Tag Archives: conservation

What ties the Panama Canal, squeaky swing sets, and the Smithsonian together? Birds of course!

Have you ever wondered why you see birds in some places and not in others? Or why you see a certain species in one place and not in a different one? Birds have wings enabling them to fly so surely we should see them everywhere and anywhere because their destination options are technically limitless. However, this isn’t actually the case. Different bird species are in fact limited to where they can and/or want to go and so the question of why do we see certain birds in certain areas is a real research question that Jenna Curtis has been trying to get to the bottom of for her PhD research.

Jenna is a 4th year PhD candidate working with Dr. Doug Robinson in the Department of Fisheries & Wildlife. Jenna studies bird communities to figure out which species occur within those communities, and where and why they occur there. To dial in on these big ecological questions, Jenna focuses on tropical birds along the Panama Canal (PC). PC is a unique area to study because there is a large man-made feature (the canal) mandating what the rest of the landscape looks and behaves like. Additionally, it’s short, only about 50 miles long, however, it is bookended by two very large cities, Panama City (which has a population over 1 million people) and Colón. Despite the indisputable presence and impact of humans in this area, PC is still flanked by wide swaths of pristine rainforest that occur between these two large cities as well as many other types of habitat.

Barro Colorado Island can be seen in the centre of the Panama Canal.

A portion of Jenna’s PhD research focuses on the bird communities found on an island in the PC called Barro Colorado Island (BCI), which is the island smack-dab in the middle of the canal. To put Jenna’s research into context, we need to dive a little deeper into the history of the PC. When it was constructed by the USA (1904-1914), huge areas of land were flooded. In this process, some hills on the landscape did not become completely submerged and so areas that used to be hilltops became islands in the canal. BCI is one such island and it is the biggest one of them in the PC. In the 1920s, the Smithsonian acquired administrative rights for BCI from the US government and started to manage the island as a research station. This long-term management of the island is what makes BCI so unique to study as we have studies dating back to 1923 from the island but it has also been managed by the Smithsonian since 1946 so that significant development of infrastructure and urbanization never occurred here.

Large cargo vessels pass next to BCI on their transit of the Panama Canal

Now back to Jenna. Over time, researchers on the island noticed that fewer bird species were occurring on the island. There are now less species on the island than would be expected based on the amount of available habitat. Therefore, Jenna’s first thesis chapter looks at which bird species went extinct on BCI after the construction of PC and why these losses occurred. She found that small, ground-dwelling, insectivore species were the group to disappear first. Jenna determined that this group was lost because BCI has started to “dry out”, ecologically speaking, since the construction of PC. This is because after the PC was built, the rainforest on BCI was subjected to more exposure from the sun and wind, and over time BCI’s rainforest has no longer been able to retain as much moisture as it used to. Therefore, many of the bird species that like shady, cool, wet areas weren’t able to persist once the rainforest started becoming more dry and consequently disappeared from BCI.

Another chapter of Jenna’s thesis considers on a broader scale what drives bird communities to be how they are along the entire PC, and what Jenna found was that urbanization is the number one factor that affects the structure and occurrence of bird communities there. The thing that makes Jenna’s research and findings even more impactful is that we have very little information on what happens to bird communities in tropical climates under urbanization pressure. This phenomenon is well-studied in temperate climates, however a gap exists in the tropics, which Jenna’s work is aiming to fill (or at least a portion of it). In temperate cities, urban forests tend to look the same and accommodate the same bird communities. For example, urban forest A in Corvallis will have pigeons, house sparrows, and starlings, and this community of birds will also be found in urban forest B, C, D, etc. Interestingly, Jenna’s research revealed that this trend was not the case in Panama. She found that bird communities within forest patches that were surrounded by urban areas were significantly different to one another. She believes that this finding is driven by the habitat that each area may provide to the birds. 

Jenna has loved birds her entire life. To prove to you just how much she loves birds, on her bike ride to the pre-interview with us, she stopped on the road to smash walnuts for crows to eat. Surprisingly though, Jenna didn’t start to follow her passion for birds as a career until her senior year of her undergraduate degree. The realization occurred while she was in London to study abroad for her interior design program at George Washington University in D.C. where on every walk to school in the morning she would excitedly be pointing out European bird species to her friends and classmates, while they all excitedly talked about interior design. It was seeing this passion among her peers for interior design that made her realize that interior design wasn’t the passion she should be pursuing (in fact, she realized it wasn’t a passion at all), but that birds were the thing that excited her the most. After completely changing her degree track, picking up an honor’s thesis project in collaboration with the Smithsonian National Zoo on Kori bustard’s behavior, an internship at the Klamath Bird Observatory after graduating, Jenna started her Master’s degree here at OSU with her current PhD advisor, Doug Robinson in 2012. Now in her final term of her PhD, Jenna hopes to go into non-profit work, something at the intersection of bird research and conservation, and public relations and citizen science. But until then, Jenna will be sitting in her office (which houses a large collection of bird memorabilia including a few taxidermized birds) and working towards tying all her research together into a thesis.

To hear more about Jenna’s research, tune in on Sunday, October 6th at 7 PM on KBVR 88.7 FM, live stream the show at http://www.orangemedianetwork.com/kbvr_fm/, or download our podcast on iTunes!

A bird’s eye view: hindsight and foresight from long term bird surveys

The Hermit Warbler is a songbird that lives its life in two areas of the world. It spends its breeding season (late May-early July) in the coniferous forests of the Pacific Northwest (PNW) and migrates to Central America for the winter. Due to the long journey from the Central America to the PNW, it is dependent on food resources being available throughout its journey and when it arrives to breed. The environmental conditions across its range are tightly linked to habitat resources, and unfavorable climatic conditions, such as those becoming less frequent due to climate change, can negatively affect bird populations. Changes in bird populations are not always easy to notice, especially with small songbirds that live high in tree canopies. Studying birds for one or a few years may not be enough to signal the change in their well-being.

A Hermit Warbler singing on a lichen-covered branch in the forest canopy. Male Hermit Warblers will defend their territories ferociously against other males during the breeding season. H.J. Andrews Experimental Forest, May 2017.

Fortunately, long term data sets are becoming more available thanks to long term study programs. For example, the Willamette National Forest in Oregon is home to H. J. Andrews Experimental Forest (the Andrews). Designated by the USDA Forest Service Pacific Northwest Research Station, the Andrews forest hosts many forest research projects and has been monitored since 1948. In 1980, it was became one of the National Science Foundation’s Long Term Ecological Research sites ensuring that it will remain a resource for scientists for years to come. Bird surveys at the Andrews began 11 years ago, and researchers at Oregon State University are beginning to draw connections between changing climate and bird communities in relation to the forest’s structure and compositions.

H.J. Andrews Experimental Forest, where long-term bird study is launched in 2009 by Drs. Matt Betts and Sarah Frey. The forest sits on the moist foothills of western Cascades in Willamette National Forest.

One of these researchers, Hankyu Kim PhD student in the Department of Forest Ecosystems and Society, is using this data to study the Hermit Warbler and other bird species at the Andrews. Hankyu is interested in how and why bird communities are changing over time. With 11 years of bird observations and extensive temperature data, he is attempting to estimate how population of birds persist in the forests. To begin approximating how current climate effects birds, we need to have an idea about bird communities in the past. Past conditions can help us explore how birds might respond to future climate scenarios. Without the effort of many researchers before him to monitor birds, his investigation would be impossible.

Bird surveys are conducted via point counts. Researchers stand at a point count station for 10 minutes and count all bird species they see and hear. Listen to a hermit warbler and some other background birdsongs recorded at H.J Andrews in June 2017.

Hankyu realized the importance of long-term data after reviewing the 45-years of wintering waterbird surveys collected by the Birdwatching Club at Seoul National University, Korea during his time as an undergrad. The group took annual trips to the major Rivers and Coastal Areas, and in just a couple decades the members of the club had recorded declines and disappearances of some species that were once common and widespread. This finding inspired Hankyu to pursue graduate school to study unnoticed or uncharismatic species that are in danger of decline. Every species plays a critical role in the ecosystem, even if that role has not yet been discovered.

Tune in on Sunday May, 19 at 7 pm to hear more about Hankyu Kim’s research with birds. Not a local listener? Stream the show live or catch up when the podcast episode is released.

Want more about the Hermit Warblers in Oregon? Check out this video of Oregon Field Guide featuring Hankyu and some of his colleagues from Oregon State University.

Core Strategies for Conservation of Greater Sage-Grouse

Greater sage-grouse (GRSG) is a North American bird species that nests exclusively in sagebrush habitat. In the last century, natural populations of this species have significantly declined largely due to human influenced habitat loss and fragmentation. This has prompted multiple petitions to the U.S. Fish and Wildlife Service (USFWS) to list GRSG under the Endangered Species Act (ESA), which would require mandatory restrictions on critical sagebrush habitat. This means that land managers of sagebrush areas would face land use restrictions for natural resource extraction and development, the bulk of the economy in Wyoming.

Wyoming Basin study site with associated GRSG Core Areas in blue. These Core Areas were designated as part of the GRSG Core Area Protection Act, Wyoming’s GRSG conservation policy aimed at protecting at least 67% of male GRSG attending leks. This policy is focused on directing development outside of these areas by setting strict conservation measures inside the Core Areas. Overall, the policy has remained effective in protecting at least 2/3 of GRSG habitat and has been identified as having the highest conservation value to maintaining sustainable GRSG populations.

 

Scent station and associated trail camera set-up in Natrona County, WY. Scent stations were randomly placed throughout the study site along roads and stratified between Core and Non-Core Areas. Mammalian predators are known to use roads for easy travel. These scent stations will help gather occupancy data of mammalian predators (Photo Credit: Eliana Moustakas).

Wyoming is a stronghold for GRSG, with the most birds, the most leks (male mating display grounds), and the largest contiguous sagebrush habitat in North America. Since GRSG declines have led to its possible endangered listing, Wyoming Governor Dave Freudenthal launched an effort in 2007 to develop stronger policies for GRSG that would protect the species and its habitat while also sustaining the state’s economy. A public forum followed, including representatives from state and federal agencies, non-governmental organizations, and industries, and in 2008 a conservation policy called the Greater Sage-Grouse Core Area Protection Strategy was developed to maintain and restore suitable habitat and active breeding GRSG pairs. The plan aims to protect at least 67% of male GRSG attending leks, and is focused on directing development outside of Core Areas by setting strict conservation measures inside Core Areas. By protecting sagebrush habitat and allowing development and mining in Non-Core Areas, Wyoming can continue to expand its natural resource economy and play a critical role in GRSG conservation.

In 2010, the USFWS concluded that GRSG were warranted protection but left them off the ESA list because threats were moderate and did not occur equally across their range. The status of GRSG was reevaluated in 2015 and the USFWS determined that GRSG did not warrant protection, claiming that the Core Area Strategy was sound framework for a policy by which to conserve GRSG in WY. However, recent monitoring of GRSG has shown that populations are still in decline in some Core Areas and in populations across their range. Our guest this week, Claire Revekant, a second year Master’s student in the Department of Animal and Rangeland Science, is trying to understand if avian and mammalian predator abundance differs between Core and Non-Core Areas.

Golden eagle using a utility pole to perch. Raptors and corvids are known to use  structures to perch and nest.

 

Working under Dr. Jonathan Dinkins, Claire estimates associations between human influence areas and habitat variables on the abundance of predatory birds and occupancy of mammalian predators. For example, raptors and corvids have been documented to perch and nest on fences and other human structures, and roads have been found to be used as travel paths for mammalian predators. Claire’s hypothesis is that predatory animals will be higher in Non-Core Areas where human-influenced environments serves as areas of food subsidies. Identifying areas of predator abundance and relating those areas to human features and habitat variables may help policy makers prioritize plans to mitigate human influence and protect sagebrush habitat.

Badger captured by trail camera at scent station in Lincoln County.

While her research is focused on predators of GRSG, Claire’s work for GRSG conservation contributes to the conservation of other sagebrush-obligate species (species that relay on sagebrush for all or some parts of their life cycle). By protecting the ecosystem for one “umbrella” species, other species may also benefit. Throughout her career as a wildlife biologist, Claire has been involved with numerous projects where she has handled and monitored several species. From learning to band raptors as a child to monitoring seabird productivity as an intern at the Monomoy National Wildlife Refuge, Claire has developed a passion for research. She told us that she can’t remember a time when she had a different dream job. Tune in tonight Sunday November, 11 at 7 to hear more about Claire’s research and her journey to graduate school on 88.7 FM KBVR Corvallis, or stream the show live.

Are You Listening? For Whale’s Sake, Keep it Down!

Our guest tomorrow night, Selene Fregosi PhD student in Fisheries and Wildlife, investigates noises produced by marine mammals and in particular, whales. Selene employs an under water microphone to record the bioacoustics produced by marine mammals over large spatial and temporal scales. Attached to remote controlled marine gliders, these microphones can record bioacoustics of marine mammals, some of which produce sounds of inaudible frequencies. Marine gliders limit the time and expense of whale monitoring from the deck of a marine vessel. This cost effective alternative allows Selene to collect oceanographic measurements like temperature and salinity and her audio recordings remotely through satellite transmitted programing. Selene’s explorations through her project will provide information about the effectiveness of this technology for future research with marine mammals.

Selene getting the glider ready.

Selene getting the glider ready with the help of Alex Turpin.

In addition to the practical aspects of this research, Selene is interested in how noise pollution from ships, submarines, and other vessels affects the behavior of charismatic mega fauna. By examining the sound spectra of an audio recording, Selene can identify each species by their characteristic sound patterns. After deciphering bioacoustics obtained from the microphoned-gliders, Selene can understand whale behavior during different times of year or different locations around the world. In fact, some of Selene’s recordings are the first ever to record whale behavior and movement off the coast of Guam!

Characteristic sound pattern of a beaked whale.

Characteristic sound pattern of a beaked whale.

Selene hopes that in the future, her work will aid the conservation of whales and other marine mammals. Deciphering bioacoustics can allow for the identification of when and where specific species are breeding, and conservationists can then work to reduce noise pollution. As our oceans become noisier from human activities, Selene’s research could provide accurate and specific information to limit disruption of crucial population maintenance and growth.

Learn more about Selene’s and other interesting research from the Klinck lab at OSU by visiting their blog.

Join us Sunday, November 22 at 7 pm to hear more about Selene’s research and her unique journey to graduate school. Tune in to KBVR Corvallis 88.7 FM or stream the show live!