Rezervaci Masai Mara proslavila především každoroční masová migrace pakoňů žíhaných (Connochaetes taurinus) a dalších kopytníků ze Serengeti (Tanzanie). Primární příčinou stěhování je střídání srážkového cyklu v rovníkové východní Africe a s tím související nabídka zelené potravy. Je ovšem obtížné určit přesný začátek či konec velkého stěhování – jde o neustále běžící cyklus, jehož jednotlivé fáze přecházejí plynule jedna v druhou. Navíc načasování migrací se rok od roku liší podle počasí i v řádu měsíců. Celá migrační trasa o délce zhruba 800 km má podobu nepravidelného oválu. Pohyb mnohatisícových až milionových stád přitahuje množství turistů z celého světa (druhé stěhování)., The Masai Mara reservation is famous for its annual mass migration of the Wildebeest (Connochaetes taurinus) and other hoofed animals from the Serengeti (Tanzania). Its primary cause is the changing precipitation cycle in equatorial east Africa, and the related supply of green food. It is difficult to determine exactly the beginning and the end of the Great Migration – it is a constantly running cycle, and its timing varies from year to year depending on weather conditions over a span of months. The entire route has a length of about 800 km. The movement of herds with hundreds of thousands to millions of animals attracts an ever-increasing number of tourists from around the world annually (the second migration)., and Miloš Anděra.
This project is an international cooperative initiative to introduce dog-oriented preventive veterinary medicine in model localities in the districts of Marsabit and Samburu, Kenya. The vaccination of dogs against rabies and improvement of public awareness seek to minimize the impact of rabies on the rural population and prevent further fatal cases in humans. The success of this local project should encourage wider vaccination campaigns in Kenyan districts affected by outbreaks of rabies. Mt. Kulal is an ideal model site for such a study, being isolated but having a basic infrastructure and medium-sized human and dog populations. and David Modrý.
From January 1992 to December 1993, a total of 2158 fish, namely Oreochromis leucostictus (Trewavas, 1983), Mi-cropterus salmoides (Lacépède, 1802), I'ilapiu zillii (Gervais, 1848) and Barhus amphigrama (Boulenger, 1902) were sampled from thirteen stations on Lake Naivasha, Kenya, using a fleet of gill nets and examined for helminth parasites. The prevalence of infection due to cystacanths of an acanthocephalan, Polyacanthorhynchus kenyensis Schmidt et Canaris, 1967 among parasitized O. leucostictus ranged from 30.4 to 86.9%; among T. zillii from 4.1 to 77.7%; in M. salmoides from 20 to 50%; and in B. amphi grama from 5.8 to 100%. In 735 hosts belonging to the above four species, a total of 4198 immature specimens of P. kenyensis were recovered. All cystacanths were found in extraintestinal sites, either free within the fish body cavity or encysted within the host visceral organs. There was no significant variation in the prevalence of the parasite within months (P > 0.001). Host sex ratio was significant (P < 0.001 ) in favour of male T. zillii, and also highly significant (P < 0.001 ) in favour of male O. leucostictus. Moreover, in this fish, prevalence of infection was observed to increase with the increase in the size of the fish. Among infected M. salmoides, there was no significant departure from a 1 : 1 sex ratio.
The following four species (only females available) of the Philometridae (Nematoda: Dracunculoidea) were recorded from freshwater fishes of Lake Turkana, northwestern Kenya in 2007-2008: Philometra bagri (Khalil, 1965) from the subcutaneous tissue around the mouth, on gill covers and the fin base of the bayad Bagrus bajad (Forsskål) (Bagridae: Siluriformes), Philometra lati sp. n. from the abdominal cavity of the Nile perch Lates niloticus (Linnaeus) (Latidae: Perciformes), Philometra spiriformis sp. n. from capsules on the inner surface of gill covers of L. niloticus and Afrophilometra hydrocyoni (Fahmy, Mandour et El-Nafar, 1976) comb. n. from the fins of Hydrocynus forskahlii (Cuvier) (Alestidae: Characiformes). The new species P. lati is characterized mainly by the presence of distinct oesophageal teeth, absence of large cephalic lobes and caudal projections, and by a combination of other features. Philometra spiriformis differs from all congeners principally in the spirally coiled body and from individual species by a combination of other morphological features. The already known species P. bagri and A. hydrocyoni are redescribed based on light and scanning electron microscopy; findings of both these species in Kenya represent new geographical records.