Bats of Southern and Central Africa. Ara Monadjem
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Название: Bats of Southern and Central Africa

Автор: Ara Monadjem

Издательство: Ingram

Жанр: Биология

Серия:

isbn: 9781776145843

isbn:

СКАЧАТЬ with a high-rainfall tropical climate (van Wyk and Smith 2001).

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      Figure 29. Open woodland on the floodplain of Mana Pools National Park, northern Zimbabwe, is dominated by Faidherbia albida. The bat fauna has been well studied (Rautenbach and Fenton 1992). The animal-eating bat Nycteris grandis is one of several species that roosts in the hollow boles of these large trees (© F. P. D. Cotterill).

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      Figure 30. Mesic miombo woodland covers large portions of Katanga (DRC) and the northern regions of Angola and Zambia. Hollows in large trees provide daylight roosts for several species of bats, including Scotophilus dinganii and Mops niveiventer. This photograph was taken near the type locality of Rhinolophus sakejiensis, which was in the dense understorey of thick gallery forest along a stream (© F. P. D. Cotterill).

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      Figure 32. Moremi Game Reserve, Botswana. Cathedral mopane woodland, Colophospermum mopane, illustrating incidence of elephant impacts on habitat structure, with fallen, damaged and standing dead trees, and leading to a ‘homogenisation’ (reduction of heterogeneity) of the habitat. Gaps under bark, hollows, and crevices in mature mopane trees provide daylight roosts for many species of bats, including Chaerephon chapini, Scotophilus leucogaster and several other small vespertilionids, notably Nycticeinops schlieffeni (© F. P. D. Cotterill).

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      Figure 33. A stark contrast between agro-ecolandscapes and relatively intact southern miombo woodland on Kalahari sand in the Sebungwe Region, Zimbabwe. The conservation implications of widespread loss of arboreal habitat for biodiversity are exemplified in this aerial view comparing Gokwe Communal Land (left) and the Mafungabusi State Forest (right) (© A. J. Loveridge).

      To a large extent, the structural features of a vegetation type also determine its associated fauna. The preference shown by birds and mammals for a specific vegetation type, for example forest or savanna, is determined mainly by the structural features of the dominant plants, not by their taxonomic identity. In the case of bats, vegetation structure has two very important controls on the bat assemblages associated with a biome: these govern the nature of foraging habitat (see Echolocation for more detail) and the characteristics of roosts and food. An area that is more or less uniformly covered by one of these vegetation types usually represents a major biotic zone and is often called a biome (van Wyk and Smith 2001). The major biomes of southern Africa are fynbos, desert, succulent Karoo, Nama Karoo, savanna, forest, and grassland. In contrast, the classification of vegetation into phytochoria describes the biogeographical affinities of constituent plant species (principally endemics) across Africa as a whole. Congruent patterns in animals (including vertebrates, such as birds) (Dowsett et al. 2008) are also explained by an association with phytochoria. Examples include the association of Rhinolophus sakejiensis with relictual Guineo-Congolian forest, and Plerotes anchietae with moist miombo woodlands of the Zambesian phytochorion.

      The fynbos biome, also known as the Cape Floristic Region, is situated at the southern tip of Africa. Centred on the Cape Fold Belt mountains, with its origins in the late Oligocene, this biome is recognised as one of the main centres of plant diversity and endemism in Africa (van Wyk and Smith 2001, Hoffmann et al. 2015). While this biome supports a remarkably high endemism of plants and some animals, its bat fauna is distinctly depauperate, and only one species, Rhinolophus capensis, can be considered a partial endemic to this region.

      To the west of the subcontinent, arid and semi-arid biotas characterise the Namib Desert, succulent Karoo and the Nama Karoo (often referred to as semi-arid scrub vegetation). The southern African arid region hosts at least 17 bat species, representing eight families, of which three are endemic to the region (Rhinolophus denti, Laephotis namibensis and Cistugo seabrae) and one is vagrant (the fruit bat Eidolon helvum) (Monadjem et al. 2018a). Local-scale landscape features (e.g. habitat structure) might be more important than aridity in driving bat species richness, and an unknown factor (possibly temperature limiting the availability of insects flying high above the ground) may restrict the diversity of the open-air foragers throughout the region (Monadjem et al. 2018a).

      The high-lying central plateau (‘Highveld’) of South Africa and the Drakensberg mountains are dominated by grasslands and (in the Drakensberg and its foothills) small patches of Afromontane forest. Montane grassland–forest mosaics also characterise the Eastern Highlands of Zimbabwe and the central Angolan Highlands. Grasslands also constitute the most widespread vegetation unit mapped across south-central Africa, where they represent a ‘wetland archipelago’ of seasonally inundated floodplains: its islands extend from the Okavango Swamps in Botswana, to lakes Bangweulu and Mweru in Zambia, and the Kamalondo Depression in the Katanga Province of the DRC. These valley grasslands are widespread in the catchments of the Chambeshi, Cubango, Upper Kafue, Kasai, Upper Lualaba, Upper Kunene and Upper Zambezi rivers across the Kalahari Plateau (White 1983).

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