News

During the Annual General Meeting of the 2020 IWSG conference (10-11th October), members unanimously vote to support objection to Tagus Estuary airport development. Please find the stattement of the IWSG signed by our chair, Jennifer Smart, on our AGM Minutes & Reports web page or directly there:   Read the Graham Appleton blog entitled "Tagus estuary: for birds or planes?" that emphasise the vital role of the Tagus estuary for shorebirds on WaderTales https://wadertales.wordpress.com/2019/12/23/tagus-estuary-for-birds-or-planes/.   Featured image: Tagus Estuary Nature Reserve. (c) Paulo Valdivieso - Wiki Commons.  

Following counts of Golden Plovers in Europe in 2003, 2008 and 2014, we are aiming at having coordinated counts of the species on 10-11^th or 17-18^th October 2020. In some countries, there are already coordinated waterfowl counts during one of these weekends. Each country will pick one of the two weekends. The counts focus on Golden Plovers, but we would like to ask all participants to use this opportunity to include Lapwing and Curlew in the counts. The status of both species in Europe is of high interest, not least in terms of conservation. Countries participating are: Austria, Belgium, Czechia, Denmark, Estonia, Faroe Islands, Finland, France, Germany, Hungary, Iceland, Ireland, Netherlands, Poland, Portugal, Sweden, Switzerland and United Kingdom. Due to the late start of this project, some countries won’t be able to coordinate counts in the way they would like, but will ask their membership and/or other volunteers to report Golden Plovers, Lapwings and Curlews on the specific weekend and report it through the specific country’s reporting systems/databases. We would like you all to register the counts within separate sites with the coordinates, and preferably a note of which sort of habitat this site is. Other European countries not currently on this list are very welcome to join. We have been contacting people in other countries and have either not heard from those contacts or they have come back to say that unfortunately, they could not help this time around. After 7^th October is a deadline, we have set for countries to join our efforts. If you would like to join the efforts and your country is on the list please e-mail GoldenPlover2020@mail.com for a contact to your country coordinator. The number from previous counts:

Country	Major population group	Total 2003	Total 2008	Total 2014
Belgium	Continental	[2000]	3229	n.c.
Bulgaria	Continental	n.c.	3	n.c.
Czechia	Continental	n.c.	94	1239
Denmark	Continental	380000	270774	291204
Estonia	Continental	n.c.	887	118
Finland	Continental	n.c.	1210	n.c.
Germany	Continental	220000	193231	*
Hungary	Continental	n.c.	138	*
Latvia	Continental	n.c.	0	2938
Lithuania	Continental	n.c.	22244	n.c.
Netherlands	Continental	180000	167160	153297
Poland	Continental	22000	52630	69222
Sweden	Continental	115000	139557	135120
Iceland	Atlantic	n.c.	7662	n.c.
Republic of Ireland	Atlantic	24000	56841	35760
United Kingdom	Atlantic	143000	152847	180592

* Data collected, but currently unavailable; n.c. = no counts   IWSG Golden Plover Project <GoldenPlover2020@mail.com>   Featured image: European Golden Plover Pluvialis apricaria, Vlieland - Vallei van Malgum, the Netherlands. ©Wouter van der Ham, 12-10-2016 on waarneming.nl

Dr. Scott Flemming was recently hired by the Council’s Conservation of Arctic Flora and Fauna Working Group (CAFF) and the International Arctic Science Committee (IASC) to study how shorebirds breeding in the Arctic are impacted by plastic contamination. He is working in conjunction with Dr. Rick Lanctot (Alaska Shorebirds Coordinator with the United States Fish and Wildlife Service) and Dr. Jennifer Provencher (Environment and Climate Change Canada).

To better understand this potential problem, they conducted a literature review of plastics and shorebirds. Unfortunately, few studies have investigated the presence or quantity of plastics in shorebirds. Consequently, they are reaching out through listservs and various social networks to accomplish the following objectives: 1. Collect unpublished reports and learn about data available on plastic pollution ingestion in shorebirds worldwide. 2. Connect with researchers who are currently carrying out, or wish to learn more about, plastic pollution ingestion in shorebirds. 3. Assess if the factors we think make shorebirds susceptible to plastic pollution are correct, identify taxa that may be especially susceptible to plastics, and determine areas of future research. 4. Gauge interest in potential collaborations for the collection of carcasses and fecal samples for plastic pollution studies in the future.

To help with this effort, they would appreciate you answering this survey comprising six questions by Monday September 14th: https://docs.google.com/forms/d/e/1FAIpQLScOykZANnxcrgXf_Gb0itjwZ9kl1VUzeL1nvILO4oMfp5wmNg/viewform If you have an questions or would like to follow-up please contact Scott Flemming: scott.flemming@canada.ca  

If you haven't already received it, you will find below a message co-signed by Jen and Mark Smart thanked IWSG Member for their support to their fundraising bike ride: Dear IWSG Member, We have finished our epic fundraising bike ride – 603 miles and over 6000m of climbing in 8 days. It was one of the best but hardest things we have ever done, and the British weather certainly made us earn every single donation. I would like to say a massive thanks to the IWSG members we saw on the way, the lovely messages we received and a huge thanks to Elwyn Sharps who was masterminding the social media accounts that really help to spread the word and to Katharine Bowgen for sending these emails. Thanks, so much for all your support for IWSG small grants. So far, we have raised over 2000EU. There is still time to donate here https://www.waderstudygroup.org/donate/. Once again thanks. Best wishes Jen (incoming Chair) & Mark Smart   Featured image: (c) Project Godwit https://projectgodwit.org.uk/

The IWSG have received a request to pass on details of a new study on backpack transmitter attachment effects that is looking for input from shorebird researchers around the globe. The research team from the USGS lead by Rick Lanctot and Emily Weiser aims to compare the success of various methods of deployment of back-mounted transmitters on shorebirds. For that they are asking for people to download a spreadsheet (access here:https://drive.google.com/file/d/1PWzcy3UOrf5eG8i6qaPiEcYlKE1LQRTK/view?usp=sharing) and answer the questions for your particular projects before sending it back to Emily Weiser at eweiser@usgs.gov by the 15th September 2020. Full details on the original email sent to WHSG Listserv 18th August 2020 can be find here: Backpack-transmitter-attachment-effects-on-shorebirds.pdf. If you have any further questions or issues with the Google Doc please direct your request to Emily Weiser.   Featured image: Common Redshank Tringa totanus, April 2017, Lake Geneva, Wisconsin, USA. ©Christoph Müller.  

Scientific research often begins with a mystery – something in the data that makes the researchers think – Huh? That’s funny. In this issue of Wader Study, authors Lindström and Alerstam begin their paper¹ with just such a mystery. The researchers studied the 5,000–7,000 km non-stop flights that Great Snipes Gallinago media make during migration from central Sweden to equatorial Africa (and back). To do this, they attached tiny sensors (called mini-multisensory accelerometers) to the bird’s lower leg (tibia). These sensors that weigh less than two grams and measure ambient temperature and pressure every hour and movement every five minutes². [caption id="attachment_14028" align="alignnone" width="700"] Great Snipe outfitted with a mini-multisensory accelerometer on the tibia. (photo: Åke Lindström)[/caption] The ability to collect data at this level of detail from high flying birds (literally migrating at cruising altitudes above 4000 m) is astounding. However, the researchers found themselves struggling to interpret some of the data. In several of the 15 flights studied, there were periods when activity suddenly stopped, and temperature rose. It looked like the bird had landed, but air pressure remained low suggesting the bird was still at high altitude. Then, usually in under an hour, activity was high again and temperature low. It was a mystery. After ensuring that the data were not due to a technical malfunction, the researchers started to ponder other explanations. As previously mentioned, the sensor sits on the bird’s lower leg. Unlike birds that perch (Passerines), which tend to fly with legs tucked up against the body, most shorebirds fly with their legs stretched out under the tail. Maybe the unusual sensor data showed that the birds had folded their legs and tucked them under the belly feathers? This would explain the abrupt rise in temperature and even the decrease in activity, due to the angle at which the accelerometers measure movement. This was a plausible hypothesis and it generated more questions: How common is it for shorebirds fold to their legs when flying? Which species do it? Are Great Snipes one of the species that do it? Then, delving even deeper into the mystery, why would the birds fly with folded legs? A literature search revealed very few studies on the topic. The researchers had their work cut out for them. At this point, you might be asking why does this matter? Knowledge about the way shorebirds hold their legs when flying is not something to be immediately marketed. The scientists were simply curious. It is an example of fundamental research. There is no immediate application, but who knows where it could lead? Time and again it leads to later innovations, and it often starts with a mystery. To try to solve their mystery, the researchers first put out a call for information over email and social media. They asked for photos and observations of shorebirds flying with their legs folded and any available information about species, location, date, and time. They examined online photos of flying shorebirds from the Swedish Species Observation System (www.artportalen.se). After checking nearly 10,000 photos, they found just over 1,300 that were sharp enough to determine leg position. The data in this study were gathered mainly online. Working primarily online is something many of us have been doing since the start of the current pandemic (in the best-case scenario). Scientists have lost field seasons, experiments, even jobs. Though conducted before the pandemic, this study shows that research can go on, in some capacity, using data that are already available online. [caption id="attachment_14029" align="alignnone" width="700"] Bar-tailed Godwits flying with legs folded (the one on the upper right) and outstretched. (photo: Jesse Conklin)[/caption]  The researchers’ call for information produced reports of 17 species flying with folded legs.  The behavior was most common in the long-legged Spotted and Common Redshank species Tringa erythropus and Tringa totanus. Reports came from Canada, the USA, New Zealand and five countries in Europe, suggesting that flying with legs folded is not restricted to a particular latitude or longitude. However, the authors acknowledge that it is not the complete story because they lacked feedback from large parts of the world and therefore data on many shorebird species. The 1,300 plus database photos with detectable leg position revealed at least 31 birds flying with folded legs. This more quantitative data allowed the researchers to estimate how often this behaviour occurs within a species. In Spotted Redshanks, about 11% of the photos had birds flying with legs tucked. Rates of over 1% were detected in Greenshanks Tringa nebularia, Ruffs Calidris pugnax and Common Snipe Gallinago gallinago. All of the information together showed that shorebirds fly with legs folded in most months of the year, in different age classes, alone and in flocks, and in both migratory flights and local movements. So, why do they do it? Perhaps to decrease heat loss in cold temperatures. A similar strategy is used when birds rest standing on one foot and tuck the other into the belly feathers (unipedal roosting). Earlier research has shown that the likelihood of unipedal roosting increases with decreasing temperature³. The colder it is, the more birds stand on one leg when resting. Thermoregulation is clearly one reason to fly with legs folded, but this can’t be the only reason because birds also fly with legs folded when the ambient temperature is mild. Might leg position affect flight performance? Folding the legs below the body moves the centre of gravity forwards. Whether this is a help or a hinderance might depend on how much fuel the bird is carrying. During migration, shorebirds can carry anything from no fuel stores to more than doubling their body mass with stored fat and protein. This fuel is mainly stored behind the centre of gravity, thus folding the legs could potentially balance stored fuel. Since birds carry different fuel loads, this might explain why both leg positions are found in flocks where birds are experiencing the same ambient temperatures. Could muscle fatigue be another explanation? Keeping the feet trailing during long flights is tiring. To cope, shorebirds have fatigue-resistant slow tonic and twitch fibres in their leg muscles, whereas perching bird species, which tend to fly with legs tucked, have a lower proportion of such slow fibres⁴. Based on muscle anatomy, it should be easier for birds that normally fly with extended legs to sometimes fly with folded legs (as seen in shorebirds) rather than the other way around. This idea remains to be tested. Now returning to the mystery, what about Great Snipes, do they fly with legs folded? Unfortunately, the authors found no evidence of this. However, Great Snipes are rarely seen and when they are seen, it is difficult to see leg posture in flight. The authors did find the behaviour in many other species, including the Common Snipe, a close relative to the Great Snipe. They therefore conclude that flying with folded legs may well occur in Great Snipes, but proof remains to be found. Although the authors did not entirely solve their mystery, they gathered a lot of previously unknown information. Their study indicates shorebirds do sometimes fly with folded legs and that reducing heat loss at low temperatures is a likely reason for this behaviour, but not the only one. Aerodynamics and leg muscle fatigue may also play a role. The research generated both new knowledge and further questions. This is the essence of fundamental research, which often lays the foundations for innovation. Examples abound, but here is a bird-related one. In the 1970s, researchers were studying retroviruses in chickens. When they found something puzzling, and started searching for answers, they were not looking to revolutionize the field of cancer genetics. Yet their discovery that the cancer-causing genes – oncogenes – in chicken retroviruses were actually derived from the host genome was a breakthrough. Oncogenes were now relevant for all animals, including humans. Later, researchers studying oncogenes in humans encountered a particular gene – HER2 – that was associated with aggressive forms of breast cancer. This gene became the target of research that eventually led to drugs like Herceptin for breast cancer and Gleevec for chronic myelogenous leukemia. For decades, different teams of researchers found mysteries and built upon the work of others to solve them. The culmination of all of these projects – which began with research on retroviruses in chickens⁵ – gave us life-saving drugs. Especially in our current era with so many pressing problems to solve, it is important to remember that the best way to fuel innovation is to support fundamental research. Stay curious. PDF is available for download here: https://www.waderstudygroup.org/article/13808/

1. Lindström, A & T. Alerstam. 2020. Waders flying with folded legs – which species, when, where and why? Wader Study 127(2): 113-120.
2. Bäckman, J., A. Andersson, L. Pedersen, S. Sjöberg, A. P. Tøttrup & T. Alerstam. 2017. Actogram analysis of free-flying migratory birds: new perspectives based on acceleration logging Journal of Comparative Physiology A203: 543–564. https://doi.org/10.1007/s00359-017-1165-9
3. Ryeland, J., M.A. Weston & M.R.E. Symonds. 2019. Leg length and temperature determine the use of unipedal roosting in birds. Journal of Avian Biology 50(5): e02008. https://doi.org/10.1111/jav.020
4. Walker, A.M. & R.A. Meyers. 2019. The anatomy and histochemistry of flight hindlimb posture in birds. II. The flexed hindlimb posture of perching birds. Journal of Anatomy 234: 668–678.
5. Sawyers, C. L. 2019. Herceptin: A First Assault on Oncogenes that Launched a Revolution. Cell 179: 8-12. https://doi.org/10.1016/j.cell.2019.08.027

At the end of August, Jen and Mark Smart will completed a 8-day fundraising cycling ride over a distance of 600 miles to support Project Godwit and IWSG small grants: They will be wearing special IWSG 50^th anniversary cycling jerseys. Want one? You can purchase it now and until the 27th Jully by sending an email to Jennifer.smart@rspb.org.uk or contact Jen via direct message on Twitter @drredshank: https://twitter.com/drredshank/status/1283506019755327489?s=20 Follow their route and support Jenny & Mark on social media! learn more about Project Godwit, IWSG small grants and the cycle ride of Jenny and Mark on a dedicated blog entitled "Cycling for waders" on wadertales here: https://wadertales.wordpress.com/2020/08/07/cycling-for-waders. Link to help Jenny and Mark to support Project Godwit here: https://www.justgiving.com/fundraising/fundsforwaders; and link to support IWSG small grants here: https://www.waderstudygroup.org/donate/.   Featured image: ©projectgodwit.org.uk

Given the current circumstances around Covid-19, we have decided to postpone our anniversary conference on the island of Sylt, Germany to 8-11th October 2021. Postponing the Sylt conference does not mean we should skip a year of sharing knowledge and meeting each other, as so we invite you to join our: Virtual annual conference on 10-11th October 2020. Following other ornithological events, we will be using Zoom Webinar to host the meeting. Registration and abstract submission for the conference will open on 15th June, by which time detailed information about the meeting will be found at www.waderstudygroup.org/conferences/2020-virtual-conference.

IWSG are happy to announce that we have found the successful applicant for the 2019 Small Project Grant: Emmanuel Nii Attram Taye from the University of Ghana with his project "Breeding ecology and foraging behaviour of Black-winged stilts in Ghana". Aspects of Black-winged stilt (Himantopus himantopus) foraging and breeding biology is still poorly understood. The project will investigate behaviour and nesting success of this species in the Densu Delta Ramsar Site in Ghana. The project will be the first to report on the interactions - such as interference and predation - between Black-winged stilts and Little tern (Sternula albifrons) with which is shares breeding habitat. The data is thought to be of high value for making wetland conservation decisions, in Ghana and beyond. The committee were happy with the project's focus on African waders. Breeding biology and requirements of many African waders is unknown and this study will definitely add to new knowledge. Congratulations to Emmanuel! [caption id="attachment_13630" align="aligncenter" width="567"] The 2020 IWSG Small Grant will support the project proposal of Emmanuel Nii Attram Taye from the University of Ghana about the behaviour and nesting success of Black-winged stilts in the Densu Delta Ramsar Site in Ghana. ©E. Taye.[/caption] The Small Project Grant committee would like to thank all who applied for the grant. We were very happy with the high standard of the projects applied for! Thank you all. Also, please consider applying for the next application round. Announcement of the opening of the call will come via the IWSG website and social media.   Jannik Hansen on behalf of the Small Project Grant committee   Featured image: Black-winged Stilt, Somme Bay, July 2018, ©Bigayon.

News authored by Vojtěch Kubelka and Tamás Székely Within the ÉLVONAL Shorebird Science project: Sex role evolution: testing the impacts of ecology, demography and genes, we are trying to understand the fundamental associations among key components of sex roles: courtship, pair bonding, incubation and parental care, investigating shorebirds across continents. We have established cooperation among 28 teams worldwide working with 46 populations of 31 shorebird species and currently we are offering various volunteering fieldwork experience in Belarus, Cape Verde, Russia, Thailand or Tunisia as well as a new post-doc position within the project.   Find out more at: https://elvonalshorebirds.com/contact/ or contact Vojtěch Kubelka kubelkav(@)gmail.com [caption id="attachment_13492" align="aligncenter" width="330"] Fieldwork in Africa can be difficult for researchers working with shorebirds, but an engagement with local communities is worth of the investment and represents a key to the successful conservation measures, photo: Vojtěch Kubelka.[/caption]   Featured image: Adult Shore Plover (Thinornis novaeseelandiae), monitored in detail at Motutapu Island, New Zealand, photo: Vojtěch Kubelka.