Fish Communities in East African Rift Lakes

Fish Communities in East African Rift Lakes

Fishcommunities in East African rift lakes The inland water fishes of Africa T he Great Lakes of East Africa are unique systems in various ways. The region has been subject to much tectonic activity. Hence, some of the deepest lakes of the world can be found in the area, most of them stretched in a north-south direction in the western branch of the Rift Valley (figure 19.1). The elongated and deep lakes Tanganyika and Malawi, together with the saucer-shaped, relatively shallow Lake Victoria form the three largest freshwater bodies in the region. All three figure amongst the top ten largest lakes in the world in terms of surface and volume. Other large lakes in the region include Kivu, Edward (with Georgel. Albert, Turkana, Mweru and Rukwa. However, what really makes these lakes unique is their biodiversity and especially their fishes. Nowhere else in the world can one find a larger number of fish species than in these lakes. Not only is the sheer number of species exceptional, but most of these fishes are also endemic to a certain lake. Remarkably, the largest compound of the fish fauna , over 95% for the three large lakes, belongs to only one family, the Cichlidae. These cichlids represent the largest radiation of vertebrates in the world. Hence these lakes are considered natural laboratories for the study of evolution and speciation. Whil e the fishes in these lakes represent an unparalleled biodiversity treasure, one should not forget that they are of prime importance as the largest source of animal protein for the riparian human population (Snoeks, 2001). It is clear that the exploitation and the conservati on of these fishes give rise to conf licts. Increasing human activiti es in the region undeniably have a direct (fisheries) or indirect impact on the lake's fis h communities. This is likely to increase and the sustainable management of the ecosystems of the large African lakes will become a huge challenge. In this respect, one should also not forget that most of these lakes have relatively long to very long flushing tim es, w hich makes them highly vulnerable to pollution. Fi sh communitiesin EastAfrican rift lakes Jos SN OEKS,C HRISTIAN LEVEQUE, YVES FERMO N & FABRICE DUPONC HELLE ElGURE.19.1_ _ Majorlakes of the East African Rift system. Wh at determin es the overall structure of the fis h communities in these lakes is principally depth and substrate type. Depth distribution of fishes is limited by the oxycline . Therefore in the deeper lakes (Tanganyika, Malaw i, Kivu), fish only occu py a small part of th e lake's volume, i.e., t he upper oxygenated layer, t he depth of w hich diff ers from lake to lake. In lakes Tanganyika and Malawi , the fish compositio n clearly changes w it h depth and bot h lakes harbour a typical deep-water benthic fish fauna. Pelagic species can effect daily vertical migrations in search of food. Substrate type determines largely the horizontal component of the diff erences in fi sh community stru ct ure. Indeed, in most lakes, fish communities diff er largely between muddy, sandy, rocky and intermediary habitats . The inland w ater fishes of Africa One of the most, if not the most important extrin sic factor in the evoluti onary history of the endem ic cichlids. is lake level change. During their history the lakes faced many periods of aridity resulting in a dramatic decrease in lake level volume , followed by an increase durin g we tte r periods in w hich large stretches of new shorelin es became available to invade.Small-sized lake level changes resul ting in a split or admi xis of populations coul d act as species pumps (Rossiter, 1995). M any cichlid spe cies are intrinsically linke d to a part icular habitat and are called stenotopes; others occur in various habitats and are eurytopes. Fish preferring rocky habitats are called lithophylic; those typical for sandy habitats psam mop hylic. Other important aspects determining the fish community structure in the great lakes are migrations, either for reprodu ction or for food . Communitiesin La ke Tanganyi ka. Lake Tanganyika is the third largest lake in the wo rld in volume, and the second in length and depth (Cohen et a/., 1993b). W hile its age is often set at between 9-12 million years (Cohen et a/., 1993b), other sources place the origin of the lake in its present form at 5.5 million years ago (Weiss et el.. 2015), still making it the oldest of the East Africa n rift valley lakes. Lake Tanganyika harbours the most phylogenetically diverse and ancient flock of endemic cichlids and has been regarded as an evolut ionary reservoir for the endemic species flocks in the other lakes in the region (Nishida, 1991). It currently harbours some 219 cichlid species (Konings, 2015) and several tens are still to be described. It is not the species-richest lake in the region, but certainly the most diverse in terms of phylogeny, ethology, morphology, etc. Lake Tanganyika is also special in having endemic assemblages of non-cichlid taxa, including radiations of Synodontis, Mastacembelus, Claroteinae and Luciolates. There are several endem ic species in other groups as w ell. This non-cichlid endemi sm is linked to the ancient origin of the lake. The number of non-cichlid species for the Tanganyika basin exceeds 150, and new species are still being discovered (Banyankimbona et el., 20 12), Mu ch of our curre nt know ledge on Lake Tanganyika fish communities is based upon the results of the 18-mont h Belgia n Expedition in 1946-1947, wh ich we re written down by Max Poll in two classical monu mental books on the non-cichlids and the cichlids (Poll, 1953 and 1956), Much of wh at we know since then about the cichlid fish communities is based on the observations of tw o pioneering aquarists and naturalists who summarised their knowledge in various books (e.g. Brichard, 1978 and 1989; Konings, 1988 and 2015). For many years, Japanese scient ists have stud ied the ecology and ethology of the Tanganyika cichlids (summarised in Kawanabe et el., 1997). Observ ations on the various ecosystems and fisheries were discussed in Coulter's classic book (1991). Fish com m unities in East Afri can rift lakes Jos SN OEKS. C HRI TIAN LEVEQUE. Yv S FERMON & FABRICE D UPONCHELLE In comparison to the other East Afric an lakes, the fauna of Lake Tanganyika is unique in several aspects: • the existence of various endemic radiations in non-cichlids (see above); • the existence of a pelagic community comprised of two Clupeid endemi cs and their predators ; • the existence of a radiation of substrate-spawing cichlids (other than tilapias), the Lamprolo gini; • the absence of Chaoborus larvae (lake flies, also absent in lakes Kivu and Turkana). w hich in the othe r lakes form an important part of the food chain. Fish in Lake Tanganyika belong to four large communities: those inhabiting the rivers, the littoral and sublitto ral, the benthic and bathypelagic, and the pelagic zone. It is interesting to see that the occupation of the main habitats is somehow linked to the cichli ds' phylogeny (Meyer et al., 2015). Basal tribes such as the Bathybati ni, Trematocarini, together with Cyprichromi ni, Cyphotilapiini and Limnochromini generallyfrequent the open-water column or deep water habitats, while the species-rich tribes of the so-called H-lineage (Eretmodini, Ectodini and Haplochromini), together w ith the major part of the Lamprol ogini occupy the coastal areas. The pelagic community The pelagic community is mainly composed of six endemic non-cichlid species. Two clupeid species, Stolothrissa tanganicae and Limn othrissa miodon, live in large schools feeding on phvto - and zooplankton (figure 19.2). Though belonging to different genera, they are sister taxa (Wilson et el., 2008). They constitute a key elem ent of the pelagic food chain as important fo od sources for piscivorous fish, notable th e four Lates predators of the endemic subgenus Luciolates. These predator-prey relationships are a crucial eleme nt in th e sustainability of the industrialized fisheries in the basin. These c1upeids, in their juvenile stages, have a more littoral lifestyle. As adults, S. tanganicae is the more specialized to a pelagic life of the two (Coulter, 1991). The larger-sized Limn othrissa miodon has a more generalized diet and preys upon S. tanganicae. Also young individuals of three of the Lates predators, Lates mariae, L. angustifrons and L. micro lepis, live merely in littoral, w eedy habitats. The former two have a mixed benthic-p elagic life, preying upon the sardines during daytime, w hile the latte r remains in the pelagic zone as an adult. Lates stappersii, in contrast, spends its entire life in the pelagic habitat. The predator-prey relationship between Lates stappersii and S. tanganicae traditionally have been regarded as crucial in explaining fluctuating patte rns of the distrib ution of both taxa within the lake. How ever, planktonic abundance and physico-chemic al parameters may be important drivers as well (Plisnier et et., 2009). While various other taxa occasionally vent ure into the pelagic zone, one other species, a small Cyprinid (Chelaethiops minutusl. with a maximum standard length of slightly over 10 cm also occurs in this zone. While the young live in The inland water fishes of Africa Artisanal and industrial f isheries Phytopl an kt on \ A EROBIC ~ ~~~ - ZONE ... --------- -J)O~ 4!!&ijjI_ .~ liiilII o< Zooplankt on Limn othrissa mio do n Co rpses and ANAER OBIC w aste ZONE Sulfate-reducing bact--- eria __ElGURU9.2.

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