Showing posts with label Big Birds. Show all posts
Showing posts with label Big Birds. Show all posts

Mississippi Kite Bird

 Identification

The Mississippi kite (Ictinia mississippiensis) is a member of the family Accipitridae, a group of diurnal birds of prey. Adult Mississippi kites are falcon-shaped with light gray underparts, a dark gray dorsal surface, and a black unbarred tail. They have orange-red legs and feet, with a pale pearly-gray head, red eyes, gray bill, and black wings tipped with a broad white patch on each rear edge that is visible in flight.

Adult kites are about 13 to 14 inches (34 to 36 cm) long, have a wingspan of about 3 feet (0.9 m), and weigh 8 to 11 ounces (227 to 312 g). The male Mississippi Kite bird is lighter gray and smaller than the female. However, immature kites have heavy brown streaks below, and a notched black tail that is somewhat banded on the ventral surface.

The Juvenile kites are covered with a fluffy white down that contrasts with their black eyes and bill. Mississippi kite birds are graceful in flight, often appearing to float in the air but not uncommon to see several circling in the same area.

Distribution and Habitat

Mississippi kites’ nest found in Arizona, New Mexico, Oklahoma, Texas, southeastern Colorado, southern Kansas, and the eastern states from southern Missouri to South Carolina. The southern Great Plains is considered a stronghold for the species. Mississippi kites nest primarily along with riparian areas and in mesquite thickets and tree plantings such as shelterbelts, windbreaks, farm woodlots, urban parks, and urban residential woodlots.

Kites frequently use large windbreaks that are surrounded by native vegetation and have few nearby roads and homes. Shelterbelts planted in native grassland habitats likely have resulted in the westward expansion of the kite’s range. Kites usually perch in the open on bare branches or on television antennas. This bird is one of the United States' most elegant raptors, 6 to 7 pairs in sight of one another in a grove of tall trees.

MigrationsMississippi Kite birds migrate in the fall to their wintering grounds in central and southern tropical South America. A long-distance migrant, in flocks; every so often seen in very large concentrations in Texas and Mexico. In a 2006 report, more than 10,000 birds migrate at Fuerte Esperanza Argentina. Also, in 2004 nearly 9,8000 individuals fall migrate to Corpus Christi Texas.

Food Habits

Mississippi kites are primarily insectivorous. Their preference for insects that are harmful to crops, such as cicadas and grasshoppers, makes them economically beneficial. Most insects are captured by kites in flight. Kites supplement their diets with lizards, frogs, small turtles, rodents, small rabbits, and occasionally, small birds.

General Biology, Reproduction, and Behavior

Most Mississippi kites probably wintering Argentina and Brazil. They often migrate in groups of 20 to 30, and usually arrive at their nesting sites in mid to late April or early May. Their southward migration generally begins in early September, a few weeks after the young have fledged. Mississippi kites usually start nesting soon after their arrival in spring.

They form pair bonds before arriving at nest sites and display little territorial behavior. Kites either repair old nests or construct new ones. Nests usually are concentrated in colonies. Many nests occur in elm, cottonwood, willow, hackberry, oak, and mesquite trees.

Most nests, except for those constructed in elm and cotton-wood trees, are usually less than 20feet (6 m) above the ground. Nests vary in size, ranging from 10 to 18inches (25 to 46 cm) long and 10 to 14inches (25 to 36 cm) wide. They usually are composed of small twigs and lined with leaves.

In late May or, early June, kites lay two dull white to pale bluish-white eggs about1 1/2 inches (3.8 cm) long and almost oval in shape. Both parents incubate the eggs and feed the young. They usually lay only 1 clutch per year, which hatches after an incubation period of about 29 to 32 days. The young can fly and leave the nest 28 to 35 days after hatching.

About half the nesting kites successfully raise young. Major mortality factors include strong winds, usually associated with summer thunderstorms, that blow out nestlings and destroy nests, and egg and nestling predators, including great horned owls and raccoons. Mississippi kites produce younger in urban than in rural areas; the greater success has been related to lower predation. These kites usually live about 8 years and prefer to make a nest at deciduous trees.

Damage

Some Mississippi kites create problems by diving at and frightening people who venture near their nests. The diving behavior is initiated to protect the nest and young but occurs at less than 20% of the nests. Diving increases as incubation progresses and is most prevalent after hatching. Often both parents dive and emit shrill cries when the nest is threatened. These alarm calls often attract other kites, which also harass the intruder.

Although kites may swoop within inches of an individual, only 3% of 903dives recorded at one golf course resulted in the birds actually hitting humans. These attacks, however, can be serious if elderly individuals or children riding bicycles are frightened and fall. After the young leave their nests, the diving behavior stops.

Legal Status

Mississippi kites are fully protected under the Federal Migratory Bird Treaty Act (1918) and state regulations. It is illegal to take, possess, transport, sell, or purchase kites or their parts without a permit. These regulations also protect the kite’s eggs and nests, even nests that have been abandoned after the breeding season.

A special permit may be issued by this Fish and Wildlife Service that authorizes the permit holder to take, transport, and temporarily possess juvenile kites for relocation to alternate nest sites and to remove the nest.

Damage Prevention and Control Methods

Exclusion and Habitat Modification - Preventing access of the adult kites to the nesting areas, which should deter subsequent diving, is difficult and not practical in most situations. If the nest can be removed in compliance with the US Fish and Wildlife Service permit, further nesting at that site maybe deterred by removing one of the branches that supported the nest or by fencing out the nest area with hardware cloth.

Nest Avoidance - Avoiding the area around Mississippi kite nests, from incubation through fledging (mid-June through mid-August), is one of the best methods to prevent kites from diving at people. To reduce conflicts at golf courses or parks, people can be encouraged to stay away from a nest by placing yellow-plastic tape that says “Do Not Enter” in a 50-yard (50-m) radius around the nest.

If the nesting area cannot be avoided, wearing a hat should prevent the rare occurrence of a kite strike but will not prevent diving. Place protective netting in the kites’ path of flight to prevent them from diving in certain areas. Frightening People who are attacked by kites should wave their arms or other objects to frighten the offending birds. You may encourage kites to nest elsewhere by placing a life-sized kite effigy in a previously used nest or in a human-made nest before kites arrive in the spring.

The greatest average distance that kites ranged from their nest while performing aggressive behavior was 35 yards (32m) in one study. Decoys should therefore be placed in all potential nest trees within at least 50yards of the area to be protected. Repellents No chemical bird repellents (for example, sticky pastes, sprays) currently registered by EPA have prevented kites from nesting in an area.

Toxicants - No chemical toxicants are currently registered by EPA for Mississippi kite control. However, other kite birds are less aggressive and restrict to the shrill cries of scream. The Mississippi Kite bird normally very frightening to the unsuspecting victim, and normally does not result in any physical harm.

Trapping or Shooting - Trapping or shooting Mississippi kites is seldom warranted. Permits for such activities are required by the US Fish and Wildlife Service and the local state wildlife agency. These permits likely will not be granted in most cases.

Nest Removal - Removal of the adult kite’s eggs, young, and nest will typically terminate diving behavior. However, this practice is not legal without a special permit from the US Fish and Wildlife Service. Eggs and young that are removed from an offending kite’s nest habitually are transferred to another kite’s nest located outside the problem area.

Hence, choose to foster kite nests that have eggs or young at the same developmental stage as in the problem nest. Usually, no more than one chick is added to a nest. Furthermore, material may need to be wired to the foster nest to enlarge it. Occasionally, eggs or young may be incubated and/or reared by humans.

Some kites, whose eggs or young have been removed, may re-nest nearby and continue their aggressive behavior. In most instances, the severity of the diving behavior does not warrant removal of the nest, eggs, or young.

Economics of Damage and Control - Few tangible costs can be associated with the harassment of humans by the diving behavior of Mississippi kites. Also, preventing the diving behavior is usually a matter of avoiding the nesting area or frightening the birds when they are diving.


Reference - William F. Andelt Extension Wildlife Specialist Department of Fishery and Wildlife Biology Colorado State University-Fort Collins, Colorado 80523

Galapagos Big Birds Can Develop in as Little as Two Generations

As we all know, nature is the storehouse of wonders, and numerous events are happening around us which are astonishingly implausible. Till now, modern science thought that evolution is a process which happens in a long course of time. However, newly, scientists discovered a new species of finches in Galapagos Island which evolved into a completely new species within a very short period of time. Researchers revealed that new species can develop in as little as two generations and the findings would have left Charles Darwin excited. The arrival of 36 years ago of a peculiar bird to a remote island in the Galapagos provides direct genetic evidence of their claims.

The newcomer, who belonged to one species, mated with a member of another species on the small island of Daphne Major in the Pacific Ocean. Therefore this produced a new species, recognized as the “Big Birds” that now involves of approximately 30 birds, according to researchers from Princeton University and Uppsala University in Finland. The researchers took a blood sample and released the bird, which later bred with a resident medium ground finch of the species Geospiz fortis, starting a new lineage. The Grants and their research team followed the new “Big Bird lineage” for six generations, taking blood samples for use in genetic analysis.

The new study, published in the journal Science, followed work carried out over the last four decades on Darwin’s finches in the Galapagos Islands. Through our work on Daphne Major, we were able to observe the pairing up of two birds from different species and then follow what happened to see how speciation occurred, Rosemary Grant, senior biologist at Princeton in the US, said:  The newcomer, a male with an rare song which was larger in size than the three resident species on the island, was spotted in 1981. He was so different from the other birds that we knew he did not hatch from an egg on Daphne Major.” It is very remarkable that when we match the size and shape of the Big Bird beaks with the beak morphologies of the other three species inhabiting Daphne Major, the Big Birds occupy their own niche in the beak morphology space.

The current study, DNA collected from the parent birds and their offspring over the years. They learned that the original male parent was a large cactus finch of the species Geospiza conirostris from EspaƱola Island, more than 100km away. The distance meant the male finch could not return home to mate with a member of his own species, so chose a mate from among the three species on Daphne Major. Thus, this reproductive isolation is considered a critical step in the development of a new species when two separate species interbreed. It is believed that the amount of time these birds spent on birdfeeders has resulted in this evolution and its infrequent growth from the 1970s and is still continuing today.

The offspring were also reproductively isolated as their song, used to attract mates, was unusual and failed to attract females from the resident species. They also differed from the resident species in beak size and shape, which is a major cue for mate choice. This led the offspring to mate with members of their own lineage, strengthening the development of the new species. Researchers previously thought the formation of a new species takes a very long time. But in the Big Bird lineage, it happened in just two generations, according to observations made in the field, along with the genetic studies. The researchers say a striking aspect is that after just two generations, the new lineage behaved as any other species of Darwin’s finches would. Leif Andersson, a professor at Uppsala University in Sweden, said: “A naturalist who came to Daphne Major without knowing that this lineage arose very recently would have recognised this lineage as one of the four species on the island.

This clearly demonstrates the value of long-running field studies. We’ve no indication about the long-term survival of the Big Bird lineage, but it has the huge potential to become a success, and it offers a stunning example of one way in which speciation occurs. The scientists said it is probable that new lineages like the Big Birds have originated numerous times during the evolution of Darwin’s finches. The majority of these lineages have gone extinct but some may have led to the evolution of contemporary species, they concluded.Source: Charismatic Planet