Introduction
The fossil glacial morphology of Ethiopia has received renewed attention in a recent issue of lite Journal of Glaciology (Reference PotterPotter, 1976). Evidence of former glaciation is of interest in paleoclimatic reconstructions especially in spatial context with the high mountains of East Africa, where interpretation is facilitated by the continuity with the present glaciers. Field work in the Ethiopian mountains is further hampered by limitations in air photographic coverage and topographic maps. Yet, the present knowledge of Pleistocene mountain glaciation in Ethiopia is somewhat less incomplete than may appear from Potter's note. Foremost targets for the field inventory of glacial landforms are mountains around and above 4 000 m ( Fig.1). Some of these will be discussed in the following.
High Semyen
The highest mountain area of Ethiopia was chosen for a field survey during December 1973, since optimal development of Pleistocene glacial morphology was expected here, and because a topographic map at scale 1: 50 000 (Reference WerdeckerWerdecker, 1968) is available in addition to excellent air photography. Glacial morphology was mapped for the area of Ras Dashan and the two next highest mountain massifs of High Semyen. For the results of this field study and a detailed bibliography of earlier work, reference is made to Reference HastenrathHastenrath (1974). A brief summary will suffice here.
Multiple moraine complexes and cirques are embedded in valleys in the northerly and westerly quadrants of Ras Dashan, Buahit and Silki-Abba Yared. Moraines are deeply weathered and carry abundant vegetation. Cirque bottoms lie around 4 200-4 300 m. Multiple smaller moraines arc found in the upper parts of valleys around 4 100-4 200 m. Ends of a lower moraine complex reach down to below 4 000 m, and in the massif of Silki-Abba Yared even to about 3 750 m. From the adjacent area on the west side of Silki and Baroj Wuha, which I did not visit, Reference MinucciMinucci (1938) likewise reported moraines down to 3 800 m. This contrasts with a lowest moraine limit of 4 100 m for High Semyen stated by Reference PotterPotter (1976).
Mounts Badda and Cilalo
Reference NilssonNilsson (1940) studied this area, although he apparently confused Badda with Caeca. Reference PotterPotter (1976) visited the south-western quadrant of Badda and inferred glacial morphology in other parts of the mountain from air photographs. He described evidence for the strongest glaciation on the west side of Badda, with terminal moraines reaching down to 3 650 m. In context it must be noted, however, that he gave an elevation of 4 350 m for the peak of Badda, a figure more than 200 m higher than that appearing on available mapsFootnote *.At any rate, Reference NilssonNilsson (1940) reported moraines on the west side of Badda reaching down to nearly 3 300 m.
Figure 2 is a sketch of possible moraine features of Mounts Badda and Cilalo as interpreted from air photography. Air photographs are a powerful tool in but no substitute for field observations. Therefore, some of the features identified on the sketch maps in Figures 2-4 are on ground verification likely to be found of non-glacial origin. In order to avoid complication, no distinction has been made in Figures 2-4 between the more safely recognizable and the more dubious features.
Valleys 1-4 of Mount Badda in Reference PotterPotter's (1976) sketch map are entered for comparison at the presumed locations; the remaining valleys in his sketch are numbered 5-13 in a clockwise sense. However, there is a considerable tolerance margin in the correlation of valleys; the general area where valley 9 of Potter's sketch presumably lies is obstructed by clouds in the air photographs.
Consistent with Potter's (1976) suggestion, the more pronounced glacial morphology appears on the western flank of Mount Badda, whereas the north versus south sides display no pronounced contrasts. Similarly, there are some features of possible glacial origin, particularly on the west side of Mount Cilalo.
Mounts Cacca and Enguolo
Figures 3 and 4 are sketch maps of Mounts Cacca and Enguolo, respectively. At Mount Caeca, the west side seems to have been more strongly glaciated, with moraine-like features descending to around 3 400 m; and possible moraines extend further down on the north than on the south side. Moraine-like features around 3 200 m on the cast flank of Mount Enguolo are dubious.
Conclusions
Since drastic climatic events must have affected all of eastern Africa on a large scale, evidence of former glaciations in Ethiopia should be viewed in perspective with the better-explored glacial history of East Africa. For the lower moraine complex in the peak areas of High Semyen, a correspondence with Reference BakerBaker's (1967) “Younger Maxima I A-D” at Mount Kenya and Humphries' (1972) “Fourth (Main) Glaciation” at Kilimanjaro has been suggested (Reference HastenrathHastenrath, 1974) from elevation and general appearance; and the higher complex of Semyen moraines has been tentatively correlated with Reference BakerBaker's (1967) “Stages II-IV” and Reference Humphries, Downie and WilkinsonHumphries' (1972) “Little Glaciation”. Interpretation of the highest Semyen moraines as features of the nineteenth century has been ruled out, a conclusion also shared by Reference PotterPotter (1976) for the moraines of Mount Badda.
The moraines on the mountains of southern Ethiopia seem from their appearance (Reference PotterPotter, 1976) and elevation comparable to those of High Semyen, although the termini are apparently somewhat lower. By way of spatial comparison, it should be pointed out that I have found moraines at Mount Elgon, northern Kenya/Uganda, a mountain of comparable elevation, down to below 3 600 m. Thus, the lowest moraine, limits identified for Mounts Badda, Cilalo, Cacca and Enguolo appear broadly consistent with those in mountain areas adjacent to the north and south, respectively. The indication of possibly somewhat lower-reaching moraines on the mountains of southern Ethiopia is noteworthy. Claims for an older glaciation extending to well below 3 000 m have been advanced for both northern Ethiopia and East Africa (review in Reference HastenrathHastenrath (1974)), and merit further attention in the field. Absolute dating as a basis for spatial correlation of major moraine complexes remains an important task in the reconstruction of the Pleistocene and early Holocene glacial history in eastern Africa.