Seeking a Stilt

Written by: Samantha Martinez, Environmental Educator

Stilt 22-948 admiring a photo of an adult Black Necked Stilt 

Envision, taking an early morning walk, softly stepping over the same side walk steps and dewy blades of grass. All the same as yesterday and the days before that. Except one thing, a small bird scurrying across your path with its tiny black speckled body, atop its disproportionately long, thin legs. This is what happened to councilman Roger Coriat of Cutler Bay when he stumbled upon a baby Black Necked Stilt. At first, he let the baby be, assuming its parents were nearby. However, later on that day he saw the stilt was still alone, wandering across a parking lot right before it began to rain. He decided to take it in and contact a fellow city employee for advice. Luckily, his contact knew just what to do. They kept the baby safe and warm overnight and contacted Pelican Harbor Seabird Station first thing in the morning where our rehabilitation team had been preparing for its arrival. An imitation environment was created using a soft carrier, shallow water dishes, and foliage as well as images of adult Stilts. Once the baby was settled in, he was offered very small pieces of fish and worms in a shallow dish of water and began eating right away. 

Stilt  22-948 in his outdoor imitation habitat

Other than the stress of losing his parents and some mild dehydration, he luckily seemed to be in perfect health. Now began the mission of finding him other conspecifics to bond with. Our Rehabilitation Manager Yaritza Acosta reached out to a group of Florida wildlife rehabilitation centers with over 200 members from different organizations across the state. Our team hoped to find a suitable foster sibling for our new patient but as of now, no other Black Necked Stilts his age have come into care. The staff continues to use images and calls of adult Stilts as well as hands-off techniques to prevent habituation and assure this patient has the best chance of surviving in the wild. He continues to do incredibly well in care and has gained almost 100 grams since his arrival. Keep up to date on our social media to get updates on this adorable patient's progress and release back to his native habitat! 

Preserving our Urban Paradise

Written by: Samantha Martinez, Environmental Educator

Barn Owl 22-842

In Miami, we are constantly growing and upgrading our infrastructure as new homes, highways, and businesses are built daily to expand our urban paradise. This, on occasion, can come at the cost of the homes of our wild neighbors. This is what may have happened to patient 21-842, a juvenile Barn Owl. This owl was found on a construction site after a tree, believed to be harboring the bird's nest, was cut down. Unable to fly and with dry blood covering his feet and nares, the owl was brought into Pelican Harbor Seabird Station.  We see this all too often at PHSS, especially during the spring months as people prepare for hurricane season.

Once in care, our rehabbers noticed swelling and lameness in this patient's right leg, with x-rays confirming a midshaft fracture to the tarsometatarsus bone. The rehab team thoroughly cleaned the area and added a half splint with firm cast material to immobilize the young owl's leg during the healing process. This, coupled with supportive care, antibiotics, and pain medication, has this bird on the road to recovery. However, there is still a long way to go, and not all displaced fledglings are so lucky.

Wildlife rehabber, Carolina, renesting a displaced Eastern Screech Owl nestling.

We understand that tree trimming and construction are often unavoidable facts of urban life, especially considering the need to prevent damage from hurricanes. However, we recommend some simple ways to help avoid harm to wildlife when starting a building project or trimming trees for whatever reason. Such methods include doing an initial survey of the area to see if any wildlife is inhabiting it. You can check for droppings, nests, or nesting materials, and listen for animals in the immediate vicinity. If you find that an animal is nesting in a tree you plan to trim, we recommend leaving all branches supporting the nest as well as those protecting it from weather and predators until all babies have left the nest. Most birds will be done nesting by mid-July. Following these simple steps will help save countless nesting birds and mammals and prevent you from receiving costly fines associated with disturbing a federally protected nest. To learn more about protecting wildlife while trimming trees, feel free to reach out to us for a copy of our Animal Safety for Arborist sheet. 

Saved by the Power of Light

Written by: Milena Orjuela, PHSS Intern

Pelicans are meant to glide through the sky, dipping in and out of the ocean on a sunny day, and leaving your jaw dropped if they happen to catch a fish near you. That is what I thought until Pelican 21-372 came to our clinic. After taking a quick glance at the bird, I secretly thought to myself, “you are doomed.” Pelican 21-372 first came into our care after being spotted with monofilament entangling its left wing, upper body, and head. It was obvious upon examination that the bird was also malnourished and dehydrated. Our staff noted multiple open wounds in its face, abdomen, legs, and a large malodorous wound on the left patagium. A malodorous wound is characterized by necrotic tissue, or bacterial colonization, often containing both anaerobes and aerobes and is a major obstruction to healing. The patagium, the site of the open wound, is a web of elastic fibers that extends from the head to the wrist and has the very important job of assisting birds in gliding and flying. Such a grave injury on a crucial part of the bird’s wing is why Pelican 21-372’s chances were initially seen as quite poor. 

A set of X-rays determined that there were no fractures or broken bones to deal with in addition to the obvious open wounds. Subcutaneous fluids were given to aid with dehydration, antibiotics, pain killers, anti-inflammatories, and Vitamin E were administered to help the healing process, and the pelican was given one dose of anti-parasitic medication. All wounds were thoroughly cleansed and special care was given to the left wing. All dead tissue was removed from the patagium, a topical antibiotic ointment was administered, and the wing was wrapped. Though the physical treatments and medications certainly had a very beneficial role in healing the bird, the laser therapy Pelican 21-372 received is what really allowed such a miraculous recovery. 

First developed in 1960, laser therapy can heal major injuries at a cellular level by stimulating a process called photobiomodulation. Photobiomodulation or PBM works as photons enter the tissue and interact with the Cytochrome C complex inside cellular mitochondria. The absorption of light by the Cytochrome C oxidase helps the cells to increase the production of Adenosine Triphosphate (ATP), which is the intracellular energy transfer molecule. This helps to restore the oxidative process which allows the cells to resume normal functions, preventing cell death and associated complications. Additionally, laser therapy can stimulate the production of free nitric oxide (NO) and reactive oxygen species (ROS), which is a powerful vasodilator, and an important signaling molecule, respectively. Together, these chemical compounds and molecules can promote faster signaling, decreased edema, reduced inflammation, and a faster healing process. Looking at the body as a whole, PBM causes a beneficial systemic effect by expanding cellular proliferation, improving microcirculation in the tissue, and inducing growth factor production. Because the results of photobiomodulation are very dose-dependent, the strength of the therapy is selected according to the patient’s clinical presentation. High frequency (above 500hz) penetrates shallow tissue which will inhibit pain, swelling, and nerve damage. In contrast, lower frequency (under 500Hz) targets deeper tissue which speeds the healing process and is specifically used when reproduction of new cells is required.

In this case, our beloved Pelican 21-372 received low-frequency laser therapy, during which 50Hz were administered throughout the treatment. As hoped, the laser therapy significantly improved wound proliferation with comfort and ease. Treatment times should be reduced as healing begins and the injury begins to show improvement. For example, if a 3” incision takes 3 minutes to treat, then a 2” one would take 2 minutes. Any additional photons delivered over the required dose will then become inhibitory, creating a plateau in the healing process. Physical treatments, medication, and the impressive work of the laser therapy made the wound healing so significant that pelican 21-372 was described as a “healing machine” by one of our staff members. Within 16 days of admission, the pelican was spending time outside in the sunny weather, and even flying around the enclosure. It was then that the final round of antibiotics and pain killers were administered, to allow for a few more days of active healing. Although the wound was healed, the Brown pelican needed more time to regain full extension of the wing. Without full extension of the patagium, the bird would not be able to fly. To help the Pelican on the path to regain full extension and fly our staff would do physical therapy on the patient as well as allow the patient to do its own physical therapy by being outside. After nearly four months of this arduous job, all of our efforts yielded great results and Pelican 21-372 was able to be released. Next time you are at the beach and see a pelican flying by, remember that wildlife is precious and take pride in knowing they will be protected and cared for!

The Wooden Fence of Terror

Written by: Kaisha Chaves Solomon, PHSS intern, and Operation Rescue and Release volunteer

The morning of September 4th, Operation Rescue and Release notified the group chat of an injured Virginia opossum located in coral gables. I was scheduled for my internship that day; therefore, I informed Pelican Harbor Seabird Station I'd be available to perform the rescue and transport it to the station. On arrival, I contacted the good samaritan that reported the injured Opossum, patient 1612. As she guided me to the backyard, she explained she found patient 1612 hanging by its arm caught in the crack of a wooden fence. How long the opossum found itself dangling from the wall is unknown. The finder and her husband freed the Virginia opossum from the barricade, but it was evident damage was done on the front left arm. Patient 1612 was kept in the corner of the fence and offered a mixture of fruits, yogurt, and egg until help arrived; although this was a healthy diet, providing food to an injured animal before the rescue isn't recommended. Onsite, patient 1612 seemed very stressed, so I used a towel to cover its head and proper gloves to carefully transport it into a box I had prepared with a towel inside. From there on, it was a quiet ride to the station.

When arriving at the clinic, Yaritza, one of pelican harbor seabird station's most talented and highly experienced wildlife rehabilitators, performed an intake exam on patient 1612. She concluded an x-ray was necessary to determine whether a fracture was present in the left front arm. I assisted with placing patient 1612, a now confirmed adult female, into a box to be weighed on the scale. She had a total weight of 2,545 grams, and staff indicated that I pull 90cc of subcutaneous fluids that would be given to her via subcutaneous fluid administration, an injection directly under the skin. The patient was placed under anesthesia to get a complete x-ray of her body. There was no indication of a fracture in her left arm; however, Yaritza discovered a fracture in the lower jaw on the left side. I transferred patient1612 from the x-ray table to the exam table. I assisted Yaritza by holding patient 1612's head and mouth open while she flushed and cleansed the bone exposure. Yaritza thought quickly on her feet and proceeded to sow three stitches in the lower jaw as a temporary solution to hold everything in place. Patient 1612 was given the following medications via intramuscular injection: Meloxicam, an anti-inflammatory drug; Buprenorphine, a pain reliever; Ivermectin, a medicine used to treat parasites; and finally, Excede, an antibiotic. Patient 1612 also received laser therapy for her swollen left arm to help reduce the inflammation and minimize the pain.

Dr. Schneider performed surgery a few days after intake to remove the underlying infectious tissue from the wound on her front arm. The wound was so infected that we treated it as an open wound. We would clean the wound daily and replace the bandage with a new wet to dry bandage. Wet to dry bandages are used with infected wounds to draw out the infection. Along with daily bandage changes we would also cleanse the fracture site of the jaw to prevent infection. She also received laser therapy on both the rostral mandibular fracture and left front arm. Unfortunately, as the days went by, patient 1612 refused to eat overnight, causing her to lose weight drastically. There was significant tissue and nerve damage on the left front arm; therefore, staff concluded the front left limb would never function again. Patient 1612 would not be suitable for release with amputation. Therefore, euthanization was the most humane outcome for the patient. 

In conclusion, homeowners must keep in mind our furry and nocturnal neighbors and be up to date with the maintenance of their property. You never know whose life you may be saving with a simple fence repair.

Young Survivor

Written by: Maria Rakita, PHSS Intern

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Patient 21-1465 was a baby Grey Squirrel that fought to survive by her strong will and with the help of Pelican Harbor Seabird Station. Patient 1465 had fallen from her nest when she was found by a local bystander. They attempted to renest her, but sadly the renesting was not successful and she had to be brought in eight hours later. During her intake examination, she was found to be cold to the touch, slightly dehydrated, timid, had dirt in her nose, and weighed 39 grams. Patient 1465 was in dire need of help, especially since she wasn’t able to be reunited with her mother.

    After her intake examination, she was given fluids subcutaneously and oral mammal electrolytes. Fluids that are given subcutaneously are similar to the fluids given to a person through an IV. It is meant to keep the patient hydrated under the skin, hence sub(under) cutaneous(skin). In order to give fluids subcutaneously, the fluids must be calculated based on their weight, then we add a small amount of vitamin B12 to the fluids. The fluids will build up and create a bubble under the skin which will slowly be absorbed by the body. The electrolytes that were given are meant to help rehydrate the baby squirrel. We have specific refeeding guidelines for new orphaned babies. They start with mammal electrolytes and are slowly introduced to a specialized formula. We do this because the formula we give them is not exactly the same milk they get from the mom, so introducing them to our formula too quickly can cause digestive issues and dehydration. The main plan was to keep an eye on her attitude, weight, and normal physical growth. We updated her feeding plan daily to determine how much milk she will be fed and when to introduce solid food. 

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    Feeding squirrels can be extremely difficult because they are prone to aspiration, a condition in which fluid is inhaled into the lungs. When a squirrel becomes aspirated it can lead to more severe problems such as aspiration pneumonia which is why we encourage the public not to feed them. Unfortunately, patient 1465 became aspirated a couple of days after she was brought in because she was so hungry, she suckled too hard on the nipple. It could be deadly if not treated, however patient 1465 was in good hands and was given medicine right away. She got SDT (an antibiotic), as well as nebulization treatments to help clear out the lungs and prevent aspiration pneumonia. 

      Patient 1465 progressed very well with the treatments prescribed. As she grew in age, weight, and physical appearance she was able to eat what we call a soft squirrel diet and her formula. Soft squirrel diet is soft fruit and vegetables, as well as a specific biscuit that is soaked in water, so it is soft. Her weight increased and her fur looked healthy and soft. After a month of being fed formula and a soft diet, she was paired with other squirrels around her age to become wilder. We want a squirrel to become “wild” so it has a better chance of survival in the wild, so by pairing up squirrels they will be influenced by each other’s crazy and excited behavior. Since patient 1465 came in so quiet she was very calm, so pairing her up with other squirrels helped her become wilder. Patient 1465 and her group were fed a dry diet now which means they had fruit and vegetables, nuts, seeds, and a specific biscuit that is hard. Once squirrels’ teeth start to grow it is important to provide them with plenty of hard food that will prevent their teeth from overgrowing. 

   The next month, patient 1465 was moved outside into our aviaries to get used to the outdoor climate, socialize more, and hone her natural behaviors and skills.  It is important to contact your local wildlife center if you find an injured or orphaned wild animal. This way they can properly assist you in what to do. We understand that when people find animals they are just trying to help but what we want to express is that what you think may be helping the animal could actually be harming it further. Pelican Harbor Seabird Station’s clinic staff has the proper training and experience when it comes to treating and caring for South Florida's native wildlife. All in all, squirrel 21-1465 was released and is now living her best life in the wild.

A Hoot and A Half

Written by: Cynthia Verling, PHSS Intern

Imagine you are walking on a sunny day in the lovely city of Cape Coral and stumble across a burrow! You wonder, who made this carefully crafted burrow their home? Is it a mole? Is it a gopher? It’s a burrowing owl! With bodies reaching a maximal length of 9.8 inches and a wingspan of 21.6 inches, these one of a kind avians are one of the smallest owls in the State of Florida and are classified as State Threatened by the Florida Fish and Wildlife Conservation Commission (FWC)., These ground-dwelling owls create burrows and nests underground, as hinted at within their scientific name, Athene cunicularia – cunicularia meaning to mine or burrow in Latin. Unlike the usual image of owls peering down from trees in dense forests, burrowing owls live in vast open habitats, such as grasslands. Their burrows can stretch for lengths ranging from 6 to 10 feet, consisting of intricate tunnels weaving about 3 feet below the surface containing several bends and paths at the end of which a chamber can be found that harbors their nest., Some owls will use existing burrows or even pipes to build their burrows. The entrances to these humble abodes consist of mounds of dirt, grass, human trash articles, and are also covered intentionally by the owl with animal dung to attract insects which they can then eat. Their burrows not only serve to store away food in plentiful amounts during the period of incubation and brooding, but also provide an environment in which temperatures are better regulated and further aid in preventing the owls from dehydration during very hot days. Although, with increasing human developments and urbanization, habitat loss is an imminent and ongoing threat to these owls. In response, these owls begin to build burrows in urban environments, such as golf courses or even airports. Characteristic traits of adult burrowing owls include their dazzling yellow eyes, spindly long legs that allow them to get a better outlook from the ground-level, short tails, brown dorsal feathers with white spots and white ventral feathers with brown bar-shaped patches, distinct white eyebrows and throats, and characteristic round heads without the familiar ear tufts commonly seen in woodland owls., Nestlings on the other hand have cream-colored downy feathers that have less distinct speckles. Their diet consists mostly of insects but can also include other small birds, fish, rodents, and particularly in Florida, reptiles, such as snakes, frogs, and lizards, as, after all, raptors are carnivores.

The burrowing owl is arguably a perfect embodiment of the idiom “rare bird,” as it has so many unique attributes that set it apart from other birds in the family Strigidae. In addition to their peculiar small size and absent ear tufts, these owls are diurnal rather than nocturnal during the breeding season, thus showing activity during the daytime., Known to be very animated and sprightly, it is not uncommon to see these owls bobbing and bouncing up and down, while nestlings will even playfully leap at one another and prey, accruing at the same time important behavioral skills to prepare them for hunting later in life. Interestingly, nestlings also are known to imitate the rattling of a rattlesnake from within the protection of their burrows as a defense mechanism to ward off unwanted visitors, such as predators and humans., As a consequence of being the only species that perch on the ground, burrowing owls behave differently than one would expect; for example, if bothered or hunting they can be seen pushing themselves flat against the ground or running, respectively, as opposed to flying like owls usually do. Even more fascinating is that unlike other raptors, where the female is visibly larger than the male, which is termed “reverse sexual dimorphism,” female and male burrowing owls are the same size, with the latter being only a mere 3% larger – a size difference imperceptible to the naked human eye at first glance. Furthermore, male and female Burrowing Owls bear the same coloration, which is interesting as sexual dimorphism dictates that female and male conspecifics have traits that differ between them, and in many birds, this usually results in males exhibiting a visibly larger size or significantly more extravagant plumage coloration or ornamentation– traits that serve in courtship or competition for mates. Burrowing Owls pair for life, and unusual for an owl, are not solitary, but rather prefer to live in small colonies. This can be explained by the principle of group living, believed to have evolved independently in many different species. Group living confers advantages such as greater protection against predators, group defense, increased feeding efficiency, sharing of behaviors and communicating information, increased rate of reproduction due to access to potential partners, shelter, division of labor, and social thermoregulation. Burrowing Owls exhibit such social behaviors as the male and female even take turns in incubating the eggs, foraging, and caring for the offspring. Therefore, smaller species are often found living together in groups. Lastly, due to the significant amount of time they spend underground where there is less oxygenated air, they have an adaptation that confers them an increased tolerance for carbon dioxide.

These incredible avians are, however, under threat of habitat loss, degradation, and fragmentation, as well as climate change, and rodenticide poisoning, which all have long-lasting impacts on entire ecosystems. Burrowing owls fall victim to secondary rodenticide toxicosis called “bioaccumulation” when they consume rodents that have consumed rodenticide., Second-generation anticoagulant rodenticides (SGARs), e.g., brodifacoum, are slow-acting anticoagulants, which result in the rodents not dying instantly. This leads to poisoned rodents slowly becoming weak, but because they are not instantly killed, they roam about, becoming more easily caught by predators such as Burrowing Owls. Bioaccumulation, however, causes for the period the rodent is alive to allow for a buildup of toxins to a much greater lethal dose. As the owl consumes the rodent, the toxin moves through the food web from rodents (secondary consumers) to burrowing owls (tertiary consumers), running the risk of accumulating even greater lethal amounts of poison over time at a rate greater than it can be broken down, this time in the burrowing owl. Brodifacoum is according to one source, the most widely used rat poison in the United States, and has a very long half-life in animals. A study conducted from 2006 to 2010 at Tufts Wildlife Clinic at Tufts University’s Cummings School of Veterinary Medicine reported that from 161 birds, 86% had anticoagulant rodenticide residues in their liver tissues, of which 99% had brodifacoum in their liver tissues. Moreover, only 9 of these birds that tested positive exhibited clinical symptoms, demonstrating that many affected may not show visible signs of poisoning, which is critical given the concern of bioaccumulation at an ecological level. SGARs function by inhibiting the enzyme vitamin K reductase, which under normal conditions allows for the reactivation of vitamin K – a fat-soluble vitamin that plays a vital role in the coagulation cascade by producing coagulation factors I, II, VII, IX, and X in the liver and synthesizing Protein C, Protein S, and Protein Z that serve to prevent thrombosis., During the coagulation cascade, the factors produced by vitamin K are crucial to allowing the downstream activation of prothrombin to form thrombin, the latter of which ultimately stimulates the conversion of fibrinogen to fibrin, which traps platelets to form a spongy mass that hardens into a blood clot and prevents one from bleeding out. Additionally, the Cornell Wildlife Health Lab explains that animals commonly have stores of clotting factors that delay the full effect of poisoning for 3-5 days following ingestion and the hemorrhaging onset. While coagulation panels (a blood test) exist for diagnosing anticoagulant rodenticide toxicosis in domestic animals, there are currently no existing blood tests for birds to screen for rodenticide toxicosis. Burrowing owls that get a lethal dose through consuming an affected rodent face an inhumane slow death from internal or external bleeding that causes them to weaken, which may cause them to obtain injuries in the meantime, until either the hemorrhaging or other life-threatening injuries sustained while weakened eventually kill them. If rodenticide toxicosis is evident, vitamin K can be administered to act as an antidote and help restore the blood coagulation cascade to normalcy. Additionally, stomach flushing, inducing vomiting, and administering activated charcoal are all treatments that may be used to prevent additional absorption of toxin by the body. 

Raptors such as Burrowing Owls play a critical ecological role both in the wild and in urban areas. Rodenticide toxicosis in these incredible avians is not just an issue to be left to conservationists and wildlife rescue and rehabilitators, but is a public issue that must be addressed at the source to prevent further systemic damage throughout food webs, as maintaining a sustainable and biodiverse ecosystem is a necessary goal for conserving, protecting, and restoring healthy and vibrant wildlife and their habitats and by extension and directly in relation also human health, as we are all connected and a part of the planet’s ecosystem.

Sources:

Conway, Courtney J. “Burrowing Owls: Happy Urbanite or Disgruntled Tenant?” In Urban Raptors: Ecology and Conservation of Birds of Prey in Cities, edited by Boal C.W., and Dykstra C.R., Washington, DC: Island Press, 2018. 

Cornell University. “Burrowing Owl: Identification.” The Cornell Lab of Ornithology

Cornell University. “Raptors and Rat Poison.” The Cornell Lab of Ornithology

Cornell University. “Rodenticide Toxicity.” Cornell Wildlife Health Lab

Florida Fish and Wildlife Conservation Commission. “Burrowing Owl.”

Khan, Safdar A., and Mary M. Schell. “Anticoagulant Rodenticides (Warfarin and Congeners).” Merck Veterinary Manual. Last modified October, 2014.

Libre Texts. “Role of Vitamin K.” Last modified August 13, 2020.

Murray, Maureen. “Anticoagulant Rodenticide Exposure And Toxicosis In Four Species Of Birds Of Prey Presented To A Wildlife Clinic In Massachusetts,” 2006-2010. Journal of Zoo and Wildlife Medicine 42, no. 1 (2011): 88–97.

National Audubon Society. “Guide to North American Birds: Burrowing Owl.”

National Geographic. “Biomagnification and Bioaccumulation.”

National Marine Sanctuary Foundation. “Sea Wonder: Burrowing Owl.”

Owl Research Institute. “Burrowing Owl: Athene cunicularia.”

Runnells, Charles. “Cape Coral's burrowing owls: Everything you need to know about the city's famous bird.” The News-Press. February 23, 2019.  


Vallejo, David. “Animal’s social behavior: Group living.” Zoo Portraits. July 17, 2018.

The Vitamin B Guarantee

Why B Vitamins are Essential in the Treatment of Animals

Written By: Samantha Martinez, Environmental Educator

Here at Pelican Harbor Seabird Station every patient admitted gets an intake exam as soon as is deemed appropriate for each animal. An intake exam is the observation of the patient and the hands-on exam, as well as initial steps of diagnosing the issue and beginning treatment for the patients that come into our care. This includes physical examinations of the patient's body, obtaining a weight, administering anti-parasitic medication when appropriate, and subcutaneous fluids with vitamin B complex. We administer a complex of these vitamins to prevent any imbalance of a singular B vitamin since each is required for independent body functions. According to PHSS’s Rehabilitation Manager Yaritza Acosta, “Usually animals are coming in with some level of stress, debilitation, and dehydration, so we give them a boost of B vitamins on intake for overall health and cell function.”

According to the NWRA wildlife formulary, B vitamins can be very useful in increasing appetite and have been anecdotally shown to help with growth in poor-doer infants, specifically baby opossums. Vitamins B2, 3, 5, 6, 7, and 8 are important for skin quality and skin barrier function. Meaning that without them, the skin would not be able to properly keep in essential fluids and keep out unwanted chemicals and bacteria from the body. These vitamins are also important for numerous micro functions throughout the animal's body such as the formation of cell membranes, the growth of epidermal cells, cellular respiration, and taking part in metabolizing carbohydrates for energy.

Vitamin B12, also known as cobalin, is also very important for liver and pancreas function. Vitamin B12 along with B6 and B1 are also essential for the maintenance of a healthy nervous system which makes them very helpful in cases of CNS (Central Nervous System) trauma. Without an appropriate amount and diversity of these nutrients, animals may experience dysorexia, alopecia in mammals, non-pliability of the skin, and nervous system dysfunction. Thankfully, with the help of our community in the forms of both medical supplies and monetary donations, we are able to continue to provide these basic vitamins and minerals along with many other much-needed medications, food, and equipment. 

Sources

“The Importance of B Vitamins.” Veterinary Practice, 25 Aug. 2021

Kobeissy, Firas. “Autoantibodies in CNS Trauma and Neuropsychiatric Disorders.” Brain Neurotrauma: Molecular, Neuropsychological, and Rehabilitation Aspects., U.S. National Library of Medicine, 1 Jan. 1970 

MO;, Calderón-Ospina CA;Nava-Mesa. “B Vitamins in the Nervous System: Current Knowledge of the Biochemical Modes of Action and Synergies Of THIAMINE, Pyridoxine, And Cobalamin.” CNS Neuroscience & Therapeutics, U.S. National Library of Medicine 

Shaffer, Dr. Catherine. “Vitamin b Deficiency.” News, 27 Feb. 2019

Wonderful Warblers

Written By: Sarah Stinson-Hurwitz, Wildlife Intake Associate

Fall migration is in full swing! Sweet little warblers are migrating all the way down to Central and South America for the winter after summering in the Eastern United States and Southern Canada. Here in South Florida, we are lucky enough to be a stopover migratory site and see a lot of these little fellas in the fall. 

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We often get calls at the station when a finder sees a warbler, like the Cape May warbler shown on the left, on the ground not moving. A common first thought is that it needs help — it must be suffering from a broken wing or are unable to fly. If the warbler has a visible injury, your rehabilitation center should be contacted immediately. But oftentimes, the bird is just stunned from a collision with a window or another obstacle and needs a moment to recuperate. The best thing to do when you find a stunned warbler is to stand back and observe for about 20 minutes to see if they recover and fly away on their own. If not, it's time to take a photo and call us (or your nearest rehabilitation center) to determine next steps. 

Window collisions are the second deadliest human-related cause of bird injuries (cat attacks are the first). You can do your part to aid in their prevention by putting decals on your windows where collisions occur. The decals are made using the ultraviolet spectrum which is transparent to us humans but highly visible to birds. Collisions occur because birds are confused by the reflections of vegetation and sky they see in windows, and the decals upend this illusion. We also recommend placing feeders and bird baths either within three feet, or more than 30 feet, away from windows so that when birds take off they will not hit windows at dangerous speeds. If you are interested in acquiring decals, we have some available in our online store.  You can help make the world a safer place for warblers and all birds!

Why Passerines Aren’t Pets

The benefits of re-nesting songbirds 

Written By: Samantha Martinez, Environmental Educator

Humans have the amazing ability to empathize with their surroundings. To put themselves in the shoes of beings other than themselves. This is unequivocally a characteristic that we should nurture and be proud of. However; our own empathy that is meant to be used to help those around us can sometimes harm them when we are not fully aware of the effects of our actions. The most common situation that we experience like this at Pelican Harbor Seabird Station involves baby songbirds or mammals. Today we will dive deeper into the needs of baby passerines, also known as songbirds. And remember, always reach out to your local wildlife center if you find any wildlife that seems to need help

Nestling  Mockingbirds  Calling Out For Their Next Feeding From Mom & Dad 

From February to August Each year, parent songbirds will build a nest, incubate their eggs, and invest all of their energy into raising the next generation of their species. Inevitably they will run into a few roadblocks. For instance, a strong wind may knock all of their hard work completely out of the tree, babies and all. A  few may be stumbled on by humans who are more than willing to help. Now someone's first instinct may be to take the babies home and begin to feed them. This may seem like the most logical course of action but is actually not the best way we can help and has actually been coined “Bird-Napping”. In cases of fallen nests with birds that are too young to learn to fly, re-nesting would be the best option.

But what about older birds? Baby songbirds learn to fly from the ground up and can be found hopping on the ground as they build up their wing muscles until they are able to fly. In the case of baby birds learning to fly, it may look strange to us to see a bird on the ground. However, this is a completely natural process that every songbird must go through so it is important that we respect this process and leave the fledgling birds to complete their flying lessons. While their parents may not be easily visible, they are keeping an eye out for their little ones. 

Depending on their life stage, re-nesting or simply leaving them alone may be the right answer. Information on how to renest a baby bird and identify the life stage of said bird can be found here on the PHSS website. Two videos from our website will also be included at the end of this article.

Juvenile Northern Mockingbird Learning To Fly From the Ground Up

If you are still feeling iffy about the idea of leaving the baby birds, you should also be aware of the dangers you may unintentionally be imposing on these helpless younglings. Firstly, different species of songbirds each take up a specific niche in their environment when it comes to the foods they eat and baby songbirds can be extremely difficult to identify correctly. Feeding a baby bird something other than its natural diet can lead to digestion issues, growth stunting, a weakened immune system, or even death. Secondly, being raised by people can completely take away a bird's ability to behave normally in the wild and have the proper social skills to connect with other conspecifics (members of the same species) and may prevent them from breeding in the future. Though they are absolutely adorable and if raised by people can become quite friendly, wild birds or any wild animal for that matter should never be kept as a pet if it has the potential to have a full life in the wild since wild animals are biologically on every level different from domesticated animals and have much more complicated requirements to stay happy and healthy. 

All in all, good people from all walks of life stumble upon baby birds during nesting season and hear the call for help from these younglings. It is important to keep our empathy intact and do what we can but also be aware and informed of the best ways to help these animals before our good deed goes awry. Whether that be to put them in a strawberry basket with some leaves and re-home them in the closest tree or bush and wait for mom and dad to return or if the best thing is to just leave them be so they can grow into healthy well-adjusted birds. Either way, it is important to not let our first judgment and good intentions take away the right of every wild animal to be free. 


Found a baby bird? Here are some videos to help you identify the best course of action:

Comfy Cardinal Condo for Three

Written by: Sarah Stinson-Hurwitz, Wildlife Intake Associate

In late July, a worried citizen noticed a couple of cardinal nestlings in some tall grass. She took a look around to see if she saw the parents or a nest and she was able to locate the nest these babies fell from but their nest was too high for her to reach. She contained them and brought them into the station, and after a quick check-up, our wildlife rehabilitators determined they were perfectly healthy and renesting them would be the best next step!. 

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Do you know what to do when you find healthy uninjured nestlings on the ground? If the nest is out of reach and their parents are in the area (we recommend waiting a few hours to give the parents a chance to return if you don’t initially see them) a renest is the next step! Renesting is always our preferred choice for uninjured nestlings because momma birds are the best qualified caretakers for their babies. Renesting entails making a new home for babies (with a small box: cardboard, plastic strawberry carton or anything with drainage) and attaching to the tree they came from or one nearby or if possible placing babies back there original nest. https://www.pelicanharbor.org/baby-bird-help

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This is exactly what we did for our little cardinal friends. We snuggled them into a new studio apartment (with drainage of course) and sent them back with the finder to be placed securely in their home tree. The finder brought them back and ensured there was plenty of foliage overhead to protect them from the elements and that their new nest was stable. About 20 minutes after their placement, Momma cardinal heard her babies calls, settled into their new home, and provided a nice fresh breakfast.    

Finders are often worried momma bird will have trouble finding her babies after a renest, but just like humans, momma and baby alike have distinct calls (like our voices) and use them to recognize one another! If you ever find a wild animal that you think may need help, give us a call and we will guide you to determine the best course of action.