Along with a number of other organisms, the

Japanese white-eye The warbling white-eye (''Zosterops japonicus''), also known as the Japanese white-eye and mountain white-eye, is a small passerine bird in the white-eye family. The specific epithet is occasionally written ''japonica'', but this is incorrect due ...

(''Zosterops japonicus'') has become an invasive species in

Hawaii Hawaii ( ; haw, Hawaii or ) is a state in the Western United States, located in the Pacific Ocean about from the U.S. mainland. It is the only U.S. state outside North America, the only state that is an archipelago, and the only state ...

. Its native range includes much of

East Asia East Asia is the eastern region of Asia, which is defined in both Geography, geographical and culture, ethno-cultural terms. The modern State (polity), states of East Asia include China, Japan, Mongolia, North Korea, South Korea, and Taiwan. ...

, including Japan, China, Vietnam, Taiwan, and the Philippines. Introduced to

in 1929 as a means of insect control, it has since become a common bird on the Hawaiian islands, and has become a vector for avian parasites that are now known to adversely affect populations of native birds such as

Hawaiian honeycreeper Hawaiian honeycreepers are a group of small, passerine birds endemic to Hawaii. They are closely related to the rosefinches in the genus ''Carpodacus'', but many species have evolved features unlike those present in any other finch. Their great ...

s, as well as spreading invasive plant species through discarded seeds.

Effects on native Hawaiian birds

The Japanese white-eye's successful invasion of the Hawaiian Islands can be partially attributed to the lack of coevolution between endemic species and the white-eye.Mountainspring S & Scott JM. (1985) Interspecific Competition Among Hawaiian Forest Birds. Ecological Monographs, 55(2): 219-239. The occurrence of coevolution is driven by species interactions that directly impact physical development. In many cases coevolution is derived from competition in which both species vie for an edge or advantage to maximize their dietary or "resource" acquirement. Because the white-eye did not coevolve with avian species native to Hawaii, the white-eye has certain advantageous characteristics, such as the resistance to

avian malaria Avian malaria is a parasitic disease of birds, caused by parasite species belonging to the genera '' Plasmodium'' and '' Hemoproteus'' (phylum Apicomplexa, class Haemosporidia, family Plasmoiidae). The disease is transmitted by a dipteran vecto ...

, that the native species do not possess.Woodworth BL, Atkinson CT, LaPointe DA, Hart PJ, Spiegel CS, Tweed EJ, et al. (2005) Host population persistence in the face of introduced vector-borne diseases: Hawaii amakihi and avian malaria. ''Proc. Natl. Acad. Sci. U.S.A.,'' 102: 1531–1536. The native species never had a chance to change in response to evolutionary changes in the white-eye. White-eye range expansion has also been cited as a negative effect on native bird species.Lammers TG, Weller SG, & Sakai AK. (1987) Japanese White-eye, an Introduced Passerine, Visits the Flowers of Clermontia arhorescens, an Endemic Hawaiian Lobelioid. Pacific Science, 41: 1-4. White-eye expansion is arguably characteristic of what E.O Wilson called a "

Taxon In biology, a taxon ( back-formation from '' taxonomy''; plural taxa) is a group of one or more populations of an organism or organisms seen by taxonomists to form a unit. Although neither is required, a taxon is usually known by a particular n ...

Cycle".Ricklef RE & Cox GW. (1972) Taxon Cycles in the West Indian Avifauna. The American Naturalist, 106(948): 195-219. The cycle attempts to model the interactions between endemic species and newly immigrated non-native populations through the use of "Stages" –each with defined characteristics with respect to overall population behavior. A newly immigrated species (Stage 1) is expected to experience rapid growth through the new habitat largely due to the lack of effective endemic (Stage 3) persistence – the ability of the community to repel outside forces that may cause changes in its species composition. This prediction matches much of the current data indicating the white-eye has become highly common on most, if not all, of the Hawaiian Islands. The force of

natural selection Natural selection is the differential survival and reproduction of individuals due to differences in phenotype. It is a key mechanism of evolution, the change in the heritable traits characteristic of a population over generations. Cha ...

has promoted the dietary or "resource" specialization of many of the later stage endemic species – a prime example being the honeycreeper. This particular species has become especially affected by the white-eye presence due to honeycreeper dependence on nectar as a primary resource.Freed LA & Cann RL. (2009) Negative Effects of an Introduced Bird Species on Growth and Survival in a Native Bird Community. Current Biology, 19: 1736-1740. In contrast, the white-eye maintains a highly diverse selection of dietary options (including nectar) and is able to take full advantage of numerous habitats on the islands. The differences in resource limitations between the two species has resulted in the drastic decline of the honeycreeper population, as they are outcompeted by the invasive white-eye. This occurrence is best explained by the competitive exclusion principle, which dictates that two complete competitors cannot co-exist. Increases in the Japanese white-eye population in Hawaii have negative effects on the growth and survival of native birds in the community. In one study, the bill length, tarsus length, and mass of native Hawaiian passerine birds were measured during 1987-2006 using the technique of

mark and recapture Mark and recapture is a method commonly used in ecology to estimate an animal population's size where it is impractical to count every individual. A portion of the population is captured, marked, and released. Later, another portion will be captur ...

. In 2000, juveniles of every native species showed lower mass and shorter bills than before. These changes led to decreased survival of both juveniles and second year individuals/older adults. These birds also showed shorter tarsi, the group of bones in the hind feet of some

vertebrates Vertebrates () comprise all animal taxa within the subphylum Vertebrata () (chordates with backbones), including all mammals, birds, reptiles, amphibians, and fish. Vertebrates represent the overwhelming majority of the phylum Chordata, with c ...

, although this change was less drastic than that seen with the bills. Birds with original bill lengths closest to that of the white-eye suffered the most, undergoing changes that lowered their foraging efficiency. For example, the endangered Hawaiian akepa was viable during 1987–1999, but not during 2000–2006, in association with an abrupt increase in white-eyes. These facts document strong community-wide exploitative competition for food between the Japanese white-eye and passerine birds native to Hawaii, meaning the white-eye depletes the availability of food for other bird species. They also compete for space; the white-eye has expanded its range into remote areas within the two decades 1980–2000.Gibson L. (2000) Rules and Regulations. Federal Register, 65(75): 20760-20769. The distribution of the Japanese white-eye has been shown to negatively correlate with the distributions of native birds, meaning as the white-eye becomes more highly distributed, native birds become less distributed. Many Hawaiian birds are endangered or already extinct; this occurrence is believed to be related to the invasion of the white-eye.

Effects on Hawaiian plants

Because many of the Hawaiian birds that have gone extinct acted as pollinators, there is a concern about the survival of certain plant species, such as the Hawaiian

Lobelioideae Lobelioideae is a subfamily of the plant family Campanulaceae. It contains 32 genera, totalling about 1200 species. Some of the larger genera are '' Lobelia'', '' Siphocampylus'', ''Centropogon'', '' Burmeistera'' and '' Cyanea''. They are per ...

. The Japanese white-eye has been pinned as a possible replacement pollinator. Lobelioids that were pollinated by native birds that are now extinct may benefit from the presence of the white-eye, but more detailed studies are needed to determine the degree of pollen transfer affected by white-eyes. Also, this replacement could lead to differing levels of

outcrossing Out-crossing or out-breeding is the technique of crossing between different breeds. This is the practice of introducing distantly related genetic material into a breeding line, thereby increasing genetic diversity. Outcrossing can be a usefu ...

compared to those resulting from visits by the native species of birds. Outcrossing is the introduction of unrelated genetic material into a breeding line. Therefore, white-eye pollination may prove to be beneficial, as outcrossing increases genetic diversity, thus reducing the probability of all individuals being subject to disease; increasing genetic diversity also reduces genetic abnormalities. Again, a more detailed study is needed to determine the potential benefits of white-eye pollination. A similar trend to that of Hawaii's was seen when the bird was introduced to the

Bonin Islands The Bonin Islands, also known as the , are an archipelago of over 30 subtropical and tropical islands, some directly south of Tokyo, Japan and northwest of Guam. The name "Bonin Islands" comes from the Japanese word ''bunin'' (an archaic read ...

of Japan; while native to the country, the white-eye was not originally present on these islands. As in Hawaii, the study conducted in the Bonin Islands suggests the Japanese white-eye may be taking over the actions of native birds in relation to plants present on the islands. Unlike Hawaii (in which this action was pollination), the action taken over by the white-eye in the Bonin Islands is seed dispersal; this dispersal was previously carried out by native birds – whether still present or already extinct.Kawakami K, Mizusawa L, & Higuchi H. (2008) Re-established Mutualism in a Seed-Dispersal System Consisting of Native and Introduced Birds and Plants on the Bonin Islands, Japan. Ecological Research, 24(4): 741-748. The white-eye has not been cited as taking over seed dispersal in Hawaii because they rarely ingest the seeds of Hawaiian plants, such as the firetree.Larosa AM, Smith CW, & Gardner DE. (1985) Role of Alien and Native Birds in the Dissemination of Firetree (Myricafaya Ait.-Myricaceae) and Associated Plants in Hawaii. Pacific Science, 39(4): 372-378. For this reason, they cannot disperse the seeds over great distances, making them poor seed dispersers. While the actions of the white-eye on the Hawaiian and Bonin Islands are indeed different, they are both significant, because islands themselves are particularly vulnerable to the drastic effects of introduced competitors, predators, and diseases when these communities have evolved in their absence.

References

{{commons, Zosterops japonicus 1929 establishments in Hawaii Environmental issues in Hawaii Introduced birds Invasive animal species in the United States Invasive bird species Zosterops

Effects on native Hawaiian birds

Effects on Hawaiian plants

See also

References