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Welcome to Mr Aslanov’s Lessons 
QUESTION-TYPE BASED TESTS 
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TEST 6 – Two Wings and a Toolkit 
Betty and her mate Abel are captive crows in the care of AIex Kacelnik, an expert in animal 
behaviour in Oxford University. They belong to a forest-dwelling species of bird (Corvus moneduloides) 
confined to two islands in the South Pacific. New Caledonian crows are tenacious predators, and the only 
birds that habitually use a wide selection of self-made tools Io find food. 
One of the wild crow’s cleverest tools is the crochet hook, (made by detaching a side twig from a 
larger one, leaving enough of the larger twig to shape into a hook. Equally cunning is a tool crafted from the 
barbed vine leaf, which consists of a central rib with paired leaflets each with a rose-like thorn at its base. 
They strip out a piece of this rib, removing the leaflets and all but one thorn at the top, which remains as a 
ready-made hook to prize out insects from awkward cracks. 
The crows also make an ingenious tool called a padanus probe from padanus tree leaves. The tool has 
a broad base, sharp tip, a row of tiny hooks along one edge, and a tapered shape created by the crow nipping 
and tearing to form a progression of three or four steps along the other edge of the leaf. What makes this tool 
special is that they manufacture it to it standard design, as if following a set of instructions. Although it is 
rare to catch a crow in the act of clipping out a padanus probe, we do have ample proof of their 
workmanship: the discarded leaves from which the tools are cut. The remarkable thing that these 
‘counterpart’ leaves tell us is that crows consistently produce the same design every time, with no inbetween 
or trial versions. It’s left the researchers wondering whether, like people, they envisage the tool before they 
start and perform the actions they know are needed to make it. 
Research has revealed that genetics plays a part in the less sophisticated tool-making skills of finches 
in the Bushes in the Galapagos islands. No one knows if that’s also the case for New Caledonian crows, but 
it’s highly unlikely that their tool-making skills are hardwired into the brain. ‘The picture so far points to a 
combination of cultural transmission from parent birds to their young and individual resourcefulness,’ says 
Kacelnik. 
In a test at Oxford, Kacelnik’s team offered Betty and Abel an original challenge food in a bucket at 
the bottom of a well. The only way to get the food was to hook the bucket out by its handle. Given a choice 
of tools a straight length of wire and one with hooked end the birds immediately picked the hook showing 
that they did indeed understand the functional properties of the tool. 
But do they also have the foresight and creativity to plan the construction of their tools? It appears 
they do. In one bucket-in-the-well test, Abel carried off the hook, leaving Betty with nothing hut the straight 
wire. ‘What happened next was absolutely amazing says Kacelnik. She wedged the tip of the wire into a 
crack in a plastic dish and pulled the other end to fashion her own hook. Wild crows don’t have access to 
Pliable, bendable material that retains its shape, and Betty’s only similar experience was a brief encounter 
with some pipe cleaners a year earlier. In nine out of ten further tests, she again made hooks and retrieved 
the bucket. 
The question of what’s going on in a crow’s mind will take time and a lot more experiments to 
answer, but there could lie a lesson in it for understanding our own evolution. Maybe our ancestors, who 
suddenly began to create symmetrical tools with carefully worked edges some 1.5 million years ago. didn`t 
actually have the sophisticated mental abilities with which we credit them. Closer scrutiny of the brains of 
New Caledonian crows might provide a few pointers to the special attributes they would have needed. 'If 
we’re lucky we may find specific developments in the brain that set these animals apart’, says Kacelnik. 
One of these might be a very strong degree of laterality the specialization of one side of the brain to 
perform specific tasks. In people, the left side of the brain controls the processing of complex sequential 
tasks, and also language and speech. One of the consequences of this is thought to be right-handedness. 
Interestingly, biologists have noticed that most padanus probes are cut from the left side of the leaf meaning 
that the birds clip them with the right side of their beaks the crow equivalent of right handedness. The 
team thinks this reflects the fact that the left side of the crow`s brain is specialised to handle the sequential 
processing required to make complex tools. Under what conditions might this extraordinary talent have 

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