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Dr. Mike McGrady, Hawk Mountain Sanctuary Research Associate

13 Feb 2018

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An adult Egyptian vulture that was captured and fitted with a GPS transmitter in Oman.  Adult Egyptian vultures are mostly white from about 4 yreas of age, with black flight feathers.  Juveniles are brown, and subaduts are mottled, becoming ever whiter with age.  Photo: M. McGrady.

Like so many Old World vultures, the Egyptian vulture is globally endangered.  The threats to Egyptian vultures are pretty much the same as those that other Old World vultures face, and include electrocution, changes in food availability, direct and indirect persecution, targeted and inadvertent poisoning, and hunting for the black magic market.  Its endangered status and the threats notwithstanding, the Sultanate of Oman is a stronghold for Egyptian vultures, because it apparently has a healthy resident population and is a wintertime destination for a substantial number of migrants from farther north.

Since 2012, International Avian Research (IAR) has been working with the Environment Society of Oman (ESO) conducting research on Egyptian vultures in Oman.  That work has included surveys on Masirah Island (which was found to be home to the second densest breeding population in the world), monitoring numbers of vultures at landfills and satellite radiotracking of vultures.

Since 2015, the Greater Los Angeles Zoo Association (GLAZA) has, through Hawk Mountain Sanctuary, supported the work of IAR.  Two vultures were fitted with GPS radiotags in both 2015 and 2016, and two steppe eagles were fitted with tags in 2017—steppe eagles are also endangered; they breed mostly in central Asia, but migrate south (including into Oman) in the winter.

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An adult Egyptian vulture fitted with a GPS transmitter and ready for release being held by an Environment Society of Oman staff member.  Photo: M. McGrady

In January 2018, with the continuing support of GLAZA and Hawk Mountain Sanctuary, along with additional support from the Bernd Meyburg Foundation for Raptor Research and Conservation, IAR and its cooperators were able to capture 13 Egyptian vultures, 12 adults and one 2-year-old, and fit them with GPS tags.  Since then, the birds have been doing what vultures do.  Most of the vultures have spent their days ranging mostly in northeast Oman in the Hajar mountains and surrounding foothills. They have made regular visits to landfills, roosted in steep wadis in the mountains, and perched on high voltage electricity pylons. One bird has behaved a bit differently and has made at least two laps of the northern part of the country, seemingly always on the move.

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Adult Egyptian vulture in Oman in January 2018.  The GPS transmitter is fitted as a backpack and can be barely seen. Photo: M. McGrady

What do or will we learn from tracking, and how can this help conserve Egyptian vultures?  Well, the tracking of four vultures since 2015 has revealed that in Oman, Egyptian vultures suffer from electrocution and make regular use of landfills for feeding.  The data indicate that the vultures may move around in a way so as to keep tabs on the availability of food.  This, if you think about it, makes sense for a species that must find food that is not reliably available at all times.  The data further suggest that ongoing upgrades to waste management in Oman, reducing the number of dumps from over 300 to 12, may not have negative effects on vultures.  Indeed, improved waste management may make food resources safer for vultures and at the same time find benefits for human health, which is really good news.   IAR and ESO have also used the information to educate the public, including school children, about vultures and the important ecosystem services they provide as nature’s waste managers.

The data from these newly deployed tags should help the cooperating groups do more.  As we try to understand the ecology of the Egyptian vulture in order to conserve them, more data is important to the pursuit of science-based solutions.  From a public education standpoint, a complete “story” that includes more individuals over more years, provides a compelling case for conservation.  Also, with so many tagged adult birds, at least some are expected to be migrants, so new information on timing and routes of migration should be collected, and the location of breeding areas farther north can be determined. Such information is important in devising effective conservation strategies that span the huge range covered by migratory individuals, and it demonstrates the connectivity between breeding and wintering areas, which are sometimes separated by thousands of kilometers.

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Movements of 13 Egyptian vultures caught and fitted with GPS transmitters in Oman in January 2018.

 

If you want to keep up with this effort, IAR posts information every so often on the project at https://egyptianvultureoman.blogspot.co.at/ .  If you would like to support this project, please do so through an earmarked donation to Hawk Mountain Sanctuary.

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By Adehl Schwaderer, Hawk Mountain Conservation Science Trainee

03 Jan 2018

 

As a Hawk Mountain Conservation Science Trainee, you have the opportunity to be a part of many influential experiences, including counting migrants as they pass North Lookout and educating visitors about the importance of raptor conservation. But the experience that I have learned the most from this autumn was working with my fellow trainee Zoey Greenberg on our black vulture movement ecology project. This blog is part two of our vulture series so be sure to check out part one to gain a complete understanding of our project.

 

The plan was to locate three black vultures, Versace, Gifford, and Hillary, based on their recent GPS locations and observe what the birds were doing at these locations. To be honest, I wasn’t sure what to expect. I was excited to get started and gain new field experience, but no one had ever attempted groundtruthing with this species before, and it is still a new concept. We accepted this challenge with enthusiasm but were anxious about getting results. In the end we knew that no data would still be valuable information, however who doesn’t want groundbreaking results from their first ever field study?

 

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Versace perched on a barn in the Kempton Valley, notice her wing tag and antennae of the telemetry unit.

Thankfully, our first day in the field was a success! Zoey and I followed Versace’s movements from the previous month, which led us to a large roost of black and turkey vultures in the Kempton Valley. We were ecstatic, and from that point on, we were on a roll! Throughout the next three months we kept up our tracking efforts and found many more roosts (some permanent and some temporary), observed interesting behaviors, and made an effort to trap and tag these birds. By doing all of this, we were able to confirm some of our suspicions. However, we also discovered things we did not expect.

 

One of the suspicions we were able to confirm was that black and turkey vultures more often than not share the same roost sites. These two species have very different tendencies when searching for food, feeding, and perching, but that did not stop them from co-existing at the same roosting sites and air space. We also suspected that the vultures would use some roosts more consistently than others depending air temperature, trees available, and proximity to their next meal. We determined what each roost site was being used for, as well as observed a shift in preferred roost locations and species composition as winter set in and turkey vultures began migrating south.

 

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Turkey vulture trapped and tagged in Kempton Valley by Adehl, Zoey, and David Barber. 

We found the most unexpected results attempting to trap “our” black vultures. We enlisted the help of Hawk Mountain biologists, David Barber and Jean-François Therrien, who both have extensive trapping and tagging experience with vultures and other raptors. The goal was to capture and wing tag a substantial number of the black vultures we followed around in the Kempton Valley.

 

 

To do so, we staked down road kill (a vulture delicacy) at several roost sights we had determined were used mainly for feeding. Once the bait was staked, we placed noose traps made of fishing line and parachute cord in a diamond around the carcass. Once everything was in place, we would wait for the vultures to descend on the meal and consequently get their feet stuck in our traps—a process that does not harm the birds).

 

That is exactly what we did. We waited… and waited… and waited to no avail. The first site we chose to bait was seemingly perfect. There was already an area on the property where the landowners frequently discarded rotting vegetables and meat scraps. In addition, dead trees and conifers, which provided many roosting options for the birds, surrounded the dump.

 

However, shortly after we began baiting, two unwelcome visitors decided to join the flock: an adult and immature bald eagle. Now you may be thinking, “Wow! How amazing you get to observe vultures and the majestic bald eagle in one place!” Well, you would be wrong. We learned immediately that vultures and eagles do not enjoy sharing the same air space, or the same dining room table for that matter.

 

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Adehl holds the trapped and newly tagged turkey vulture.

We are confident that this interaction caused us to be unsuccessful in trapping vultures at this trap site, and the second area we chose to bait and trap. As soon as the eagles were seen at the roosting areas, black and turkey vultures were not seen roosting in those locations again during our observations. We did not expect this to occur because in other locations, like the Conowingo Dam in Maryland, eagles and vultures co-exist in the same feeding sites with no apparent issue. We believe the higher tolerance in these areas could be due to a larger food source with enough to go around for everyone, meaning that there is no need to initiate a food fight. The availability of only one carcass at our bait sites and providing large carcasses that were more easily discovered could have been the reason that the vultures and eagles in our study did not get along at our sites. However, all was not lost! In the end we did manage to trap and tag one turkey vulture, which was a very valuable learning experience for Zoey and myself.

 

 

Ultimately, I was able to witness unique behavioral patterns through this opportunity that will stick with me the most. I will never forget the breezy autumn morning when over twenty turkey vultures performed aerial acrobatics on a freshly plowed hill between bouts of picking through the soil with their bills and talons. Nor will I forget standing in the pouring rain, watching more than forty black vultures run across the bars of an information tower with their bills clapping and wings spread wide.

 

Zoey and I learned so much by only taking the time to stop and observe, and we are excited to see what else others that take the time to do the same will discover.

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By Zoey Greenberg, Hawk Mountain Conservation Science Trainee

21 Dec 2017

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Female black vulture named Donald over a quarry during September of 2016 near Palmyra, PA.

The tires crunched on gravel, and I shut the engine off. We had entered vulture country. With scope, data sheets, and binoculars in hand my project partner, trainee Adehl Shwaderer and I walked carefully up the gravel road as we scanned the tree tops for hunched silhouettes or soaring shadows. This was our first foray into the Kempton Valley, east of Hawk Mountain, in search of black vultures (Coragyps atratus). Our expectations were not high. However, we had innovation on our side: we were testing a method called “groundtruthing” to better understand the movement ecology of several vultures that had been tagged with satellite transmitters by Hawk Mountain scientists. After investigating their movements in Google Earth, we had discovered interesting patterns including an individual who spent time near quarries, and another that seemed to prefer cities. The problem was, we didn’t know why.

 

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Some tools used for groundtruthing method: laptop, smartphone with hotspot, and a vehicle.

Groundtruthing works like this: we, the field researchers, embark into the field with an internet hotspot and laptop in tow. We look up the locations of tagged vultures on an online database called MoveBank.org and then drive to meet individual birds and watch their behavior. By combining technology with old-school methods, we are able to gain visual access to black vultures and unveil mysteries about their movements that remain when we rely exclusively on satellite tracking data to explore patterns. As I became more comfortable with groundtruthing, I realized that the beauty of the method exists in its simplicity, utility, and the truism that even in this day-and-age there is no substitute for in-person observation.

 

A wonderful realm of study exists when we move beyond discovering where birds are, and incorporate studies that investigate why. Black vultures provide irreplaceable ecosystem services for us through their removal of carcasses that can carry harmful diseases. However, due to their curious nature and adaptability, they are often involved in conflict with humans that can result in noise-hazing, shooting, and other forms of human persecution. Therefore, investigating their movement patterns is necessary.

 

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Versace’s movements within the Kempton Valley, November, 2017.

At the beginning of our project, we relied on the signals of three birds, Gifford, Hillary, and Versace. (Donald, who turned out to be an adult female, flew to Washington DC after being tagged. We have not heard from her since.) By following these individuals, we discovered three night-time roosts within the first week and I feel confident that any bystander watching our first roost discovery would have been convinced we’d won the lottery. A silent performance of spastic jumping, “air-fives”, and the spontaneous creation of a vulture dance quickly occurred before we got back to business and counted the birds.

 

In the weeks that followed, we experimented with various observation techniques and read multiple papers on roosting ecology, black vulture foraging strategies, and behavioral study methods. We talked vultures at breakfast, lunch and dinner. We bored our housemates at the trainee residence with discussions on the most pungent types of road kill and the antics of our favorite birds. We filled our brains with vultures, and above all, became true detectives through a process of trial and error that taught us the value of being innovative in the field. Those first weeks were memorable, solidifying in me a hunger for scientific questioning.

 

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Zoey with a tagged turkey vulture.

There was an additional aspect to this project that I found consistently rewarding: the opportunity to speak with landowners in the Kempton Valley. Many of the roost trees preferred by “our” vultures were on private property, and in addition to observing the birds, we were looking for optimal trapping sites near already-established roosts in hopes of catching wing-tagged birds. This would provide us with information on associations among individuals. However, our trapping method entailed staking road kill to the ground and waiting for vultures to arrive while we waited nearby. In general, people aren’t thrilled about the prospect of hosting dead possums in their backyard. Nonetheless, we were rarely told no. Even landowners who professed a hatred of vultures were open and willing to hear our reasons for loving the birds, and eventually developed a tolerance of their own.

 

Vultures are hard to sell, and they do have some less-than appreciated habits, such as defecating on cars and toying with the rubber on windshield wipers. However, every “bad” habit has an explanation. For example, vultures are scavengers, meaning they rely heavily on maintaining strong neck muscles for tearing and pulling apart carcasses. To a vulture, rubber is an irresistible training opportunity to both strengthen their neck and satisfy their characteristically curious nature. It became clear that explaining to people why the birds were choosing their property provided them with a new dimension of understanding. This makes groundtruthing not only important for answering scientific questions, but also for enhancing a culture of appreciation around birds that struggle to gain respect. After all, our home ranges overlap with other species, and as such, perhaps we have a duty to critically evaluate our collective perception towards all of our neighbors, including vultures. After spending this season in the field, I am convinced that the Kempton Valley is a perfect place to start.

 

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Conservation science trainees Adehl (left) and Zoey (right) embark on an early morning search.

So what’s next for the vulture detectives you ask? Our field tested method of groundtruthing will be used to fill in more gaps in places with tagged vultures, contributing to our knowledge of why the birds go where they go. Ideally, this information can then be directly applied to informing locals, politicians, conservationists, biologists, and other groups affected by or connected with vultures in their region. As for Adehl and me, early morning roost searches and tactfully placed road kill may remain in both of our futures. There are few sights that compare to a group of dew-covered vultures eyeballing you from above as they slowly swivel their body to absorb the sun’s first rays. With a sight like that there’s only one outcome: once a vulture detective, always a vulture detective.

 

To learn more about our interesting findings, stay tuned for Vulture Detectives: Part 2 written by Adehl Shwaderer.

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By JF Therrien, Hawk Mountain Senior Research Biologist

07 Aug 2017

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JF reviews American kestrel nest box data with summer intern Jenna Schlener.

Hawk Mountain has a rich research and monitoring history. For several decades now, on-staff researchers have been carrying the torch, keeping numerous inestimable monitoring projects going. The migration counts conducted at Hawk Mountain indeed represents the longest running raptor monitoring project in the world.

Starting some 80+ years ago, the counts were first designed to assess the usefulness of the protection offered by the newly created Sanctuary. Not long after, Hawk Mountain’s curator Maurice Broun and others realized the invaluable long-term dataset that those counts represent and they could be used to study population trends of 16 North American raptor species. Then in the mid 1950s, Alex Nagy, then Hawk Mountain’s assistant curator, installed a few bird boxes on his farm to see if he could get American kestrels to use them. What most likely started as a humble backyard experiment resulted in what is now the American Kestrel Nest Box Program, which will proudly celebrate its 65th anniversary next spring.

Research and monitoring projects sometimes begin after a carefully designed approach. However, in reality, many such projects simply start serendipitously, as in the previous examples. Traveling around Hawk Mountain to visit the 125 man-made nest boxes of the American Kestrel Nest Box Program during summer 2017, we noticed odd and conspicuous behaviors of bigger, darker birds. Indeed on distinct occasions, black vultures would suddenly appear flying low overhead or even flying out a window from the very barns our kestrel nest boxes are attached to. At that point, we had little doubt; those vultures are likely using the building to nest.

Black vulture chick named Versace wearing wing tag and transmitter photo credits R.Smith

JF holds a newly tagged black vulture named Versace.

From a research point of view, having access to nest sites is highly valuable. In addition to being able to handle adults and chicks to assess their life history traits (body condition, growth rate, disease prevalence, etc.), monitoring nesting activities allows us to assess breeding success and breeding rate, age at first breeding, and nest site fidelity on the population level over time. Those aspects are all immensely important to understand the complete cycle of individuals that compose populations.

Finding this access to several nests for any raptor species is challenging, because individuals are often territorial. Their nests occur at low density and are usually concealed. Therefore, monitoring nesting raptors often becomes an unrealistic task, given the time required and the area that would need to be covered to locate a fair number of them. A good breeding monitoring project requires a relatively easy way to access several nests across a relatively small area to allow researchers to visit them periodically.

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Black vulture chick found in a local barn. Photo by J. Dallas. 

During summer 2017, our team found just this. We were able to successfully monitor 3 black vulture nests that we found without even searching while checking our kestrel nest boxes. Those birds were using Pennsylvanian barns just like giant man-made nest boxes, and thankfully they were all in a relatively small radius around Hawk Mountain.

This project has just begun, and we are now looking to double or triple the number of monitored nests in the coming years. So if you notice black or Turkey vultures flying out of abandoned buildings or barns, please let us know. We would be thrilled to add new nest locations to our newly-born monitoring program.

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Tagged black vulture. Photo by Holly Merker.

By using individual markers (such as wing-tags and telemetry transmitters), we will be following the where and wherefore of those individual birds through their lifetime. Anytime you see a vulture, keep an eye out for wing-tags (a brightly colored tag showing a distinct number). Any sighting of a tagged individual represents important information for locating roost sites, feeding hot spots, survival rates, and dispersal behavior. Help and support these studies by reporting any sightings at this link.

Monitoring programs such as these are an essential part of conservation science: they form the backbone of long-term population assessments. They allow researchers to keep track of historical population size and productivity in order to identify declines in a timely fashion and become aware of problems that otherwise could have gone undetected.

To learn more about our work with North American vultures or any other species of raptors, or if you wish to support our monitoring efforts financially, contact me at therrien@hawkmountain.org.

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By Katie Harrington, Hawk Mountain Graduate Student and Former Conservation Science Trainee

10 May 2017

This March I watched three Johnny Rooks feeding in the beached kelp wrack adjacent to a falling tide, with an endless symphonic bray of gentoo penguins in the background. Early afternoon seemed to be the rooks’ final push, as it were, to fill their tanks before tucking in for a late afternoon nap.

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A fresh bird with a fresh band; welcome to the world K28 Yellow.

While the adult and two juveniles raked with resolve, another rook, band K28 Yellow, walked to within three feet of me. Unlike times before though, it wasn’t staring at me. K28 Yellow, whose plumage betrayed it’s youth–a fledgling, perhaps having only left the nest just six weeks prior– approached a piece of dried “basket kelp” tucked between driftwood and beach cabbage. Without hesitation, K28 “kick-boxed” the kelp and, clinging to the fibrous ball, fell and rolled onto its back. I watched, trying not to laugh, as it pecked at, clawed, and rolled around with the basket for five minutes, doing what I could only call playing.  The raptor, a close relative of the Peregrine and other falcons, reminded me of a puppy consumed with its chew toy.

While extensively studied in mammals, there are far fewer recognized examples of avian play, particularly in raptors. Among birds it is best documented in corvids (e.g. crows and ravens) and parrots.  Raptor examples include object manipulation by a captive-raised goshawk, an observation of a wild marsh hawk playing with its horned lark prey, and aerial acrobatics of bald and imperial eagles.

It’s worth pausing here in light of the genetic revelations of the past decade that place caracaras and falcons next to parrots in the tree of life, rather than alongside hawks and eagles. In fact, when reading about the kea, a parrot found only on New Zealand, you could almost replace their species name with “Johnny Rook” and have it read seamlessly. They, like rooks, are highly social, bold, curious, opportunistic foragers that feed on insects just as readily as seabirds and carcasses. And they play, extensively, with other keas and with inanimate objects. These qualities, along with their approachability, make both them and the Rooks the perfect candidates for studying play in the wild.

This occasion of watching a rook play wasn’t an anomaly. Over the two months I spent on Saunders Island this past austral summer (Feb-March), I watched multiple solitary and social play events across all ages of rooks. One time, another recently fledged bird and an adult played with a sheet of plastic stuck in the sand dunes, again rolling onto their backs as they kicked and pulled. For others, old carcasses, long picked clean became ceremonial tug-of war tools. Given the intensity of local fishing, there were also plenty of cast lines that washed ashore, frayed, half buried, just begging to be played with.

Are the birds learning about their environment, building social bonds, or honing  predatory or stress responses? At this point, we don’t know. Fortunately, our long-term banding project allows us to track this behavior in specific individuals, creating an unprecedented opportunity to understand the adaptive significance of this behavior in a raptor in the wild. And let’s be honest, what’s more endearing than watching a predator kick its talons up and play?

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By Katie Harrington, Hawk Mountain Sanctuary Research Associate

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Dr. Keith L. Bildstein, Hawk Mountain Sanctuary Sarkis Acopian Director of Conservation Science

Many birds of prey time their feeding efforts to take advantage of the cyclic abundance of their prey.  In East Africa, for example, Old World Vultures rush to flight each morning to search for ungulate carcasses created by previous night’s lion and hyena kills.  And in Europe and elsewhere rodent-eating Eurasian Kestrels synchronize their feeding efforts to co-occur with the four-hour activity cycles of voles they feed upon.  Other raptors, including most notably coastal populations of sea eagles and ospreys, set their hunting efforts to coincide with falling tides, taking advantage of the increased vulnerability of fishes in shallow waters created by the receding waters.  And now, thanks to the insightful field observations of former Sanctuary trainee and now graduate student Katie Harrington of San Francisco, raptor biologists can add Striated Caracaras to the list of tidally influenced birds of prey.

Found only on remote islands in Tierra del Fuego and the Falkland Islands, Striated Caracaras, or Johnny Rooks, are aggressive scavenging birds of prey.  Once thought to rummage almost exclusively on dead and dying seabirds and livestock (including penguins and sheep), human leftovers, and occasionally, marine-mammal feces, we have discovered that these cunning birds of prey also take a many kinds of terrestrial invertebrates, including both earthworms and grass grubs, and as well many intertidal invertebrates, including dipteran kelp maggots, limpets, barnacles, and even—believe it or not—octopuses.

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The early bird gets… the octopus. The first two rooks on the scene dislodge the marine predator from where it was sheltering in a tide pool and begin consuming its tentacles.

One of the primary efforts of our most recent field efforts on Saunders Island, in the Falkland Islands where roughly 150 Johnny Rooks spend the summer months, was to learn more about the importance of invertebrates in the Rooks’ diet. What factors influence the amount of time Rooks spend foraging for invertebrates each day, and does this strategy provide an ecologically significant amount of nutrition? To find out, we spent hours observing the Rooks raking for maggots in accumulated, decomposing kelp wrack, some determinedly excavating pits six inches deep, and many digging shoulder to shoulder for over an hour. During one mid-afternoon observation session, we observed what appeared to be a shift in their preferred entrée. The Rooks exited the kelp wrack and flew toward an adjacent rocky intertidal zone that was being slowly exposed by the falling tide. First one, then four, then up to twenty birds entered the rocky area, both by flight and by their often-preferred method of walking and running.

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In less than a minute, the word is out, and more than 10 Johnny Rooks surround the octopus. Many of the juveniles in this group were banded earlier this year.

Previously submerged, the rocks began to provide a platter of meal options, from blanketing mussels to limpets to innumerable species of invertebrates sheltered under flat rocks. We watched as the rooks began silently and systematically walking along the waterline, peering under overhanging rocks in search of limpets that had not yet suctioned tightly to survive the low tide. Unlike their foraging strategy within the kelp wrack, which can reach as many as fifteen individuals raking within 2 meters of each other, the Rooks searched the intertidal as individuals or in small, mixed-age groups. As the tide fell further, some even alit on the partially exposed adjacent kelp forest, searching the algae’s stipes for potential prey. Their persistence paid off as we watched many quickly consuming their quarry, some within two minutes of their previous catch.

Less than fifteen minutes from the time the Rooks shifted into the area, a juvenile bird encountered a Southern Red Octopus caught in a tide pool. The Rook immediately pulled the octopus up onto a rock where it laid overturned, struggling to right itself as nine juveniles began pulling on and partitioning its tentacles. Within six minutes, more than thirty Rooks encircled the octopus, which had been reduced to portions of its head, with which individual Rooks were then able to abscond. With full crops, the group dispersed, some Rooks sheltered aside nearby ledges to digest while others retreated to a fresh-water seep on the adjacent cliff to wash down the meal.

Previously, the only known predators of the Southern Red Octopus were Southern Sea Lions and humans that opportunistically fish for them during spring tides; yet the speed at which the Rooks dispatched the octopus suggested this was not the first time they had encountered the eight legged invertebrate. Octopus may be clever, but they have met their match in the Johnny Rook.

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Dr. Keith Bildstein about to release one of the northern breeders this January.

By Keith L. Bildstein, Ph.D., Sarkis Acopian Director of Conservation Science
Hawk Mountain Sanctuary

17 March 2017

Most studies of bird migration focus on the movements of birds that ornithologists refer to as “complete migrants,” species whose global populations evacuate their breeding grounds each year while traveling to geographically distant wintering areas.  Although Arctic Terns, Black-and-white Warblers, and Broad-winged Hawks, along with a small percentage of other species of migratory birds, do follow this pattern, most migratory species of birds are “partial migrants,” species whose populations include both sometimes-migratory and non-migratory individuals, and whose migratory populations sometime overwinter in areas already occupied by non-migratory members of the same species.  It turns out that partial migration is a lot more complicated than complete migration, and although the former is little studied compared with the latter, its complexity makes it a lot more intriguing, as well as a lot more challenging, both to investigate and to understand.

New World Turkey Vultures are a good example of partial migrants, with some populations consisting entirely of migratory individuals, whereas other populations consist of both migratory and non-migratory individuals, and still other populations consisting entirely of non-migratory individuals.  The degree to which different populations of Turkey Vultures interact, and the effects they have on each other is not well known.  One place where such interactions have been explored is in the Llanos, the enormous freshwater wetland of central Venezuela, where Turkey Vulture migrants from western North America, which are larger and more massive than the region’s non-migratory, year-round residents, displace the latter from the best available habitats and gain weight after their arrival while the supplanted residents simultaneously lose weight.  Indeed, the so-called Llanos “residents” appeared to “migrate reciprocally” to avoid competing with of the larger North American birds.

But what happens in areas in which some breeders migrate south in autumn, whereas other stay put, while still others from more northern breeding sites migrate into the region and over-winter there?  Such is the case in the Sonoran Desert of southwestern Arizona, where members of the breeding population include both migrants and non-migrants of the aura race of Turkey Vultures, whereas as the winter-only individuals are migrants from the larger and more massive meridionalis race from farther north.  (Note: There are six subspecies of Turkey Vultures, three that breed in North America, along with two that breed in Central America, and three that breed in South America.)

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Keith and Hawk Mountain Sanctuary Senior Researcher Dr. Jean-Francois Therrien fitting a satellite to one of the norther breeders this January.

We began satellite tracking members of the Sonoran Desert breeding race in 2014 and have followed the movements of nine birds since then.  All but one have proved to be migratory, with some individuals overwintering consistently in Mexico, whereas other have overwintered consistently either in Guatemala, El Salvador, Panama, or Colombia.  In late January of this year my Hawk Mountain colleague, Dr. Jean-Francois Therrien, and I traveled to our tapping site outside of Phoenix and successfully trapped two winter-only individuals of the meridionalis race of Turkey Vultures.  Although we don’t know exactly where these two breed, as of early-March one was on Vancouver Island in south western most Canada, and the other was in Death Valley California in late March, with both north of their Arizona trapping site.

Tracking the movement of all of these Sonoran birds for several years will allow us to determine if the northern breeders crowd out the smaller year-round residents from Arizona, and if so, whether or not the smaller southern migrants leave in autumn in advance of the arrival of the larger northern migrants and time their returns to avoid the departing northern migrants in spring.

Although this may seem a bit esoteric to some, understanding the extent to which the two subspecies interact in the Sonoran Desert has important implication for conservation.  Suppose, for example, that in Arizona the larger northern breeders consistently dominate the smaller southern breeders.  If so, the size of the former’s populations could limit the size of the latter’s, particularly in winter when food may be limiting.  If so, the fate of the latter would be affected by the fate of the former.  Thus, if global change were to affect the former–either positively or negatively–the latter might “respond” as well, albeit indirectly, in-kind.  Although, all of this remains highly speculative, the extent, if any, to which populations of the two races merits examination, and I very much look forward to doing so over the course of the next few years.

I will keep you posted of the arrivals and departures of both our “northern” and “southern” Arizona migrants this summer.

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