A biogeographical appraisal of the threatened South East Africa Montane Archipelago ecoregion.

Recent biological surveys of ancient inselbergs in southern Malawi and northern Mozambique have led to the discovery and description of many species new to science, and overlapping centres of endemism across multiple taxa. Combining these endemic taxa with data on geology and climate, we propose the 'South East Africa Montane Archipelago' (SEAMA) as a distinct ecoregion of global biological importance. The ecoregion encompasses 30 granitic inselbergs reaching > 1000 m above sea level, hosting the largest (Mt Mabu) and smallest (Mt Lico) mid-elevation rainforests in southern Africa, as well as biologically unique montane grasslands. Endemic taxa include 127 plants, 45 vertebrates (amphibians, reptiles, birds, mammals) and 45 invertebrate species (butterflies, freshwater crabs), and two endemic genera of plants and reptiles. Existing dated phylogenies of endemic animal lineages suggests this endemism arose from divergence events coinciding with repeated isolation of these mountains from the pan-African forests, together with the mountains' great age and relative climatic stability. Since 2000, the SEAMA has lost 18% of its primary humid forest cover (up to 43% in some sites)-one of the highest deforestation rates in Africa. Urgently rectifying this situation, while addressing the resource needs of local communities, is a global priority for biodiversity conservation.

Description of four Iolaus Hbner, 1819 species in the subgenus Philiolaus Stempffer amp; Bennett, 1958 from East Africa, assigned to the proposed I. maritimus species group (Lepidoptera, Lycaenidae, Theclinae).

Four new Iolaus Hbner, 1819 species are described in the subgenus Philiolaus Stempffer Bennett, 1958. They are assigned to the newly formed I. maritimus species group. Members of the group occur in the coastal forests of Kenya, submontane and montane forests in Tanzania and Mozambique, and are locally distributed in montane forests at the western shores of Lake Malawi, in southwestern Tanzania, and northern Zambia/Malawi.

Observations on the Biology of Afrotropical Hesperiidae (Lepidoptera) with particular reference to Kenya. Part 11. Heteropterinae.

Partial life histories from Kenya or Tanzania are presented for Metisella midas midas (Butler), M. medea medea Evans, M. orientalis orientalis Aurivillius, M. quadrisignatus nanda Evans, M. congdoni De Jong & Kielland and M. willemi Wallengren. The ovum of Metisella formosus linda Evans is also illustrated from Zambia. All feed on species of grasses (Poaceae). The convergence of the biology of the grass-feeding skippers, particularly Heteropterinae and Hesperiinae, Baorini is discussed.

Observations on the biology of Afrotropical Hesperiidae (Lepidoptera). Part 9. Hesperiinae incertae sedis: Zingiberales feeders, genera of unknown biology and an overview of the Hesperiinae incertae sedis.

The Afrotropical genera that have been recorded to feed on Zingiberales are documented. Partial life histories are presented for Erionota torus Evans (a South-East Asian species established in Mauritius), Semalea arela (Mabille), S. pulvina (Plötz), Xanthodisca vibius (Hewitson), X. rega (Mabille), Hypoleucis ophiusa (Hewitson), Caenides dacena (Hewitson), Osmodes adon (Mabille), Gretna cylinda (Hewitson) and Moltena fiara (Butler). Additional notes from the literature are provided on the genera Leona and Rhabdomantis. Notes on natural enemies of E. torus and M. fiara are included. We find that the Zingiberaceae and Costaceae feeding genera, Semalea, Xanthodiscus, Hypoleucis and Caenides (part) are united by a C-shaped raised rim to the prothoracic spiracle of the pupa. The pupa of Osmodes adon indicates this genus may have no close affinities to other Afrotropical genera for which the life history is known. The pupa of G. cylinda is unlike any other that we have documented and may reflect that this is the only species which we have found to be formed on the open leaf under surface rather than in a shelter. The early stages of M. fiara indicate affinities with Zophopetes and related genera. The paper concludes with a brief comparative discussion of the early stages of the Afrotropical Hesperiinae incertae sedis as a whole. There appear to be useful characters to group species by the ova and pupae but less so by the caterpillars. Based on pupae alone, the Hesperiinae incertae sedis might be divided into nine groups.

Observations on the Biology of Afrotropical Hesperiidae (Lepidoptera). Part 8. Hesperiinae incertae sedis: Dracaena Feeders.

The Afrotropical genera Gamia and Artitropa are only known to feed on species of Dracaena (Asparagaceae), and together with Leona lissa Evans, which may require a new genus, they are the only Afrotropical Hesperiidae that feed on this unusual host genus. We present partial life histories of two species of Gamia, 22 taxa of Artitropa (of at least 12 species, and including several undescribed taxa), and notes on the life history of L. lissa. Based on life history information, Gamia and Artitropa are considered likely to form a monophyletic group, probably most closely related to some of the palm-feeding genera currently placed incertae sedis, but formerly in Evans' 1937 Ploetzia group of genera. Notes on natural enemies of A. erinnys (Trimen) and A. milleri Evans are included.

Observations on the biology of Afrotropical Hesperiidae (Lepidoptera). Part 7. Hesperiinae incertae sedis: grass and bamboo feeders.

Partial life histories for 17 Hesperiinae incertae sedis that feed on grasses or bamboos (Poaceae) are described and illustrated. The genera dealt with are: Astictopterus (from Evans' (1937) Astictopterus group), Prosopalpus, Kedestes (from Evans' (1937) Ampittia group), Ceratrichia, Pardaleodes, Ankola (From Evans' (1937) Ceratrichia and Acleros groups), Perrotia (part), Chondrolepis, and Monza (part) (all from Evans' Ploetzia genera group). The Poaceae-feeders comprise a relatively small proportion of the Afrotropical Hesperiinae fauna, particularly the mainland Afrotropical fauna. The caterpillars shown here are fairly homogeneous, with the head wider nearer the base, and lacking obvious setae on the body. Wax glands have been noted over most of the ventral surface A1-A8 in the final instar of Ceratrichia, Pardaleodes and Monza, but are absent in Chondrolepis, and either absent or not documented for other genera. The short double frontal projection of Tsitana uitenhaga is unusual, but pupae of the congeneric species have not been documented. The pupae of Kedestes spp. generally have extensive black or dark areas. The pupae of Pardaleodes and Ankola are very flimsy and collapse after emergence. All known pupae of Chondrolepis spp. have a short, blunt downturned frontal projection, not seen for any other Afrotropical genera, although Semalea spp. may have a short blunt projection. The remaining pupae are all generally similar and undistinguished. These are not substantial differences, but suggest that pupal characters may be useful in grouping some of the genera of Afrotropical Hesperiinae incertae sedis.

Observations on the biology of Afrotropical Hesperiidae (Lepidoptera). Part 6. Hesperiinae incertae sedis: palm feeders.

Partial life histories for 12 Hesperiinae incertae sedis that feed on palms (Arecaceae) are described and illustrated. The genera dealt with are: Perrotia (part), Ploetzia, Zophopetes, Gretna (part), Pteroteinon, Leona, and Caenides (part) (all from Evans' Ploetzia genera group). Although Gamia spp. have been reported to feed on palms, these records are considered to be in error, as caterpillars of this genus feed on Dracaena spp. (Asparagaceae). The life histories of the species documented are fairly uniform, in that caterpillars of most species have rounded brown heads, wider basally, with or without limited black markings, smooth bodies and make simple shelters by rolling leaves. Variation in caterpillar markings and male genitalia of Zophopetes dysmephila (Trimen) and caterpillar and adult markings of Gretna carmen Evans merit further study. In G. carmen, G. waga (Plötz) and G. balenge (Holland), the caterpillars' head and body are covered with hair-like setae, and develop an extensive covering of white waxy powder, which in G. balenge also covers the long setae. Furthermore, the pupa of G. balenge is unusual in having a pair of large, elaborate processes frontally on the head; when disturbed, the pupa vibrates violently and rattles noisily against the sides of the shelter. Ploetzia amygdalis (Mabille) and Pteroteinon laufella (Hewitson) have gregarious caterpillars, whereas the remaining species are solitary. After eclosion, the first instar caterpillars of Gretna spp. moult to the second instar without feeding. The implications of a palm-feeding life-style are discussed, and economic damage and plant quarantine risks to coconut, oil palm and ornamental palms pointed out. The known life histories suggest that all Afrotropical palm-feeding Hesperiidae will belong in the same tribe when the incertae sedis section is further elucidated, although the affinities of Gretna deserve further consideration. 

Observations on the Biology of Afrotropical Hesperiidae (Lepidoptera). Part 5. Hesperiinae incertae sedis: Dicotyledon Feeders.

Partial life histories of 24 Hesperiinae incertae sedis that feed on Dicotyledons are described and illustrated. The genera dealt with are: Acada, Acleros, Andronymus, Fresna, Gorgyra, Melphinyet, Meza, Paronymus, Parosmodes, Platylesches, and Teniorhinus. The food plants of Gorgyra (mainly Connaraceae), Melphinyet (Euphorbiaceae) and Platylesches (Chrysobalanaceae) stand out as clearly distinct from those of the other six genera, which share one or two food plant fam-ilies with each other. Thus four genera include Fabaceae in their food plants, two include Sapindaceae, two include Com-bretaceae, and Andronymus includes all three. Ova are only reported for five genera, but they do point to some significant differences: Gorgyra, Parosmodes and Platylesches are different from each other, and different from Acleros and Andro-nymus. The features of the caterpillars do not indicate clear patterns. The pupal shelters point to Parosmodes and Mel-phinyet showing some affinity and certainly differ from all others. Acleros and Andronymus have similar pupal shelters, and in common with Meza (dicotyledon-feeding species) and Fresna, the pupal chamber is not closed and the pupa rests on the leaf upper surface. The pupae of Gorgyra differ from all others. The pupae of Acleros and Andronymus have their colouring in common, probably reflecting their very similar pupal shelters. Similarly the pupae and shelters of Meza (di-cotyledon-feeding species) and Fresna seem analogous. The other pupae, hidden in their shelters are less differentiated, although the completely wax-free shelter of Acada is superficially different. We conclude that the likeliest scenario is that in the Afrotropical Region members of the Hesperiinae incertae sedis have made the switch from monocotyledons to di-cotyledons several times, and then radiated.