Winter 2015
Transcription
Winter 2015
THE QUARTERLY NEWSLETTER OF THE NEW YORK STATE WILDLIFE REHABILITATION COUNCIL, INC. Volume 35, Number 2 Feb. 2015 NYSWRC Board Meetings are open to everyone. E-mail Kelly Martin, President Too Cold!, Too Long!, Too Much! by Beverly Jones 2015 NYSWRC Annual Conference Nov. 6-8 in Syracuse NYSWRC Board of Directors Kelly Martin, President kmartink@midtel.net Barb Hollands, Vice Pres. barbh103@rochester.rr.com Cheryl Hoople, Secretary hooplec@juno.com Amy Freiman, Treasurer & Release nisseq@aol.com Jean Alden, Membership Jalden4@verizon.net Barb Cole brancher@clarityconnect.com Maggie Ciarcia maggie119mae@yahoo.com Virginia Frati wrwrch@aol.com Sue Heighling sheighling@roadrunner.com Beverly Jones bjonesnature@yahoo.com Ellen Kalish info@Ravensbeard.org Terri Murphy wtaoffice@aol.com Veronica Serwacki Serwacki@canisius.edu Lauren Schulz Eddings vw.education@gmail.com Matt Zymanek mjzymanek1@aol.com Advisory Board: Andrea Sammarco, Attorney at Law George Kollias, DVM, PhD Noha Abou-Madi, DVM, Msc. Karen Moran, DVM Webmaster: Molly Gallagher silverlair@verizon.net www.NYSWRC.org Back issues of Release are available in color online. Many of you may have read the press release that was sent out by the DEC in March of 2014. The report stated that thousands of dead ducks were observed along the shore waters of Lake Erie and the Niagara River. Sightings of dead ducks were reported as far East as Irondequoit Bay on Lake Ontario. The DEC’s Wildlife Health Unit examined hundreds of dead birds and diagnostic testing did not reveal any infectious diseases. Starvation was listed as the primary cause of death. The die off was determined to be a natural, weather-related event due to extreme and prolonged cold temperatures. This article will share with you the experiences of the SPCA Wildlife Department during this water bird crisis. In Western New York, the winter bird migration is dominated by the arrival of hundreds of thousands of diving ducks. These birds summer in Alaska and in the Northern Canadian Shield. The birds begin to arrive around the middle of December with their peak numbers occurring in the middle of January, and most will depart by the end of March. Local DEC wildlife biologists perform annual winter waterfowl surveys during the winter months in order to monitor bird populations over time. Diving ducks are specialty birds that live their entire lives on the water. 250,000-350,000 birds arrive annually to winter on the Niagara River and Lake Erie. The Buffalo area is a magnet for these migratory diving ducks for two essential reasons, one because it has open water and two because it offers an abundant food supply. Open water is created by the New York Power Authority’s Ice boom that stretches across the head water of the Niagara River. This ice boom was put in place in 1961 in order to keep the Niagara River and Niagara Falls free of ice buildup from Lake Erie. Water remains open in the Dunkirk harbor, located on Lake Erie, 40 miles south west of Buffalo due to the nearby Dunkirk Power Plant. The steam generator power plant draws in cold water from the lake to cool their equipment. The water is warmed in the process and is then returned to the lake. Editor’s note: I welcome your articles, poems, information, questions and artwork. We are pleased to print articles from our members, but caution each reader that NYSWRC is not responsible for the accuracy of the content or information provided, and does not necessarily endorse the policies proposed. Submissions should be sent to: nisseq@aol.com Page 2 Too Cold!, Too Long!, Too Much! The second important factor for the birds is food availability. While some species of water birds like canvasbacks do eat plant vegetation and some species like scaups eat mussels, diving ducks are primarily fish eaters. Every one of these migratory water birds needs fish in the winter to fuel their metabolisms. Lake Erie is a highly productive lake, and as such, allows for the creation of a “fish factory” of emerald shiners. Wintering water birds thrive on the massive volume of fish which are available to them all winter long. The open water and abundant fish supply are what congregate the migratory birds. Because of the high number of water birds in the area, this corridor is designated as a globally significant Important Bird Area or IBA. There are only 75 IBA’s in the lower 48 States. So why then, was Buffalo not the usual haven for migratory diving ducks during the winter of 2014? The answer is due to the arrival of the Polar Vortex. The Polar Vortex is an area of low pressure, dense arctic air which spins in a circular pattern with wind speeds up to 100 mph. This Vortex is semi-permanent, is often in place at the poles and is strongest during the winter. Beginning in early January of 2014, powerful high pressure system originating in the Eastern Pacific stretched to the North Pole and shoved part of the Polar Vortex South and deep into the United States. This shift of Arctic air created temperatures so low that they shattered many of the all-time low temperature records kept by many states. When the strong air from this system weakened and fell apart, the Polar Vortex retreated back to the North Pole, returning areas to “historically” normal temperatures. Due to the Polar Vortex, ice cover on the Great lakes reached historic levels. Peak ice hit on March 6th when 92% of the Great Lakes were frozen over. By early January, the arctic air caused the Niagara River to completely freeze in many locations and in other places, shoreline ice reached 200 feet out into the river. The long lasting extreme cold created expansive and persistent ice cover and ice shelves. In a typical winter, the water will freeze but the ice will break up after a few days. But the winter of 2014 was anything but typical. To follow the impact of the Polar Vortex on the migrating diving ducks, we will take a walk through the winter calendar month by month. The already frigid weather worsened when Buffalo was hit by a blizzard on January 7th. A blizzard has strong sustained winds of 35 mph or greater which last for a period of 3 hours or longer, is accompanied by frigid temperatures and creates a visibility of less than a quarter mile. The air temperature during the January blizzard was minus 5 degrees with a wind chill of minus 28 degrees. These temperatures tied the 1942 record of coldest blizzard on record. Lake effect snow dumped 7-14” of snow around the Niagara Falls/Greater Buffalo area and up to 24” of snow in the south towns. All of Erie County was in a State of Emergency. Prior to this storm, the last declared blizzard to hit Buffalo was in 1993. On January 8th, the day after the blizzard 6 diving ducks arrived at the SPCA Serving Erie County Wildlife Department. This group of water birds included two horned grebes, one red necked grebe, one red throated loon, a common loon and a ruddy duck. Because of the strong winds the night before, we were not surprised that these birds were found stranded on the ground away from water. The 3 grebes and red throated loon were in good weight, had great water proofing and were feisty. The common loon and ruddy duck were strong, but a bit thin. All were checked for water proofing and were fed live fish which they ate ravenously. It was decided that the grebes and red throated loon would be released the next day but the ruddy duck and common loon would stay in the wildlife hospital awhile longer. Diving ducks are specialty birds for many reasons, but one of the things that make them unique is their inability to manage land well. Some of these birds walk poorly on land while others cannot walk on land at all. So to release these birds, they must be placed directly into water. Because our usual release locations into Lake Erie and the Niagara River were frozen over, we contacted our local Coast Guard to see if they could help us get the birds to open water. They explained they were unable to do this because their rescue boat was frozen into the ice and rescues were being done only by helicopter. To their thinking, our dilemma did not warrant taking diving ducks out for a helicopter ride. Our next thought was to drive the birds to the Dunkirk boat harbor for release as we have had great luck with that location in the past. When we arrived at the dock, we were disappointed to discover that the power plant was in low operation and very little warm water was being returned to the harbor. There were pockets of open water with lots of birds within the harbor but the shore line and the water surrounding the docks was beginning to freeze. Because skim ice was preventing us from lowering the birds into the water from the dock, Jean Alden and I drove around town looking for something to help us open up the water. We found a house under construction where we dug through large mounds of frozen earth in search of large stones and big chunks of frozen dirt. We loaded up the back of Jean’s SUV and raced back to the harbor before our dirt bricks melted into mud. We began hurling the debris through the skim ice which drew the attention of a nature photographer who was on the dock in search of cool things to photograph. Apparently he found us to be as interesting as the birds because he stayed with us to watch. So, after much effort on our part, we finally opened up the water enough to release the birds. The release went well as all of the birds landed directly in the water. We did have an “Oh-no” moment when one of the horned grebes lifted out of the water and landed on an ice shelf. We had always been told that loons and grebes need open water in order to take flight so we became very concerned that the little guy was now stranded. Fortunately, we soon learned that either this theory does not apply to light weight grebes or that it does not apply to ice shelves in general because we were delighted to watch the little grebe lift Too Cold!, Too Long!, Too Much! Page 3 himself up and fly away. Happily we had a nature photographer along to document the event. Four more birds were admitted over the next couple of days. Two of these birds were strong with great water proofing so they went back out to open water. Two had medical problems so they had to stay. The common loon and ruddy duck from our original group of 6 were doing great and they were released on January 13th. We had released 8 of the 10 birds admitted thus far so we were feeling pretty good about things, but this feeling came to sudden end with the admission of more diving ducks late January and early February. Our concern was that two of the next four birds that came in were emaciated and weak and died two days after admission. The other two were very thin but were strong enough to survive. Still ignorant of the water bird crisis, we reasoned that since the birds were found in suburban back yards, they must have come down accidentally and been stranded for a few days before being noticed. By the time the two surviving birds were ready for release, the Dunkirk harbor was nearly frozen over as was most of Lake Erie. Access to the Niagara River was still very limited. We could reach open water in the Niagara River in a couple of locations but that water was very fast moving and it was not our preferred choice for a release. Fortunately, one of our wildlife volunteers has a family connection to a local marina. Since the US Border Patrol docks boats there, the water is always kept open. When we went to visit the marina, we were thrilled to see lots of diving ducks swimming in the water. We could also see lots of emerald shiners in the water, so we figured this was the best place to release our stranded birds. This became our plan of action for the next couple of weeks. From February 1st to February 15th, we admitted 19 more diving ducks. The majority of these birds were red breasted mergansers and greater scaups. When a diving duck came in to the SPCA we would give the bird a physical exam, swim the bird to evaluate water proofing, and feed the bird several big meals of fish. If they were strong and water proofed, we would take them to the marina for release. Weak birds or those with poor water proofing would stay with us for treatment until they were in good shape. Knowing we could not possibly house all of the birds that came in to us for the long term, we thought this to have been a pretty good plan, but we were really beginning to worry because the birds did not stop coming. We could not figure out why they were still being admitted in numbers like we had never before seen. As time went on the birds were arriving with body conditions that were getting worse and worse. We sent several carcasses to the DEC’s Wildlife Health Unit for necropsy where it was determined that the cause of death was starvation. We suspected this to be the case as the birds were responding very well to supportive care and good nutrition. By this time, diving ducks were being reported in places where they had never before been seen. They were on creeks and small rivers and any place where there was open water. It was frightening to know that the starving birds were leaving the Niagara River in search of food elsewhere. A duck hunter reported seeing 350 red heads, which eat only fish and river vegetation, land in a corn field to eat the corn. Water birds were found in wood lots and back yards and on roads and highways. The birds were flying around in search of open water and food until they were completely out of energy and then would literally fall out of the sky and hit the ground exhausted. We wondered if the birds were starving because there was a crash in the fish population or if it was because the ice shelves and ice cover were preventing the birds from getting to the fish. We learned through the DEC that the problem was the ice, not the fish. The fish were plentiful, but they were hiding under the massive ice shelves out of reach of the diving ducks. I heard of an ice fisherman who went out on the river to fish. As soon as he made a hole in the ice to drop his line, his hole was overrun with diving ducks trying to push themselves into the water. He soon left his fishing hole because it broke his heart to watch the starving, and desperate birds in their frantic search for food. The last two weeks of February presented us with another 48 diving ducks. All of these birds were emaciated and weak with little or no water proofing. Some of the birds died shortly after admission and others were immediately euthanized as death was certain. DEC Wildlife biologist, Connie Adams who was collecting deceased waterfowl by the truck load was quoted as saying: “This is unprecedented. We’ve never seen anything like this. We are contributing it to prolonged ice cover for an extended period of time. I knew it was going to be bad when I was first alerted to the situation, but it is worse than I thought.” By now, we knew that a release at the marina was no longer the safe haven we once thought it to be. The number of live birds on the water had greatly diminished and there were numerous dead birds visible on the ice near the docks. We kept hoping that the weather would break so the ice would Too Cold!, Too Long!, Too Much! melt and food could become available but the cold temperatures marched steadily on… We had now reached the first of March. We were mentally and physically exhausted as well as emotionally drained. Page 4 On March 3rd , I sent an e-mail to Erica Miller titled “Water bird overload situation—do not read if you are already depressed.” We were wondering if she was seeing this same kind of die off in the Delaware area. Less than an hour later, Erica sent back a reply that was full of support, suggestions and connections. Erica said they were only seeing a high mortality rate in American coots and that few of the birds were surviving to make it into rehab. Erica forwarded our sad story along to Sarah Tegtmeier. Sarah is a global oil spill response coordinator for Tri-State Bird Rescue and Research, Inc. Sarah quickly e-mailed back that she was at a conference in New Hampshire and that she and her co-worker, Ryan Wheeler could be with us by the week’s end. On March 7th, Sarah and Ryan walked into the SPCA full of support, enthusiasm, energy and a plan to streamline our process of rehabilitating starving water birds. They were exactly what burned out rehabilitators needed. Sarah and Ryan’s big tour consisted of a walk through the SPCA, a drive to see the frozen river and marina and a stop at the local bait shop to buy more shiners. The SPCA wildlife hospital consists of 4 small rooms that are 10 x 10’ in size. It was comforting and a boost for our morale to hear Sarah compliment us on our set up for managing the water bird crisis in such a small space. Sarah’s kind and warm words had me realize that it is as helpful and necessary to hear what you are doing well as it is helpful and necessary to learn how you can do things better. The set ups and methods we were using were all taught to us by Erica and Sarah at past NYSWRC and NWRA conferences, so she was able see firsthand the positive impact of their lectures and workshops. Sarah and Ryan contributed to us in many amazing ways. They went shopping at Home Depot and returned with supplies so that Ryan could build us two collapsible swim pools. The smaller was 4’x4’x2’ in size and the larger 4’x8’x2’ in size. Up until then, we had only one large swim tub and two very large plastic totes for swimming birds. Sarah taught us how to get the diving ducks to eat dead smelt which greatly reduced the amount of live fish we needed to purchase. She also showed us how many smelt each bird should be eating per feeding so we knew how much to supplement until they were eating enough on their own. Sarah helped us to create a method for keeping track of how each bird was progressing and how to move the birds along so they could obtain appropriate water proofing more quickly. She provided us with helpful euthanasia guidelines so we could better triage the severe cases that we were receiving. She also gave us release criteria to give the birds the best chance of survival after release. Sarah and Ryan also spent time talking with area rehabilitators from Messinger Woods, Hawk Creek and Wild Kritters of Niagara County who stopped by to watch and to learn. They shared with them the work they were doing with us and answered any questions they had. They were a bright light in our darkest days and it was wonderful to have them with us. Within the first two weeks of March another 64 diving ducks were admitted. Although by now we had our water bird protocol well organized and we felt confident in the knowledge of the care each bird required, we were still taking in more birds than we had the ability to reasonably manage. We were also very upset at the thought of putting all of this effort into the birds only to release them back onto empty water to die of hunger. I had commented to Sarah as we were looking at birds that were good for release, that with oil spill situations the birds are treated and then released into clean water, and they are not returned to an oily ocean. Holding these birds until a spring thaw was not an option for us. Keeping them in captivity in small enclosures for extended periods of time was stressful for them. Maintaining their water proofing was also very difficult. Once they achieved good water proofing did not mean that it would stay that way. They could easily backslide if their swim schedules were disrupted or if they became soiled. We were also concerned that the birds could eventually develop feet or keel issues despite being kept on loon beds and in water as much as possible. We also did not have the space to house lots of diving ducks long term. It was suggested we send out a call to all federally licensed rehabilitators in the state and have everyone take a couple of birds. The concern there was that these birds are not at all like mallards and Canada geese. They are very difficult to manage without the proper training and set up. We did not feel it was the right thing to do to the birds or to the rehabbers. We had rehabilitators with experience in the care of dabbling ducks bring us diving ducks after doing their best with them, and it was heartbreaking to look at the birds and to see that despite how hard the rehabbers tried, they just did not have the experience or equipment to care for the birds appropriately. We did transfer out several birds but only to rehabilitators that had experience with diving ducks. On March 11th, I contacted Joe Therrien from Special Licenses at the DEC and explained our situation. I shared that we were most tormented by the fact that we did not feel we had a viable release location for these birds after we brought them back to strength. Joe was very understanding and supportive and immediately reached out to others in the DEC for suggestions. The next day I received a phone call from Beth Bunting from the Animal Health Diagnostic Laboratory at Cornell. She too was wonderfully supportive and caring. She was in contact Too Cold!, Too Long!, Too Much! with DEC regional managers for possible release locations into the Finger Lakes area. Meanwhile, back at the ranch…A second blizzard hit on March 12th. During this blizzard, 14 inches of snow fell in the city of Buffalo and air temperatures reached a high of only 20 degrees. By the end of this storm, the season snowfall total reached 120.5 inches, 2 feet more than average. On March 14th Beth phoned to say we had permission from the DEC to relocate birds to Cayuga Lake. The water was open and there were no reports of lots of dead birds so it appeared to be a good option. Beth gave us directions and said she would meet us to help with the release. Two days later, Paula Jaszka and Madalyn Fliesler, SPCA wildlife volunteers, drove 8 SPCA birds and 4 area rehabilitator’s birds to Cayuga Lake for release. On March 18thKaren Moran, our wildlife veterinarian, spent her birthday driving to Ithaca to release 3 SPCA birds and to transfer 2 SPCA birds and 1 area rehabber bird to the Cornell Wildlife Clinic. Karen arrived at the release location on Cayuga Lake to find 3 dead birds on shore, a Red head, a Greater Scaup and a Canvas Back. There were not any Redheads released two days before so we knew that bird was not from Buffalo, but the bird was thin so we did not take that as good sign. The Greater Scaup was in good weight and all of the Buffalo birds released were still thin so we knew that bird was not from our release either, and we took his healthy weight as a good sign. The Canvasback, however, had paint on his head so we knew that bird was a Buffalo bird and that made us very sad. Two days after Karen’s trip, Jean and I drove 5 SPCA birds and 2 area rehabilitator’s birds to Syracuse for transfer to Jean Soprano. Jean had experience with diving ducks so she kept a few and then transferred the others to another rehabber that she knew who had experience as well. We were very grateful to Beth Bunting for helping us move some birds out of the area. But, we were still deeply concerned about the chance of survival for the rehabilitated water birds. On March 22nd at 3 AM, I sent an e-mail to Karen titled Can’t sleep. “Can’t sleep… don’t know how long I laid there before finally getting up… I am sitting here having another melt down… crying... I can’t get the birds out of my head… I just don’t feel good about any of it… and I feel like I am supposed to be enthusiastic and cheerful and motivating for others and I really feel like curling up into a ball. Perhaps I am making myself too significant… I watched a great documentary yesterday on Net-Flix called “I am”. It is about a film director that had a life changing experience that caused him to really take a look at what is important in this world, and it goes into how all things are connected, all life forms on this planet, and how we humans separate ourselves from nature—and it will be the end of us if we continue on our current path. But his point was that it is not too late. It was really inspiring and made me feel better for a while, until I started thinking about the water birds again…” Page 5 Karen responded, “ I understand your pain. We sure are trying our hardest and draining ourselves physically and mentally over these birds, but I can never be happy when I say we released some. I have to pretend to be excited for the sake of those asking about it. I just have to hope that a few manage to overcome the odds and that we gave them enough strength and waterproofing that they could survive out there and find food. Anyway, I don’t know if knowing that I feel the same way helps.” On March 15th we admitted 11 diving ducks. This was the highest number admitted in a single day, and it was a very dark and bleak day for us in wildlife. But then, between March 16thand March 30th we admitted only 11 more birds. The crisis seemed to have ended as quickly as it began. For those of you who have never rehabilitated a loon, grebe or diving duck you may be wondering what is so difficult about them. We will now walk you through the work involved in caring for these specialty birds. Sarah, Ryan and Dr. Moran at washing station These are the steps that each of our birds went through upon admission: Perform physical exam (ALWAYS wear latex gloves) Obtain temperature, weight and blood for a PCV Assess hydration status and administer SQ fluids if necessary Evaluate PCV, total solids and the buffy coat PCV, packed cell volume: This tells you the amount of red blood cells in the blood and shows level of anemia Total solids: This tells the amount of protein in the bloodshows degree of emaciation Buffy coat: This tells the amount of white blood cells in the blood-indicates infection Consider euthanasia if Temperature is in the low 90’s and PCV is < 10% If anemic, treat with Liqutinic. Recheck the PVC in 3 days to reassess for continuation of iron. Do not give Iron dextran or IM injections initially as it can cause muscle damage if the bird is too thin. Page 6 Too Cold!, Too Long!, Too Much! Administer Vit. B orally Give one dose of Vit. E if the bird was stressed during capture (capture myopathy) Place bird on Itraconazole to prevent aspergillosis. Check fecal If the bird has lice, use powder instead of spray If cold, put into incubator set at 90 degrees and check temperature every hour. Remove from incubator when body temp reaches 102 degrees would not eat, then we would offer live fish in a bowl with a food guard. We would also offer krill, meal worms, blood worms and Mazuri diet. The fun part of diving bird care was learning from Sarah the “How to train your bird to eat dead fish” game. You need to wiggle the fish back and forth in the bird’s face several times and then toss the fish into the water in front of them. You need to be patient as it can take a few sessions before the bird picks up on it. Once they start eating the dead fish, toss one fish at a time into the swim tub at the end of the swim session. Red Breasted Mergansers were the most fun to feed because they would take the smelt right from your hand and suck them down like pasta. Scaups were much messier eaters as they would smack their bills on them and masticate them as they went down. We would spray birds with water after removing them from the swim tub and placing them back on net beds as smelt are very greasy. You do not want to leave dead fish in the swim tub with the bird because dead fish secrete a slime coat that will soil the feathers. It is critical that you use an over flow tub for swimming and feeding. Loon on “loon bed” Diving ducks require many special features in order to be housed correctly. All birds must be placed on loon beds made of netting. You never want to leave them on blankets or towels as they will soil themselves which will damage their water proofing. Prior to the crisis, we only had two loon beds in the hospital. We quickly realized that we needed many more. Fortunately Karen likes to MacGyver things so she managed to create an assembly line in her living room to produce eight new beds. Diving ducks are social birds who usually like the company of their own species. We typically housed two together in a medium sized shore line cage or three in a large shore line cage when appropriate and necessary. Opaque plastic covers were placed on the doors of the enclosures to allow light through but acted as a visual barrier for the birds. When putting food into the enclosures with the birds, we discovered that you need to place plastic guards on all the dishes. This will prevent the birds from sitting in their food bowls and becoming soiled. If the bird was weak and emaciated upon admission, we would tube feed 50% diluted Emeraide Piscivore for the first two feedings then switch to full strength. We would keep the bird on a tube diet for several days and start feeding fish when the bird is stronger. If the bird was strong and thin we would, give 100% Emeraide Piscivore and offer solid food immediately. We would tube feed for a couple of days along with the fish. When the bird was eating fish well, we would discontinue the tube feeding. We would try to hand feed whole lake smelt at the end of a bird’s swim time. If the bird It is estimated that in the wild, a diving duck will consume 20% of its body weight in fish per day. Our goal was to try to get 20% of the bird’s average healthy weight, not incoming emaciated weight, of food into the bird per day. Meal plan with live fish: (Before Sarah arrived) greater scaup (950 gr.) 25 cc piscivore, 1/8 cup meal worms, 1 TBS krill and 40 grams live fish TID red breasted merganser (1000 gr) 30 cc piscivore , 1/8 cup meal worms and 40 grams live fish TID canvasback (1200gr.) 35 cc piscivore, 1/8 cup meal worms, ¼ cup mazuri and 50 grams live fish TID horned grebe ( 475 gr) 10 cc piscivore and 30 grams live fish TID. Meal plan with dead fish: (After Sarah arrived) greater scaup (950 gr.) 7-8 (75 gr.) Lake smelt, Krill and meal worms TID red breasted merganser (1000 gr.) 10-12 (110 gr) Lake smelt, meal worms TID canvasback (1200 gr.) 13-15 (140 gr.) Lake smelt, meal worms, Mazuri diet TID (If the birds ate under this amount, they were supplemented with tube feedings) We know the birds would have eaten more live fish than we fed them but we did not have the ability to give them live fish until they did not want any more. Because of expense Too Cold!, Too Long!, Too Much! and availability, we had to ration the fish and supplement with piscivore, meal worms and Krill. Things were simplified dramatically when Sarah arrived and we switched to lake smelt. Each smelt weighs about 10 grams vs the emerald shiners that only weighed a couple of grams. The smelt were also far cheaper and easier to purchase. We do not have an accurate estimate for the amount of money we spent on live fish as wildlife volunteers were continuously donating fish or money to purchase fish. We do know, that despite these supplemental deliveries, for two months the SPCA wildlife department was making daily trips to the nearby bait store and purchasing three scoops of live fish for $18. At times, we would frequent several bait shops in one day if our local bait shop ran out. It was frustrating to discover that even when the birds ate all of the fish they wanted, which was 20% or greater of their healthy weight in food per day, they still were not putting on significant amounts of weight. This can be seen from the following few examples: SPCA Wildlife Hospital: horned grebe 7 days 349/339g greater scaup 6 days 686/642 ted head 5 days 613/635 greater scaup 5 days 593/580 greater scaup 5 days 597/592 greater scaup 11 days 582/647 greater scaup 18 days 767/739 greater scaup 8 days 559/594 greater scaup 14 days 733/688 yundra swan 32 days 3.7kg-4.7kg Cornell Wildlife Clinic: greater scaup 12 days 523/586 greater scaup 12 days 657/707 canvasback died despite two blood transfusions to treat anemia. We concluded that because the birds were so starved, that it would take a very, very long time to get these birds back to good weight if it was possible to do at all in captivity. Most of the birds were coming in weighing nearly half of what they should weigh. The risk of a lengthy amount of time in captivity could compromise them in other ways. It was disheartening to know that we were still releasing the birds with emaciated weights. An even bigger challenge than feeding was restoring their water proofing. Restoring and maintaining water proofing was very difficult work. Before Sarah and Ryan came to visit, we were using 2 large totes with wheels and one large swim tub with an over flow system. Because we were trying to swim about 20 birds, we were sometimes doing 60 water changes a day. These totes had to be pulled out of our wildlife room and into the garage so they could be dumped, cleaned, refilled and dragged back into wildlife. This was back breaking work. Halfway through the crisis, carts were made for the totes which helped significantly. Things were much better after the creation of the two new swim pools, as we could Page 7 swim multiple birds at a time for much longer periods. We would only give a Dawn bath if the bird was very soggy or very dirty. Swimming in an overflow tub can fix water proofing without bathing if the bird is only surface wet. If a bird is bathed, you cannot swim them again for 1-2 days, instead, mist them 4 x’s a day with warm water. When it was time to swim them, put them in water for only 10-15 minutes initially and gradually increase the swim time. Bathing a bird is a very detailed procedure. This is not about putting the bird in the sink, adding some soap to the water and then rinsing them under the stream. You must have the right water temperature, water pressure (by using appropriate water nozzles) and the correct soap concentration to do a proper job. The procedure is also very stressful on the bird. So stressful, in fact, that we did lose one bird after bathing it. Swim time was based on the bird’s strength and feather condition at the time of admission. These birds were so depleted of fat that their uropygial glands could not produce enough oil to maintain good water proofing. This added to our concerns for release as we could not put significant weight on them and we were not sure how well they would do over time. We would swim the birds, monitor their waterproofing and increase swim time as the bird improved. It is important to note that the birds had to be completely dry before putting them back into a tub to swim again. We provided supplemental heat to chilled or poorly water proofed birds through both incubators and ceramic heating units. Maintenance staff grew a bit wary of us as we continuously blew fuses. Cage dryers or heat lamps would also work well. If the bird was very soggy, we did not swim for the first day or two but instead misted the bird with water 4 times a day. If the bird was still soggy after a couple of days then we would consider a Dawn bath. Now we’ll discuss the four pool swim system that we used to restore the bird’s water proofing and we named the pools to make them easy to identify. The Guppy pools are two blue totes were kept in wildlife. We started by swimming birds 5-15 minutes in the guppy pool three times a day. The room air temperature was 72 degrees and we used warm water. The Garage Oasis pool is a big black tub located in the garage. The birds were placed here when stronger, where they would swim for 20 minutes to 1 hour three times a day. We were constantly checking on them to look for a decrease in waterproofing to prevent them from getting water logged. The Air temperature was about 70 degrees and we used warm water for swimming. The pool had an over flow with the garage hose continuously on to agitate the surface of the water. This will keep the water surface free of oils and contaminants. The Heated pool is a small collapsible pool in the heated barn room. The birds were swum here for 1-3 hours, two or three times a day once they were eating well and had good water proofing. The temperature in the barn was about 60 Page 8 Too Cold!, Too Long!, Too Much! degrees. We left the barn hose running continuously with cold water. The Sunny pool is the large collapsible outdoor pool. When water proofing was very good, the birds were moved to the outdoor sunny pool for up to 6 hours. This pool also had a hose with cold water continuously running. Ideally, you want the birds in an outdoor tub for 24 hours before releasing but since our birds seemed to respond quickly to improved water proofing, Sarah felt that 6 hours was adequate. Both pools were spot cleaned with a shop vac a couple of times a day and both were drained, cleaned and refilled daily. Sarah helped us to organize our swim sessions so we knew who was going where for how long through the use of a dry erase board. Once we had this plan mastered, birds were being constantly moved about from swim pool to dry dock multiple times a day. Again, with so many birds to swim, we were having a very hard time keeping each bird in the water for as long as they needed to be. We created a water proofing score chart so we could monitor how the birds were doing. Water proofing score chart: Scale 1 out of 4 Very poor-Bird is very soggy and rides low into the water Poor-The bird is surface wet, the bird rides low in the water and the water reaches at least ½ way through the feathers and almost to the skin, the feathers do not curl around the surface of the body Good-There are a few areas of surface wetness but the feathers curl around the body Great-There is beading of water, the bird looks dry and rides high on the water. The feathers are dry beneath the surface of the bird. To check for water proofing, you really need to look at the condition of the feathers beneath the surface as well. The following are intake numbers and the months the birds were admitted into the SPCA Wildlife hospital: Jan 1st – April 30th 2013 admitted 3 common loons…. Jan 1st- April 30th 2014 admitted 159 fish eating diving ducks 13 birds admitted in January 67 birds admitted in February 75 birds admitted in March 4 birds admitted in April During the same 4 month time period we admitted 8 Ringbilled Gulls, 4 Canada Geese and 14 Mallards. The breakdown of the 159 diving ducks were as follows: greater scaup - 67 red breasted merganser -28 canvasback -13 horned grebe -11 bufflehead -8 red necked grebe -7 red headed duck -6 common loon -4 lesser scaup - 4 hooded merganser -3 white wing scoter -2 golden eye -2 red throated loon -1 ruddy duck -1 long tailed duck -1 tundra swan -1 Contributing rehabilitators: intake and final dispositions SPCA Serving Erie County: 159 Released -79 Died -27 Euthanized -35 Transferred -18 Messinger woods: 47 R-36 E/D -7 T-4 Wild Kritters of Niagara County: 27 R -5 E/D - 16 T-6 Hawk creek: 25 R -24 E/D -1 NOTE- when looking at final outcomes, know that all contributing rehabilitators worked very hard and did their very best. Some had better success as their birds arrived earlier and were in better condition while others received birds late in the crisis and their birds were very debilitated. It has been said by DEC biologists that at least a quarter of a million birds died during this water bird crisis. This is only an estimate because most of the dead birds were never recovered. Many died on the ice out of reach and many others died in the water and then sank. The DEC biologist who does the Buffalo area winter bird survey told me that in the seven years that he has been doing these counts, only once did he find a dead diving duck- a female red breasted merganser. 2014 set a record for late Ice out. The ice shelves remained through mid-May which was well past the time the birds would have left to migrate North. We know the birds were physically stressed and compromised before migration. Did they have enough in them to complete their journey? Fortunately, this past summer had perfect nesting conditions for those birds that did make it back. Although there was great sadness and sorrow in this crisis, Page 9 Too Cold!, Too Long!, Too Much! there were also positive things learned. Through the instruction and guidance provided by Sarah and Ryan and the large number of birds to care for, we gained insight into what it would be like to respond to an oil spill crisis. We no longer shrink in fear at the sight of a single common loon. We recently used the “Teach your bird how to eat dead fish” game on a cormorant and found it worked like a dream. We know that we went beyond what numbers we were capable of adequately handling so we are now in the conversation about setting limits. The swim pools are a gift that keeps on giving. They were used to house 5 tortoises that arrived this past summer in a single confiscation case along with 100 small exotic birds, 14 large parrots, 5 dogs and 6 cats. Our most rewarding release was that of a Tundra Swan. The swan was admitted on February 28th. She had been found sitting on shore, watching the other swans out in the River. X-rays and blood work confirmed that she was suffering from severe emaciation. It took five days of nutritional supportive care before she had the strength to stand. She was a very sweet natured swan and was easy to manage, despite her very large size. She became our comic relief during the crisis. Her feet were as big as dinner plates and it was fun to watch her flap them on the floor while she strolled around for exercise. Water proofing was never a problem for her and she ate like a champ. Watching her improve every day brought us much needed joy. She had been with us for a month when we decided to load her up and send her on her way. Time magazine featured an article on the polar vortex and climate change getting the conversation out to the public. Because we all love nature and because we all love wildlife, we all need to educate ourselves and then become involved in the bigger conversation. The Audubon Society has just recently released a seven year study outlining the impact of global climate change on the birds of North America. If you are a member of the Audubon Society, please read and share this issue. If you are not a member, you can obtain the study on line. The book HOT Living through the next fifty years on Earth by Mark Hertsgaard is also an important book to read and then share. We all feel that we connect well with animals. Obviously, as that is why we do what we do. But how are we with our human connections? Strong connections to human beings are critical to the survival of a wildlife rehabilitator. We cannot do this work alone. Your most valuable tool in your rehab tool box is the human tool. If I had not had my SPCA Wildlife co-workers and volunteers, my local rehabilitator friends, my friends from Tri-State and the DEC or my own family and friends to turn to during this crisis, I would have been as dead in the water as those diving ducks. Rehabilitators need to reach out and make connections to other rehabilitators. And attending a NYSWRC conference is a wonderful way to strengthen those connections so that we can share the questions that we find ourselves asking… Was our best good enough? Was this the right thing for us to do? What if this happens again? And remember… “You are what hope looks like to a bird.” David Yarnold, CEO and President-Audubon I have spent quite some time talking about our feathered beautiful creatures but I would like to end by spending a few moments talking about another kind of beautiful creature, my cousin Meghan who is 10 and my cousin Cora who is 6. It is because of them that I know I need to be involved in a much larger conversation, the conversation of Global climate change. I don’t know what this conversation looks like for me as I have yet to create it, but this water bird crisis was an epiphany for me. Megan & Cora Connie Adams at work. Page 10 The Frog’s Den At conference last year we shared our experiences of the 2014 water bird crisis. We struggled both physically and emotionally with the work but we came out on the other side with the realization that we need to be a part of the bigger conversation. This conversation will include global climate change and other human impacts on our natural world. To begin our involvement in this conversation, we have created a section in RELEASE which we have titled “The Frog’s Den”. Granted, frogs do not live in dens, but a den is defined as a secret and safe place to hide, and we do know that all wild animals need these types of places to survive. So, it will be through “The Frog’s Den” that we will share news of our natural world and how we can be a positive difference. As with RELEASE, your contributions are welcomed. To start off our segment, we thought it appropriate to share a wonderful poem written by Kiana Shurkin of Columbia, Maryland. Kiana was the Grand Prize Winner of the 2014 SAVE THE FROGS! poetry contest, for her poem "The Cry Of The Frogs”. (Thank you Kiana for permission to share your amazing poem!) We encourage you to look into the wonderful work that Save The Frogs does to protect amphibians by visiting www.SaveTheFrogs.com . Hoppily yours, Bev Jones and Karen Moran The Cry Of The Frogs By Kiana Shurkin The echo of a footprint Is all that will remain: A webbed, tiny silver glint Among the drops of rain. On the sad forgotten pond There floats a lonely lily pad If only we could wave a wand, Return the friend it had. Fading on the breeze Like the tinkling of a chain, Are the imprints of nocturnal criesA song they sang in vain. When all we have are whispers Lonely echoes in the night We'll think what might be different If we'd listened to their plight. When we lay in awkward silence Mourning absence of their song We'll wish we hadn't left it late To try and right the wrong. Without their constant lullabies To lull us into sleep, With only nature's mournful sighs Our company to keep, We'll wonder why we turned deaf ear In time of greatest need To songs our children cannot hear And signs we failed to heed. But in this solemn hour There remains a flash of hope: A greenish blur beside the creek, A hopeful, timid croak: Because it isn't yet too late To try and spread the wordTo speak for those who sing at night And help them to be heard. There is still time to fight for frogs, To save their woods and streamsTheir noble cause is not as lost As it may sometimes seem. For if we add our voices To their dwindling chants The song may just grow strong enough To give a fighting chance. Page 11 Reprinted From Wild Things Sanctuary Newsletter, by Victoria Campbell, NYSWRC member; An Update As many of you know, Wild Things Sanctuary now specializes in native bat care. So far, I've admitted about 50 bat patients this year. Who knew that specializing in bats could keep me so busy! They come from all over as there are so few places that work with bats. However, I also help out with other animals when I can, and am able to oversee "junior" rehabilitators' (those who work under my license) who work with a variety of different species. In total, our Wild Things Sanctuary team helped about 150 animals in 2014, in addition to talking to hundreds of members of the public online and on the phone about injured animals and wildlife concerns. Here are some of our patients' stories: Two Big brown bats injured by cats. Because of their injuries, I don't yet know if these two will be releasable. I hope one day New York State will allow permits for unreleasable bats to be used for education purposes; meeting bats in person would really help people care more about these personality-packed little animals that are in trouble in so many ways. For now, many thanks to the Organization for Bat Conservation that has helped us with unreleasable cases. “Lola” may look like a baby alien, but she is a Big brown bat pup. Her mother died giving birth to her twin. I didn’t know if this tiny newborn would survive. But Lola bounced back and was among the biggest and healthiest of the orphan pups this year! On the left, she is a day old sucking on a tiny sponge as a pacifier. On the right, she is almost four weeks old lying on top of her adopted brother “Frankie.” We are learning a lot about specialized bat care: from infant formula to adult care, medications, and wound healing. Just another bat? Actually this tiny 4 gram fellow is a Northern long-eared bat, a rarity nowadays as sadly they are a species devastated by White -nose Syndrome. He was found on the Cornell campus with an injured tail. In the next few months these bats may be federally listed as an endangered species under the Endangered Species Act. They are already listed as endangered in several states. Wild Things Sanctuary was happy to help him and give him a safe, clean place to hibernate for the winter. He's up to a whopping 8 grams! A young Great Horned Owl chick was found after her nest was destroyed in Ithaca, New York. After unsuccessfully trying to reunite her with her parents for several days, I brought the baby to Wild Things Sanctuary. To have a chance at being wild, I knew she needed owl foster parents. The Adirondack Wildlife Refuge, six hours away, has several adult owls and agreed to take her in. She was successfully raised by her foster parents and was released a few months ago. She is doing well and stops by from time to time if she needs an extra snack while she perfects her hunting skills. Page 12 Cotton Rabbit (Sylvilagus spp.) Natural history The cottontail is found throughout the eastern and Midwestern United States, and is common throughout much of its range. The high reproductive capacity and adaptability of this species has made the cottontail one of the most important game animals in North America. Taxonomy Class Mammalia, Order Lagomorpha, Family Leporidae Cottontail rabbits belong to the same family as hares and European rabbits (Oryctolagus cuniculus). Species There are approximately ten cottontail species including the: Eastern cottontail (Sylvilagus floridanus) widest distribution Audubon’s cottontail (S. audubonii ) Brush rabbit (S. bachmani) Marsh rabbit (S. palustris) Mountain cottontail (S. nuttallii) Although distinct species, all are commonly referred to as “cottontails”. Diet Cottontail rabbits eat a wide variety of plant foods including grasses, sedges, sprouts, leaves, fruits, buds, and bark. During the summer months, cottontails primarily eat grasses, legumes, succulent annuals, weeds, as well as the occasional garden vegetable. The winter diet includes small grains, as well as twigs, bark, and buds of shrubs and trees. Reproduction The doe creates a shallow nest made of grass and lined with fur. Here the young remain hidden by litter or leaves. The doe cottontail may breed the same day the litter is born and may repeat the young rearing process three or four times during the breeding season. A new nest is generally constructed for each litter. The doe’s milk is extremely rich, and the young are nursed once or twice daily for 3-5 minutes at a time. Most rabbits presented for medical care are young, less than 1 year of age. Trauma is a common reason for presentation. Other health conditions reported in cottontail rabbits include: Ectoparasites like ticks, lice, mites, and especially fleas are frequently observed on cottontails rabbits (see Ectoparasite Control in Small Mammals). Cuterebra cutaneous myiasis (also known as “warbles” or “bots”): Large fly larvae are commonly found in the subcutaneous space of the neck and chest during warm weather months. Adult flies lay eggs on the rabbit fur, which later hatch into larvae that bore through the skin. Cuterebra larvae grow until they are approximately 1.5 inches (3.8 cm) long, at which time they emerge from the rabbit’s skin and fall off the rabbit. The larva then burrows into the ground where it pupates and later emerges as an adult fly. Mortality is rare in infected rabbits. Coccidiosis is found in most cottontails. Eimeria media and E. perforans can infect the intestines, potentially causing fatal enteritis in stressed juveniles. Hepatic coccidiosis is caused by E. steidae. Fibroma virus, a member of the poxvirus, causes Shope’s fibroma or “rabbit horn”. Disease is spread by arthropod vector. Skin lesions are occasionally seen on the legs, feet, and ears of cottontail rabbits. Lesions begin as a slight thickening of subcutaneous tissues, and progress over several months before suddenly regressing. Papillomavirus causes horny warts on the neck, shoulders, ears, or abdomen of cottontail rabbits. Favorite food items often include white and crimson clover, Bahia grass, and green succulent vegetation like alfalfa, wheat, barley, ryegrass, and winter peas. A captive diet frequently consists of a variety of greens, grasses, clover, and hay. There is no treatment for either type of skin lesion, and both conditions usually resolve spontaneously over several months. Interestingly these viruses are a possible explanation for myths about the “jackalope”, a mythical rabbit-like creature with the antlers of an antelope. Husbandry Cottontail rabbits serve as the “poster child” for prey species, as they serve as fair game for nearly all predators. This species tends to be high strung and easily stressed. Cottontails do not bear the rigors of captivity well and should be maintained in captivity for as short a period as possible. Provide adequate visual security like a hide box and house them as far away as possible from the sight, sound, and smell of dogs and cats. Cottontails are solitary animals that are relatively intolerant of conspecifics. Myxomatosis causes fibrotic skin nodules and is also transmitted by arthropod vectors. Wild rabbits are generally considered quite resistant to myxoma virus, however the brush rabbit (S. bachmani) is the natural host of the North American (Californian) strains. Some cottontail species (S. nuttallii, S. audubonii) are also susceptible to South American (Brazilian) strains of myxoma virus. Unlike the disease seen in European rabbits, myxoma virus does not appear to cause disseminated disease in healthy cottontails. Cottontails are also crepuscular and nocturnal. Feeding activity peaks 2 to 3 hours after dawn and during the hour Staphylococcus aureus infection is transmitted by skin abrasion or insect bites, Infection can manifest as abscessation of lymph nodes, and can even become systemic. Diagnosed is confirmed by bacterial culture. Page 13 Cottontail rabbits can also serve as asymptomatic carriers or intermediate hosts of a number of infectious organisms including Sarcocystis falcatula, Taenia pisiformis, Francisella tularensis (tularemia or “rabbit fever”), Listeria monocytogenes, Pasteurella spp., Yersinia spp., Leptospira spp., and Rickettsia rickettsia (Rocky Mountain spotted fever). Normal physiologic values Temperature 101.3-103 F Pulse not available (n/a) Respiration n/a These conditions are very unlikely to be responsible for admission for medical care, however gloves and protective clothing should ideally be worn when handling injured rabbits since they can serve as potential reservoirs of disease. Mean life span <3 years Sexual maturity 2-3 months Venipuncture Collect larger volumes from the jugular vein or lateral saphenous vein. Smaller samples may be taken from the cephalic vein. Gestation 25-31 days Litter size 1-7 (average 3-4) Birth weight 23-33 g Eyes open Day 4-5 Gestation 25-31 days Litter size 1-6 (average 2) Weaning age 6-8 weeks Emerge from nest ˜ Day 14 Weaning age Day 16-22 Independent Week 7-8 Body weight, 6 months 0.5 kg (1.1-1.2 kg) Avoid antimicrobials that attack only gram-positive bacteria such as beta-lactams. P.L.A.C.E.: Penicillin Lincosamide, lincomycin Amoxicillin, ampicillin Cephalosporins, clindamycin Erythromycin Adult weight 1.76-3.37 lb (0.81.53 kg) Eyes open, ears erect, ˜ 4 inches (10 cm) long Target environmental temperature: 65-70°F 15.6-21.0°C References & Further Reading: Target environmental humidity 30% to 50% Daily h2o intake 120 ml/kg/day The principles and precautions for cottontail rabbit restraint are the same as for the European rabbit, however the highstrung nature of the cottontail requires particularly swift and sure technique. Rabbits possess a relatively lightweight, delicate skeleton paired with extremely strong, well-developed back and leg muscles. With improper restraint, rabbits that struggle or kick run the risk of a broken back or leg. Always restrain rabbits on a non-slip surface such as a large, heavy towel or pad. Gloves and protective clothing may also be indicated due to potential zoonotic risk (see ‘Important medical conditions’ above). Antibiotics to Avoid Hernandez-Divers SM. Wildlife diseases: what you might see come into your practice. Proc Amer Assoc Zoo Vet 2009. Mikita K. Slvilagus floridanus eastern cottontail. Animal Diversity Web. Available at http:// animaldiversity.ummz.umich.edu/accounts/ Sylvilagus_floridanus/. Accessed on Mar 19, 2013. Silvers L, Barnard D, Knowlton F, et al. Host-specificity of myxoma virus: Pathogenesis of South American and North American strains of myxoma virus in two North American lagomorph species. Vet Microbiol 141(3-4):289-300, 2010. Wardyn SE, Kauffman LK, Smith T. Methicillin-resistant Staphylococcus aureus in central Iowa wildlife. J Wildl Dis 48 (4):1069-1073, 2012. Yarrow G. Cottontail rabbit biology and management. Available at http://www.clemson.edu/extension/ natural_resources/wildlife/publications/fs8_cottontail% 20rabbit.html. Accessed on Mar 19, 2013. Written by: Christal Pollock, DVM, Dipl. ABVP-Avian; Lafeber Company Veterinary Consultant. Mar 20, 2013. 38.0-39.6 C smaller species reach puberty earlier than larger species Eyes open, ears erect, ˜ 4 inches (10 cm) long Page 14 What is ranavirus? Frequently Asked Questions o Ranavirus is a genus (i.e. group) of viruses that are highly infectious and often lethal to aquatic and terrestrial cold-blooded wildlife. Ranaviruses can cause mass die-offs, especially in aquatic populations. These viruses are found nearly worldwide. What species are affected by ranavirus? o At this time any species of fish, amphibians (frogs & salamanders) and reptile (turtles & snakes) could be susceptible to the virus, although not all species have been documented with ranavirus. As of 2013, ranavirus was known to infect >104 species and subspecies. What are symptoms of ranavirus? o Clinical signs of disease can include swelling of the legs and body, internal hemorrhaging, redness of the legs and vent, and discoloration of internal organs. o White plaque in mouth, wheezing and swollen eyes may also be present in reptiles. o Behavioral changes may include lethargy, anorexia and erratic swimming. o Note that many of these symptoms can be signs of other diseases as well. What is the prognosis for animals infected with ranavirus? o Ranaviruses are commonly lethal to larvae or young individuals, quickly spreading through populations that tend to congregate in large groups. Some infected populations of amphibians have suffered 90% mortality. o Adults can also become infected, but many are likely to survive the illness. However, once infected with ranavirus, their overall health may suffer and they can become more susceptible to other diseases and to depredation. How is ranavirus transmitted? o The virus is primarily transmitted by contact between carriers of the virus and uninfected individuals. Any animal or object that enters a wetland could potentially pick up and transmit the virus. The virus can then be passed to other individuals in the same wetland or be transported to other wetlands via the host’s movements. o Depending on environmental conditions, the viruses can survive in water for several weeks outside the host, and for shorter periods of time under dry conditions. Drying may also inactivate the viruses. Can humans prevent the spread of ranavirus? YES! o Humans may be the number one long-distance transmitters of ranavirus, due to our ability to travel great distances and visit many wetlands. (e.g. to conduct research, to fish, to kayak). o If you frequent wetlands, be sure to decontaminate your boots and other gear between each visit. Items that come into contact with water NEED to be cleaned prior to entering another wetland. For decontamination procedures and other information visit the NEPARC and SEPARC websites. o DO NOT TRANSPORT WILDLIFE. To reduce the spread of disease, fish, amphibians, and reptiles should not be released in areas where they did not originate. This includes transportation and release of live or dead animals. o If you think you observe an outbreak (e.g. 10 or more dead or dying amphibians or two or more freshly dead turtles or snakes) contact your state wildlife agency. For more information visit http://www.nwhc.usgs.gov/ disease_information/other_diseases/ranavirus.jsp Ranavirus - USGS publication USGS scientists have isolated ranaviruses associated with die-offs involving more than 20 species of amphibians and turtles. Massive die-offs of amphibians are often caused by ranaviruses. USGS scientists have isolated ranaviruses associated with die-offs in over 25 states involving more than 20 species of turtles and amphibians in mortality events ranging from one to thousands of individuals affected. Some events may involve a single species, others may involve multiple species. Frogs and salamanders in the same pond, for example, may die from ranaviral infections at the same time. Ranavirus-caused die-offs in amphibians have occurred on private, State, and Federal lands, including several National Parks and Wildlife Refuges. Many of the amphibian species involved in die-offs are fairly common and widespread in the United States, but some are either declining in number or are already threatened or endangered. Host species: The USGS National Wildlife Health Center has isolated amphibian ranaviruses from 16 species of frogs, one species of toad and six species of salamanders. Mortality events due to ranaviruses occur most commonly in larval amphibians such as mole salamanders (Ambystoma spp.), true frogs (Lithobates spp. and Rana spp.) and chorus frogs (Pseudacris spp.). Infrequent isolates have been obtained from adult newts (Notophthalmus viridescens), adult tree frogs (Hyla spp.) and post-metamorphic Columbia spotted frogs (Lithobates luteiventris). In states east of the Mississippi River, especially Atlantic coastal states, mortality events tend to involve all species within the wetland (frogs, toads and salamanders) while those in western states, with less amphibian species diversity, tend to involve only one species. Ranavirus infections in turtles occur mostly in captive colonies of eastern box turtles (Terrapene carolina carolina) and true tortoises, but die-offs of free-ranging box turtles also have been observed. Because box turtles in the wild usually are solitary animals, it has been difficult to document die-offs of multiple box turtles from an area. Page 15 Distribution: Amphibian ranaviruses probably are present in every state with the possible exception of Hawaii. Globally, ranavirus diseases in amphibians have been diagnosed in North and South America, Europe, Asia, and Australia. All confirmed cases of ranaviral infection in wild eastern box turtles on file at the USGS NWHC are from Maryland. Most of the affected turtles came from a single field study site. Additional ranaviral disease outbreaks in box turtles have been reported by others in New York, Pennsylvania, Georgia, and Florida. Unexplained die-offs of wild box turtles with signs resembling ranaviral infection, although not confirmed, have been reported in Virginia and North Carolina. Seasonality: Because mortality events due to ranaviruses mostly affect larval amphibians, there is a strong correlation between the presence of amphibian larvae in the spring and summer with ranaviral die-offs. Mortality events often are first detected in April when large populations of wood frogs (Lithobates sylvaticus, formerly Rana sylvatica) are present in eastern and northern wetlands. Early and mid-summer die-offs due to ranaviruses tend to involve a variety of amphibian species nationwide. Late summer and autumn mortality events involve mostly larval bullfrogs (Lithobates catesbeianus) and tiger salamanders (Ambystoma tigrinum). Cause/Etiology: Ranaviruses are DNA-based viruses of the genus Ranavirus, in the family Iridoviridae. Occasionally, amphibian ranaviruses are called iridoviruses; however, this can be confusing because there is a genus of insect viruses called Iridovirus. Some isolates of amphibian ranaviruses have been named; most noteworthy are Frog Virus-3 (FV-3), first isolated in the 1960s, and Ambystoma tigrinum (tiger salamander) Ranavirus. Other strains or isolates of ranaviruses have informal names (e.g., Bohle virus in Australia, Redwood Creek virus in northern California, Southern High Plains virus, etc.), but the status of most isolates as species or strains of Ranavirus has yet to be clarified. Signs and Lesions: Field signs of a ranaviral epizootic include sudden or explosive onset of illness in amphibians in a wetland, often with hundreds or thousands of sick and dead amphibians found in a 1–5 day period. Overall mortality rates in juvenile frogs and salamanders in a wetland can exceed 90%. Affected individuals usually present with subtle to severe hemorrhages in the ventral skin, especially at the base of the hind limbs and around the vent opening. Hemorrhages may be present from tip of chin to tip of tail ventrally and may be pinpoint or irregular patches. Other clinical signs include lethargy, swimming erratically, weakly, or on their sides, and mild to severe fluid accumulation under the skin (in lymphatic sacs) of the abdomen and proximal hind limbs. Internally, there may be fluid accumulation (clear or red-tinged) in the body cavity (called hydrocoelom), and hemorrhages on the serosal surfaces of viscera, especially heart, stomach and liver. Occasionally, white minute foci of necrosis are evident in the liver or spleen. Ulcers of the skin and palate tend to be randomly scattered, but are detected in a low percentage of casualties. Turtles with ranavirus infection show weakness, swollen eyelids, discharge from the nose and mouth, and the tongue and palate may show dull white or thick yellow plaques. At dissection, these plaques also may be found in the pharynx and esophagus. Occasionally, turtles may show ulcers on the bottom of their feet. Like ranaviral infections in tadpoles and salamanders, infection in box turtles spreads throughout the body affecting many organs including blood vessels. Additional research is needed to determine whether ranaviruses from box turtles and amphibians are identical and may be transmitted between the different genera and species. Significance/Zoonotic Risk: At present, ranaviral infections appear to be limited to ectothermic vertebrates (i.e., fish, amphibians and reptiles). The virus generally cannot be cultured at temperatures above 30oC, so it probably is not infectious to domestic mammals and humans. At present, it is unclear how many strains or species of ranavirus are infecting and killing amphibians and turtles. Ranaviral outbreaks involving more than one class of vertebrates (i.e., fish and amphibians, or amphibians and reptiles) at a site are rarely reported in the wild, but such mortality events are of great interest ecologically. Ongoing research by USGS scientists and others will help to determine whether die-offs due to ranavirus are causing or contributing to population declines in turtles and amphibians. For additional information about amphibian diseases, please contact: Dr. D. Earl Green, U.S. Geological Survey National Wildlife Health Center 6006 Schroeder Rd., Madison WI 53711-6223 (608) 270-2482 Tadpole with swelling of the legs; a clinical sign of ranavirus NYSWRC 1850 N. Forest Rd. Williamsville, NY, 14221 www.NYSWRC.org The Annual Conference, Nov. 6-8, 2015 will be held in Syracuse, NY Our NYSWRC Mission NYSWRC, Inc. is a not for profit membership organization dedicated to the education of wildlife rehabilitators, improvement of the field of wildlife rehabilitation, and the protection and preservation of the environment. NYSWRC MEMBERS Please check the address label on this issue of RELEASE to determine your current membership type. Your membership in the New York State Wildlife Rehabilitation Council (NYSWRC) expires on this date. To guarantee uninterrupted membership services please utilize the application below to renew your membership. We encourage you to share your issue of RELEASE with new rehabilitators and other interested persons. RELEASE is the quarterly newsletter of the New York State Wildlife Rehabilitation Council, Inc. and is included with membership. Papers, photographs, illustrations and materials relating to wildlife rehabilitation are welcomed and encouraged. Please send materials to: RELEASE, 6655 N Canyon Crest Dr., #9151, Tucson, AZ 85750, Attention: Editor All materials are copyrighted, For permission to reprint portions, contact Editor. NEW YORK STATE WILDLIFE REHABILITATION COUNCIL, INC. MEMBERSHIP APPLICATION _____NEW _____RENEWAL Complete all information below and make checks payable to: NYS Wildlife Rehabilitation Council, Inc. Please print clearly. ____GENERAL: $25.00 ____HOUSEHOLD: $40.00 ____ORGANIZATION: $50.00 NAME(S): _______________________________________________________________________________ AFFILIATION: __________________________________________________________________________ ADDRESS: ______________________________________________________________________________ CITY, STATE, ZIP: _______________________________________________________________________ PHONE home: (___)___________ work: (___)____________ e-mail: _____________________________ Species handled: __________________________________________________________________________ Knowledge and skills willing to share: ________________________________________________________ Return form to: Jean Alden, NYSWRC Membership, 1850 N. Forest Rd, Williamsville, NY 14221