Journal archives for September 2023

September 01, 2023

Surprisingly, the tiger (Panthera tigris) exceeds the lion (Panthera leo) in expressing bipedality

@paradoxornithidae @beartracker @matthewinabinett @maxallen @dinofelis @zarek @botswanabugs @simontonge @ldacosta @marcelo_aranda @tonyrebelo @jeremygilmore

The lion (Panthera leo) and the tiger (Panthera tigris)

Therefore, one would not expect these species to differ in their ability to adopt bipedal postures.

Yet there does seem to be a difference. The lion has not been observed to adopt bipedal postures to the extent and degree observed in the tiger.

The photographic evidence falls into three categories, namely

  • circus acts,
  • intraspecific antagonism, and
  • territorial marking.

CIRCUS ACTS

Please see http://www.chinadaily.com.cn/china/2007-11/12/content_6247657.htm.

I have yet to see a similar photo for the lion.

INTRASPECIFIC ANTAGONISM

Both in play and in combat, the lion and the tiger rear up on their hindlegs to some degree.

However, the lion differs considerably from the tiger, as evident from the many photos (and a few video clips) shown at the end of this Post.

In combat/sparring, the tiger adopts a ritualised transitory posture, in which the animal stands/locomotes briefly on its hindlegs. At the same time, it spreads its forelegs - mirrored by its antagonist - in a way yet to be photographed/filmed in the lion.

TERRITORIAL MARKING

The tiger often stands bipedally at the base of trees, in order to

  • rub its jowls on the bole, and/or
  • make conspicuous scratch-marks on the bark:

This is shown in the following:

https://www.reddit.com/media?url=https%3A%2F%2Fi.redd.it%2Fuoahj1bjnqo71.jpg

https://www.alamy.com/stock-photo-siberian-tiger-panthera-tigris-altaica-scent-marking-tree-20328118.html?imageid=BE2CBD26-4D9F-412D-9760-8A936B782357&p=3663&pn=1&searchId=ae1ddc7afd7c91c5b34e5ea40340ae72&searchtype=0)

https://www.alamy.com/bengal-tiger-standing-on-rear-legs-and-stretching-up-to-scratch-a-tree-trunk-a-way-of-marking-territory-ranthambore-national-park-sawai-madhopur-rajasthan-india-asia-image415610844.html?imageid=434A55DB-E1B5-454A-9AFB-0ABBE0E03AEC&p=148099&pn=1&searchId=ac5e77b5654481dc9dd3cfd10b494232&searchtype=0

https://www.alamy.com/stock-photo-a-bengal-tiger-making-scratch-marks-on-a-tree-ranthambore-tiger-reserve-19805813.html?imageid=A6A19F20-867F-4798-9C5E-288C81120E73&p=57430&pn=1&searchId=ac5e77b5654481dc9dd3cfd10b494232&searchtype=0

https://www.alamy.com/stock-image-17-months-old-bengal-tiger-cub-scratch-marking-tree-early-morning-168781557.html?imageid=B611EA12-E9FC-4024-9BB7-5842A5928E0E&p=571810&pn=1&searchId=ac5e77b5654481dc9dd3cfd10b494232&searchtype=0

https://www.alamy.com/siberian-tiger-panthera-tigris-altaica-male-tree-marking-captive-e-russia-fl011327-s-image552952737.html?imageid=AC955E3E-81F4-4076-B908-6C1AC79EC785&p=2130853&pn=1&searchId=ac5e77b5654481dc9dd3cfd10b494232&searchtype=0

https://www.alamy.com/stock-photo-siberian-tiger-panthera-tigris-altaica-immature-male-scratching-tree-47790412.html?imageid=52BBCBD9-A25D-4D79-AAFB-5A24EA412833&p=11592&pn=1&searchId=ac5e77b5654481dc9dd3cfd10b494232&searchtype=0

https://www.alamy.com/stock-photo-siberian-tiger-panthera-tigris-altaica-adult-male-scratching-tree-47790443.html?imageid=2ED629B6-5141-43A0-81BF-F4CBFC7A666D&p=11592&pn=1&searchId=ac5e77b5654481dc9dd3cfd10b494232&searchtype=0

https://www.alamy.com/bengal-tiger-standing-on-rear-legs-and-stretching-up-to-scratch-a-tree-trunk-a-way-of-marking-territory-ranthambore-national-park-sawai-madhopur-rajasthan-india-asia-image415610844.html?imageid=434A55DB-E1B5-454A-9AFB-0ABBE0E03AEC&p=148099&pn=1&searchId=ac5e77b5654481dc9dd3cfd10b494232&searchtype=0

https://www.gettyimages.com.au/detail/photo/tiger-sharpening-claws-on-tree-standing-on-hind-royalty-free-image/200329297-001

https://www.quora.com/What-sort-of-tree-does-a-tiger-choose-to-scratch-in-the-wild-and-why

https://www.gettyimages.co.uk/detail/news-photo/siberian-tiger-adult-standing-up-to-scratch-claws-on-tree-news-photo/1143011570?adppopup=true

https://www.gettyimages.co.uk/detail/news-photo/asie-inde-rajasthan-parc-national-de-rathambore-tigre-du-news-photo/953401420?adppopup=true

https://dailywildlifephoto.nathab.com/contests/1-2016-wildlife-photo-contest/photos/1966-tiger-marking-the-tree

https://www.stevebloom.com/index.php?page=single&id=503140-BS1

https://www.dreamstime.com/stock-photo-tiger-climbing-tree-image38107520

I have yet to find any photo of the lion adopting a similar posture, in this context.

The closest are https://www.123rf.com/photo_100367973_lion-standing-on-his-hind-legs-at-a-tree-in-morning-light.html and https://www.stevebloom.com/index.php?page=single&id=506649-BS1 and https://www.istockphoto.com/photo/female-white-lion-scratching-tree-bark-gm1195489631-340768364 and https://www.shutterstock.com/image-photo/african-lion-felis-leo-marking-territory-528839812.

DISCUSSION

It would be particularly surprising for the tiger to exceed the lion in bipedal ability, given that it is the more massive of the two species (https://www.diffen.com/difference/Lion_vs_Tiger and https://www.quora.com/Are-tigers-and-lions-the-same-size).

Perhaps the difference can be explained partly by the fact that the lion typically inhabits open vegetation, whereas the tiger typically inhabits wooded vegetation.

These findings should raise a search-image, among naturalists, for bipedal modes in

The leopard (Panthera pardus) has repeatedly been photographed sitting bolt-upright in vigilance (https://www.dailymail.co.uk/news/article-2143766/Simples-Leopard-surprises-safari-goers-stands-legs-like-meerkat-stalk-dinner.html and https://m.facebook.com/IntenseWalls/photos/a.527980250611783/3363912873685159/?type=3&_rdr). However, this is different from standing.

Bipedal standing during marking on trees is the least important of the three lines of evidence considered here. This is because the animal does not free-stand, but instead uses the bole to support itself with its forepaws.

I offer the hypothesis that it is the lion, rather than the tiger, that is aberrant, among 'big cats', in its (lack of) expression of bipedality.

However, part of the explanation may lie in the fact that the tiger is significantly more brainy than the lion (https://www.researchgate.net/publication/229958542_Brain_size_of_the_lion_Panthera_leo_and_the_tiger_P_tigris_Implications_for_intrageneric_phylogeny_intraspecific_differences_and_the_effects_of_captivity).

INTRASPECIFIC ANTAGONISM: PANTHERA LEO:

https://depositphotos.com/photo/lions-fighting-4018529.html

https://www.gettyimages.com.au/detail/photo/young-male-lions-playing-with-each-other-jumping-royalty-free-image/171116536?adppopup=true

https://www.gettyimages.com.au/detail/news-photo/two-lioness-panthera-leo-sparring-masai-mara-national-news-photo/1371855370?adppopup=true

https://www.gettyimages.com.au/detail/photo/lion-and-lioness-fighting-fighting-masai-mara-royalty-free-image/1027619214?adppopup=true

https://www.flickr.com/photos/jaffles/24851778939

https://www.dreamstime.com/two-lions-fiercely-fighting-their-pride-creating-using-generative-ai-tools-pair-engage-territorial-fight-image280293785

https://www.mediastorehouse.com.au/nature-picture-library/2020-april-highlights/lion-panthera-leo-males-mock-fighting-play-19960056.html

https://www.flickr.com/photos/sheldrickfalls/32953986190

https://www.facebook.com/thewildestafrica/photos/a.2245536979094388/2405427793105305/?type=3&locale=zh_CN

https://www.youtube.com/watch?app=desktop&v=Q4Bevh-jnaQ

Scroll in https://community.cbr.com/showthread.php?119053-Shere-Khan-vs-Mufasa

INTRASPECIFIC ANTAGONISM: PANTHERA TIGRIS:

https://sipacontest.com/gallery/photo/170309#imgs

https://www.naturepl.com/stock-photo-bengal-tiger-panthera-tigris-tigris-11-month-cubs-play-fighting-image01501106.html

https://www.independent.co.uk/news/world/asia/malayan-tiger-cubs-zoo-singapore-b1807187.html

https://dailywildlifephoto.nathab.com/photos/9557-right-jab-left-jab-and-the-fight-is-on-10-11-2017

https://a-z-animals.com/blog/seeing-these-two-adult-tigers-fight-up-close-in-intense/

https://www.quora.com/Do-tigers-fight-over-territory-mates-as-much-as-lions-and-how-violent-do-these-fights-usually-get

http://en.people.cn/n3/2016/0511/c90777-9056071.html

https://www.imdb.com/title/tt3119660/mediaviewer/rm1961800705/?ref_=tt_ov_i

https://www.sciencephoto.com/media/984262/view/bengal-tiger-11-month-cubs-play-fighting

https://pixers.net.au/posters/tigers-fighting-2054065

https://photos.com/featured/1-a-pair-of-tigers-fighting-chvon-leo.html

https://timesofindia.indiatimes.com/life-style/spotlight/viral-video-two-male-tigers-are-fighting-like-adults/articleshow/71628735.cms

https://www.hindustantimes.com/it-s-viral/video-captures-tigers-fighting-in-ranthambore-it-s-brutal-and-violent/story-58K9NcDArBQi2V1SpKV9FK.html

http://www.shahrogersphotography.com/detail/951.html

https://www.alamy.com/stock-photo-bengal-tiger-panthera-tigris-tigris-female-fighting-with-18-months-71420325.html

https://www.youtube.com/watch?v=39rs7_oKOu4

https://www.firstpost.com/world/chilling-video-of-two-tigers-brutally-fighting-goes-viral-11653381.html

https://www.thesun.co.uk/living/2420692/siberian-tigers-channel-their-inner-tigger-as-theyre-snapped-play-fighting-at-uk-safari-park/

https://ftw.usatoday.com/2021/01/tigers-fight-loudly-in-rare-video-is-this-any-way-for-sisters-to-act

https://www.freepik.com/premium-photo/tigers-play-fight-fight-kings-tigers-fighting-displaying-aggression_34687586.htm

https://www.vox.com/2016/4/11/11406746/tiger-population-rebound

http://en.people.cn/n3/2016/0414/c90000-9044715.html

https://s1.1zoom.me/big0/139/Tigers_Two_Fight_542359_1280x933.jpg

https://www.natureplprints.com/2014-highlights/bengal-tigers-panthera-tigris-sub-adults-15331321.html

https://www.pinterest.co.uk/pin/759912137097971409/

https://animalsresearch.com/are-tigers-smart/

https://www.ross.no/2018/05/06/bengal-tiger-panthera-tigris-tigris/

https://www.peakpx.com/en/hd-wallpaper-desktop-fpyrr

https://www.peakpx.com/en/hd-wallpaper-desktop-nnwdw

Posted on September 01, 2023 09:40 AM by milewski milewski | 8 comments | Leave a comment

September 04, 2023

A comparison of the plains viscacha (Lagostomus maximus) and the black-tailed prairie dog (Cynomys ludovicianus)

(writing in progress)

Two rodents invite comparison, viz.

The former is a hystricomorph (https://en.wikipedia.org/wiki/Hystricomorpha) belonging to the Chinchillidae (https://en.wikipedia.org/wiki/Chinchillidae), whereas the latter is a sciuromorph (https://en.wikipedia.org/wiki/Sciuromorpha) belonging to the Sciuridae (https://en.wikipedia.org/wiki/Squirrel).

The two species are comparable because both are

  • the largest rodents in their habitats (which are mainly mesic and treeless in both cases),
  • herbivorous (with green grass as a staple), to the degree of being regarded as unwelcome competitors for domestic livestock,
  • burrowing (mainly for the excavation of permanent living quarters)
  • colonial (with several family groups sharing a single system of burrows),
  • sexually dimorphic (with males more massive than females),
  • precocial (with large, well-developed newborns), and
  • unusually vocal for rodents (with various calls used socially and in reaction to predators),

However, the plains viscacha is the more specialised species in its role as a herbivore, and the more aberrant w.r.t. rodents in general.

This is because the plains viscacha

  • has about five-fold the body mass of the black-tailed prairie dog, as well as being the more sexually dimorphic of the two,
  • has a diet more strictly herbivorous (and graminivorous) than that of the black-tailed prairie dog,
  • forms and maintains lawns,
  • is caecotrophic (https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8208658/), as opposed to having hindgut fermentation without caecotrophy in the case of the black-tailed prairie dog, and
  • forages throughout the year, as opposed to spending the winter partly in torpor in the case of the black-tailed prairie dog.

with caecotrophic digestion

Nocturnal vs diurnal

Unlike the black-tailed prairie dog, the plains viscacha forages gregariously.

Posted on September 04, 2023 12:32 AM by milewski milewski | 11 comments | Leave a comment

September 08, 2023

Is there a system of eating in which the systemically toxic excess of carbohydrate can be practically mitigated?

(writing in progress)

The main aim of this Post is to suggest a practical way of 'having one's cake and eating it too', in terms of healthy diets and systems of eating, in the human species (Homo sapiens).

The particular topic is the mitigation of the effects of carbohydrate (https://en.wikipedia.org/wiki/Carbohydrate), which tends to be consumed in excessive quantity and with excessive frequency in the modern world.

CONTEXT

In industrial economies today, so much carbohydrate is available to the human species that this substance has become, effectively, an environmental toxin.

This contrasts with the ancestral condition. Hunter-gatherers lived in an environment in which carbohydrate was seasonal and relatively scarce. The physiological nature of the human body is such that the former regime remains the healthier one.

Many chronic illnesses in modern populations can be ascribed to excess carbohydrate.

The mechanism is that concentrations of glucose in the blood tend to be excessive, with excessive frequency. This causes disruption of the normal functions of the pancreas (https://en.wikipedia.org/wiki/Pancreas), mainly via the insulin (https://en.wikipedia.org/wiki/Insulin) secreted by this gland.

The results include, amongst others,

It seems safe to say that if all added sugar were eliminated from human diets, populations would be healthier.

Furthermore, it seems likely that most human individuals would be healthier on a diet lacking starchy foods - on the basis that starch is rapidly digested to glucose in the mouth and small intestine, causing metabolic stress similar to that resulting from consumption of sugar itself.

However, for most individuals in modern societies, it seems impractical - for many and diverse reasons - to eliminate sugar and starch entirely from the diet.

For example, the category of 'healthy vegetables' includes various tubers and fleshy fruits, which are starchy enough to boost glucose in the bloodstream, within minutes of consumption.

Examples of tubers include

Starchy examples of fleshy fruits are the various domestic species of Cucurbita (https://en.wikipedia.org/wiki/Pumpkin) and https://en.wikipedia.org/wiki/Cucurbita and https://en.wikipedia.org/wiki/Butternut_squash).

Furthermore, this undesirable boost would remain to some extent even if the foods mentioned above were eaten raw. This is because their glycemic index (https://en.wikipedia.org/wiki/Glycemic_index) exceeds x.

THE PROBLEM

It may be practicable to avoid added sugar, as well as sweet fleshy fruit-pulp and -juice, from one's diet.

However, for most individuals, it is impractical to avoid carbohydrates altogether. This would mean a ketogenic diet, which is physiologically possible for many or most individuals, but not sustainable given the social and economic realities of our lives.

So, how can one continue to consume, on a routine basis, some quantity of starchy food without ill effects?

THE CRUCIAL PRINCIPLES

I suggest that three crucial principles are that

  • the rate at which glucose enters the bloodstream depends largely on the dilution of carbohydrate in proteins, lipids, fibre, and water, in the stomach,
  • it is as important to reduce the frequency of 'insulin spikes' as it is to reduce the sizes of these 'spikes', and
  • mildly sweet food (e.g. wild berries) can safely be eaten provided that this is at most once per day, reducing the frequency of any 'insulin spikes' to one per day or less.

The best illustration of the first of the above principles is that peanut (Arachis hypogoea, https://en.wikipedia.org/wiki/Peanut) and chickpea (Cicer arietinum, https://en.wikipedia.org/wiki/Chickpea) contain about a third starch, but are non-insulinogenic. The starch is safely 'smuggled' into then food by virtue of being thoroughly mixed with protein and, in the case of peanut, lipids.

Posted on September 08, 2023 08:55 PM by milewski milewski | 0 comments | Leave a comment

September 14, 2023

The hyperfecal-hypofecal continuum in consumers of plant matter

(writing in progress)

Faeces exist, almost as surely as eating exists.

The basic principles behind the production of faeces are of costs/benefits, and diminishing returns.

Various components of food have various digestibilities. The least digestible components are - depending on the species of consumer and its particular digestive system - discarded, as the biological equivalent of rubbish.

This occurs despite

  • the investment of time and energy made in acquiring the food, and
  • the risks taken as part of this foraging.

It would be naive to expect members of the 'food-chain' to be thorough processors, simply converting all of the matter and energy they consume.

However, what are remarkable are

  • the degree to which various animals differ in the thoroughness of their digestive process,
  • the quantity of faeces produced relative to food consumed, and
  • the finding that it is not necessarily the most fibrous diets that produce the most faeces.

Some animals 'overproduce' faeces in the sense that they seem to extract little of what they eat, whereas others 'underproduce' faeces in the sense that they extract virtually all of what enters the digestive process. Most animals are intermediate.

It is the range in this continuum - which I dub the 'hyperfecal/hypofecal continuum' - that is greater than appreciated by many or most naturalists.

In this Post, I illustrate the hyperfecal/hypofecal continuum by examining its extremes, in the form of

Both the giant panda and Macrotermes forage on extremely fibrous matter, composed largely of cellulose (https://en.wikipedia.org/wiki/Cellulose) and lignin (https://en.wikipedia.org/wiki/Lignin).

However,

  • the former acts as a 'fecal factory', whereas the latter recycles the fibre repeatedly within the system, until virtually nothing emerges; and
  • the former seems to defecate for a living, whereas the latter - at least at the scale of the whole colony in this eusocial insect - hardly produces anything that can be called faeces.

Indeed, the digestive process of Macrotermes is such that it treats the faeces of various herbivores as part of the diet.

Crucial for understanding the hyperfecal/hypofecal continuum are

In the giant panda, the gut is short and simple. There is minimal development of gut-chambers in which food is delayed for breakdown by bacteria and other microbes.

The result is that

In other words, the hyperfecality of the giant panda is such that even the greenness of the plant matter consumed seems not to be converted to brown.

(writing in progress)

Posted on September 14, 2023 11:25 PM by milewski milewski | 3 comments | Leave a comment

September 18, 2023

A new feature of adaptive colouration in ungulates: the fibular flag, part 2: Alces alces (Cervidae)

@mhughes26 @mhairimcf

...continued from https://www.inaturalist.org/journal/milewski/70368-a-new-feature-of-adaptive-colouration-in-ungulates-the-fibular-flag-part-1-raphicerus-bovidae#

The moose (Alces alces, https://www.inaturalist.org/taxa/522193-Alces-alces) possesses a fibular flag (https://www.gettyimages.com.au/detail/photo/bull-moose-moving-through-northern-tundra-calling-royalty-free-image/657485842).

In this large-bodied cervid, the fibular flag covers the inner, and often also the outer, surfaces of the hindleg above the hock.

https://www.inaturalist.org/observations/107522426

The fibular flag of the moose is individually and seasonally variable, and also depends on illumination.

In the summer pelage, the fibular flag is poorly-developed (https://www.inaturalist.org/observations/179584604 and https://www.inaturalist.org/observations/170204579 and https://www.inaturalist.org/observations/79012704 and https://www.inaturalist.org/observations/31202401).

The following illustrate the fibular fag in Alces alces shirasi:
https://www.inaturalist.org/observations/22730337
https://www.inaturalist.org/observations/165808747
second photo in https://www.inaturalist.org/observations/183755724
https://www.inaturalist.org/observations/73121671
https://www.inaturalist.org/observations/4482611
https://www.inaturalist.org/observations/4308293

Fibular flag in Alces alces alces:
https://www.inaturalist.org/observations/35274716
https://www.inaturalist.org/observations/183855765
https://www.inaturalist.org/observations/183819576
https://www.inaturalist.org/observations/153934473
https://www.inaturalist.org/observations/46595843
https://www.inaturalist.org/observations/2922305

In nominate A. a. alces, the pale feature in question can be so expansive that the term 'fibular flag' no longer applies (https://www.inaturalist.org/observations/112176729).

ADDITIONAL ILLUSTRATIONS OF FIBULAR FLAG IN ALCES ALCES

https://www.inaturalist.org/observations/116777704

https://www.inaturalist.org/observations/115702446

https://www.inaturalist.org/observations/115325363

https://www.inaturalist.org/observations/115314501

https://www.inaturalist.org/observations/114790758

https://www.inaturalist.org/observations/112619055

https://www.inaturalist.org/observations/135414451

https://www.inaturalist.org/observations/115470987

https://www.inaturalist.org/observations/125843310

https://www.inaturalist.org/observations/121343112

https://www.inaturalist.org/observations/120257251

https://www.inaturalist.org/observations/129646111

https://www.inaturalist.org/observations/119626107

https://www.inaturalist.org/observations/119092478

https://www.inaturalist.org/observations/116521066

https://www.inaturalist.org/observations/134851345

https://www.inaturalist.org/observations/116789745

https://www.alamy.com/stock-photo-moose-from-behind-142718462.html

https://www.inaturalist.org/observations/131879614

https://www.inaturalist.org/observations/126552983

https://www.inaturalist.org/observations/125993345

Why A. alces is unusual, in possessing a fibular flag, is worthy of further investigation.

Posted on September 18, 2023 10:08 AM by milewski milewski | 17 comments | Leave a comment

September 19, 2023

Adaptive colouration in the largest living cervid, the moose (Alces alces)

@muir @matthewinabinett @aguilita @tonyrebelo @jeremygilmore @beartracker @nyoni-pete @oviscanadensis_connerties @tandala @capracornelius @paradoxornithidae @wjcrins @hereinthewild @marshall20 @nat_zouieva @marina_gorbunova @simontonge @mhughes26

At first sight, Alces alces seems nondescript in colouration (https://www.inaturalist.org/observations/19029155 and https://www.inaturalist.org/observations/4336204).

Valerius Geist, on pages 229-232 in Grzimek's Animal Life Encyclopedia (https://en.wikipedia.org/wiki/Grzimek%27s_Animal_Life_Encyclopedia), exaggerates somewhat when he states:
"European moose are dark brown with white legs, and American moose are black with a light saddle patch on the back, light-brown legs, and facial markings that vary between the sexes. In the female the face and nose are red-brown, while the bull has a black nose".

The following verify that the face tends to be paler than the neck and torso, in females of A. alces in North America (https://www.inaturalist.org/observations/178372818 and https://www.dreamstime.com/bull-moose-water-image259482733 and https://www.inaturalist.org/observations/8288949) and to some degree also in Europe (https://www.inaturalist.org/observations/175016790 and https://www.inaturalist.org/observations/174910182).

However, the difference in tone between the face and the rest of the figure is noticeable only in A. a. americana (see details in comment below, titled FACIAL FLAG IN ALCES ALCES AMERICANA).

Sexual differences in the colouration of the pelage of A. alces, beyond the face, are remarkably limited (https://www.inaturalist.org/observations/42138516 and https://www.youtube.com/watch?v=bujmogxgtp4 and https://www.youtube.com/watch?v=tsZUaGIt-r8 and https://www.google.com.au/search?q=Moose+mating&sca_esv=567242663&sxsrf=AM9HkKnsy5ar25NAM_QxNryBAc4ELWtrPA%3A1695294882706&source=hp&ei=oiUMZd3UJtixoATxmJzQAg&iflsig=AO6bgOgAAAAAZQwzssn9atv3I45ihgDieVv4Z3QxBVPr&ved=0ahUKEwjdrZPKybuBAxXYGIgKHXEMByoQ4dUDCAs&uact=5&oq=Moose+mating&gs_lp=Egdnd3Mtd2l6IgxNb29zZSBtYXRpbmcyBRAuGIAEMgUQABiABDIFEAAYgAQyBRAAGIAEMgUQABiABDIFEAAYgAQyBRAAGIAEMgUQABiABDIFEAAYgARImklQzg5Y-j5wAXgAkAEAmAGuA6AB_BiqAQkwLjEuOS4xLjG4AQPIAQD4AQGoAgrCAgcQIxjqAhgnwgIEECMYJ8ICCxAAGIAEGLEDGIMBwgIREC4YgAQYsQMYgwEYxwEY0QPCAgsQLhiDARixAxiABMICCxAAGIoFGLEDGIMBwgIHECMYigUYJ8ICCBAuGIoFGJECwgIIEAAYgAQYsQPCAggQABiKBRiRAsICCxAuGIoFGLEDGJECwgILEC4YgAQYxwEYrwE&sclient=gws-wiz#fpstate=ive&vld=cid:25246631,vid:YvNAJLygu9w,st:0). Even in the case of the face, males retain the female colouration as long as the antlers are still in velvet (https://www.daveshowalter.com/photo/bull-moose-portrait/).

Infants, although noticeably paler than adults, have colouration so plain that it, too, is nondescript (https://www.inaturalist.org/observations/4097272).

Seasonal changes in colouration are limited. There is a single annual molt (https://www.inaturalist.org/observations/108839229 and https://www.inaturalist.org/observations/125310240 and https://www.inaturalist.org/observations/22740621 and https://www.inaturalist.org/observations/20313689) in spring/early summer. The pelage, after being worn and weathered for a year, fades somewhat (https://www.inaturalist.org/observations/8449050).

However, the pelage remains dark enough in winter to be conspicuous against snowy backgrounds, even at distance (https://www.inaturalist.org/observations/148799385 and https://www.inaturalist.org/observations/135953868).

Despite the initial nondescript impression, my close scrutiny has revealed several noteworthy patterns of colouration, which deserve names, in A alces.

For example, the following shows a fibular flag, anterior auricular semet, and buccal semet in an adolescent female individual in the spring season, in Alces alces gigas: https://www.inaturalist.org/observations/163382249.

Although these features are subtle, individually variable, and perhaps seasonally variable, most of them occur in most of the nine subspecies.

CORNUAL FLAG

The antlers of A. alces, borne seasonally by males, tend to be conspicuously pale on the upper (dorsal) surface, in the subspecies with the largest antlers (https://unsplash.com/photos/Du8sGaNHVMc).

The cornual flag is derived essentially from the natural paleness of dry bone (https://www.inaturalist.org/observations/127384241).

However, in A. a. gigas and presumably A. a. buturlini,

This makes the antlers conspicuous, even at distance (https://www.inaturalist.org/observations/4612251).

The cornual flag in A. gigas

Cornual flag in Alces alces gigas:
https://www.inaturalist.org/observations/183421987
https://www.mediastorehouse.com/nature-picture-library/danny-green/moose-bull-alces-alces-walking-forest-clearing-15316906.html
https://www.inaturalist.org/observations/183421709
https://www.inaturalist.org/observations/458438
https://create.vista.com/unlimited/stock-photos/314205726/stock-photo-alaska-yukon-bull-moose-autumn/
scroll in https://www.akwildlife.org/news/wildlife-contest-2022

Cornual flag in Alces alces andersoni:
https://www.inaturalist.org/observations/61216754
https://www.mediastorehouse.com.au/design-pics/animals/bull-moose-peter-lougheed-provincial-park-18135905.html

Possible cornual flag in Alces alces shirasi:
https://www.inaturalist.org/observations/147438040
https://www.gettyimages.com.au/detail/news-photo/bull-moose-stands-on-bunn-trail-near-the-gunflint-trail-news-photo/55992779?adppopup=true and https://www.gettyimages.com.au/detail/news-photo/bull-moose-walks-on-bunn-trail-near-the-gunflint-trail-news-photo/55992785?adppopup=true

Possible cornual flag in Alces alces americana:
https://www.inaturalist.org/observations/76513586
https://visitsunsetcountry.com/hunting/moose

Incipient cornual flag in Alces alces alces:
https://www.mediastorehouse.com.au/nature-picture-library/2009-highlights/moose-alces-alces-taiga-woodland-15260457.html

FIBULAR FLAG

https://www.inaturalist.org/observations/8660028
https://www.gettyimages.com.au/detail/news-photo/november-2020-saxony-moritzburg-last-week-thursday-the-500-news-photo/1229586037?adppopup=true
https://www.behance.net/gallery/99847037/Bull-Moose-Bearspaw-Alberta?tracking_source=search_projects_recommended|Bull+Moose
https://www.closertothewild.com/gallery/p/style-01-slgxj-738cj-bnn5s-3e26g-rewyc-36zgb
https://www.shutterstock.com/image-photo/winter-sunny-day-young-moose-cow-2125295291
https://www.dreamstime.com/stock-photography-bull-moose-image21621952
https://www.dreamstime.com/wet-cow-moose-standing-forest-image183436539
https://www.inaturalist.org/observations/139111514
https://www.inaturalist.org/observations/61913264
https://www.inaturalist.org/observations/134851345
https://www.alamy.com/moose-in-jasper-canada-image348236851.html?imageid=D433EBFE-8D95-490C-BEAE-57C59F4AD201&p=466062&pn=5&searchId=59e69530b8d11356f2f4edcf3f5ed079&searchtype=0
https://www.alamy.com/young-elk-age-about-one-year-male-on-the-edge-of-the-spring-forest-image259781936.html?imageid=A982D41F-5A22-489F-99A6-9C17CFE32440&p=270423&pn=7&searchId=17a6b40e8c8fbef3da4fa2fc3209a279&searchtype=0
https://www.inaturalist.org/observations/35513964
https://www.inaturalist.org/observations/137101323
https://www.alamy.com/stock-photo-bull-moose-in-sweden-147415246.html?imageid=EE970C0F-EFDB-4D8A-94DA-986ACC0035E4&p=141390&pn=1&searchId=773e4e372ef4503cec1f3e748077968c&searchtype=0

Please see https://www.inaturalist.org/journal/milewski/84573-a-new-feature-of-adaptive-colouration-in-ungulates-the-fibular-flag-part-2-alces-alces-cervidae#

The fibular flag is best-developed in the nominate subspecies, A. a. alces, of Europe and western Russia, in which it tends to extend to the inner surface of the buttock (https://www.inaturalist.org/observations/149814632) and/or the hock.

The role of sheen deserves investigation.

The following shows the extreme development of the pale pelage in A. alces, in which it encompasses most of the hindleg (https://www.inaturalist.org/observations/112176729).

PEDAL FLAG

A case can be made that A. alces possesses a pedal flag, in some individuals. This applies particularly to the nominate A. a. alces (https://www.inaturalist.org/observations/142224245 and https://www.inaturalist.org/observations/142020077).

This pedal flag consists of conspicuous pale on the hocks and carpals (particularly on the posterior surface of the carpals), extending to varying extent down the lower limbs towards the hooves, and connected to the fibular flag where the latter is present (https://www.alamy.com/stock-photo-bull-moose-crossing-the-road-denali-national-park-alaska-usa-29001311.html?imageid=984BF44C-2D52-4F90-BF1B-9372BC0185A4&p=29229&pn=1&searchId=acbc6be48e9684687a1dabcb59018a60&searchtype=0).

The fetlocks and pasterns themselves are not whitish (https://www.gettyimages.com.au/detail/news-photo/december-2022-sweden-%C3%B6ster-malma-a-bull-moose-stands-in-the-news-photo/1246124150?adppopup=true and https://www.gettyimages.com.au/detail/news-photo/december-2022-sweden-%C3%B6ster-malma-a-bull-moose-stands-in-the-news-photo/1246124213?adppopup=true and https://www.shutterstock.com/image-photo/front-split-hoofs-moose-standing-on-727556374 and https://www.inaturalist.org/observations/134620144 and https://www.inaturalist.org/observations/35655176 and https://www.inaturalist.org/observations/55865091), except in some individuals of the nominate A. a. alces (https://www.mostphotos.com/en-us/25919107/moose-or-european-elk-alces-alces-hooves).

A factor undermining the validity of a pedal flag in A. alces is that, for much of the year, the pale on the legs is inconspicuous against a background of snow (https://www.inaturalist.org/observations/42170238 and https://www.inaturalist.org/observations/143176855).

https://www.inaturalist.org/observations/51436631
https://www.inaturalist.org/observations/33064841
https://www.dreamstime.com/large-brown-black-bull-moose-standing-park-image193883277
https://www.dreamstime.com/stock-photo-moose-bull-elk-standing-road-image66248282

To the degree that the pedal flag is valid in A. alces, it is linked to, and subsidiary to, the fibular flag (https://www.inaturalist.org/observations/142257592). In A. a. alces, the joint pattern can perhaps be called a pedofibular flag.

ANTERIOR AURICULAR SEMET

Please see https://www.inaturalist.org/journal/milewski/55694-ten-best-illustrations-of-auricular-semets-in-deer#

One of the most consistent patterns of colouration in A. alces is a small-scale dark/pale contrast on the anterior base of the ear pinna (https://www.dreamstime.com/stock-photo-moose-north-america-elk-europe-alces-alces-largest-extant-species-deer-family-moose-distinguished-image50713041).

The location of this pattern is such that it accentuates the movements of the ears, in vigilance and emotional expression. Such accentuation is hypothetically adaptive in social (intraspecific) interactions, and may additionally function in anti-predator, defensive displays.

Several other genera of cervids possess auricular semets. However, that of A. alces is restricted to the anterior surface, and has its own particular configuration.

The following show the anterior auricular semet in various subspecies of A. alces:

A. a. alces:
https://www.inaturalist.org/observations/122347911
https://www.inaturalist.org/observations/119099452

A. a. americana:
https://www.inaturalist.org/observations/183781173
https://www.inaturalist.org/observations/165912205
https://www.inaturalist.org/observations/82792870

A. a. gigas:
https://www.inaturalist.org/observations/172965903
https://www.inaturalist.org/observations/15093287

A. a. andersoni:
https://www.inaturalist.org/observations/170210903
https://www.inaturalist.org/observations/166029819

A. a. shirasi:
https://www.inaturalist.org/observations/174251418

In Alces alces, unlike another large cervid partly sympatric with it, the auricular semet does not disappear in mature males (see https://colombia.inaturalist.org/journal/milewski/69281-intriguing-new-sexual-dimorphism-in-the-wapiti).

The following show that the anterior auricular semet, although absent in newborns, develops before the infantile colouration is lost, and before the muzzle develops:
https://www.inaturalist.org/observations/133091834
https://www.dreamstime.com/stock-photo-small-moose-few-days-standing-woods-next-to-pine-tree-image53403214.

BUCCAL SEMET

The peculiar muzzle of A. alces is so distracting that the colouration around the mouth may go unnoticed. Furthermore, this colouration is subtle and individually variable.

However, there tends to be a pattern in which the broadly dark lower lip is offset by pale ventral to the gape. The clearest illustration is https://www.inaturalist.org/observations/65908659.

The following are additional illustrations:
https://www.inaturalist.org/observations/152098783 and https://www.inaturalist.org/observations/148835598 and https://www.inaturalist.org/observations/13505171 and https://www.dreamstime.com/stock-photo-moose-eating-green-grass-near-water-grand-tetons-national-park-image50021650 and scroll to second photo in https://journals.openedition.org/paleo/5126 and https://www.inaturalist.org/observations/157638267 and https://www.inaturalist.org/observations/120152994 and https://www.inaturalist.org/observations/37290353 and https://www.inaturalist.org/observations/65278592 and https://www.inaturalist.org/observations/56223948 and https://www.inaturalist.org/observations/162881182.

This pattern of colouration hypothetically accentuates the chewing movements (https://www.inaturalist.org/observations/88438853). This hypothetically aids vigilance during rumination, when two or more adult/adolescent individuals rest within sight of each other (https://www.dreamstime.com/stock-photos-moose-image20463023).

Buccal semet in Alces alces buturlini:
https://www.alamy.com/female-moose-alces-alces-in-profile-kronotsky-zapovednik-nature-reserve-kamchatka-peninsula-russian-far-east-december-image263189582.html?imageid=8337E994-E81B-42C7-9D06-32050AEFBBE0&p=216449&pn=1&searchId=693543c6c0b82d61e979d27d23f7d17f&searchtype=0

Buccal semet in Alces alces gigas:
https://www.inaturalist.org/observations/153275621
https://www.inaturalist.org/observations/2646616
https://www.inaturalist.org/observations/13172080

Variation in this feature deserves further investigation. The pattern seems clearest in spring, when the worn, weathered pelage has faded but the dark on the lower lip has not faded (https://www.inaturalist.org/observations/5155147). The following shows the minimal expression of the buccal semet (https://www.inaturalist.org/observations/114831099), but it is unclear whether this is because of the summer season or individual variation.

Of all the features described here, the buccal semet is the most precocial, in the sense that the lower lip is dark even in infants (https://www.inaturalist.org/observations/29864809 and https://www.123rf.com/photo_188787653_portrait-of-a-walking-cow-moose-and-her-calf-alces-alces.html and https://www.inaturalist.org/observations/7440096).

Posted on September 19, 2023 12:46 AM by milewski milewski | 30 comments | Leave a comment

September 21, 2023

The remarkable - and perhaps unnatural - success of the moose (Alces alces shirasi) in Colorado, as evidenced by observations in iNaturalist

@muir @matthewinabinett @davidbygott @aguilita @mhughes26

In the late 1800's, when the large mammals of North America were generally depleted by the human species, the moose (Alces alces) was virtually absent from Colorado (https://en.wikipedia.org/wiki/Colorado).

The appropriate subspecies was reintroduced/introduced to Colorado about 45 years ago, and has become common here.

This success is noteworthy, because Colorado is at the southern extreme of the distribution of the moose, worldwide.

Please see https://coloradooutdoorsmag.com/2021/03/03/colorado-moose-reintroduction/ and https://k99.com/colorado-has-one-of-the-fastest-growing-moose-populations-in-u-s/ and https://cpw.state.co.us/documents/wildlifespecies/mammals/moosereintroductionfactsheet.pdf and https://coloradoencyclopedia.org/article/moose#:~:text=In%20the%201970s%2C%20there%20were,to%20other%20parts%20of%20Colorado. and https://cpw.state.co.us/learn/Pages/MooseReintroductionProgram.aspx and https://www.denverpost.com/2017/06/27/colorado-moose-coexisting-people/ and http://peaktocreekfilms.com/comoosefilm and https://www.aspendailynews.com/moose-flourishing-in-colorado/article_56681247-d99a-5e80-bfc1-effeed27b741.html and https://www.steamboatpilot.com/news/many-more-moose-local-population-has-increased-dramatically-in-20-years/ and https://art19.com/shows/colorado-outdoors/episodes/899ceb83-518c-466f-9c27-76207e1ca166 and https://www.coloradovirtuallibrary.org/resource-sharing/state-pubs-blog/viewing-moose-in-colorado/ and https://cpw.state.co.us/learn/Pages/LivingwithWildlifeMoose.aspx.

The population of the moose in Colorado is reported to have reached 3,000 in 2023. Hunting of this, the largest-bodied game animal in the state, is now routinely permitted.

What is particularly remarkable about this successful introduction/reintroduction is the degree to which it has been apparent to naturalists. Photos of the moose in Colorado, posted in iNaturalist, already exceed 3,000 (https://www.inaturalist.org/observations?page=27&place_id=34&taxon_id=522193).

This means that, in a sense, there is one photo for every individual of the moose in Colorado. How could both the moose and iNaturalist have been more successful?

However, this spectacular success is open to interpretation.

Is this a case of restoration of the natural occurrence of the moose, or an anthropogenic extension of the distribution of the species?

Comments from Readers would be welcome.

Posted on September 21, 2023 01:59 AM by milewski milewski | 3 comments | Leave a comment

September 23, 2023

Subspecies of the moose (Alces alces) turn out to be too nebulous to identify from photographs

@muir @matthewinabinett @aguilita @tonyrebelo @jeremygilmore @beartracker @nyoni-pete @oviscanadensis_connerties @tandala @capracornelius @paradoxornithidae @wjcrins @hereinthewild @marshall20 @nat_zouieva @marina_gorbunova @simontonge @michalsloviak @chewitt1 @maxallen @calebcatto @jwidness @bobby23 @mhughes26

Also see:

https://www.inaturalist.org/journal/milewski/84595-adaptive-colouration-in-the-largest-living-cervid-the-moose-alces-alces#

https://www.researchgate.net/publication/272744329_Evolution_of_a_rump_patch_in_Alaskan_moose_an_hypothesis

https://www.researchgate.net/profile/R-Bowyer/publication/272818592_Moose_Alces_alces/links/54ef7d600cf25f74d7227c51/Moose-Alces-alces.pdf

There are currently so many thousands of photos of Alces alces on the Web, particularly in iNaturalist (https://www.inaturalist.org/taxa/522193-Alces-alces), that it has taken me weeks to go through most of them.

However, remarkably few are labelled as to subspecies.

This seems to be mainly because available information on the Web, on the differences in appearance among the nine subspecies, is scant and confusing.

So, I have devoted several weeks to compiling a photo-guide to the subspecies.

I have failed.

The reasons for my failure are, in decreasing order of importance,

  • each population shows excessive variation in colouration among individuals,
  • the colouration is so nondescript/nebulous that even any 'typical' colouration is hard to find, for any subspecies,
  • there are few, if any, clear photos for several subspecies, namely caucasicus (extinct), cameloides and buturlini (remote), and pfizenmayeri (extremely remote),
  • variation seems to be clinal longitudinally, from Europe through Asia and Beringea to eastern North America, and
  • the colouration is disrupted by the annual cycle of molt of the pelage.

There is certainly considerable variation in body size among subspecies, with gigas and buturlini largest, and cameloides and shirasi smallest.

There is also obvious variation in the proportional size of the antlers, corresponding partly to body size - with gigas and buturlini possessing the largest antlers, and cameloides and nominate alces the smallest.

However, these variations in size are not necessarily diagnostic of subspecies, because

There is scant sexual dimorphism in the colouration of the pelage, in A. alces. The main feature distinguishing males is the darkness of the rostrum (https://www.gettyimages.com.au/detail/photo/moose-bull-with-antlers-chugach-state-park-alaska-royalty-free-image/104336075?phrase=bull+moose&adppopup=true), and even this appears only in autumn and winter, when the antlers are hard. I.e. as long as the antlers are still in velvet, the rostrum remains the same medium tone as in females (https://www.gettyimages.com.au/detail/photo/wildlife-in-wyoming-morning-moose-too-royalty-free-image/865860394?phrase=bull+moose&adppopup=true).

My perusal of tens of thousands of photos has produced the following as the clearest depictions of each putative subspecies.

ALCES

https://www.inaturalist.org/observations/48543915
https://www.inaturalist.org/observations/74824385
https://www.inaturalist.org/observations/40353294
https://www.inaturalist.org/observations/40295954
https://www.inaturalist.org/observations/36579437
https://www.inaturalist.org/observations/107471426

PFIZENMAYERI

https://www.inaturalist.org/observations/154930634
https://www.inaturalist.org/observations/99207826

CAMELOIDES

https://www.inaturalist.org/observations/100833248

BUTURLINI

no clear photos found

GIGAS

https://www.inaturalist.org/observations/19029155
https://www.inaturalist.org/observations/4336204
https://www.gettyimages.com.au/detail/photo/bull-moose-standing-on-paved-road-royalty-free-image/657485904?phrase=bull+moose&adppopup=true
https://www.alamy.com/stock-photo-moose-alces-alces-gigas-bull-shedding-velvet-in-fall-colour-denali-43929349.html?imageid=B7C5FC8C-124E-45F2-8F36-BBECD7DF7619&p=82357&pn=1&searchId=acbc6be48e9684687a1dabcb59018a60&searchtype=0
https://www.alamy.com/stock-photo-moose-alces-alces-gigas-bull-shedding-velvet-in-fall-colour-denali-43929346.html?imageid=7FE5B5FD-8DD8-41F7-B30B-56A0F3B06FA5&p=82357&pn=1&searchId=acbc6be48e9684687a1dabcb59018a60&searchtype=0
https://www.alamy.com/large-bull-moose-alces-alces-standing-in-brush-near-powerline-pass-in-the-chugach-state-park-near-anchorage-in-south-central-alaska-on-a-sunny-a-image262218511.html?imageid=74278539-3205-4823-8AD0-46EFF7A6FB65&p=865240&pn=2&searchId=554d1410ca2b2a81e85b649c9589dd49&searchtype=0
https://create.vista.com/unlimited/stock-photos/343027438/stock-photo-cow-alaska-yukon-moose-denali-national-park-autumn/
https://www.flickr.com/photos/richardmcguire/27569540250
https://create.vista.com/unlimited/stock-photos/321158754/stock-photo-alaska-yukon-bull-moose-denali-national-park-alaska-autumn/
https://create.vista.com/unlimited/stock-photos/403606204/stock-photo-alaska-yukon-bull-moose-autumn/
https://create.vista.com/unlimited/stock-photos/347164868/stock-photo-alaska-yukon-bull-moose-autumn-denali-national-ark/
https://www.alamy.com/stock-photo-bull-moose-in-rut-near-powerline-pass-in-chugach-state-park-with-the-37569209.html?imageid=45F0C1B5-ABCD-4D02-9CE7-F9CA3C24FA8E&p=228600&pn=1&searchId=acbc6be48e9684687a1dabcb59018a60&searchtype=0
https://www.alamy.com/stock-photo-a-large-bull-moose-near-jewel-lake-road-in-anchorage-southcentral-125340208.html?imageid=9FBF37D1-13CB-4243-ADC6-9AA1AB5E2564&p=228198&pn=2&searchId=34e410ab9894add09ba6f8a15ae051be&searchtype=0

ANDERSONI

https://www.inaturalist.org/observations/34440227
https://pngtree.com/freebackground/bull-moose-alberta-national-moose-meadow-photo_4533013.html
https://www.inaturalist.org/observations/136606221
https://www.inaturalist.org/observations/24376876
https://www.inaturalist.org/observations/124213587
https://www.inaturalist.org/observations/87482894
https://www.inaturalist.org/observations/59045574
https://www.inaturalist.org/observations/50346121
https://www.inaturalist.org/observations/142792524
https://www.inaturalist.org/observations/97397248
https://www.agefotostock.com/age/en/details-photo/big-bull-moose-alces-alces-in-alberta-canada/ACX-acp82420

SHIRASI

scroll to second photo in https://yellowstone.net/wildlife/moose/
https://www.shutterstock.com/image-photo/bull-moose-38346343
https://www.shutterstock.com/image-photo/bull-moose-38346340
https://www.dreamstime.com/moose-grand-teton-national-park-moose-grand-teton-national-park-wyoming-fall-mating-season-rut-september-image245496137
https://www.dreamstime.com/moose-grand-teton-national-park-wyoming-fall-mating-season-rut-september-october-moose-grand-teton-image245496154
https://depositphotos.com/photo/bull-cow-moose-rutting-wyoming-autumn-654387068.html
https://dailywildlifephoto.nathab.com/photos/3853-mother-daughter-10-16-2016

AMERICANA

https://www.inaturalist.org/observations/106180210
https://www.inaturalist.org/observations/199608
https://zoo-world-builder.fandom.com/wiki/Eastern_Moose?file=Moose.jpg
https://www.inaturalist.org/observations/175626629
https://www.inaturalist.org/observations/170927798
https://www.inaturalist.org/observations/55865091
https://www.inaturalist.org/observations/35655176

DISCUSSION

Any subspecific distinctions are quantitative, the various populations overlapping broadly in features. No subspecies shows any categorically distinct feature, and every subspecies shows much individual variation.

Alces alces gigas, restricted to Alaska and western Yukon, seems to be distinctive enough to warrant its subspecific status (https://en.wikipedia.org/wiki/Alaska_moose).

This is because

Photos bear out the fact that, in A. a. gigas, the withers (pale), rest of torso (medium), and haunches (dark) tend towards a three-toned pattern. The antlers are indeed proportionately large, and conspicuously pale (noticeably mainly in September)

However, I question the subspecific status of even A. a. gigas. This is because

  • its phenotype does not necessarily correspond to a distinctive genotype, and
  • the tonal differentiation on withers, torso, and haunches also occurs in other regions, including faraway Europe, on an individual basis.

Alces alces is an extremely recent species, evolutionarily, having arisen within the timespan and the zone of influence of the modern human species. It is, in a sense, an anthropogenic species and perhaps even genus, possessing the extreme versatility of foraging, and the extreme fecundity, needed to survive predation by Homo sapiens.

I would not go as far as to suggest that all subspecies of A. alces are invalid. This is because

  • populations in western Europe have reached a distance of 18,000 km from those in eastern Canada, and
  • pale pelage on the legs certainly tends to be expressed more in Europe than in North America - indicating at least a geographical (circum-subpolar) cline.

However, I now know that - despite my best efforts - I remain unable to identify any subspecies from its appearance in photos, as opposed to from its location and context.

If subspecies are valid and are expressed phenotypically, then the best that can be said is that they involve different probabilities in a shared spectrum of features of antler-form and colouration (particularly on the legs).

Posted on September 23, 2023 03:19 AM by milewski milewski | 15 comments | Leave a comment

September 24, 2023

A comparison of postures and gaits between two 'elands', the moose (Alces alces) and the common eland (Taurotragus oryx)

@tonyrebelo @jeremygilmore @tandala @oviscanadensis_connerties @aguilita @capracornelius @zarek @dejong @michalsloviak @christiaan_viljoen @dinofelis @maxallen @chewitt1 @saber_animal @scottdwright @calebcam @jwidness @matthewinabinett @lefebvremax @ldacosta @henrydelange @davidbygott @jandutoit @gigilaidler @sitszasadam @muir @outnabout @mhughes26 @mhairimcf @kfinn

Also please see https://www.inaturalist.org/journal/milewski/69307-a-new-observation-on-maternal-defensive-behaviour-in-the-moose-alces-alces#

When the Dutch landed in South Africa in the late seventeenth century, they found the strange bovid, Taurotragus oryx, to be so similar to the familiar cervid, Alces alces, that they used the same name.

'Eland' is the Dutch word for Alces alces alces (https://www.inaturalist.org/observations?taxon_id=852458), which was originally indigenous to the Netherlands.

This adoption of a misnomer - which has persisted for nearly four centuries - is understandable, because both species

In this Post, I compare A. alces with T. oryx with respect to postures and gaits, in light of the profound differences in their habitats and niches.

LYING

Both species rest in sternal recumbency (https://bestofthetetons.com/2014/11/18/resting-moose-a-collection-of-less-seen-lifestyle-images/ and https://www.alamy.com/stock-photo/eland-lying-down.html?sortBy=relevant).

KNEELING

A major difference is that A. alces kneels readily at all ages (https://www.azotelibrary.com/en/image/a-moose-%28alces-alces%29-kneels-to-eat-grass-in-a-meadow-in-s%C3%B6dermanland/191539), whereas T. oryx seems never to kneel (apart from transitorily when lying down in sternal recumbency, or arising from such lying, https://www.bestofthetetons.com/wp-content/uploads/2014/11/RestingMoose_GettingUpSequence1400px.jpg and https://www.shutterstock.com/image-photo/eland-antelope-rising-grass-savannah-green-2247874629).

When drinking, T. oryx sometimes spreads its forelegs to some degree, in partial emulation of Giraffa (https://www.alamy.com/giraffe-and-elands-at-a-waterhole-area-etosha-national-park-namibia-africa-image415771067.html?imageid=16AC8853-6C1A-4753-BFF4-3ABEAFFEE8E7&p=1364503&pn=1&searchId=c841ad5a0499198295bbf8dbec6d6cc6&searchtype=0 and https://africageographic.com/stories/eland/ and https://www.pinterest.com.au/pin/vertical-photo-of-huge-eland-antelopetaurotragus-oryx-standing-under-angolan-giraffe-drinking-from-waterhole-animals--664492120013532545/ and https://www.sciencephoto.com/media/389750/view/eland-antelope-drinking and https://fineartamerica.com/featured/eland-antelope-drinking-tony-camachoscience-photo-library.html?product=wood-print and https://www.alamy.com/stock-photo-eland-drinking-at-waterhole-etosha-namibia-19949416.html and https://www.gettyimages.ae/detail/photo/common-eland-drinking-at-chudop-waterhole-etosha-royalty-free-image/1032889546).

I have yet to see a similar posture in A. alces - which instead kneels in such situations.

When sparring or fighting in masculine rivalry, neither species routinely kneels (https://www.shutterstock.com/image-photo/common-eland-taurotragus-oryx-male-fight-2255105889). In the case of T. oryx, I have yet to see evidence of any kneeling at all.

There are many photos on the Web of A. alces in kneeling posture (please see examples at the end of this Post).

JUMPING

Alces alces can jump 2 m high, whereas T. oryx can jump 3 m high (https://naloolo.wordpress.com/2018/03/11/jumped-over-by-an-eland/).

The former species is a capable jumper, in line with other cervids. However, the latter is a remarkable jumper indeed. This is the converse of what might be predicted based on the length of the legs.

C R S Pitman (https://en.wikipedia.org/wiki/Charles_Pitman_(game_warden)) recorded a case where a mature male individual of T. oryx (weighing perhaps >550 kg, https://www.inaturalist.org/observations/182885490 and https://www.inaturalist.org/observations/184504263) easily vaulted an enclosure 2.4 m high.

STOTTING/LEAPING

Alces alces is not known to stot. However, it is possible that, when it trots with particularly high steps (https://www.istockphoto.com/photo/young-bull-moose-running-across-stubble-field-gm491959369-40066416?phrase=elk+running+snow), this may be a demonstration of fitness, analogous to the proud-trotting of certain other ruminants.

Also deserving further scrutiny is the juvenile 'play-trotting', while wading, seen in https://www.youtube.com/watch?v=lVPfRQjDPBE.

By contrast, T. oryx has often been photographed 'stotting', in a way different from most other bovids.

https://www.inaturalist.org/posts/84799-a-comparison-of-postures-and-gaits-between-two-elands-the-moose-alces-alces-and-the-common-eland-taurotragus-oryx#activity_comment_ea173845-ebfc-4344-8f53-db445302c407

Instead of bouncing stiff-legged, individuals leap randomly, and seemingly pointlessly, while galloping in alarm in a group (https://www.naturepl.com/stock-photo-male-eland-taurotragus-oryx-jumping-etosha-national-park-namibia-image01240040.html and https://twitter.com/Min_TourismKE/status/720195243241578496/photo/2 and https://www.zooniverse.org/projects/zooniverse/snapshot-serengeti/talk/1485/912470 and https://www.alamy.com/stock-photo-africa-kenya-masai-mara-motion-blur-of-eland-jumping-through-grass-32822773.html?imageid=B09244FD-293E-4CD1-B166-556A9E4CB550&p=95453&pn=1&searchId=6101ba2c62ae717283a6f3f1f002323c&searchtype=0 and https://www.alamy.com/stock-photo-eland-taurotragus-oryx-herd-running-laikpia-kenya-125584865.html?imageid=2DF7F368-4CD7-498D-97F8-AF1C2B837801&p=361664&pn=1&searchId=010f32aaa73c04f1f11960177dc59d66&searchtype=0). This sometimes means leaping over the back of an adjacent individual. This behaviour may function similarly to stotting, in demonstrating individual fitness to potential predators.

BIPEDALITY

Alces alces sometimes stands bipedally, both to forage (https://www.reddit.com/media?url=https%3A%2F%2Fi.redd.it%2Feot6wzys7i981.jpg) and to quarrel (https://www.gettyimages.ca/detail/video/cow-moose-standing-up-on-their-hind-legs-and-fighting-in-stock-footage/460383460 and scroll in https://www.canadiannaturephotographer.com/Joe_Desjardins.html).

By contrast, T. oryx - as far as I know - never uses any bipedal posture except transitorily (for a split-second) by males in copulation (https://www.dreamstime.com/stock-photo-common-elands-mating-pair-taurotragus-oryx-amakhala-game-reserve-eastern-cape-south-africa-image51205440). Even in copulation, males support their weight on the females (https://www.agefotostock.com/age/en/details-photo/a-pair-of-common-elands-taurotragus-oryx-mating-in-the-amakhala-game-reserve-eastern-cape-south-africa/ESY-026334176).

Taurotragus oryx compensates for its inability to stand bipedally, as follows (https://www.youtube.com/watch?app=desktop&v=tqe_qvUX43k). This species has often been observed to forage as high as 2.13 m, "frequently using their horns to break branches in order to get at the leaves" (J Posselt, African Wild Life magazine, June 1961).

Alces alces also breaks woody stems while foraging, but does so by

FORAGING NEAR GROUND LEVEL WITHOUT KNEELING

Both A. alces and T. oryx are capable of foraging, without kneeling, on terrestrial plants lower than 20 cm above ground level. This is because the former combines a short neck with a long muzzle, whereas the latter combines a relatively long neck with a relatively short muzzle.

However, foraging in this way is easier for T. oryx than for A. alces, the former grazing as a staple part of its foraging (short green grass during the rainy season), whereas the latter seldom grazes. The neck of A. alces is so proportionately short that the length of the muzzle does not quite compensate.

Thus the shoulders and elbows are more flexed in an awkward posture in the case of A. alces, with the humerus approaching the horizontal (https://www.usgs.gov/media/images/moose-alces-alces-19 and https://unsplash.com/photos/tLUKrYFh4-w and https://pixels.com/featured/bull-moose-in-velvet-grazing-edie-ann-mendenhall.html and https://www.123rf.com/photo_6921276_bull-moose-grazing.html and https://www.agefotostock.com/age/en/details-photo/alaska-moose-grazing-in-tundra-male-moose-in-green-tundra-grazing-alaska/MEV-12905729).

By contrast, T. oryx appears more at ease when grazing (https://www.inaturalist.org/observations/148679101 and https://www.inaturalist.org/observations/183667651 and https://www.inaturalist.org/observations/186183888 and https://www.inaturalist.org/observations/185385079).

To reach ground level itself with the mouth, the two species differ categorically.

Alces alces is incapable of doing so without kneeling (please see compendium of photos at the end of this Post).

By contrast, T. oryx does so by flexing the shoulders and elbows slightly, and leaving one foreleg at an angle (https://www.inaturalist.org/observations/11166225 and https://www.inaturalist.org/observations/141140285 and https://www.inaturalist.org/observations/181256408 and https://www.alamy.com/cape-eland-grazing-at-de-hoop-national-reserve-cape-overberg-south-image9879753.html?imageid=43081444-5267-444D-BC18-39F285FC4BCE&p=6945&pn=1&searchId=bebe53939638886546a1f3e44729a7e9&searchtype=0 and https://www.alamy.com/eland-taurotragus-oryx-de-hoop-nature-reserve-western-cape-south-africa-image399153412.html?imageid=B11E5FBA-723B-4A35-8CD5-F15BD837EF7F&p=12455&pn=2&searchId=5cd2bf43ed0e0cf1d243f5a9906dcb64&searchtype=0 and https://www.inaturalist.org/observations/34994877 and https://www.inaturalist.org/observations/27276823).

WALKING

Please also see https://www.inaturalist.org/journal/milewski/85161-variation-in-walking-gaits-in-ungulates-why-some-hoofed-mammals-cross-walk-whereas-others-amble#.

Please see https://www.youtube.com/watch?v=t4zdTn02PWQ

Alces alces and T. oryx seem to walk with identical gaits. This is a semi cross-walk, not an amble.

Semi cross-walking is typical of ungulates dependent on cover, whereas ambling is typical of gregarious ungulates adapted to open environments. Alces alces is more cover-dependent than T. oryx.

Alces alces is the only long-legged ungulate that semi cross-walks. For its part, T. oryx is possibly the only 'plains game' ungulate that semi cross-walks.

Alces alces fully cross-walks when walking backwards (https://www.youtube.com/watch?v=Z5eY7kVsLQA), as does the horse (Equus caballus, https://www.deviantart.com/nexu4/art/white-horse-walking-backwards-392656340 and https://kenziedysli.com/walking-backwards/).

The following show the normal semi cross-walk of A. alces. Please note that, by the time that the fore is about to be placed, the opposite hind has already been lifted, for long enough that the lower leg has reached the vertical.

https://a57.foxnews.com/global.fncstatic.com/static/managed/img/fn2/video/876/493/edge_moose_052014.jpg?ve=1&tl=1
https://www.istockphoto.com/photo/bull-moose-gm1055977806-282201912
https://fineartamerica.com/featured/walking-bull-moose-randy-straka.html
https://www.alamy.com/bull-moose-denali-national-park-preserve-alaska-united-states-of-america-a-unique-optimised-version-of-an-image-by-nps-ranger-jw-frank-credit-npsjacob-w-frank-image454466690.html?imageid=DC229BEB-798B-4807-AFC7-245D832C911F&p=1837101&pn=1&searchId=acbc6be48e9684687a1dabcb59018a60&searchtype=0
https://pixels.com/featured/bull-moose-crossing-river-jack-bell.html?product=wood-print

The following, correspondingly, show the semi cross-walk of T. oryx.

https://www.kimballstock.com/popuppreview.asp?db=a&image=AFW+36+MH0004+01&itemw=4&itemf=0001&itemstep=1&itemx=1
https://www.istockphoto.com/photo/young-eland-walking-on-the-skyline-gm670061476-122489693
https://www.alamy.com/common-or-southern-eland-taurotragus-oryx-de-hoop-nature-reserve-western-cape-south-africa-image555774369.html?imageid=B8DBE331-4F0A-4C2E-9AA5-68B247944D26&p=824482&pn=1&searchId=bebe53939638886546a1f3e44729a7e9&searchtype=0

The following (https://www.wanyamasafaris.com/kruger-giants/) nicely shows that, when T. oryx walks briskly, the left fore hoof touches the ground at the same instant that the right hind hoof loses touch with the ground. This is the normal configuration in walking in Syncerus caffer, as well as equids.

The following (https://www.inaturalist.org/observations/70876892) is intriguing in showing a full cross-walk in A. alces, in forward motion. I surmise that this extreme gait was resorted to during a brief crossing of unstable stony ground.

Walking gaits of other ungulates, for comparison:

The following, of Alcelaphus caama, shows the difference between the semi cross-walk of tragelaphins (including T. oryx) and the amble of alcelaphins (including hartebeests). The hind hoof is lifted only once the opposite fore hoof has touched the ground.

https://www.istockphoto.com/photo/wild-red-hartebeest-during-the-summer-in-beautiful-pilanesberg-national-park-south-gm1358864733-432370852?phrase=hartebeest

The following shows that Camelus dromedarius, although similar to A. alces in the proportional length of the legs, is similar in walking gait to alcelaphins, and different from A. alces.

https://www.gettyimages.com.au/detail/photo/side-view-of-camel-walking-royalty-free-image/1146381538

https://www.inaturalist.org/observations/182080028 and https://www.inaturalist.org/observations/179933097 and https://www.inaturalist.org/observations/145035064

TROTTING

Both species trot, as their preferred gait in running (https://www.youtube.com/watch?v=yxTsf51vqmE and https://www.inaturalist.org/observations/10849500 and https://www.youtube.com/watch?v=e-PA5qsOjBg and https://www.inaturalist.org/observations/25872372 and https://commons.wikimedia.org/wiki/File:Muybridge,Eadweard-Trottender_Eland%28Zeno_Fotografie%29.jpg and https://www.1stdibs.com/art/photography/black-white-photography/eadweard-muybridge-animal-locomotion-plate-696-eland-walking-1887-eadweard-muybridge/id-a_5936652/ and https://www.bridgemanimages.com/en/muybridge/eadweard-muybridge-the-trot-b-w-photo/black-and-white-photograph/asset/6015695 and https://www.flickr.com/photos/wikimediacommons/15998245714/).

Alces alces can trot with a high-stepping style, allowing it

Because its legs are so long, its speed while trotting corresponds to the cantering gait of other ruminants of similar body mass.

For its part, T. oryx is remarkable in that it trots even when in immediate danger from predators (https://www.youtube.com/watch?v=OWcItn5k7KI and https://www.youtube.com/watch?v=wSMoF7fDRYQ and https://www.youtube.com/watch?v=wSMoF7fDRYQ and https://thegreatestmaasaimara.com/?competition_data=cheetah-hunting-eland).

CANTERING

Please see https://www.youtube.com/watch?v=AoLg6aDqwUI

I have yet to see evidence that either A. alces and T. oryx ever canter.

GALLOPING

Please see https://www.youtube.com/watch?v=RV9P0w8vZi8 and

Both species are capable of galloping for limited distances.

Alces alces:
!https://www.youtube.com/watch?app=desktop&v=XlcypwnGcjQ
https://www.facebook.com/fox13seattle/videos/snowboarders-film-moose-running-alongside-them-down-mountain/10156033272534199/?locale=ms_MY
https://www.alamy.com/stock-photo-galloping-moose-on-the-run-39492457.html?imageid=5350CBC7-C4B1-4B9A-9B64-6D290EE4B904&p=34828&pn=1&searchId=9980e653e8ba1e2c918d82ab21cc4bd3&searchtype=0
https://www.alamy.com/stock-photo-galloping-moose-on-the-run-39492473.html?imageid=33DB1C68-DD8A-4C00-AD3B-DC32CDCC8420&p=34828&pn=1&searchId=9980e653e8ba1e2c918d82ab21cc4bd3&searchtype=0
https://www.alamy.com/eurasian-elk-alces-alces-alces-galloping-jaemtland-or-jamtland-sweden-image61916611.html?imageid=3BC9868E-A8B6-4863-99A7-6C3CC44A4B4A&p=75026&pn=1&searchId=9980e653e8ba1e2c918d82ab21cc4bd3&searchtype=0

Taurotragus oryx:
https://www.alamy.com/stock-photo-cape-eland-running-through-the-golden-grasses-of-the-open-serengeti-23833726.html?imageid=ED4E0569-531B-4524-BA79-6BD1B4DFE2A1&p=17446&pn=1&searchId=010f32aaa73c04f1f11960177dc59d66&searchtype=0
https://www.alamy.com/stock-photo-cape-eland-running-through-the-golden-grasses-of-the-open-serengeti-23832589.html?imageid=17B542F1-E9D2-4E86-826E-EF7E8C5BB3F9&p=17446&pn=1&searchId=010f32aaa73c04f1f11960177dc59d66&searchtype=0
https://www.alamy.com/eland-running-taurotragus-oryx-masai-mara-kenya-image181597557.html?imageid=B8F85DBD-7D48-4E42-9140-A35A91064D77&p=738418&pn=1&searchId=010f32aaa73c04f1f11960177dc59d66&searchtype=0
https://www.alamy.com/eland-taurotragus-oryx-masai-mara-kenya-image181635085.html?imageid=BA59C0DA-E616-4513-896B-D62F229A744A&p=738418&pn=1&searchId=010f32aaa73c04f1f11960177dc59d66&searchtype=0
https://www.alamy.com/stock-photo-eland-taurotragus-oryx-pair-running-through-spring-flowers-west-coast-125584310.html?imageid=86EB619E-ADDE-42BF-A3F5-11AD3FF7BAD5&p=361664&pn=1&searchId=010f32aaa73c04f1f11960177dc59d66&searchtype=0
https://www.alamy.com/stock-photo-eland-taurotragus-oryx-pair-running-through-spring-flowers-west-coast-125584310.html?imageid=86EB619E-ADDE-42BF-A3F5-11AD3FF7BAD5&p=361664&pn=1&searchId=010f32aaa73c04f1f11960177dc59d66&searchtype=
https://www.inaturalist.org/observations/126996895

SWIMMING

Alces alces is one of the most proficient swimmers among ruminants (https://northernontario.ctvnews.ca/northern-ont-logging-crew-rescues-moose-that-fell-through-the-ice-1.5774814 and https://www.youtube.com/watch?v=AuZ0znvhyeE and https://www.youtube.com/watch?v=60m6keIWNW0 and https://www.youtube.com/watch?v=tIqwUX6n1o0 and https://www.youtube.com/watch?v=59_wBH2hSBQ and https://www.youtube.com/watch?v=ZGDrNNKA30M).

It can dive so deep while foraging that it disappears completely below the surface (https://www.montanaoutdoor.com/2020/11/big-bull-moose-disappears-underwater-video/ and https://www.youtube.com/watch?v=BvVjFqgdEiI).

This is consistent with its foraging niche, which combines browsing on the foliage of trees and shrubs with holding its breath and submerging its head for aquatic algae and herbaceous plants.

By contrast, T. oryx has hardly been recorded swimming, or even foraging in wetlands. The following (https://www.youtube.com/watch?v=XTA1FmyVkDY) suggests that it is capable of swimming, which makes sense given that its tragelaphin relatives are known to be capable swimmers.

However, T. oryx

  • is generally associated with dry climates,
  • tends to avoid the dense vegetation near rivers, and
  • is not known to take refuge in water when pursued by predators.

DISCUSSION

Estes (1991, page 190) states:
"Elands only gallop when badly frightened (or playing) and if pursued quickly tire...a trot...is the eland's fastest gait under usual conditions; it can trot at a rate of 35 kph for several kilometres, or much further at a slower rate...Is it the eland's bulk that makes it slow, or is it simply a tragelaphine trait the eland has been unable to change in adapting to open habitats? Cows are not particularly bulky and certainly calves not at all, yet both are slower than other plains antelopes. The fact that elands, like their closest relation, the kudu, are incredible high jumpers is also against the bulk argument. Fleeing elands often display their prowess...by jumping effortlessly right over a neighbor, and youngsters can sail over a 3 m fence from a standing jump".

ILLUSTRATIONS OF ALCES ALCES IN KNEELING POSTURES

https://gf.nd.gov/magazine/2020/feb/kneeling-moose

https://www.flickr.com/photos/annkelliott/18675993910

https://stock.adobe.com/images/kneeling-moose/210074588

https://www.alamy.com/a-cow-moose-feeding-on-some-green-grass-image3090710.html?imageid=E08948EE-59AF-47DF-A106-73F150DEC73A&p=166893&pn=1&searchId=f41a66b0ac6853a16f070809256f1de5&searchtype=0

https://www.inaturalist.org/observations/46888551

http://www.silencelikethunder.com/kneeling-moose.html

https://www.reddit.com/r/alaska/comments/hhwh1k/moose_kneeling_to_eat_in_my_side_yard/

https://www.istockphoto.com/photo/moose-kneeling-to-eat-green-grass-gm859156154-142020203

https://www.alamy.com/young-moose-kneeling-on-hydroseed-by-the-dalton-highway-alaska-usa-image64756672.html?imageid=8F50A8CE-928B-4673-B30E-7C7E4BBC53F3&p=410512&pn=1&searchId=f41a66b0ac6853a16f070809256f1de5&searchtype=0

https://www.alamy.com/stock-photo-a-moose-calf-alces-alces-kneels-down-at-the-edge-of-an-alpine-lake-74641850.html?imageid=29A2FE7B-09EA-4EAB-A517-109459C96FF7&p=95964&pn=1&searchId=f41a66b0ac6853a16f070809256f1de5&searchtype=0

https://www.alamy.com/moose-calf-alves-alces-7-months-old-eating-salt-a-winter-road-canadian-image69996792.html?imageid=FE4806B9-BF29-401F-A10B-E4115B5B7C1D&p=59158&pn=1&searchId=f41a66b0ac6853a16f070809256f1de5&searchtype=0

https://www.alamy.com/young-moose-alces-alces-knelt-down-in-the-snow-to-find-something-to-eat-under-the-snow-in-a-winter-forest-in-jasper-national-park-alberta-canada-image474327976.html?imageid=DAB34431-8F10-484A-BA1D-13BB0D1F2A03&p=1919126&pn=1&searchId=f41a66b0ac6853a16f070809256f1de5&searchtype=0

https://www.alamy.com/moose-kneeling-to-feed-in-the-tobacco-root-mountains-near-pony-montana-image352238058.html?imageid=FF67D5E5-0350-4CDC-8EF5-7E1A1CC4D733&p=276006&pn=1&searchId=f41a66b0ac6853a16f070809256f1de5&searchtype=0

https://www.alamy.com/stock-photo-moose-alces-alces-andersoni-female-drinking-water-from-rain-puddle-125484232.html?imageid=7824FF3A-4599-4DCC-9DA6-AB7A49C0165E&p=360440&pn=1&searchId=f41a66b0ac6853a16f070809256f1de5&searchtype=0

https://www.alamy.com/young-moose-alces-alces-knelt-down-in-the-snow-to-find-something-to-eat-under-the-snow-in-a-winter-forest-in-jasper-national-park-alberta-canada-image474327965.html?imageid=C37D7E77-FF41-44D4-9C8C-32020E16AC21&p=1919126&pn=1&searchId=f41a66b0ac6853a16f070809256f1de5&searchtype=0

https://www.alamy.com/moose-alces-alces-male-moose-are-often-drawn-to-roadways-to-lick-salt-image69999204.html?imageid=5474D900-E733-4966-9160-6E6AD61C134F&p=50550&pn=1&searchId=f41a66b0ac6853a16f070809256f1de5&searchtype=0

https://www.alamy.com/young-moose-alces-alces-knelt-down-in-the-snow-to-find-something-to-eat-under-the-snow-in-a-winter-forest-in-jasper-national-park-alberta-canada-image474328021.html?imageid=910E7752-B40A-4BF1-A556-4B77D102479F&p=1919126&pn=1&searchId=f41a66b0ac6853a16f070809256f1de5&searchtype=0

https://www.alamy.com/stock-photo-usa-alaska-anchorage-tony-knowles-coastal-trail-moose-alces-alces-56144129.html?imageid=E294BB6C-4A5F-4C11-BB4F-E0CCF23F1A1F&p=173642&pn=1&searchId=f41a66b0ac6853a16f070809256f1de5&searchtype=0

https://www.google.com.au/search?q=Eland+bulls+fighting&sca_esv=568362559&sxsrf=AM9HkKlgG-AUfAcw_VbOYYgCRYuv81AY2w%3A1695692872768&source=hp&ei=SDgSZfTzLLXMseMPp9y1mAk&iflsig=AO6bgOgAAAAAZRJGWCnf_rbtFmhUhTBCL4oux5QgVTD9&ved=0ahUKEwj0t8-alMeBAxU1ZmwGHSduDZMQ4dUDCAs&uact=5&oq=Eland+bulls+fighting&gs_lp=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&sclient=gws-wiz#fpstate=ive&vld=cid:83ad2e84,vid:Jbt6128kpV8,st:0

https://www.google.com.au/search?q=Eland+bulls+fighting&sca_esv=568362559&sxsrf=AM9HkKlgG-AUfAcw_VbOYYgCRYuv81AY2w%3A1695692872768&source=hp&ei=SDgSZfTzLLXMseMPp9y1mAk&iflsig=AO6bgOgAAAAAZRJGWCnf_rbtFmhUhTBCL4oux5QgVTD9&ved=0ahUKEwj0t8-alMeBAxU1ZmwGHSduDZMQ4dUDCAs&uact=5&oq=Eland+bulls+fighting&gs_lp=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&sclient=gws-wiz#fpstate=ive&vld=cid:bb143a2b,vid:MvqsSR9_xaY,st:0

https://www.youtube.com/watch?v=e4-39sCnsTs

https://www.youtube.com/watch?v=M26ug8MGYlY

https://www.youtube.com/watch?v=LRDdedOQz6g

https://www.youtube.com/watch?v=yfLe5rswtFE

Posted on September 24, 2023 01:50 AM by milewski milewski | 42 comments | Leave a comment

September 27, 2023

Dairy products in the context of human biology

@adriaan_grobler @ahabib @aimeebellsa @akshyop1029 @annikaml @beartracker @benjamin_walton @bluehillescape @botswanabugs @brhonda @bschwamb @buddyfede @cgbc @dalempijevic1 @dejong @dereksilberblatt @zarek @davidbygott @devbagdi @dmantack @doug263 @edison10 @emmastar123 @fabriciovilela @farrengdell @frostfox @gancw1 @gond @gori88lla @hlknight @hopeland @jacqueline_llerena @jeremygilmore @jessster78 @johnlenagan @juancruzado @julesdeboutte @kai_schablewski @karl_feng @koenbetjes @marceloamores @marina_gorbunova @marshall20 @matthewinabinett @maxkirsch @mbwildlife @mecopteron_bouillon @mgargiulo @melagiris_wildlife_kans @missoum73 @misumeta @muir @navaneethsinigeorge @nickolasmenez @noahfenwick @oumarouhamadou @paradoxornithidae @patriciocowpercoles @pauloc1985 @redwan21 @rkct @robert_taylor @sarinozi @skejo @standingquarter @shiwalee @thbecker @tonyrebelo @dinofelis @capracornelius @maxallen @oviscanadensis_connerties @tandala @michalsloviak @wildpokedex @yvettevanwijk1941 @karoopixie @wxwtx @wynand_uys @happyasacupcake @gigilaidler @marcelo_aranda @ludwig_muller @aguilita @nyoni-pete @calebcatto @simontonge @bobby23 @chewitt1 @nat_zouieva @hereinthewild @bluewhalenowhead @wjcrins @ldacosta @dianastuder @diegoeseolivera @andrespautasso @alexanderr @charles_stirton @troos @graham_g @mr_fab @margl @russellbarrett @kelnat @ladyrobyn @russellcumming @eremophila @botaneek @alan_dandie @scottwgavins @jayhorn @kelsey414 @torhek @chuditch @sea-kangaroo @george_seagull @jango1971 @douglasriverside @nwatinyoka @jwidness @jakob @rhinolophus @grahamarmstrong @wa_botanist @wa_zoologist @jessesaofia @leithallb @mikegrutherford @isaacclarey @chewitt97 @biohexx1 @saber_animal @jamesjarrett00 @graysquirrel @drshawntdash @grinnin @magdastlucia @pelagicgraf @henrydelange @christiaan_viljoen @jandutoit @felix_riegel @adamwelz @richard_johnstone @ralf_buerglin @moxcalvitiumtorgos @lmuller

Dear readers,

Please tune in to

https://www.youtube.com/watch?v=dTyYzZa2aXE&t=2475s

With kind regards from Antoni Milewski

Posted on September 27, 2023 05:34 PM by milewski milewski | 3 comments | Leave a comment