Tuesday, March 5, 2019

THE KINGFISHER

Kingfishers or Alcedinidae are a family of small to medium-sized, brightly colored birds in the order Coraciiformes. They have a cosmopolitan distribution, with most species found in the tropical regions of Africa, Asia, and Oceania. The family contains 114 species and is divided into three subfamilies and 19 genera. All kingfishers have large heads, long, sharp, pointed bills, short legs, and stubby tails. Most species have bright plumage with only small differences between the sexes. Most species are tropical in distribution, and a slight majority are found only in forests. They consume a wide range of prey usually caught by swooping down from a perch. While kingfishers are usually thought to live near rivers and eat fish, many species live away from water and eat small invertebrates. Like other members of their order, they nest in cavities, usually tunnels dug into the natural or artificial banks in the ground. Some kingfishers nest in arboreal termite nests. A few species, principally insular forms, are threatened with extinction. In Britain, the word "kingfisher" normally refers to the common kingfisher.
 
 Alcedo azurea - Julatten.jpg
 Azure kingfisher (Ceyx azureus)

Taxonomy, systematics and evolution

The kingfishers family Alcedinidae is in the order Coraciiformes, which also includes the motmots, bee-eaters, todies, rollers and ground-rollers.[2] The name of the family was introduced (as Alcedia) by the French polymath Constantine Samuel Rafinesque in 1815.[3][4] It is divided into three subfamilies, the tree kingfishers (Halcyoninae), the river kingfishers (Alcedininae) and the water kingfishers (Cerylinae).[2] The name Daceloninae is sometimes used for the tree kingfisher subfamily but it was introduced by Charles Lucien Bonaparte in 1841 while Halcyoninae introduced by Nicholas Aylward Vigors in 1825 is earlier and has priority.[5] A few taxonomists elevate the three subfamilies to family status.[6][7] In spite of the word "kingfisher" in their English vernacular names, many of these birds are not specialist fish-eaters; none of the species in Halcyoninae are.[8]
The centre of kingfisher diversity is the Australasian region, but the group is not thought to have originated there. Instead, they originated in the Indomalayan region around 27 million years ago and invaded the Australasian region a number of times.[9] Fossil kingfishers have been described from Lower Eocene rocks in Wyoming and Middle Eocene rocks in Germany, around 30–40 million years ago. More recent fossil kingfishers have been described in the Miocene rocks of Australia (5–25 million years old). Several fossil birds have been erroneously ascribed to the kingfishers, including Halcyornis, from the Lower Eocene rocks in Kent, which has also been considered a gull, but is now thought to have been a member of an extinct family.[10]
Amongst the three subfamilies, the Alcedininae are basal to the other two subfamilies. The few species found in the Americas, all from the subfamily Cerylinae, suggest that the sparse representation in the Western Hemisphere resulted from just two original colonising events. The subfamily is a comparatively recent split from the Halcyoninae, diversifying in the Old World as recently as the Miocene or Pliocene.[1]

Description

The smallest species of kingfisher is the African dwarf kingfisher (Ispidina lecontei), which averages 10 cm (3.9 in) in length and between 9 and 12 g (0.32 and 0.42 oz) in weight.[11] The largest kingfisher in Africa is the giant kingfisher (Megaceryle maxima), which is 42 to 46 cm (17 to 18 in) in length and 255–426 g (9.0–15.0 oz) in weight.[12] The familiar Australian kingfisher known as the laughing kookaburra (Dacelo novaeguineae) is the heaviest species with females reaching nearly 500 grams (18 oz) in weight.[13]
The plumage of most kingfishers is bright, with green and blue being the most common colours. The brightness of the colours is neither the product of iridescence (except in the American kingfishers) or pigments, but is instead caused by the structure of the feathers, which causes scattering of blue light (the Tyndall effect).[14] In most species, no overt differences between the sexes exist; when differences occur, they are quite small (less than 10%).[10]
The kingfishers have long, dagger-like bills. The bill is usually longer and more compressed in species that hunt fish, and shorter and more broad in species that hunt prey off the ground. The largest and most atypical bill is that of the shovel-billed kookaburra, which is used to dig through the forest floor in search of prey. They generally have short legs, although species that feed on the ground have longer tarsi. Most species have four toes, three of which are forward-pointing.
The irises of most species are dark brown. The kingfishers have excellent vision; they are capable of binocular vision and are thought in particular to have good colour vision. They have restricted movement of their eyes within the eye sockets, instead using head movements to track prey. In addition, they are capable of compensating for the refraction of water and reflection when hunting prey underwater, and are able to judge depth under water accurately. They also have nictitating membranes that cover the eyes to protect them when they hit the water; the pied kingfisher has a bony plate which slides across the eye when it hits the water.[10]

Distribution and habitat

The kingfishers have a cosmopolitan distribution, occurring throughout the world's tropical and temperate regions. They are absent from the polar regions and some of the world's driest deserts. A number of species have reached islands groups, particularly those in the south and east Pacific Ocean. The Old World tropics and Australasia are the core areas for this group. Europe and North America north of Mexico are very poorly represented, with only one common kingfisher (common kingfisher and belted kingfisher, respectively), and a couple of uncommon or very local species each: (ringed kingfisher and green kingfisher in the southwestern United States, pied kingfisher and white-throated kingfisher in southeastern Europe). The six species occurring in the Americas are four closely related green kingfishers in the genus Chloroceryle and two large crested kingfishers in the genus Megaceryle. Even tropical South America has only five species plus the wintering belted kingfisher. In comparison, the African country of the Gambia has eight resident species in its 120-by-20-mile (193 by 32 km) area.[10]
Individual species may have massive ranges, like the common kingfisher, which ranges from Ireland across Europe, North Africa, and Asia as far as the Solomon Islands in Australasia, or the pied kingfisher, which has a widespread distribution across Africa and Asia. Other species have much smaller ranges, particularly insular species which are endemic to single small islands. The Kofiau paradise kingfisher is restricted to the island of Kofiau off New Guinea.[10]
Kingfishers occupy a wide range of habitats. While they are often associated with rivers and lakes, over half the world's species are found in forests and forested streams. They also occupy a wide range of other habitats. The red-backed kingfisher of Australia lives in the driest deserts, although kingfishers are absent from other dry deserts like the Sahara. Other species live high in mountains, or in open woodland, and a number of species live on tropical coral atolls. Numerous species have adapted to human-modified habitats, particularly those adapted to woodlands, and may be found in cultivated and agricultural areas, as well as parks and gardens in towns and cities.[10]

Behaviour and ecology

Diet and feeding

Kingfishers feed on a wide variety of prey. They are most famous for hunting and eating fish, and some species do specialise in catching fish, but other species take crustaceans, frogs and other amphibians, annelid worms, molluscs, insects, spiders, centipedes, reptiles (including snakes), and even birds and mammals. Individual species may specialise in a few items or take a wide variety of prey, and for species with large global distributions, different populations may have different diets. Woodland and forest kingfishers take mainly insects, particularly grasshoppers, whereas the water kingfishers are more specialised in taking fish. The red-backed kingfisher has been observed hammering into the mud nests of fairy martins to feed on their nestlings.[15] Kingfishers usually hunt from an exposed perch; when a prey item is observed, the kingfisher swoops down to snatch it, then returns to the perch. Kingfishers of all three families beat larger prey on a perch to kill the prey and to dislodge or break protective spines and bones. Having beaten the prey, it is manipulated and then swallowed.[10] The shovel-billed kookaburra uses its massive, wide bill as a shovel to dig for worms in soft mud.

Breeding

Kingfishers are territorial, some species defending their territories vigorously. They are generally monogamous, although cooperative breeding has been observed in some species and is quite common in others,[10] for example the laughing kookaburra, where helpers aid the dominant breeding pair in raising the young.[16]
Like all Coraciiformes, the kingfishers are cavity nesters, with most species nesting in holes dug in the ground. These holes are usually in earth banks on the sides of rivers, lakes or man-made ditches. Some species may nest in holes in trees, the earth clinging to the roots of an uprooted tree, or arboreal nests of termites (termitarium). These termite nests are common in forest species. The nests take the form of a small chamber at the end of a tunnel. Nest-digging duties are shared between the genders . During the initial excavations, the bird may fly at the chosen site with considerable force, and birds have injured themselves fatally while doing this. The length of the tunnels varies by species and location; nests in termitariums are necessarily much shorter than those dug into the earth, and nests in harder substrates are shorter than those in soft soil or sand. The longest tunnels recorded are those of the giant kingfisher, which have been found to be 8.5 m (28 ft) long.[10]
The eggs of kingfishers are invariably white and glossy. The typical clutch size varies by species; some of the very large and very small species lay as few as two eggs per clutch, whereas others may lay 10 eggs, the typical is around three to six eggs. Both sexes incubate the eggs. The offspring of the kingfisher usually stay with the parents for 3–4 months.[10]

Status and conservation

The rufous-collared kingfisher is categorised as near-threatened due to the rapid loss of its rainforest habitat.
A number of species are considered threatened by human activities and are in danger of extinction. The majority of these are forest species with limited distribution, particularly insular species. They are threatened by habitat loss caused by forest clearance or degradation and in some cases by introduced species. The Marquesan kingfisher of French Polynesia is listed as critically endangered due to a combination of habitat loss and degradation caused by introduced cattle, and possibly due to predation by introduced species.[17]

Relationship with humans

Kingfishers are generally shy birds, but in spite of this, they feature heavily in human culture, generally due to the large head supporting its powerful mouth, their bright plumage, or some species' interesting behavior.
For the Dusun people of Borneo, the Oriental dwarf kingfisher is considered a bad omen, and warriors who see one on the way to battle should return home. Another Bornean tribe considers the banded kingfisher an omen bird, albeit generally a good omen.[10]
The sacred kingfisher, along with other Pacific kingfishers, was venerated by the Polynesians, who believed it had control over the seas and waves.
Modern taxonomy also refers to the winds and sea in naming kingfishers after a classical Greek myth. The first pair of the mythical-bird Halcyon (kingfishers) were created from a marriage of Alcyone and Ceyx. As gods, they lived the sacrilege of referring to themselves as Zeus and Hera. They died for this, but the other gods, in an act of compassion, made them into birds, thus restoring them to their original seaside habitat. In addition, special "halcyon days" were granted. These are the seven days on either side of the winter solstice when storms shall never again occur for them. The Halcyon birds' "days" were for caring for the winter-hatched clutch (or brood), but the phrase "Halcyon days" also refers specifically to an idyllic time in the past, or in general to a peaceful time.The kingfishers tribe is called the "first one color."
Various kinds of kingfishers and human cultural artifacts are named after the couple, in reference to this metamorphosis myth:
Not all the kingfishers are named in this way. The etymology of kingfisher (Alcedo atthis) is obscure; the term comes from "king's fisher", but why that name was applied is not known.[18]




Alcedininae
Halcyoninae
Cerylinae



 Kingfisher range.png





 Global distribution of the kingfishers
Phylogeny of the Alcedinidae
Alcedinidae
Alcedininae
Halcyoninae
Cerylinae
Cladogram based on Moyle (2006)[1]



















 

Saturday, March 2, 2019

THE AUSTRALIAN SNUBFIN DOLPHIN

The Australian snubfin dolphin (Orcaella heinsohni) is a dolphin found off the northern coasts of Australia. It closely resembles the Irrawaddy dolphin (of the same genus, Orcaella) and was not described as a separate species until 2005. The closest relative to the genus Orcaella is the killer whale, Orcinus orca. The Australian snubfin has three colors on its skin, while the Irrawaddy dolphin only has two. The skull and the fins also show minor differences between the two species.
 
 Snubfin-3.jpg
 Australian snubfin dolphin surfacing

Taxonomy

The taxonomic specific name, heinsohni, was chosen in honor of George Heinsohn, an Australian biologist who worked at James Cook University, "for his pioneering work on northeast Australian odontocetes, including the collection and initial analysis of Orcaella heinsohni specimens which form the basis for much of our knowledge of the new species".[1]
New species of large mammals are quite rarely described nowadays, and those that are usually are from remote areas — such as the saola - or are otherwise rarely encountered, see for example Perrin's beaked whale, or the spade-toothed whale, which is only known from two complete specimens and a few bones cast ashore. In fact, the Australian snubfin was the first new dolphin species to be described in 56 years, but was followed, in 2011, by the discovery and description of the Burrunan dolphin (T. australis), also from the Australian continent. The Australian snubfin dolphin is unusual among recently described mammals in that a population is accessible for scientific study.
Nonetheless, the existence of snubfin dolphins in the waters of northern Australia had only become known in 1948, when a skull was found at Melville Bay (Gove Peninsula, Northern Territory). This individual apparently had been caught and eaten by aboriginals. However, the discovery remained unnoted until discussed by Johnson (1964),[2] and soon thereafter a Dutch skipper had his observations of the then-unrecognized species published.[3] The common name “snubfin dolphin” was suggested in 1981 and highlights a diagnostic external character and has previously been used in field guides for identification.[4]
Two scientists, Isabel Beasley of James Cook University and Peter Arnold of Museum of Tropical Queensland, took DNA samples from the population of dolphins off the coast of Townsville, Queensland, and sent them to the National Oceanic and Atmospheric Administration's Southwest Fisheries Science Center in La Jolla, California. The results showed George Heinsohn was correct in his hypothesis that the Townsville population was a new species.[5]
The holotype QM JM4721 (JUCU MM61) is the skull and some other bones of an adult male found drowned in a shark net at Horseshoe Bay, Queensland, on 21 April 1972. It was about 11 years old at the time of its death.[1]

Description

A species of delphinid in the genus, Orcaella, which contains one other species, the Irrawaddy dolphin Orcaella brevirostris, O. heinsohni females can reach lengths of 230 cm (91 in) and males can reach 270 cm (110 in).[5] Australian snubfin dolphins are subtly tricoloured: brownish on the top, lighter brown along the sides, and a white belly; the Irrawaddy dolphin, on the other hand, is uniformly slate grey except for the white belly. The new species has a rounded forehead, very unlike other dolphin species in Australia, and the very small, "snubby" dorsal fin distinguishes it from other dolphins in its range. The lack of a groove on each side of the back and the presence of a neck crease further distinguishes this species from its relative. Tail flukes also have an identifiable jagged trailing edge that can help distinguish it from other species of delphinids.
The number of nasal bones in each side of a snub fin dolphin's skull vertex varies from none to six. There is a poorly developed mesthemoid plate. In the upper jaw there are roughly 11–22 teeth in each half, and in the lower jaw there are roughly 14–19 teeth in each half.[4]

Life history

In a study of Australian snubfin dolphins consisting of 18 individuals, it was determined the approximate life span is around 30 years. However, since sightings are so rare, a lot remains unknown about many about this species. Gestation is estimated to be around 11 months based off rates of similar species.[6]

Behavior

Much remains unknown about the ecology and behaviors of the Australian snubfin dolphin.[7] Australian snubfin dolphins have a varied diet, eating a range of fish, shrimp and cephalopods (squid, cuttlefish and octopus).[8] They are found in small groups of about 2–6, but larger groups (up to 14 individuals) have also been observed.[9] Populations are usually smaller than 150 individuals.[10] Some instances long-term sociability has been observed among individuals off the coast of Queensland, Australia.[6] Grouping associations seem to be strongest among male individuals implying some potential correlation to reproductive strategy.[6] Additionally, there was an observation of snubfin dolphins displaying mating courtship between Australian humpback dolphins.[11]
Both the Australian snubfin dolphin and the Australian humpback dolphin co-occur throughout much of the tropical Northern waters of Australia, and have similar vocal repertoires consisting of click trains, burst pulses, and whistles.[7] As a member of the suborder odontoceti, much of these vocalizations are thought to be associated with echolocation for both navigation and foraging.[12] They produce clicks of short durations with high peaks, making their clicks distinguishable from other odontocetes.[13]
Snub fin dolphins have also been observed interacting with Australian humpback dolphins, and one case of a hybrid between the two species was documented using DNA analysis in 2014.[14]
Australian snubfin dolphins have been observed to spit jets of water across the surface of the water as a potential feeding strategy.[6] Jets of water appear to cause fish to leap from the water towards the dolphin, making them easier prey targets.

Feeding

Off the coast of Queensland, Australia, the Australian snubfin dolphin predominantly feeds in coastal-estuarine waters.[15] There is a predominance of feeding activity by rivers and areas off the coast of Cleveland bay. Australian snubfin dolphins have also been seen foraging and then following passing by fish trawlers to capitalize on an opportunity for prey.[16] They can be classified as opportunistic feeders and have been seen congregating to feed in groups.[15] Being opportunistic feeders snubfins consume a large array of prey items.[15] Snubfin dolphin consume a wide array of prey, that can be narrowed down to coastal, estuarine, and reef‐associated fishes throughout the water column and at the bottom.[15] The most common prey items by specie are cardinal fish (Apogon), proceeded by the cuttlefish (Sepia), the squid Uroteuthis (Photololigo), and the toothpony fish (Gazza).[16] Another big part of the snubfin diet are cephalopods.[16]

Range and status


Irrawaddy dolphin size.svg

 Size compared to an average human



The snubfin dolphin is considered endemic in Australia. In the Pacific Ocean off Townsville, about 200 individual snubfin dolphins were found. The range of the species is expected to extend to Papua New Guinea; that is, O. heinsohni is endemic to the northern half of the Sahul Shelf, but the majority live in Australian waters. They are found all along the northern coasts of Australia, from Broome, Western Australia, to the Brisbane River in Southeast Queensland.[9] They are not thought to be common, and are being given a high conservation priority. Australian snubfin dolphins are currently listed as “vulnerable” by the IUCN.[10]
Habitat range has primarily been determined through visual sightings and stranding data, limiting the range to areas accessible by humans. Pacific acoustic monitoring methods are being deployed to attempt to more accurately determine the range of these animals by listening for their distinctive echolocation clicks.[13]

Threats

Although some hunting by indigenous people occurs (as evidenced by the 1948 specimen), this is likely to be insignificant compared to other threats such as drowning in sharknets and fishing gear. Snubfins are particularly at risk from incidental capture in gillnets, which are often placed in near-shore areas and near the mouths of rivers, where these dolphins are more likely to be found.[10] Although it is not known how many dolphins die in this manner, it is considered to be the greatest threat to populations in Papua New Guinea. Anti-shark nets and drumlines put in place for Queensland's shark control program are also a significant threat to snubfins, with about 1.8 snubfin dolphins killed every year between 1997 and 2011.[10]
The coastal zones along the Australian snubfin dolphin's range have been highly modified for mining and agricultural purposes as well as ports, aquaculture and residential development. Land reclamation, vessel traffic and construction results in the degradation of the snubfin's natural habitat through increased noise, lower water quality and a reduction in food supply, in addition to direct loss of habitat areas due to land reclamation. This can result in decreased survival rates and/or emigration in search of better resources.[10]
Pollution is another threat to snubfin dolphins, as the water discharge from rivers in the dolphins’ Australian range are contaminated by industrial and agricultural runoff. The snubfin dolphins’ strong site fidelity means they are likely exposed to pollutants on a daily basis. Indeed, one study of snubfins on the Great Barrier Reef found levels of polychlorinated biphenyls (PCBs) far exceeding the thresholds for small cetaceans, over which reproductive anomalies and immunosuppression can occur.[17] Periodic floods present a temporary threat to snubfin dolphins in that they result in an increase in freshwater discharge, heavy metals, nutrients, sediment and pesticides in coastal areas. Increases in floods, cyclone severity, storm surges and sea surface temperatures due to climate change will likely also affect the habitat and future food supply of snubfin dolphins.[18] As a result of the cumulative effects of drowning as bycatch and habitat loss and degradation, the Australian snubfin dolphin population is believed to be decreasing and is likely to meet the criteria for IUCN's “endangered” status in the near future.[10]
As small populations are more vulnerable to extinction due to the small numbers and low genetic diversity, the snubfin dolphin is at significant risk in their human populated habitat.[19] The insufficient data on the species poses additional threat as their general ecology is not fully understood.

Conservation

The Australian snubfin dolphin is listed on Appendix II[20] of the Convention on the Conservation of Migratory Species of Wild Animals (CMS). It is listed on Appendix II[20] as it has an unfavourable conservation status or would benefit significantly from international co-operation organised by tailored agreements.[21]
Australian snubfin dolphins are also listed as “vulnerable” by the IUCN.[10]
In addition, Australian snubfin dolphins are covered by Memorandum of Understanding for the Conservation of Cetaceans and Their Habitats in the Pacific Islands Region (Pacific Cetaceans MOU).[22]



Orcaella heinsohni


Orcaella heinsohni range.png






 Known distribution in blue; suspected distribution in yellow.
Question marks indicate areas where no snubnosed dolphins were recorded but might occur.