Re: Flyways

The East Asian-Australasian Flyway

Re: East Asian-Australasian Flyways

Flyways

Shorebirds make the journey in several weeks stopping a few times, or perhaps only once, along the way. When they stop, they need to build up reserves of fat for the next long stage of their journey. At times a large percentage of the entire population of a species may be at a single site.
The routes they travel along are called flyways. The East Asian-Australasian Flyway extends from the Arctic Circle through Eastern and South-East Asia to Australia and New Zealand (see map).


Flyways consist of chains of important wetlands, usually coastal mudflats. These provide abundant and easily found food, which the shorebirds must rapidly consume in order to gain enough strength for the next leg of their journey.
The ability to find food quickly is vital when the birds are flying to their northern breeding grounds as the northern summer is very short. The birds cannot afford delays that can affect their chance of breeding successfully.

Re: East Asian-Australasian Flyways

Bar-tailed Godwit flies 6500 miles directly south from Alaska to New Zealand, then returns along the Asian coast. The route is often ignored on these maps.

Also left out is the short tailed shearwater - does a firgure eight around the Pacific.

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Re: East Asian-Australasian Flyways


Bar-tailed Godwit Migration Route
http://alaska.usgs.gov/science/biolo...a/flyways.html

The Bar-tailed Godwit is the holder of the longest non-stop flight known for any bird, 11,000 km from Alaska to New Zealand (BTO
http://en.wikipedia.org/wiki/Bar-tailed_Godwit

Re: East Asian-Australasian Flyways

Bar-tailed Godwits will be leaving Alaska with transmitters this year.......partly to test the distance theories, but also, only 5-10% of male juveniles are returning.

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Re: East Asian-Australasian Flyways

We see the Godwits resting on the South Brighton spit of land enmasse.
There are signs up asking people to let them rest, but many let their dogs loose or their kids. If the birds dont rest and fatten they dont make it to their next destination.
Its something many of us love to see, such a huge colony all facing the same way. This year, I guess its with a certain trepidation, will they be clear of Avian flu. I hate to think of the birds suffering.

Re: East Asian-Australasian Flyways

Major Flyways

Re: East Asian-Australasian Flyways

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Key Words: Argos system, red-crowned crane, oriental white stork, remote sensing, Landsat/TM

Abstract:
Migration routes and habitats of red-crowned cranes and oriental white storks were studied by two kinds of satellite-based observation techniques, i.e. satellite tracking and remote sensing techniques. By the former we obtained bird location data; by the latter we investigated habitat ecosystem conditions. By combining these two techniques we analyzed the relationship between ground conditions and habitation patterns of wetland migratory birds. In the summer of 1999 small platform transmitter terminals were set on six red-crowned cranes and six oriental white storks in the wetlands along the Amur River in the Russian Far East. Their migration routes to wintering sites in China were tracked by using the satellite tracking technique. Locations of important places for breeding, stopover and wintering have been extracted from the migration data. Satellite remote sensing technique was used for investigating ground environmental conditions. The relationship between wetland ecosystems and habitation patterns of migratory birds was investigated.

1. Introduction
Recently wetlands are being recognized as important ecosystems for the conservation of biodiversity. They support wide variety of flora and fauna and serve as habitats for many kinds of creatures including migratory birds. However wetlands are disappearing at a rapid rate in East Asia due to human activities such as agricultural, residential, and industrial developments (Hussain, 1994). The decrease and environmental deterioration of wetlands are bringing quite a few species of migratory birds to face the danger of extinction. For the conservation of wetland ecosystems and wetland migratory birds, it is urgently needed to understand the actual situation of the decrease and environmental destruction of wetlands and to investigate the relationship between wetland ecosystems and habitation patterns of migratory birds.

In this study a satellite tracking system (Argos system, http://www.argosinc.com/) was used to pursue migration routes of two species of migratory birds, i.e. red-crowned cranes and oriental white storks, both of which are in danger of extinction. They can serve as good indicators of the conservation state of wetlands because they stand at the top of the wetland food chains. The satellite tracking data were used to extract locations of important places for breeding, stopover and wintering. We then used satellite images (NOAA/AVHRR and Landsat/TM images) for investigating the distribution and environmental conditions of the wetlands in East Asia. The relationship between wetland ecosystems and habitation patterns of migratory birds was analyzed by combining remotely sensed images and satellite tracking data of bird locations.

2. Satellite Tracking Of Migration Routes
In the summer of 1999 small platform transmitter terminals (PTT) were set on six red-crowned cranes and six oriental white storks in the wetland areas along the Amur River in the Russian Far East. Figure 1 shows the capture points. Their migration routes from the breeding sites in the Amur Basin to the wintering sites in China were tracked by the Argos system. The accuracy of the Argos system is indicated by the location class (Table 1). Basically we only used the data with the location classes higher than 1, which means the error of an estimated bird location is less than 1 km.





Among the twelve captured birds, we have succeeded in tracking the migration routes of two red-crowned cranes and three oriental white storks to their wintering sites in China. Moreover for one red-crowned crane and one oriental white stork the PTT's continued to function until the summer of 2000 and we could track the entire round-trip migration routes between their breeding sites in Russia and wintering sites in China (Figs. 2 (a) and (b)). Table 2 (a) and (b)

summarizes individual migration data in autumn 1999 and spring 2000 respectively. From the bird location data we can extract important habitats of red-crowned cranes and oriental white storks for breeding, stopover and wintering. Figure 3 shows the locations of important habitats where birds stayed more than 10 days.

3. Analysis Of Habitat Conditions Using Satellite Imagery
To investigate the ground conditions of bird habitats we used satellite images. Figure 4 shows a part of a Chinese land cover map produced from NOAA/AVHRR and Landsat/TM images by Luo Di of the Institute of Remote Sensing Applications, Chinese Academy of Science. We overlaid bird locations on this map and studied in what kinds of land cover types the birds liked to stay. In Figure 4 the migration route of an oriental white stork (ID: 20823) is indicated as an example. Figure 5 shows the number of location data obtained at each of six land-cover types for two red-crowned cranes and three oriental white storks. We note that four out of five birds were found more frequently in farmlands than in wetlands. This frequent use of farmlands may be causing some friction with human activities in China. We also note that red-crowned cranes were found more frequently in grasslands than oriental white storks. This may be explained by the fact that the former is omnivorous while the latter is carnivorous.

To obtain detailed information on the wetland ecosystems we used Landsat/TM images. Figure 6 shows the result of land-cover classification using a TM image (path:116, row:26) in Arkhara Lowland, which lies along the Amur River around the Arkhara River confluence in the

Russian Far East. The Arkhara lowland includes the Khingan Nature Reserve and Ganukan Landscape Refuge, which were registered as a Ramsar Convention site in 1994. The wetland area was classified into three categories, the wettest part with sedges and reeds (Wetland 1), the modestly wet part with sedges and grasses (Wetland 2), and the dry part with various kinds of grasses (Wetlnad 3). Location data of one red-crowned crane (ID: 21502) and one oriental white stork (ID: 20821) were overlaid on the land-cover classification map. (In Figure 6 only the location data of the crane 21502 are shown for clarity.) Figure 7 shows the number of location

data obtained at each of six land-cover types for two birds. We see that both birds mostly stayed in wetland 1 and 2. We hence can say that these two wetland types are most important ecosystems for the habitation of both a red-crowned crane and an oriental white stork.

4. Conclusions
Migration routes and habitats of red-crowned cranes and oriental white storks were studied by two kinds of satellite observation techniques, i.e. satellite tracking and remote sensing techniques. By the former we obtained bird location data; by the latter we investigated habitat ecosystem conditions. By combining these two techniques we analyzed the relationship between ground conditions and habitation patterns of wetland migratory birds. The followings are major results of this study:

• Important habitats of red-crowned cranes and oriental white storks were extracted during their migration from the breeding sites in the Amur Basin to the wintering sites in China.
• It was found that both kinds of birds frequently stayed in farmlands during their migration in China.
• The wetland ecosystems of Arkhara Lowland in the Russian Far East were classified into three categories, and both kinds of birds mostly stayed in wetland types 1 and 2.

Reference
Hussain, S. A. (1994) The present status of wetland conservation in Asia. In: The Future of Cranes and Wetlands, edited by Higuchi, H. and Minton, J., Wild Bird Society of Japan, Tokyo, pp. 15-25.

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