Dec 21, 2011 | Hunting Stories Online
Zimbabwe: 2010
Volume: 17.3
A Letter On Safari Hunting
Safari hunting in Zimbabwe is a thrilling activity that brings one face-to-face with Africa’s wildlife.
Located in Southern Africa, Zimbabwe shares its borders with Zambia, Namibia, Botswana, South Africa and Mozambique. The good climatic conditions, with mild winter temperatures ranging from 5°C to 20°C, put Zimbabwean sport hunting among the best in the region. Hunting is conducted between April and October; rains are usually expected from late November to March, making it impossible to hunt during this period.
The Zimbabwe Parks and Wildlife Management Authority (ZPWMA) is the custodian of all wildlife in Zimbabwe; as such, it plays a regulatory role in ensuring sustainable wildlife utilization within the country’s hunting industry. ZPWMA is also responsible for awarding hunting concession areas, allocation of annual hunting quotas, issuing hunting and fishing permits, issuing permits for the movement of wildlife and wildlife products; it also conducts some hunting safaris.
The ZPWMA is also the examining and licensing body for Zimbabwean Professional Hunters and Guides. The objective is to ensure that principles of fair chase are upheld during all hunting safaris.
Areas in which hunting is permitted in Zimbabwe include:
State land that includes:
- Zimbabwe Parks safari areas
- Forest areas
- Private land conservancies
- Communal areas under the CAMPFIRE program that seeks to afford rural communities that live adjacent to wildlife areas to benefit from the proceeds accruing from sustainable utilization of the resource.
There are sixteen (16) designated safari areas in Zimbabwe, including Charara, Hurungwe, Sapi, Chewore, Dande, Doma, Chegutu, Umfurudzi, Chirisa, Sengwa, Malipati, Tuli, Chete, Sibilobilo, Deka and Matetsi. Most safari areas are big-game areas where Africa’s Big Five are present, while others only have plains game.
In addition to elephant, lion, leopard and buffalo (rhinoceros is protected and cannot be hunted), the following species are available for hunting in Zimbabwe: hippopotamus, crocodile, giraffe, zebra, bushbuck, duiker, eland, grysbok, impala, klipspringer, kudu, waterbuck, nyala, cheetah, reedbuck, sable, steenbok, tsessebe, blue wildebeest, civet, genet, spotted hyena, black-backed jackal, wild cat, bushpig, porcupine, warthog, spring hare, chacma baboon, vervet monkey, as well as game birds including pigeon, duck, goose, francolin, sand grouse and guineafowl.
Safari operators are required to be registered and licensed by the Zimbabwe Tourism Authority (ZTA) and can also be registered with the Safari Operators Association of Zimbabwe.
Prospective hunters should ensure that they familiarize themselves with the following documents that are, and/or, may be required before, during, and after the period the hunt:
- NP/CITES Form 11
- Firearms import permit
- Tourism Return Form 2 (TR2)
Some popular hunting areas in Zimbabwe include the Matetsi complex (home of the black-maned lion and popular for its large sable population) and the Zambezi Valley (popular for its large herds of buffalo). The Matetsi complex offers hunts from outfitted safari lodges. The price of the hunt includes trophy fees, daily rates, and other services such as laundry. The Zambezi Valley offers packaged hunting bags that are usually auctioned in March every year. Clients are expected to provide their own tented camping facilities for the duration of their hunts.
The African elephant and crocodile (CITES Appendix II) and leopard and cheetah (CITES Appendix I) are all hunted subject to strict CITES conditions. Hunters should ensure that they export such species with the requisite export permit, completed TR2 form and CITES tags, and any other requirements from the recipient country.
Prospective hunters are allowed to temporarily import firearms for use during their hunts. For big game such as buffalo, lion, elephant and hippopotamus, the minimum caliber required by law is .375 (9.3mm) H&H Magnum; a minimum of .300 (7mm) is recommended for leopard and most large antelope. Temporary importation of firearms and ammunition is allowed subject to obtaining a temporary import license at the port of entry.
Dec 7, 2011 | Hunting Stories Online
Mozambique
Volume: 17.2
Mozambique 101
“You’ve really lost it… this is above and beyond the call of crazy, and you’ve completely lost your mind…” That’s what the small, rational part of my brain was trying to tell my body as I boarded a plane in 2002 to start my career as a PH in Africa.
All hunters have experienced various states of insanity at one stage or another, but seldom has it taken place on such a grand scale – and in Mozambique. Yet I attribute my success and skills as a PH today to those first two years I spent as an apprentice in Mozambique.
Getting From Here to There.
Two weeks prior to leaving I submitted my letter of resignation. My family and the multi-million dollar company I worked for were stunned. Dr. Askew (my father) said that was the exact moment my mind disappeared. I was 23 years old, had a degree in biology, and a secure, well-paid job in the States only two positions removed from the company president. By most people’s standards I had it made, but I never cared much for what most people thought.
This croc was anchored with the first shot into his neck from a .416 Rigby with solid bullets. The shot was taken at 60 meters from a blind built to hunt this specific croc; we waited approximately four hours for him to come out. I had located the croc weeks earlier near a small fishing village.
The hunting company I signed on with put me and another apprentice PH into a Land Cruiser in South Africa and pointed us towards Tete Province to find the ‘camp,’ which didn’t technically exist yet. Our instructions were pretty basic: drive to the area, find the PH in charge, and do whatever he said for the next six months.
We passed through Beit Bridge, then Harare, and continued north to the tiny border town of Mucumburo. The border posts, police road blocks, donkey carts, crashed and burned vehicles, mud huts, and machine guns were enough to open my eyes to the fact that this was definitely ‘old Africa’ and not some hunting lodge near Cape Town – exactly what I’d been wishing for.
This elephant was found near a fly camp, about seven hours from the main camp. We called the office from our satellite phone and the main camp was radioed with the information. The next day the tracks were taken and the elephant was shot approximately six hours later.
Eventually we made it to the site where the camp would take shape and I met Leon Lamprecht – the PH and operations manager for Mozambique. He was an experienced professional, hard worker, and great teacher. After the first week I was convinced he was the right guy to learn from. I set my mind to soak up every bit of his knowledge about Africa and hunting, and asked him no less than 50 questions a day for the next year; he truthfully answered all of them.
I also noted what a great and fast-disappearing opportunity it was to be training as a PH in the wilderness of Mozambique. We were building camp, opening new roads, and generally exploring a vast government concession, which had pockets of local people, pockets of game, and a lot of space in between. As was most areas in Mozambique, it had been hammered by poaching. This part of Africa was unforgiving and extremely difficult to operate in. Yet it reeked of history and adventure, not to mention the dangerous game species we were after. It was a blessing to learn under these tough conditions – you had to know exactly what you were doing to keep a client happy and the equipment rolling.
I traveled with my rifle (a .416 Remington that Leon kindly loaned to me for the season), backpack, bed roll, and trunk. Sometime we would leave the main camp for days looking for animals and opening roads.
Hunting In Tete Province.
All the areas in Tete Province/Lake Cahora Bassa are tough to hunt. I mentioned that earlier but it’s worth saying again. The area was very large with a low density of animals, including leopard, elephant, croc, hippo, bushbuck, impala, Sharpe’s grysbok and duiker. There were also lion, buffalo, sable, roan, warthog and a few bushpig; we hunted a few of these, but I felt they shouldn’t be on quota. I also saw caracal, serval cat, and two wild dogs passing through.
The better hunts in Tete were combination croc and hippo safaris, elephant, and traditional baited leopard hunts. The combination hunts were a slam-dunk and we shot some monster crocodile and fantastic hippo. Instead of baiting crocs, we preferred to scout the banks from land or boat; the water level of the dam dictated which method would be the most effective.
Lake Cahora Bassa is formed by the Zambezi River as it enters Mozambique; the dam is at Songo. There is a large hydroelectric station there providing electricity for the surrounding countries.
The idea was to find a place where a big croc was sunning. If left undisturbed, they will frequent the same mud banks to warm their cold blood. We set up ambushes or planned an attack to sneak within range. I came to respect the survival instincts that the crocodile has refined since the time of the dinosaurs. Many of them were so big they seemed prehistoric, and I estimated their ages to be well into their 70s, if not older. The death toll around the lake can be as high as 50 people per year – every village had a recent story about a person getting taken by a crocodile, and we witnessed one fatality near our camp in 2004.
Crocs can see as well as most antelope, but often you can trick them by moving extremely slowly, even in plain sight. They can smell very well, and approaching a large croc downwind is a must. They listen to shorebirds’ warnings, and I believe they can feel vibrations through the ground and in the water. You often see the biggest crocs with part of their body still in the water even when sunning. This alerts them to approaching danger – especially in the form of boats, as many old crocs have bad experiences and good memories.
You should shoot a croc in the neck. Many PHs – and even some books – promote a headshot, but I feel it’s an irresponsible shot on an animal that may be three times older than the person pulling the trigger. Theirs brains are very small and, even if you manage to hit it, the muscular reaction can accidentally send a trophy croc into the depths. They don’t float and you will seldom get any volunteers to go swimming for it. The neck is a bigger, better target. A well-placed shot here disables a flat dog where it lies. After a successful neck shot, the only thing that works is the mouth. You definitely shouldn’t just run up with a stick trying to prop it open for a trophy photo!
Jim Bucher was my first client that I booked and guided. He managed to shoot several animals on his multi-country 25-day safari. This is his trophy croc taken in Mozambique.
The elephant hunting was difficult, but very rewarding. We tracked these giants for many kilometres, most of the time just to turn around and return to the vehicle, as the ivory was not heavy enough. I quickly came to respect this animal’s physical capabilities, intelligence, and ability to hide.
I learned about elephant hunting on safari, from scouting on my own while the clients hunted with the PH, and on problem-animal control with the government game scouts when elephants damaged the locals’ crops and grain bins. Unfortunately, the elephant in this area were extra irritable due to human pressure from the war and poaching. They regularly chased the villagers and even killed some during my time there. Very few elephant didn’t have an AK-47 bullet or homemade musket ball lodged somewhere in their bodies. Once, an elephant stepped on a land mine and blew off a portion of its foot, anchoring it to a long, terrible death if not for Leon’s mercy killing. On the same hunt, a German hunter killed a 92-pound tusker from a group of five bulls after only a few hours of tracking.
I also accumulated leopard-hunting experience and shot my first two leopards with clients, assisted by the knowledge of many others. We were constantly baiting and looking for leopard sign. Due to the limited plains game and the size of the area, we used goats and other livestock for the first round of baits, and tried to get the meat swinging before the clients arrived to effectively add hunting days to their safaris.
I made a rookie mistake by thinking I would snap a quick picture of this elephant while the road crew was finishing up a creek crossing. I left the vehicle and was charged after only walking 20 meters. Lesson learned – carry your rifle whether it’s a 5-minute walk or an all day tracking excursion.
These Mozambique cats walked a large area and only came past the same spot every 8 to 16 days. Even if we knew where a cat preferred to patrol his territory, we most likely had only one chance to bait him on a typical 14-day leopard hunt. This caused us to bait many different cats while also hanging multiple baits for the same cat. We often had as many as 10 baits going at one time. Anyone who has hunted leopard knows how difficult it is to keep even half that many baits active. Some baits were more than a two-hour drive apart.
The number of baits, distance between baits, and the lack of roads in the area made leopard hunting long and tiring work. Many days exceeded 14 hours of moving through the bush checking baits, making drags, building blinds, and generally searching for these secretive cats.
I learned to hang the meat ‘correctly’ thereby forcing the leopard to feed in a good position for a proper shot; the practice of making scent trails to the bait intersecting the cat’s most likely travel routes; how to select a bait site in an area where a cat will feel comfortable enough to feed and then stick around; and envisioning the position of your blind first, then working the bait position back from there.
Construction of the blind and client management turned out to be a crucial aspect in the killing of a leopard. Even though the bait is usually less than 70 yards away, the shot is often misplaced due to the client’s level of excitement and nervousness; a bench rest should be built into every blind. The camouflage and arrangement of the blind is of the utmost importance as leopard are very aware of their surroundings and can be finicky at best. Even with the best of tactics, hunting leopard still depends on some luck. However, with enough brains, baits and hard work you can create a little of your own luck on leopard hunts!
A wounded leopard that we tracked for seven hours resulting in several charges. The final charge was stopped by my friend and fellow apprentice at the time, Dominique Maarte
The Future.
Mozambique, where I learned what it really means to be a PH, is largely responsible for me being afloat in the African safari hunting industry today. I learned more about Africa from the people I met in Mozambique’s bush than any other place to date.
Mozambique’s future should be fantastic as many areas, with time and the correct conservation plan, are slowly getting back to their original state. Unfortunately, there are too many fly-by-night operators and crooked deals going on in several parts of the country. There are also problems that the government must address, from corruption to American hunters not being allowed to legally import their ivory. The country needs better organization pertaining to the allocation of hunting areas and quota, as the current system is often abused.
‘Old-timers’ talk about how Mozambique’s hunting used to be as good, or better, than any of its neighbouring countries. I believe it can be again. With more resources, education and assistance, the Mozambican people will welcome this improvement and understand how important the country’s wildlife is for its future. I welcome any chance I get to take hunters to Mozambique – it’s a beautiful country with a great history and a bright future.
PH Nathan Askew was born in Sikeston Missouri in 1977 and is one of the few American PHs in Africa. He has hunted Tanzania, Mozambique, Zimbabwe, Botswana, and South Africa. Askew, the owner of Bullet Safaris, lives in Africa.
Nov 4, 2011 | Hunting Stories Online
Volume: 17.2
The Common Zebra is an Uncommon Mammal
The Common Zebra is an uncommon mammal Richard D Estes, PhD, explores the evolutionary rationale behind this most intriguing paradox.
If you have ever tried to sex and age the Common or Plains Zebra, you will know it is hard work. Eagle-eyed driver-guides will tell you that the stallions have brighter, more contrasting stripes, but I find that method unreliable. Wildlife researchers and managers tasked with telling the sexes apart can also pick out mature stallions from their more robust build, especially as reflected in their necks, which are thicker than those of mares. And it helps to know that herd stallions usually bring up the rear of a family unit. But the most reliable way to ID the sex of both adults and young is from a full rear view (Figure1.)
(Figure1.)
The female’s vulva forms a broad band of black skin between the buttocks. Males also have bare black skin extending down from the anus, but this extends only a short way and is of a more triangular shape. The difference is not always clear, however – you really need an under-tail good look. But why is this scrutiny necessary? Why not just check out the male’s external genitalia? Because these are hard to see, that’s why. Seen from the rear, the testes blend in with the broad black stripe running along the belly midline, and the hind legs obscure the penile sheath except in a three-quarter view looking from front to back.
The difficulty of telling males and females apart begs the question: why is the Common Zebra the hardest of all plains game to sex and to age (with the possible exception of the oryx)? Such species contradict Darwin’s theory of sexual selection (Darwin 1871), according to which zebra stallions should look very different from mares. The theory holds that, in polygynous mating systems, in which some males can monopolize mating with more than one female at the expense of other males, male sexual competition (coupled with female preference) will lead to increased size and conspicuous display organs – that is to say, pronounced sexual dimorphism.
The Plains Zebra has an unusual (in mammals) harem social/mating system, shared by the Mountain Zebra and the horse, where stallions own harems numbering as many as five or six mares, captured one by one in fierce competition. Mare-less stallions associate in all-male (bachelor) groups.
Clearly then, the Common Zebra is an exception to Darwin’s theory. How come? I was confronted with the same paradox in my studies of antelopes. The wildebeest, subject of my PhD dissertation and later research, also displays minimal sexual dimorphism despite being highly polygynous. Females even have a faux penile tuft that makes it harder to determine gender. When I am recording the sex and age of a long line of passing gnus, I rely on differences in the horns, which are thicker and wider in the males. The same applies to the related topi and blesbok. In the oryx, however, females have horns as long as or longer than the males’ horns, and sport identical, highly conspicuous colouring and markings. Even the penile sheath is inconspicuous.
It took me decades to come up with a plausible explanation. The first clue emerged when I made a survey of the social and mating systems of the 72 species of African Bovidae, comprising antelopes, sheep and goats, and the buffalo, for a symposium on the behaviour of hoofed mammals (Estes 1974). It turned out that nearly all the herd forming (i.e. sociable) species with minimal sexual dimorphism live for at least part of the year in aggregations that include adults of both sexes. There had to be some kind of counter-selection, I reasoned, against development of conspicuous male secondary characters in species that live in sexually integrated groups.
Conversely, species with pronounced sexual dimorphism (such as impala, sable, Grant’s gazelle and kob) tend to remain segregated according to sex and age except for breeding. In territorial species, only males with exclusive territories succeed in breeding. The small über-class of breeding males enforces separation of bachelor males from females and young. Non-territorial bovids – notably kudu, nyala, eland, cattle, goats and sheep – are still more sexually dimorphic, and are also the most segregated. Male sexual competition is more rigorous in such dominance-hierarchy breeding systems, causing males to keep growing long after females mature, while at the same time developing the most extreme gender differences in size and display organs.
What is the source of selection that counters male peer competition for conspicuous secondary characters? Broadening the scope of the inquiry to other classes of vertebrates, we find that the sexes are virtually indistinguishable in schools of many fish species and in many birds that live in flocks. Pigeons, geese, and swans come to mind – “Birds of a feather flock together,” as the saying goes. It is clear that in such societies natural selection would weed out individuals that fail to fit the mold; ones that are different are likely to be peripheral to the school or flock and are most likely to be picked off by predators. An outstanding characteristic of these schools and flocks is the wonderful coordination of all the members; they wheel and turn simultaneously as though responding to an unseen conductor.
Could any of this information help explain the case of the zebra? I think it can:
Exhibit
A. Minimal sexual dimorphism correlates with living in mixed groups. The closer the resemblance between the sexes, the more integrated and coordinated are group movements.
Exhibit
B. Obvious sexual dimorphism correlates with sexual segregation. Males and females live in largely separate societies except for breeding males that, intolerant of potential rivals, are the enforcers of segregation.
How might these findings apply to Plains- Zebra society? In zebra aggregations, you have herds of bachelor stallions interspersed with families of females and young, each guarded by a stallion. Herd stallions interact with one another and with bachelors, yet rarely fight; most encounters take the form of the greeting ceremony. This is really a test of fitness, whereby a herd stallion serves notice that he is the owner of a group of females and young. An illustration of the greeting ceremony (Figure 2) adorns the cover of my book, The Safari Companion (Estes 1999).
(Figure2.)
The respect of a stallion’s right of ownership is remarkable; it is comparable with the respect of the property rights of territorial males. In both systems, males have made a huge effort to win mating rights, and are prepared to defend those rights against all comers.
Probably the harem system of the Plains and Mountain Zebra and the horse evolved from a territorial system, which persists in other extant members of the family: the wild asses and Grevy’s Zebra. My colleague, Hans Klingel, who carried out his seminal study of Plains Zebra socio-ecology at the same time as I was studying the Ngorongoro wildebeest (1967; in press), believes that early equids such as the ‘dawn horse’ Eohippus defended resource territories like solitary antelopes (e.g. did-dik, oribi, blue duiker).
By exchanging ownership of real estate for ownership of females, the Plains Zebra and the horse gained the freedom to lead a nomadic existence, whether in separate herds or in aggregations of many units. This very unusual social and mating system largely explains why the Plains Zebra is – and why the undomesticated horse was – among the most numerous and successful of hoofed mammals.
As a consequence of the gentleman’s agreement about ownership of mares, males compete mainly over fillies. Now we’re talking about serious fights. Beginning in their second year (indeed, as early as 18 months), females come into heat for as many as five days every month. They advertise their condition by frequent urination and a conspicuous posture with hind legs straddled and tail slightly raised. Reacting to this come-on, stallions converge from far and wide, each hell bent on adding a filly to his own harem. They fight with the father, who behaves as though his mares were up for grabs, and with one another. Battles lasting for hours and whole days test the mettle and endurance of the contestants (Figure 3). Eventually a stallion succeeds in abducting the filly, which – after a trial period perhaps lasting weeks – is accepted into the company of mares already in the seraglio.
Adult mares display the estrous posture only immediately before copulation, ensuring that other stallions are not attracted and the family is left in peace. When approached by a stallion, and during copulation, young and adult mares assume a facial expression that Germans call Rossigskeitgesicht – a splendid term with the mundane English translation “mare-in-heat face” (Figure 4). This display also signals submission.
Unfortunately for the stallion that abducted her, however, the filly comes into estrus again a month later. The battle royal begins all over again and he may well lose her to another stallion. And she keeps coming into heat without becoming pregnant for up to a year. When she is finally in foal, the filly settles down for good in the sire’s harem.
The resemblance between male and female Plains Zebras is close enough that, in a band containing family and bachelor groups, it is behaviour, rather than looks, that makes the stallions stand out. The herding (Fig. 5) and greeting behaviour of herd stallions and the horsing around often seen in bachelor herds are a give-away. Call me crazy, but I see a parallel between zebras and pigeons (which I kept as a child). Like zebras, male pigeons are a bit more robust than females, but you cannot pick them out in a flock until the males start courting and fighting.
Alert readers may at this stage be saying to themselves: “This is all very well, maybe even interesting, but the real question – how did this masking of male secondary characters came about – remains unanswered.” Point taken… My attempt to account for this looks at the zebra’s presumed ancestral social organization and draws on my explanation of minimal sexual dimorphism in wildebeest, oryx, and the like. Both may be considered highly speculative. Indeed, the theory I advanced, in Estes (1991), to account for the condition in bovids is not widely known and has even been discounted – at least by some colleagues of mine who have read the paper.
(Figure3.)
I proposed that male sexual competition comes in two forms with opposite effects: the familiar peer competition that Darwin recognized, and a much less familiar kind called despotic competition that he didn’t. Peer competition, involving males of the same age and development stage, promotes sexual dimorphism. Despotic competition involves aggression by older and bigger males against younger, weaker males. Competition of the latter kind leads to the eviction of adolescent males from female herds when they develop secondary characters that reveal their gender and trigger the aggression of breeding males. Following eviction, the sex ratio, which remains roughly equal as long as both sexes stay in their natal herd and home range, becomes skewed due to higher male mortality rates.
Accordingly, natural selection should favour a suppression of male secondary characters until the stage is reached when the benefits of leaving (to join bachelor herds and engage in peer competition) outweigh the costs of skulking in female herds. Considering that the fittest males pass on their genes to far more offspring than females can (large antelopes produce only one calf a year for say eight to ten years), mothers should do whatever they can to promote survival of their sons. The same holds true for zebras and horses, which have a 12- month gestation and can produce only one foal a year.
In my obscure 1991 paper, I proposed that female bovids get around the problem of keeping their sons with them, while at the same time allowing them to develop the weapons essential for peer competition, by themselves growing horns and copying other male secondary characters.
When horns of similar size and shape are present in both sexes, they cease to be badges of gender. Ditto markings, beards, manes, and other traits evolved by males to advertise their gender. While I know that females with horns use their horns as weapons, I maintain that natural and sexual selection for keeping males with females until they are prepared to join male society is stronger than selection for horns as weapons in females. There is not much evidence, after all, to suggest that horned females are subject to lower predation rates than hornless ones.
My theory would explain how it happened that oryx males and females are more alike than, say, wildebeest or topi. These desert species roam widely and exist at very low population densities. Evicted subadult males would be unlikely to find a separate bachelor herd they could join. Consequently, the costs of leaving are greatly outweighed by the benefits of staying. So oryx herds include bachelor males intermixed with females. The alpha male treats them all the same as long as they behave the same: that is, submissively. Female-mimicry of male horns and other markings originally reserved for males to the adult stage might explain how this unusual transformation of an originally territorial mating system came about.
Enough said already about bovids, however. This article is supposed to be about a hoofed mammal from an altogether different order: an odd-toed, not an even-toed ungulate. What gave rise to the selection pressure that would account for look-alike male and female Plains Zebras?
I cannot even use the argument that the risk of being evicted from the herd is the source of counter-selection, because male offspring are not evicted. In the harem system, selection favours stallions that take a paternal interest in their offspring by allowing them to stay on in the natal family.
(Figure4.)
Eventually, at between two and three years of age, they leave of their own accord and join a bachelor herd, where they remain until mature and ready to start their own harems at five years or so.
If the zebra’s ancestors were territorial, then that might explain how it all started. The benefits of staying with the mother in a female herd would select for sons that avoid eviction by territorial stallions through continuing to look like females. Regardless of how the harem system might have come about, minimal sexual dimorphism would facilitate association in aggregations with minimal strife and become what socio-biologists call an evolutionarily stable strategy (ESS).
I want to make just one final point: Grevy’s Zebra was once widely distributed in Africa. It is now an endangered relict species that the Plains Zebra has replaced everywhere except in the most arid parts of its former range. The same may be said of the wild asses. This is proof (I would argue) that the nomadic harem system of the Plains Zebra and the horse is superior to the territorial society of the Grevy’s Zebra and the wild asses. Although the explanation I have offered for the Plains Zebra’s lack of sexual dimorphism is pure speculation and is unprovable, I hope that I have made the case that toning down gender differences by reducing male aggressiveness helps Plains Zebras to live together in relative peace.
References: Darwin, C R 1871. The Descent of Man and Selection in Relation to Sex. Appletonn New York.
Estes, R D 1974. Social organization of the African Bovidae. Proceedings of an International Symposium on the Behavior of Ungulates and its Relation to Management. IUCN Special Publication (New Series) No. 24, Morges, Switzerland, pp. 166- 205.
Estes, R D 1991, The significance of horns and other male secondary sexual characters in female bovids. Applied Animal Behavior Science 29: 403-51.
Estes, R D 1999, The Safari Companion. Chelsea Green, White River Junction, VT.
Klingel, H 1967,. Soziale Organisation und Verhalten freilbender Steppenzebras (Equus quagga). Zeitschrift für Tierpsychologie 27: pp. 580-624
Klingel, H (in press). Equus quagga (in) Kingdon, J S and Hoffmann, M: The Mammals of Africa Vol. 5: Equids
