The nene-nui (Hawaiian: "great nene") or woodwalking goose (translation of Branta hylobadistes) is an extinct species of goose that once inhabited Maui and possibly (or closely related species) Kaua?i, O?ahu and perhaps Moloka?i in the Hawaiian Islands. It is known from a large number of subfossil bones (several thousand bones from many dozens of individuals) found in Holocene cave sediments.
The nene-nui (along with the endangered nene and the extinct giant Hawaii goose) evolved from the Canada goose which migrated to the islands half a million years ago and adapted to the Pacific's tropical environment. This evolution is evidenced from both genetic similarities and outward appearances. An example of this is that Canada geese have black necks, whereas the surviving nene are similar in that they have the sides and front of their necks buff-colored with dark furrows. Scientists have also concluded that the two major reasons for this evolution were the loss of migration as well as the change in habitat, which eventually led to the goose's change in wingspan and change in the depth of their skulls and bills.
Of course, the appearance of the nene-nui in life is unknown, but it can be assumed to have been similar to its extant relative, as the Branta geese share most plumage characteristics. The chief differences to the nene were that it was usually about 5% larger, while the bones of the flight apparatus were reduced in length by about the same amount. There was, however, much variation in size of the wing bones and the bird itself; some small specimens had much reduced wings.
At the time of its extinction, the nene-nui was in an intermediary stage of the evolution towards flightlessness: the extensive material suggests that that, in the same population, the entire span of individuals with diminished or marginal flight capacity to flightless individuals with markedly reduced wings had been present. Thus far, the nene-nui is the only species in which the process of becoming flightless is documented by actual paleontological evidence, rather than just the end result. It can be conjectured that the reproductive isolation between the nene-nui and the nene was not entirely complete, allowing for the introgression of nene alleles (the surviving species still is a strong flyer, but no longer capable of long-range migration) and sustaining the intermediate state for longer than usual.
A single skeleton of a similar bird has been found on Kaua?i, and many more on O?ahu; the latter seem to be intermediate between the nene-nui and the nene. As the relationships of these forms have not been determined, they are not formally assigned to B. hylobadistes. No material of this species has been found on Moloka?i; however, the locations where extinct bird bones have been found on that island are in the arid zone and hence it would be unlikely to expect bones of a waterfowl to turn up in such locations.
The nene-nui (along with the endangered nene and the extinct giant Hawaii goose) evolved from the Canada goose which migrated to the islands half a million years ago and adapted to the Pacific's tropical environment. This evolution is evidenced from both genetic similarities and outward appearances. An example of this is that Canada geese have black necks, whereas the surviving nene are similar in that they have the sides and front of their necks buff-colored with dark furrows. Scientists have also concluded that the two major reasons for this evolution were the loss of migration as well as the change in habitat, which eventually led to the goose's change in wingspan and change in the depth of their skulls and bills.
Of course, the appearance of the nene-nui in life is unknown, but it can be assumed to have been similar to its extant relative, as the Branta geese share most plumage characteristics. The chief differences to the nene were that it was usually about 5% larger, while the bones of the flight apparatus were reduced in length by about the same amount. There was, however, much variation in size of the wing bones and the bird itself; some small specimens had much reduced wings.
At the time of its extinction, the nene-nui was in an intermediary stage of the evolution towards flightlessness: the extensive material suggests that that, in the same population, the entire span of individuals with diminished or marginal flight capacity to flightless individuals with markedly reduced wings had been present. Thus far, the nene-nui is the only species in which the process of becoming flightless is documented by actual paleontological evidence, rather than just the end result. It can be conjectured that the reproductive isolation between the nene-nui and the nene was not entirely complete, allowing for the introgression of nene alleles (the surviving species still is a strong flyer, but no longer capable of long-range migration) and sustaining the intermediate state for longer than usual.
A single skeleton of a similar bird has been found on Kaua?i, and many more on O?ahu; the latter seem to be intermediate between the nene-nui and the nene. As the relationships of these forms have not been determined, they are not formally assigned to B. hylobadistes. No material of this species has been found on Moloka?i; however, the locations where extinct bird bones have been found on that island are in the arid zone and hence it would be unlikely to expect bones of a waterfowl to turn up in such locations.