<P> The mechanism by which the finches initially diversified is still an area of active research . One proposition is that the finches were able to have a non-adaptive, allopatric speciation event on separate islands in the archipelago, such that when they reconverged on some islands they were able to maintain reproductive isolation . Once they occurred in sympatry, niche specialization was favored so that the different species competed less directly for resources . This second, sympatric event was adaptive radiation . </P> <P> The haplochromine cichlid fishes in the Great Lakes of the East African Rift (particularly in Lake Tanganyika, Lake Malawi, and Lake Victoria) form the most speciose modern example of adaptive radiation . These lakes are believed to be home to about 2,000 different species of cichlid, spanning a wide range of ecological roles and morphological characteristics . Cichlids in these lakes fill nearly all of the roles typically filled by a large number of fish families, including those of predators, scavengers, and herbivores, with varying dentitions and head shapes to match their dietary habits . In each case, the radiation events are only a few million years old, making the very high level of speciation particularly remarkable . Several factors could be responsible for this diversity: the availability of a multitude of niches probably favored specialization, as few other fish taxa are present in the lakes (meaning that sympatric speciation was the most probable mechanism for initial specialization). Also, continual changes in the water level of the lakes during the Pleistocene (which often turned the largest lakes into several smaller ones) could have created the conditions for secondary allopatric speciation . </P> <P> Lake Tanganyika is the site from which nearly all the cichlid lineages of East Africa (including both riverine and lake species) originated . Thus, the species in the lake constitute a single adaptive radiation event but do not form a single monophyletic clade . Lake Tanganyika is also the least speciose of the three largest African Great Lakes, with only around 200 species of cichlid; however, these cichlids are more morphologically divergent and ecologically distinct than their counterparts in lakes Malawi and Victoria, an artifact of Lake Tanganyika's older cichlid fauna . Lake Tanganyika itself is believed to have formed 9 - 12 million years ago, putting a recent cap on the age of the lake's cichlid fauna . Many of Tanganyika's cichlids live very specialized lifestyles . The giant or emperor cichlid (Boulengerochromis microlepis) is a piscivore often ranked the largest of all cichlids (though it competes for this title with South America's Cichla temensis, the speckled peacock bass). It is thought that giant cichlids spawn only a single time, breeding in their third year and defending their young until they reach a large size, before dying of starvation some time thereafter . The three species of Altolamprologus are also piscivores, but with laterally compressed bodies and thick scales enabling them to chase prey into thin cracks in rocks without damaging their skin . Plecodus straeleni has evolved large, strangely curved teeth that are designed to scrape scales off of the sides of other fish, scales being its main source of food . Gnathochromis permaxillaris possesses a large mouth with a protruding upper lip, and feeds by opening this mouth downward onto the sandy lake bottom, sucking in small invertebrates . A number of Tanganyika's cichlids are shell - brooders, meaning that mating pairs lay and fertilize their eggs inside of empty shells on the lake bottom . Lamprologus callipterus is the most unique egg - brooding species, with 15 cm - long males amassing collections of shells and guarding them in the hopes of attracting females (about 6 cm in length) to lay eggs in these shells . These dominant males must defend their territories from three types of rival: (1) other dominant males looking to steal shells; (2) younger, "sneaker" males looking to fertilize eggs in a dominant male's territory; and (3) tiny, 2--4 cm "parasitic dwarf" males that also attempt to rush in and fertilize eggs in the dominant male's territory . These parasitic dwarf males never grow to the size of dominant males, and the male offspring of dominant and parasitic dwarf males grow with 100% fidelity into the form of their fathers . A number of other highly specialized Tanganyika cichlids exist aside from these examples, including those adapted for life in open lake water up to 200m deep . </P> <P> The cichlids of Lake Malawi constitute a "species flock" of up to 1000 endemic species . Only seven cichlid species in Lake Malawi are not a part of the species flock: the Eastern happy (Astatotilapia calliptera), the sungwa (Serranochromis robustus), and five tilapia species (genera Oreochromis and Coptodon). All of the other cichlid species in the lake are descendants of a single original colonist species, which itself was descended from Tanganyikan ancestors . The common ancestor of Malawi's species flock is believed to have reached the lake 3.4 million years ago at the earliest, making Malawi cichlids' diversification into their present numbers particularly rapid . Malawi's cichlids span a similarly range of feeding behaviors to those of Tanganyika, but also show signs of a much more recent origin . For example, all members of the Malawi species flock are mouth - brooders, meaning the female keeps her eggs in her mouth until they hatch; in almost all species, the eggs are also fertilized in the female's mouth, and in a few species, the females continue to guard their fry in their mouth after they hatch . Males of most species display predominantly blue coloration when mating . However, a number of particularly divergent species are known from Malawi, including the piscivorous Nimbochromis livingtonii, which lies on its side in the substrate until small cichlids, perhaps drawn to its broken white patterning, come to inspect the predator - at which point they are swiftly eaten . </P>

Where is adaptive radiation most clearly seen why