Archives for 2017
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- From the Desk of the Department Head
- WFSC Aids in Hurricane Harvey Relief Efforts
- Dr. William B. “Doc” Davis Commemorative
- New 3D Scanning Campaign Will Reveal 20,000 Animals in Stunning Detail
- Periodic Charts Bring New Meaning to Texas A&M Wildlife Researcher
- 2016 Regional Recovery Champions
- Faculty Spotlight: Dr. Bill Grant
- Student Spotlights
- Wildlife, Fisheries, and Ecological Sciences Building Grand Opening
- New WFSC Fish Ecologist: Joshuah Perkin
- New WFSC Staff
COLLEGE STATION – The battle against fever ticks rages on, and a group of Texas A&M University and French National Institute for Agricultural Research scientists are doing their best to determine where the fray will head by synthesizing historical models for use in curbing the pest globally.
Texas A&M’s departments of wildlife and fisheries sciences and entomology and the French institute have collaborated for a number of years to model systems approaches meant to address ecological and regulatory questions about fever ticks, said Dr. Pete Teel, who works within the entomology department’s Tick Research Laboratory.
Teel, a Texas A&M AgriLife Research entomologist, said the two species of cattle ticks affecting Texas, Rhipicephalus (Boophilus) annulatus and R. (B.) microplus, were at the center of the study. These two closely related species are able to transmit pathogens causing bovine babesiosis, or Texas cattle fever. Both ticks and pathogens were brought to the U.S. on livestock with early settlers from other parts of the world.
Economic losses in cattle include direct losses in meat and milk production through tick blood-feeding. The R. (B.) microplus species now plagues cattle throughout the tropical and subtropical regions of the world. It is also now recognized as one of the world’s most pesticide-resistant parasites.
Teel said global prevention of disease and of the direct economic effects of tick parasitism is highly dependent on tick suppression or elimination. Mortality rates in naïve cattle to bovine babesiosis range from 70 to 90 percent.
Dr. Hsiao-Hsuan “Rose” Wang, an AgriLife Research scientist at the wildlife and fisheries sciences department’s ecological systems laboratory, is lead author on the recently published “Quantitative models of Rhipicephalus ticks: historical review and synthesis,” which appeared in the Sept. 14 Ecosphere Journal. Go tohttp://onlinelibrary.wiley.com/doi/10.1002/ecs2.1942/abstract to see the abstract, then click on the article.
Wang was joined by co-authors Drs. Michael Corson, researcher with the French National Institute for Agricultural Research, Ouest, Rennes, France; Bill Grant, AgriLife Research ecologist, department of wildlife and fisheries sciences, College Station; and Teel to conduct the work.
Wang said the work is meant to put a global perspective on a number of aspects researchers encountered and how these modelers approached various problems differently.
The U.S. has long had a permanent quarantine zone hugging the Mexican border to prevent the re-establishment of ticks from Mexico. As a result of recent outbreaks of cattle ticks in Texas, there are 2,720 premises under quarantine covering almost 9 million acres.
“Rhipicephalus ticks are among the most studied group of ticks in the world due to their wide global range and the devastation they cause,” Teel said.
Researchers have developed quantitative computer models of Rhipicephalus ticks since the early 1970s to study the complex biological and ecological relationships that influence the management or eradication of ticks and tick-borne diseases, he said.
“For our study, we reviewed the 45-year history of Rhipicephalus models developed first in Australia, a decade later in North and South America and then still later in Africa,” he said.
According to the paper, these started as analytical models studying parts of the ticks’ life cycles, progressed to simulations of their complete life cycles on to the current emphasis, which is on GIS-based bioclimatic envelope models derived from remotely sensed data and tick presence records, and then back to simulations with spatially explicit, agent-based models.
“Those earlier models predicted management techniques, such as pasture rotation, resistant cattle and anti-tick vaccines,” he said. “But with global climate change, new wildlife hosts and the ticks’ potential for widening its global reach, our study emphasis concentrated on the complexities of tick-host-landscape interactions and the potential for range expansion.”
Teel said their study and future efforts would focus on the development of clearer comparisons for Rhipicephalus ticks to provide ways to hypothesize specific cause-effect relationships, test tick abundance patterns and pathogen prevalence in the field, and simulate how these patterns might be interrupted to achieve tick suppression or eradication.
COLLEGE STATION – A paper published in the Journal of Applied Ecology by two Texas A&M University scientists warns of impacts to fisheries and fish diversity, stemming from continued deforestation of the Amazon River.
The paper, “Relationships between forest cover and fish diversity in the Amazon River floodplain,” can be read in its entirety here: http://onlinelibrary.wiley.com/doi/10.1111/1365-2664.12967/abstract. Dr. Kirk Winemiller, Texas A&M AgriLife Research fisheries scientist and Regents Professor in the department of wildlife and fisheries sciences at College Station, and Caroline Arantes, Winemiller’s doctoral student, were the authors.
“The paper reports our findings on relationships between forest cover and fish diversity in the Amazon River floodplains,” Winemiller said.
Arantes reported the Amazon, like most major tropical forest areas of the world, is being systematically cleared for agriculture, human habitation and hydropower development. While viewed as progress by some, permanent species diversity damage could well be the outcome.
“Floodplain forests are key habitats and food producing areas for fish,” she said. “In a pristine forested state, fish thrive on food resources that fall into the water, and survival of many fishes is enhanced by the complex habitats of flooded zones. Deforestation upsets this natural balance developed over time not only to the detriment of the fish population but also to the millions of people relying on many of these species for food.”
Arantes and Winemiller conducted a number of field expeditions to the Lower Amazon River to find how deforestation affects fish diversity. Some species, they noted, may be more sensitive to change than others. Their work centered on fish community structure at sites ranging from densely forested to mostly devoid of tree growth.
“We found fish diversity was directly associated with the amount of forest cover and various environmental factors,” Winemiller said. “Some fish with similar life history, feeding and microhabitat needs are positively associated with forest cover, while others were most common in areas of open water or containing beds of herbaceous vegetation, representative of the deforested areas.”
Arantes reported forested areas supported populations of fish species with diverse ecological strategies, and species with broad ecological tolerance tended to be most abundant in deforested areas. Unfortunately, these generalists tended to have low importance in local fisheries, and most of the high-value species tended to be associated with forested areas.
“The forest provides fruit, seeds, microorganisms and other food resources that are important in aquatic food webs of the Amazon River floodplains. To flourish, some fish species may even require resources originating from the forest, so when the forest is removed, these species decline or disappear,” she said.
“In Brazil there are protected areas, but these were designed to conserve terrestrial species,” she said. “Very few areas have been reserved to protect fish stocks in the Lower Amazon River, and none are located within our study area.
“Our findings, together with those from several other recent studies, illustrate the benefits of forest cover in the Amazon for conservation of the region’s rich fish diversity that is so important for regional food security.”
Dr. Lopez with FWS personnel and a curious deer. Photo by USFWS.
Led by Dr. Nova J. Silvy, Regents Professor, Department of Wildlife and Fisheries Sciences, Texas A&M University and Dr. Roel R. Lopez, Director, Natural Resources Institute, Texas A&M University.
The Texas A&M University Key Deer Team is recognized both for its extraordinary efforts towards recovery of the endangered Key deer, and also its participation in the protective management of the Key deer during the New World screwworm incident. The team contributed to recovery of the Key deer population by providing a greater understanding of the species abundance, population dynamics, and viability. It also was largely responsible for translocation effort that re-established populations on Cudjoe and Sugarloaf Keys. This led to an expansion of the overall population that now includes most of the historical range of the Key deer, adding redundancy and increasing representation throughout the population.
Most recently the Texas A&M University team proved invaluable to the Service during the screwworm incident. The team made it their top priority to provide the Service with the necessary information and guidance needed to respond to the NWS incident. Their dedication and almost 70 years of combined experience have helped bring the Key deer population to its current improved status.
New Building Location
WFSC Advising is now located in the new Wildlife, Fisheries, and Ecological Sciences (WFES) building on west campus.
WFSC does not accept walk-ins for advising. To make an appointment call 979.845.5704 or email email@example.com.
There is no check-in process. Simply relax in the advising waiting area in room 114 (down the hallway to the right of the main lobby). Your advisor will call you into their office at the time of your appointment.
We are excited to announce WFSC recently joined rest of the College of Ag and Life Sciences departments on West Campus in a brand new building, the Wildlife, Fisheries & Ecological Sciences (WFES) building.
The building is located at 534 John Kimbrough Blvd., behind the AgriLife Center (glass building on John Kimbrough). The closest parking is Lot 100 or West Campus Garage. Bus routes 5 and 8 drop off near the building.
Get outside. Connect with a team. Grow as a leader. Show some love to a #txstatepark near you!
Are you an outdoor-loving leader age 18-30 with skills that can serve a state park in Central or West Texas? If so, we want YOU to be an Ambassador!
The journey begins with our Ambassador Leadership Training Adventure at Davis Mountains State Park June 29 – July 4. This outdoor immersion includes 5 nights of camping, hiking and backpacking, a service project, team building, leadership and volunteer trainings, and much more, all with 25-30 new friends who believe life’s #betteroutside.
Ambassadors are then partnered with a nearby state park where they are challenged to contribute 40 volunteer hours toward doable projects in 3 dimensions: hands-on service, social media/digital content, and face-to-face community outreach.
APPLY at our website: texasstateparks.org/ambassador by May 21. Earlier applicants increase their chances to join our team.
Let’s do this! We hope to hear from you soon.