8 research outputs found
The Ecology and Behaviour of the Common hippopotamus, Hippopotamus amphibious L. in Katavi National Park, Tanzania: Responses to Varying Water Resources
Katavi National Park (KNP) is a stronghold for hippopotami in Tanzania. To predict the probable effects of future changes in water availability, annual variations in rainfall, river level, river discharge, ground water levels and the lateral extent of swamps used by hippopotami, were related to annual variations in their behaviour, distribution and abundance in aquatic shelter sites.
Rainfall did not change consistently between 1950 and 2010. In contrast river levels and flow decreased over between 1990 and 2010. It is concluded that these reductions have been caused by an increase in irrigation of rice fields increasingly planted in upstream regions of the catchment area.
Rainfall fell in a pronounced annual cycle. The wet season started in December, increased in January, decreased in February reaching an annual peak in March. The dry season lasted from May to November. Variation in height, biomass and greenness of ground layer swards used by feeding hippopotami, closely mirror this annual pattern of rainfall.
As the dry season progresses hippopotami become increasingly aggregated in remaining aquatic shelter sites by day, to wallow and thermoregulate with concomitant depletion of the nocturnal feeding grounds close to remaining shelter sites.
Five observation sites were chosen, representing a gradient in the amount of water persisting through the dry season. Hippopotami showed spatial differences in their activity budgets and the frequency of behavioural events at these sites, which were consistent with the way they responded to variation in water availability between seasons.
Extrapolating these findings to predict responses to future changes in global climate and land use, I conclude consistent implementation of existing national laws governing diversion of water from rivers up-stream of the park will be crucial for maintaining vigorous populations of hippopotami in KNP. Similar problems of a catchment area scale occur in other National Parks in Africa
Integrating research with management: The case of Katavi National Park, Tanzania
Many protected areas in Africa and elsewhere suffer from several external pressures making it difficult for management to set priorities. For example, aerial censuses show that many mammal populations in the Katavi-Rukwa ecosystem of western Tanzania are declining. Vehicle transect data collected from 1995 to 2011 and presented here confirm many of these declines within Katavi National Park itself. Two factors are believed to be adversely affecting large mammals in this national park: (i) reduced water flow caused by local damming of the Katuma River, for rice cultivation upstream of the park, and (ii) poaching. We used transect data, anti-poaching records and timing of dam emplacements to examine the importance of these factors for 23 species of mammalian herbivores and carnivores as well as two combinatorial measures of mammal species’ abundances. Controlling for rainfall, we found that the number of mammals counted per year was associated with both poaching and dams, the importance of which depended on the species. Both factors appear to be adversely affecting mammal populations in Katavi National Park and we make recommendations to both management and policy makers for tackling these problems. More generally, our study shows that wildlife managers of protected areas in the developing world can readily collect information on wildlife trends and basic ecology and can use them for conservation planning.Key words: Africa, anti-poaching, hydrology, illegal hunting, mammal population changes, management, water flow