication of fitness to females. Males that are able to remember and knit together long sequences of phrases are considered better partners. A strong mimicked vocal signal also will intimidate rivals and convince them of the singer’s superiority.


Birds sing to advertise their territories and to attract mates and subsequently build bonds with those mates (especially if they are monogamous and only have one). Birds sing most earnestly in the morning when the air is clear and still and sound travels furthest and loudest. This is known as the ‘dawn chorus’. They also utilize the dawn chorus to remind their neighbours that in spite of a night of darkness since last they called, they are still very much in attendance of their turf. Birds call in the late afternoon again to establish ownership of an area before they sleep.


Good rain has meant that Karongwe is green, lush and somewhat overgrown. Spotting birds along the shorelines at the waterholes was difficult but the characteristic 3-syllabled whistle of the white-faced ducks betrayed their presence in the area as they were flying over in the evenings to forage. These ducks are fairly unique among ducks for their tendency to both whistle instead of quacking and also to feed at night on grass, seeds, grain and even fruit (like geese). Ducks have flat bills which are used for sieving edible particles out of the water. Many ducks up-end or dabble, partially submerging their upper bodies in order to access food below the water. The food they usually consume includes various parts of aquatic plants, insects, detritus in mud, algae, crustaceans and other invertebrates. White-faced ducks dabble for food but may also dive fully under the water to obtain something they desire.


Despite the fiery weather conditions, the birding week was productive and satisfying and I look forward to the next one when I can listen to the fiery-necked nightjar under cooler night skies!

Tuesday, January 19, 2010

Earthworks - The Incredible Dung Beetle










































There are about 7000 species of dung beetle

described world wide of which southern Africa houses the widest variety including about 780 species from a few millimeters in size up to 5cm. In one pile of elephant dung there could potentially be 16000 dung beetles. It is thus important to take care not to drive over elephant dung.


Dung beetles are astute navigators and can detect fresh dung within seconds, having it fully colonized within minutes and completely removed within a day. Dung beetles can bury more than 1 metric ton of dung per hectare per year. In this regard they are exceptionally important ecologically being responsible for the removal of wastes to under the ground and consequently they destroy the eggs of internal parasites and reduce populations of pest species like flies. They simultaneously return nutrients to the soil and inadvertently facilitate the germination of seeds caught up in the dung they bury.


Ball-rolling dung beetles generally roll balls 50 times heavier than themselves, occasionally up to 80 times. Dung beetles may have preferences for different types of dung. Some species specifically colonise course elephant and rhino dung while others may utilize buffalo, zebra or smaller animals’ dung. Seventy two percent of all dung beetle species prefer herbivore or omnivore dung to carnivore scat.


There are four different groups of dung beetles according to what they do with the dung they collect.


The endocoprids or ‘dwellers’ remain inside the pile of dung, living and breeding in situ.

The paracoprids or ‘tunnellers’ bury dung directly underneath the pile of dung as their larval food supplies.

The telecoprids or ‘rollers’ are the species that roll balls and take the dung away from the original site to be eaten or buried elsewhere effectively reducing competition with the endo- and tele-coprids. The ball is pushed with the beetle’s hindlegs while standing on the forelegs.

The cleptocoprids steal balls from the telecoprids in which to lay their own eggs.


The most conspicuous dung beetles are the telecoprids (ball rollers). They typically roll balls of dung for different purposes.


A pair may roll a ball of dung together to eat. This is called a food ball. The male may roll a ‘nuptial ball’ for a female into a hole in which they will mate and then consume the ball together. The ‘brood ball’ is rolled as a larder for the dung beetle’s larvae. The male will roll the brood ball upon which the female will sit to lay a single egg. This she pats down into the ball with dung giving the finished ball a pear-shaped appearance. The ball is buried and the outer shell hardens to keep the insides moist. The larva, on hatching, will begin to feed on the reserves and thereafter pupates in its underground dung-walled chamber. Up to 60 eggs can be laid per female per season meaning that the male must roll 60 of these brood balls alone.


Adult dung beetles can live for two years or more but they are preyed on by a host of predators including baboons, honey badgers, civets, hornbills, owls and rollers. Robber flies and wasps may catch the smaller species. The larvae of the beetles are primarily dug out of the ground and consumed by honey badgers but civets and mongoose may also do this.


Some dung beetles are flightless due to fused elytra (wing coverings). These populations are extremely endangered as they can’t disperse easily. A particularly healthy population inhabits the Addo Elephant National Park.


Dung beetles are superbly adapted for their lifestyles. They are large and robust often with a lovely metallic sheen. They have stout front legs which are serrated and able cut through compacted dung. The front tibiae are broad and toothed and together with the flattened head are used for digging and raking together dung and patting it into a ball. The antennae are fanned and club-shaped and probably related to detecting and navigating to dung piles.