@maxallen @karimhaddad @jamesjarrett00 @douglasriverside @camilojotage @mc1991 @fauna_maya @aguilita @ivanresendizcruz @ptexis @aplomadobirdy @luissilva4 @ececc @sambiology @psweet @mako252 @jimsinclair @hawksthree @birdwhisperer @jnelson @cliygh-and-mia @sitszasadam @kakariki14 @gumnut @johnnybirder @karoopixie @alexanderr @ratite @gposs @nyoni-pete @louisb @vicfazio3 @chuditch @hdavid @graham_winterflood @wildlife1607
I have shown, in previous Posts, that there is negligible evolutionary convergence (https://en.wikipedia.org/wiki/Convergent_evolution) between Australia and southern Africa, in:
The intercontinental differences are particularly great for vertebrate-eating mammals: one small dasyurid vs a whole guild of herpestid, viverrid, felid, canid, and hyenid species.
Interpreting these anomalies is complicated by the isolation of the island continent. It is hard to distinguish the poverty of the resources in nutrient-poor Australia from the coincidence of geographical isolation.
For example, all the indigenous, fully terrestrial, vertebrate-eating mammals throughout Australia - with the exception of one species of bat (https://en.wikipedia.org/wiki/Ghost_bat) - are marsupials; and an important family (Lamprophiidae, https://en.wikipedia.org/wiki/Lamprophiidae) of snakes is absent from Australia.
So it remains possible that the ultimate cause of the faunal anomalies is phylogenetic constraints, rather than differences in the non-biotic environments (climates and soils).
Volant birds can cross seas barring mammals, and they can survive shortages by moving around within a given landmass. And indeed it is the vertebrate-eating birds that have produced the avian species most naturally widespread on Earth: Falco peregrinus (https://en.wikipedia.org/wiki/Peregrine_falcon).
Therefore, the isolation of Australia - and the associated phylogenetic constraints - should be far less confounding for birds than for snakes or mammals.
Here, I compare the vertebrate-eating avifaunas of Australia and southern Africa, within the same framework as for the previous Posts.
To make intercontinental comparison as rigorous as possible, I have chosen study areas carefully matched in climates, landforms and soils: Fitzgerald River National Park (https://en.wikipedia.org/wiki/Fitzgerald_River_National_Park) and its environs in Western Australia and Agulhas National Park (https://en.wikipedia.org/wiki/Agulhas_National_Park) and its environs in South Africa.
I have restricted the avifaunal lists to species taking vertebrates as more than half of their diets, by volume. I.e. by 'vertebrate-eating' I mean 'eating mainly vertebrates'.
The results:
The vertebrate-eating birds show far greater correspondence between continents than do the vertebrate-eating mammals. In both study areas there are large eagles, small eagles, falcons/kestrels, kites, harriers, goshawks, and the same two families of owls - including a shared species, the barn owl. Furthermore, in most cases the intercontinental counterparts are congeneric.
Based on the overall relatedness of the two avifaunal lists, we would expect that any remaining incongruities would have been relatively easily corrected by natural selection. That is to say, this test of evolutionary convergence sets rather low standards compared to those performed on snakes and mammals.
Nonetheless, the remaining differences are so obvious that, once again, negligible evolutionary convergence is actually evident.
A parallel with my previous study of the snakes is that there is more differentiation in the avifauna of vertebrate-eating birds in the southern African than in the Australian study area.
The following, found in the southern African study area, have no counterparts in the Australian study area:
On the converse side:
The only species found in the Australian study area, with arguably no true counterparts in the southern African study area, are:
A noticeable pattern is that Falco and strigid owls are diminutive in Australia relative to southern Africa, in the context of this focus on vertebrate-eating species.
The Australian study area has counterparts for both Falco biarmicus and Buteo rufofuscus, but at a fraction of the body mass: Falco longipennis and Falco cenchroides.
Ninox boobook is only half the body mass of Bubo africanus.
(The small-bodied species in the southern African study area, namely Falco rupicolus (https://www.inaturalist.org/taxa/472764-Falco-rupicolus) and Ciccaba woodfordi (https://www.inaturalist.org/taxa/19965-Strix-woodfordii#Habits_and_ecology), eat mainly invertebrates.)
An alternative way of interpreting the small-bodied species of Falco in the study areas is as follows:
On each landmass there are closely related kestrels and hobbies. These qualify as vertebrate-eating birds in the Australian study area, where larger-bodied members of the same guild are not competitive owing to limited quantity and reliability of prey. However, in the southern African study area - where Falco biarmicus and Buteo rufofuscus are indeed competitive - the small forms are either
However, the pattern is inconsistent because, in the case of Circus and to a slight degree Elanus, it is the southern African species that are the smaller-bodied ones.
Geographical isolation hardly explains the lack of certain vertebrate-eating vertebrates in Australia. This is best illustrated by
Milvus migrans is extremely widespread, extending to much of Australia (subspecies affinis, https://onlinelibrary.wiley.com/doi/full/10.1111/jav.02822).
This species penetrates to the southwestern tip of Africa but not to similar latitudes in southwestern Australia.- suggesting a difference in the productivity of prey. Is Fitzgerald River National Park and its environs too poor in various vertebrates to support more than a limited and rather generalised fauna of predators and scavengers?
In the case of Elanus, the southern African species (E. caeruleus) has actually reached Australia.
Elanus caeruleus occurs in southernmost New Guinea, separated from the island continent by only the narrow Torres Strait. Given that this water was broad dry land for most of the Pleistocene, E. caeruleus almost certainly occurred previously in at least northern Australia.
Hence the fact that a different species of Elanus occurs today in the Australian study area
In summary:
There is considerable correspondence between continents in the vertebrate-eating birds. However, this similarity has been achieved mainly by faunistic recruitment, rather than by evolutionary convergence in the sense of adaptive modification of the recruits.
The vertebrate-eating avifaunas in and near Fitzgerald River National Park in Western Australia, and Agulhas National Park in South Africa, are remarkably similar phylogenetically, at the level of family, genus and even species. However, the remaining differences in form and function - and phylogeny in the cases of heron, vulture and secretary bird - are as important as the similarities.
It remains unclear whether the evident shortfall in convergence here is owing to
—―—————-———-――――――――――
AUSTRALIA: species occurring in and near Fitzgerald River National Park
Accipitridae:
Accipiter cirrhocephalus female 218 grams https://www.inaturalist.org/taxa/5138-Accipiter-cirrocephalus
Accipiter fasciatus female 355 grams https://www.inaturalist.org/taxa/5114-Accipiter-fasciatus
Circus approximans female 870 grams https://www.inaturalist.org/taxa/5168-Circus-approximans
Circus assimilis female larger-bodied than southern African counterpart https://www.inaturalist.org/taxa/5175-Circus-assimilis
Elanus axillaris female 300 grams https://www.inaturalist.org/taxa/5276-Elanus-axillaris
Lophoictinia isura female 590-680 grams mean 635 grams https://www.inaturalist.org/taxa/5286-Lophoictinia-isura and https://www.birdlife.org.au/afo/index.php/afo/article/viewFile/927/906
Haliastur sphenurus female 750-1000 grams, or mean 830 grams https://www.inaturalist.org/taxa/5407-Haliastur-sphenurus
Falconidae:
Aquila audax female 3-5.8 kilograms https://www.inaturalist.org/taxa/5080-Aquila-audax
Falco berigora berigora female 520-840 grams, mean 681 grams https://www.inaturalist.org/taxa/4680-Falco-berigora and https://www.une.edu.au/__data/assets/pdf_file/0010/24211/mcdonald-et-al-2012.pdf and https://bioone.org/journals/Journal-of-Raptor-Research/volume-40/issue-3/0892-1016(2006)40[228:TBDODB]2.0.CO;2/THE-BREEDING-DIET-OF-DIFFERENT-BROWN-FALCON-span-classgenus-speciesFALCO/10.3356/0892-1016(2006)40[228:TBDODB]2.0.CO;2.full
Falco cenchroides cenchroides possibly qualifies as vertebrate-eating female 115-273 grams https://www.inaturalist.org/taxa/4681-Falco-cenchroides and https://absa.asn.au/wp-content/uploads/2017/05/V41_P27-31_FalconDiets_Tsang_v3.pdf
Falco longipennis longipennis female 290 grams https://www.inaturalist.org/taxa/4663-Falco-longipennis and https://search.informit.org/doi/10.3316/INFORMIT.604341808414911 and https://www.birdlife.org.au/afo/index.php/afo/article/viewFile/2176/2196
Falco peregrinus rare in study area female 0.7-1.5 kilograms https://www.inaturalist.org/taxa/4647-Falco-peregrinus and https://www.researchgate.net/publication/332040949_Diet_of_the_Peregrine_Falcon_Falco_peregrinus_in_inland_south-western_Australia
Hieraaetus morphnoides female about 825 grams https://www.inaturalist.org/taxa/5150-Hieraaetus-morphnoides
Strigidae:
Ninox boobook ocellata female 300 grams https://www.inaturalist.org/taxa/979816-Ninox-boobook
Tytonidae:
Tyto alba deliculata female ?600 grams https://www.inaturalist.org/taxa/20445-Tyto-alba
―--――――――――――――――――――――――
SOUTHERN AFRICA: species occurring in and near Agulhas National Park
Accipitridae:
Accipiter tachiro female 279-510 grams https://www.inaturalist.org/taxa/204453-Accipiter-tachiro
Buteo buteo vulpinus migratory female 710-1180 grams https://www.inaturalist.org/taxa/204472-Buteo-buteo and https://sabap2.birdmap.africa/docs/sabap1/149.pdf
Buteo rufofuscus female 1150-1700 grams, mean 1530 grams https://www.inaturalist.org/taxa/5198-Buteo-rufofuscus
Circus maurus female 550 grams https://www.inaturalist.org/taxa/5174-Circus-maurus
Circus ranivorus female probably less than 500 grams, smaller-bodied than Australian counterpart https://www.inaturalist.org/taxa/5165-Circus-ranivorus
Elanus caeruleus caeruleus female 230 grams https://www.inaturalist.org/taxa/5275-Elanus-caeruleus and https://journals.co.za/doi/pdf/10.10520/AJA0012723X_2116 and file:///C:/Users/Antoni%20Milewski/Downloads/151413-Article%20Text-397314-1-10-20170210.pdf and file:///C:/Users/Antoni%20Milewski/Downloads/Mendelsohn_John_M_1982.pdf
Gyps coprotheres https://www.inaturalist.org/taxa/5365-Gyps-coprotheres
Milvus migrans parasitus rare in study area female 560 grams (or 592 grams in Australia) https://www.inaturalist.org/taxa/5268-Milvus-migrans
Polyboroides typus rare in study area https://www.inaturalist.org/taxa/5246-Polyboroides-typus and https://www.tandfonline.com/doi/abs/10.1080/00306525.1981.9633580
Ardeidae:
Ardea melanocephala https://www.inaturalist.org/taxa/4972-Ardea-melanocephala and https://www.degruyter.com/document/doi/10.2478/s11756-006-0037-5/html
Falconidae:
Aquila verreauxi rare in study area female 3-7 kilograms https://www.inaturalist.org/taxa/5077-Aquila-verreauxii
Falco biarmicus biarmicus female 850 grams https://www.inaturalist.org/taxa/4684-Falco-biarmicus
Falco peregrinus rare in study area female 0.7-1.5 kilograms https://www.inaturalist.org/taxa/4647-Falco-peregrinus
Hieraaetus pennatus rare in study area female 840-1025 grams https://www.inaturalist.org/taxa/5154-Hieraaetus-pennatus and https://sabap2.birdmap.africa/docs/sabap1/136.pdf
Polemaetus bellicosus rare in study area female about 4 kilograms https://www.inaturalist.org/taxa/5344-Polemaetus-bellicosus
Sagittariidae:
Sagittarius serpentarius 3.7-4.3 kilograms mean 4.0 kilograms https://www.inaturalist.org/taxa/117214-Sagittarius-serpentarius
Strigidae:
Bubo africanus 454-904 grams https://www.inaturalist.org/taxa/204470-Bubo-africanus
Bubo capensis rare in study area female 1240-1800 grams https://www.inaturalist.org/taxa/20095-Bubo-capensis and https://sabap2.birdmap.africa/docs/sabap1/400.pdf
Tytonidae:
Tyto alba affinis (large-bodied subspecies) female ?700 grams https://www.inaturalist.org/taxa/20445-Tyto-alba
תגובות
Buteo rufofuscus includes snakes in its diet, including venomous ones up to 1 meter long. This may seem similar to its approximate Australian counterparts Falco berigora and Haliastur sphenurus, which also eat snakes. However, in B. rufofuscus "the toes are thick and stubby, and the scales on the toes and bare tarsus are large and coarse. These features may be an adaptation related to catching snakes and other difficult ground quarry, as similar types of feet are found on other snake-eating raptors such as the laughing falcons (Herpetotheres sp.), snake eagles (Circaetus), and some others". Reference: Cade T J (1982) The falcons of the world. Collins, London, 188 pp. Furthermore, Buteo rufofuscus is far larger-bodied than the Australian species, and double the body mass of F. berigora.
@tonyrebelo @ludwig_muller Hi Tony and Ludwig, Happy ending, I have successfully restored this Post from 'drafts' - which were buried below my stack of Posts, not immediately visible on the right of the screen - and thus hard to locate. Thanks so much to you both for your kind help. With regards from Antoni
Glad to hear it! Is this it?
@ludwig_muller Yes, it is...
Also see https://en.wikipedia.org/wiki/Rakali#Diet_and_foraging.
Falco rupicolus (https://www.inaturalist.org/taxa/472764-Falco-rupicolus) eats mainly animals other than vertebrates.
https://www.tandfonline.com/doi/abs/10.1080/00306525.1971.9634388?journalCode=tost20
https://www.tandfonline.com/doi/abs/10.1080/00063659409477208
The following suggest that Milvus migrans qualifies as mainly vertebrate-eating, even when fish are unavailable: http://www.zsp.com.pk/pdf48/789-794%20(23)%20QPJZ-0099-2015%2024-02-2016.pdf and https://www.researchgate.net/profile/Fabrizio-Sergio/publication/242224553_Nest_dispersion_diet_and_breeding_success_of_Black_Kites_Milvus_migrans_in_the_Italian_pre-Alps/links/578a7e9d08ae5c86c99e3f2a/Nest-dispersion-diet-and-breeding-success-of-Black-Kites-Milvus-migrans-in-the-Italian-pre-Alps.pdf and https://www.tandfonline.com/doi/full/10.1080/00063657.2013.876972.
https://absa.asn.au/wp-content/uploads/2016/09/Robinson-et-al-Corella-Vol40No3.pdf
https://besjournals.onlinelibrary.wiley.com/doi/full/10.1111/j.0021-8790.2004.00817.x
https://absa.asn.au/wp-content/uploads/2017/05/V41_P27-31_FalconDiets_Tsang_v3.pdf
https://search.informit.org/doi/abs/10.3316/INFORMIT.599907161255459
https://search.informit.org/doi/abs/10.3316/informit.602571676145382
https://www.barnowlbox.com/barn-owls-around-the-world/
https://link.springer.com/article/10.1007/s00114-021-01772-8?utm_source=xmol&utm_medium=affiliate&utm_content=meta&utm_campaign=DDCN_1_GL01_metadata
https://www.publish.csiro.au/mu/mu9780137
https://www.sciencedirect.com/science/article/abs/pii/S0140196308002152 and https://search.informit.org/doi/abs/10.3316/informit.602907069628029
הוספת תגובה