Tag Archives: Cornell

An evening with Big Red, Arthur and the Ks

If you hear the name Ferris Akel, you might recognize the individual that gives a regular Saturday afternoon virtual birding tour of the area around Montezuma National Park, Wildlife Drive, Sapsucker Lake, and the Cornell Campus at Ithaca. Ferris also surprises us with ‘pop up’ tours of the Cornell Campus at other times so that he can see what is going on with Big Red and her family and share it with us. Tonight, we got a special tour and were able to see all four members of the Big Red family.

For those of you unaware, Big Red is a Red-tail Hawk. Red tail hawks are easily identified by their bright orange-red tail feathers once they are adults. The females are larger by approximately 30% than the males. This is called reverse sex size diamorphism. Red tail hawks have amazing eye sight. They will scan for food while they are soaring or are know to sit quietly on a perch for long periods of time watching for their prey. They will immediately fly to get it. Unlike the Peregrine Falcons who take their prey in the air, Red tail hawks normally fly down and get their prey on the ground. They do not normally eat carrion (dead animals) unless they are really starving. Their wing span is 1.2-1.5 metres for both males and females or 3.9 feet to 4.9 feet.

Big Red is a huge celebrity within the birding community. Big Red is now 18+ years old. She was banded near Ithaca, at Brooktondale, on 20 October 2003. Her current mate, Arthur, hatched in a territory next to the Cornell Campus in 2016. He has been Big Red’s mate since her mate, Ezra, died in March 2017. Arthur was first spotted visiting the nest in April of 2017. Big Red and Arthur were an ‘item’ by the fall. Their nest is on one of the light boxes across Tower Road from the Fernow Building. This year they hatched three chicks, the Ks. Two of the three fledged – this is the only time that Big Red did not have all of her chicks that hatched fledge. K2 sustained an injury to her right cheek and beak in the nest and had to be euthanized. She would never have been able to live in the wild nor would she have been able to have any quality of life in captivity. The two surviving chicks, K1 and K3, have already proven themselves to be excellent flyers and it looks like K1 has already had some successful hunts.

K3 on the nest. 21 June 2021. She was taken into care the following day.

Big Red was named after the territory she dominates, the Cornell Campus. She is also a large Red-tail Hawk with a lot of the beautiful rusty brown colour and bring orange-red tail feathers. In the image below she is beginning to become ‘Big Blond’ as she is moulting.

She is the matriarch. It is estimated that she has probably hatched chicks for fifteen years. Ezra was probably her first mate. If she hatched three chicks per year, that means that she has fledged 44. That is an incredible record! Sadly none of the chicks were banded so there is no knowledge of their whereabouts or status. A small number are known to have died after fledging. One was injured and is an ambassador bird for Cornell, E3.

Big Red is noted for her very dark plumage and that amazing red feathered apron.

Ferris first spotted one of the Ks on a light tower.

Big Red was spotted on the Water Cooling Plant.

You can see that her feathers look a little ruffled, untidy. This is the moulting.

Those piercing dark eyes just make you melt.

Can you spot the hawk? Seriously I believe that Ferris Akel has ‘hawk eyes’!

Oh, look it is Arthur! He is Big Red’s mate and is one of the most amazing hunters I have ever seen. He is also moulting!

This is K1 looking out. She is a really good flier and is also believed to have already made a couple of ‘prey kills’. Yesterday she had a little chipmunk and was doing a war cry when K3 came around hoping to get some of it. Normally if the bird is war crying they are the ones that caught the prey and will not share! Even if it is their cute little brother.

At first Ferris and the gang were not sure but once we saw the stripes on the tail, we knew it was K1. K3 has a muddy tail almost verging on red – a first for all of Big Red’s chicks.

K1 is gorgeous and very dark. These images are soft not because Ferris could not focus but because of the heat shimmer off the buildings.

And here is cutie pie, K3. All those little third hatches just soften my heart.

Oh, you wanted your sister to share her chippie and she told you to go and catch your own! Poor little thing.

And that was a wrap. Ferris persisted in finding all of the Ks and trying to get some good images of them despite the heat shimmer and the fact that it was getting dark.

Good night Big Red, good night Arthur, good night K1 and K3.

Big Red and Arthur are moving the Ks around the buildings on the Cornell Campus. They can now be found around the Water cooling buildings, Bartels, and across the ravine. It will not be long til they have them out by the buildings with the cows and the open fields. It is part of their training – enlarging their territory bit by bit. How do they do thus? Food is a great motivator and the adults will carry prey to different areas of the campus and the Ks will follow! It is that easy.

If you see the hawks coughing and shaking their heads and necks and something gets ‘thrown’ out of their mouth, this is called a ‘cast’. It is the bits and bobs of the prey that cannot be digested that is sort of compressed into a small pellet. The raptors cannot digest this and so they throw it up. This is properly called ‘casting a pellet’. This is with the exception of the owls that have a gizzard for digesting these parts of the prey.

It is now getting towards the last week of July. The Ks will be with us for a bit longer. I remember last year. Once J2 and J3 had been catching their own prey around the barns they began soaring. It was not long after that that J3 went poof and was gone with the winds to be followed by J2 the following day.

The last bit of news this morning is that Tiny Little and siblings were fed by White YW (dad) this morning. 462 was first followed by Tiny Little.

It is now around tea time, late afternoon, and Tiny Little has been like a ducking food crying in the nest for a bit.

Thanks so much for joining me. It was a great evening with Big Red and the Ks. They are progressing so well towards their own independence. Sadly, they do not get bands and we will not know where they go or what they do. Lucky for us Tiny Little is Blue 463! Take care all.

Thank you to the following for their streaming cams where I took my screen shots: Ferris Akel’s Livestream and Cumbrian Wildlife Trust and the Foulshaw Moss Osprey Nest.

Protecting birds by simple changes in our lives can make a huge difference.

For the past week I have been posting information on how we can all join in and make our environment friendlier to birds. The tips and the ongoing discussion with my chatters on the Cornell RTH FB page have been enriching. Those posts were a way of remembering J1, the eldest chick of Big Red and Arthur, who died a week ago today after what is believed to be a window strike at Weill Hall. J1 was a super large very maternal bird who could be hawk-fierce when required or a gentle goof pulling the tail feathers of her brothers if they sat on a bar above her. She loved playing soccer with pinecones and taking baths in the puddles after a hot day in Ithaca. Her birth brought joy to all and as she grew most recognized that she would be a gentle but firm mother like Big Red. Because of COVID-19 and the escalating deaths and subsequent civil unrest, her death sparked a deep sense of loss not only within her hawk family but also with the BOGs in Ithaca and those who love this family around the world. Big Red and Arthur led the two remaining chicks away from Tower Road and the business of the campus near Bradfield and Weill out to Holey Cow. Just looking it appears that the distance is around a mile but I could be all wrong. The area is rural farmyard territory as opposed to urban with its buildings, streets, and cars. And the parents have kept them near the barns with the cows and sheep and the fields where Big Red’s mate, Ezra, used to hunt. One evening all four took part in a team hunting event. Big Red from one side of the pine tree and Arthur on the other would fly into the tree chasing a squirrel down for the two juveniles to hunt it. The move has caused the chicks to slow way down and stop random flying stunts between buildings. You say, “Did Big Red and Arthur know that J1 had died?” My answer to you is “Of course, they knew.” Would they have wished that Cornell University would have earlier installed window reflective glass on their buildings? Absolutely. And so, that is why I am writing to you tonight. To introduce you to ways that you can help birds in your own neighborhood.

Most of you will know some of these points but you might have forgotten or maybe you didn’t know. I certainly didn’t know all of them and tonight I find that I am still learning. So here goes:

  1. Make all of your windows bird friendly by installing strips on the outside so there is no bird strike. Check your local wildlife or nature centre. They often have this available in their shop.
  2. Speaking of windows. Governments in Australia have announced that all buildings will now be required to use reflective glass. It is estimated that 1 million birds die from window strikes annually. Supporters of the new reflective glass windows believe that they can save 90% of the birds with this new measure. Write to anyone in your community who will listen!
  3. Bird-friendly coffee. Almost everyone reading this blog will drink some kind of coffee a day. But, as I have learned recently, not all coffee is the same. There are now many organic beans and blends as well as fair trade coffees but if you want to be the most environmentally friendly with your cup of java, then you must find bird friendly coffee. And this is not easy! The Smithsonian must certify the coffee to be grown under shade so that the forests are not cleared to qualify beyond being organic and fair trade. So look for the labelling and ask your local roaster to get beans brought in for you or you can order on line.
  4. Water. The summers are getting warmer. The heat impacts all of us. One simple way to help the birds is to put out bowls of water so that they have a fresh drink and a place to have a bath and cool off. You don’t need to go down and buy a fancy bird bath. Readers of my postings have suggested checking your local thrift store for bowls or even bird baths. Many use the dishes that go under pots. One even suggested the plastic liners for paint trays (new, of course). Since I work with clay, we have an array of shallow bowls outside and every day around 4pm the little song birds line up for a drink and a splash. One day the largest of our local Grackle community decided to have a bath. It was sweet.
  5. Cats. Cats are one of the most prominent dangers to birds. Where I live it is illegal to let your cats outside. But in many parts of the world this is not the case.
  6. Herbicides and pesticides. One major birdseed company in the US (who also supplied herbicides and pesticides for gardens and lawns) was discovered to have poison seed in their product several years ago. Make sure you know where your birdseed comes from BUT also let your garden be natural. All of the treatments for lawns are very dangerous to animals.
  7. Mouse and rat poison. Rodenticide. Do not use poisons to trap mice and rats. They mice and rats eat the poison, get sluggish, and are easy for the raptors to catch. Then they die. It has been clearly proven that raptors are much better at keeping down the rat population than poisons. Tell anyone you know not to use these products that stop the blood from coagulating. In fact, cats can also die if they eat a poisoned mouse or rat.
  8. Plant a tree. During this very chaotic spring, people have been seeking calm. Trees and gardens offer places for peaceful contemplation. They also help the biosphere. So instead of paving your patio, consider creating a rustic treed space that is bird friendly instead.
  9. Slow down. When you drive slow down. It will cause less deaths from window strike.
  10. You might want to keep gear in your vehicle to help with injured birds. This can include but is not limited to gloves, a secure cage, and soft blanket. Know the contact numbers for your local wildlife rehabilitation centre.

These are not the only ways but they are a beginning. You might want to think about ordering the book that was recommended to me today. It is Nature’s Best Hope: A New Approach to Conservation that Starts in Your Yard.

Feathers and Preening

You have probably never thought much about feathers unless you raise chickens and wind up plucking them yourself. Or your duvet is full of down and feathers and you find them all over the place if there is a small hole. But, maybe, like many of us, you wish you had wings and could fly – like Icarus – but not with the same consequences. I wish I had feathers and wings because then I would soar into the sky as high as I could go!

Before I begin, this posting is not the definitive answer to everything about feathers or preening. But I hope to give you a glimpse into the importance of both to Red-tail hawks. Sort of a nutshell version. If you are really interested in feathers and believe me, there is a lot to learn, I have included the name of a good book later in this blog.

Red-tail hawk chicks begin to jump and flap in the nest, according to my observations, approximately 2-3 weeks after they hatch. They are building the muscles in their wings when they flap and flap. Flight feathers not only help birds fly and soar but they are contoured and offer protection from the weather. In the first photo below, there is a snow and ice storm in Ithaca on May 8. Big Red’s feathers are keeping her dry and also protecting the chicks. Look carefully at the one under her beautiful red tail feathers.

Feathers keep birds warm and dry – in ice, rain, and snow. The chicks have not yet developed feathers to do this so Big Red covers them.

Several times this spring, the rain has just been torrential in Ithaca. Again, the feathers kept Big Red, no matter how drenched she looked, dry and in turn, she spreads her wings to keep the chicks dry and warm.

For us newbies, we were worried about Big Red in all the rainy weather. Here she is covering the chicks. They get so warm that they often stick their heads out just to get cool. And just a note. Both Big Red and Arthur have brood patches where their feathers have worn down from incubating the eggs and then protecting the chicks.

When it is really hot and humid as it is in both Ithaca and Syracuse the last few days, rain can be very welcome to hot hawks. Below is an image from the Syracuse University Hawk cam showing two of their newly fledged red-tails dancing in the rain to cool off. It reminds me of being in India in the late 1980s and 1990s. You would beg for the rains to come to cool off and would run out into the rain ever so thankful!

So remember. Flight feathers are not just for flying but they are also for protection from the weather. The water resistance from the feathers comes from hydrostatic pressure. Hydrostatic pressure is the tension between the structure of the feather versus the pressure of the water. Water droplets bead on the feathers.

Arthur leaving to get prey for the chicks with Big Red giving him directions. Notice his legs tucked up and the slight curve of his wings at the end and, of course, that beautiful red tail.

Wing feathers are the longest and the most useful for flying. Below is a closeup of one of the chicks with their wing feathers starting to grow. Also notice the tail feathers that are beginning on the chick and the recognizable “red tail” of the Red Tail Hawk on Big Red. The chicks will not get their beautiful red tails until they are in their second year. Tail feathers are like the rudder on a boat. They help the birds manoeuvre. About a month after they have fledged, the chicks should be able to soar into the sky.

Approximately 18% of the weight of a Red-tail Hawk comes from feathers. By the time the chicks are 29-31 days old, their dorsal wings should be 90% feathered. Their legs will begin to feather and they will get the characteristic “pantaloons”. The ear openings should be covered and the upper tail coverts should be well developed. By the time they are 35 days old (about a week from a possible fledging or first flight off the nest), the head will be at least 50% feathered, the dorsal body will be 95% feathered, and the breast should be 90% feathered. Their tail feathers should be five to six bands long, preferably. The more bands the more successful the first flight will be.

This chick is J3, the youngest. He is 31 days old. Note the distinctive “peach” on the breast, the lovely dark feathers marking the “apron” below the crop. The downy head is beginning to gets its feathers and the feathers covering the legs are there.

At the time these chicks fledge, their wing and tail feathers will be longer than their parents. With their first molt, they will return to normal. Molting is the falling out and gradual replacement of the feathers.

There is a really good book on feathers. It is Feathers: the evolution of a modern miracle by Thor Hansen. There is so much to learn including every part and its function! Apparently humans have the DNA to grow feathers but we don’t have the “switch” to turn it on and off. Feathers are much more efficient than their hair. Hawks also use their feathers like a sharpening tool to keep their beaks in perfect condition.

The simple definition of preening is that it is cleaning and maintaining the feathers. Preening reinforces and conditions the surface of the feathers with gland oils. These gland oils contain vitamin D. When the feathers are exposed to sunlight after preening, the oil works as a protective conditioner. The oil in the glands change composition during the year just like you will, if you live in a cold climate in the winter, change the weight of your oil in your car. Red-tail hawks spend approximately 77% of their time preening.

This is an example of a warble. This is when the head of the bird is folded all the way back and down and they are preening their wings
The chicks learn quickly how to balance themselves on branches or metal railings and preen at the same time!

One of the things that I found most interesting about the feathers is that because they are hollow, some researchers understand that birds can feel the changes in barometric pressure and will know what weather conditions are approaching. They are more likely to know the precise weather approaching than the local weather station. They have to. They live outside in the trees, roost on the ledges of buildings, and depend on millions of years of evolution to give them clues to nature’s mysteries so they can survive.

Why are female Red-tail Hawks almost always 30% larger than the males?

It is called Reverse Sex-size diamorphism. There are several theories as to why this happens with Red-Tail Hawks.

The first is that the females had to be larger to protect themselves from the feisty males.

The second is that the females selected smaller males to be their mates because the size difference allows each of them to hunt different prey and reduce any competition for food between the pair. Raptors that hunt birds are generally smaller and faster with the female specializing on larger prey. At the beginning of the nesting season, the female becomes an active hunter and again when the nestlings are larger. Generally the adults tend to partition the prey resources in their territory.

Another theory is that the females need to be larger because they must accumulate reserves in order to produce eggs. When they are incubating eggs and brooding young, they rely on the male to feed the family. Red-tail hawks are usually born in April when the prey are sluggish and just coming out of hibernation. Small males can make quick turns. In the case of the Red-tails on the Cornell Campus, Arthur W, the male, is known as the ‘stealth bullet.’ He is quick, fast, focused, and quiet when he hunts. Big Red’s former mate, Ezra, was like Arthur W a great hunter but he was also about 30% smaller than Big Red as is Arthur.

Ezra has his wings spread and his legs tucked tight. If you look closely you will see that he is delivering two items to Big Red. The first is a snake and the second is a flower!
It is very difficult to get Big Red and Arthur to stand up straight at the same time. They certainly do not listen to requests from humans!This is the closest I have come to finding an image that might be able to show you the difference in their size. Big Red is on the left and has her head leaning back preening and she is a little more slumped than Arthur who is on the right.

In terms of the nestlings, the only way to positively known the gender of the bird is through either a DNA sample or you see them laying an egg when they are older. Everyone likes to guess the sex of the chicks growing in the nest cup. Using reverse sex-size diamorphism, we speculation whois a female by their overall size as they grow in the nest and the size of their feet. But again, no one can be absolutely sure. In the past one of the small nestlings was always believed to be a male. This particular bird injured its wing and, as a result, had to be taken to a vet. The bird’s DNA was tested and, to the surprise of many, it was determined to be a female. So not every small Red-tail Hawk is a male!

In terms of the relative size of each J, J1 is the largest of the three. Early in its development, everyone noticed the large size of its feet. Now as a juvenile, J1 remains the largest of the three siblings. But there is something else about J1 that I personally find fascinating. J1 is very much interested in nest maintenance. She can be seen, even today, mimicking Big Red in attempts to vent the nest bowl. She rearranges the nest twigs and on the second day after she fledged, she brought a branch to the top of the Rice patio. There seems to be 100% agreement that J1 is going to be a good mama like her mother, Big Red.

J3 in the front and J1 behind watching J2 fledge. Look at the difference in the size of their legs as a starting point.

J2 on the other hand is also a large bird, not as large as J1 but larger than J3. J2 was actually the first egg to be laid but the second to hatch and is, therefore, actually the oldest. His fledge was more like a fludge when he climbed up on the light box and then slipped but his flight was still remarkable. J2 has continued to be a very, very strong flyer already interested in hunting. The shape of “his” head – you will notice that I continue to use the term “his” – is also different than that of J1. He has an intense focus and besides bugs and insects he has already been interested in small birds in the territory. To my knowledge he has not caught one. He is also very aggressive. A few of us believe he is truly a male and will be a great hunter like his dad, Arthur W.

J3 eating his first prey drop after fledging.

J3 is the problem child that everyone loves. . J3 was born four days after the other two and it was also the last egg to be laid. Taken together, J3 is actually a week younger than its siblings. That is a lot in the life of a Red-Tail Hawk chick. It may also account for the fact that Arthur W brings food to the nest tower in an apparent effort to feed J3 away from the two larger siblings. Let me try to explain what has been happening. Normally the juveniles are spread out being individuals. This trio is quite different according to the people who have monitored all of the broods on camera (since 2012). It is because they tend to congregate together. To hang out. If one is on the Rice patio, all three might be there.

All three on what is called the Rice patio. Arthur W often makes food drops here but it is also a safe and flat site where they can sleep in the sun or practice their skills.

They might all be on one of the towers including the nest tower. Still, on occasion, they go their separate ways.

J1 in one of the oak trees near the Fernow Building looking at a squirrel.

A prey drop is just that – one of the parents dropping lunch. The juveniles will, unless they have recently eaten, fight for the food with the most aggressive mantling the prey. Unless the prey item is too large for the chick to eat all at once, sharing doesn’t seem to happen. So, because of J3s size and a seemingly lack of aggressiveness in comparison to J2, J3 is somewhat at a disadvantage. This is the reason that I believe Arthur W still supplies food on the nest to the little guy.

Arthur has been dropping lunch off to J3 for several days now. This was around 3pm. He seems to be looking for J3 who arrives almost immediately.
J3 mantling the prey that Arthur W dropped on the nest. Remember mantling is a way of protecting the food item so that no one else can steal it.
J3 finishing up his afternoon snack.

For now, the gender of the three juveniles is sheer speculation. There are no banding practices and no GPS monitors on the Js. In other words, no identification. It is only when one of the juveniles might find its way to the vet and be both recognized and tested that the sex would be determined.

Tomorrow we are going to talk about the importance of preening.