Texas A&M Entomology Research Network

Faculty

Texas A&M scientists synthesize historical tick models to help curb the pest globally

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by Steve Byrns, Texas A&M AgriLife Communications

Cattle fever tick in hand. (Texas Animal Health Commission photo)
Cattle fever tick in hand. (Texas Animal Health Commission photo)

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 to http://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.

Coates Uses Blog to Help Teach Scientific Method to Non-Science Majors

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Dr. Craig Coates teaching a class in Spring 2017. Photo by Rob Williams
Dr. Craig Coates teaching students in the ENTO322: Insects in Human Society class. The students learn about the scientific method by analyzing insect research and its real-world applications—a pursuit in which a certain blog about entomology plays a role. Photo by Rob Williams

Since the course was created more than 20 years ago, the Entomology 322 Insects and Human Society has given insight into the diverse world of insects to all non-science and non-entomology majors at Texas A&M University.

To help students better understand the Scientific Method and scientific writing, Instructional Associate Professor Dr. Craig Coates recently started using a popular insect and entomology blog to help his students to understand how scientists use the scientific method to solve problems and find discoveries in the field of entomology, as well as other sciences.

According to the Entomological Society of America’s “Entomology Today” website https://entomologytoday.org/ the primary purpose of the blog is to showcase entomologists’ research and other news in the world of entomology in a format that is relevant to entomologists while being easy to understand by the general public.

The idea for the assignments came to him after talking to a colleague about other ways to help students learn how entomology affects them in an easy way that they could understand. Coates said the course is mainly geared for and has a majority of students that are non-majors that have not taken a high-level science course before.

“The blog’s writing style is very accessible and great for our students and was a very good fit for the class as a whole,” he said. “This is a very nice entry point for our students into the science of entomology and they get exposed to a lot of different scientific articles and species of insects each week.”

Each week, Coates said that each student is assigned to read an article from the blog and write a short summary of what the article identifying the different elements of the scientific method that was mentioned and then say how this article impacts human society overall.

To grade the assignment, Coates used a peer-review process in which each student will end up reading and analyzing three to five posts per week. Most of the work was handled by using the e-Campus system, as well as a peer reviewing software called Peerceptiv that was built into the learning management system, he said.

Coates also added that his teaching assistants handled most of the article selections, which revolved around a theme each week on different topics regarding insects and their impact on human society.

Since he started it in 2015, Coates said that students have learned a lot from reading the articles and that students have loved working the assignment.

“The feedback has been very positive and the students have really been improving in their writing each week,” Coates said.

Medina Receives COALS Dean’s Outstanding Achievement Award for Diversity

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Dr. Raul Medina standing with an award plaque in front of the College of Agriculture and Life Sciences backdrop. Photo by Rob Williams
Dr. Raul Medina with his award. Photo by Rob Williams.

Congratulations to Entomology professor Dr. Raul Medina as he received the College of Agriculture and Life Sciences Dean’s Outstanding Achievement Award for Diversity during the College’s Awards Ceremony on September 20 in the AgriLife Center.

Medina has been honored with the award for his outstanding commitment and hard work in keeping diversity in both his research team and recruiting efforts both on and off campus. Since Medina joined the department in 2006, three-fourths of his graduate, undergraduate students, and postdoctoral research associates in his lab have come from underrepresented groups.

Medina also helps to bring an awareness to diversity and its challenges to members of his lab during his weekly meetings. He addresses the challenges of underrepresented groups in the modern workforce by reading and discussing scholarly work on underrepresented professionals and their challenges they face in today’s scientific world.

Medina’s graduate students also share his passion for diversity in that many are partially funded by Texas A&M Sloan Foundation Exemplary Mentorship Program and the Texas A&M University Graduate Diversity Fellowship. They are also supported through many of the excellence fellowships offered by the College of Agriculture and Life Sciences.

Several of his current lab members also are following in his footsteps as they are very active members of the Texas A&M University Women In Science and Engineering organization, where they are helping to bring awareness to diversity and increase the number of underrepresented voices in leadership positions.

“The students that Dr. Medina attracts to his lab are exceptionally gifted students who are poised to accomplish great things,” Entomology Department Head Dr. David Ragsdale said.

In his service to the Department, Medina has worked hard to increase the number of underrepresented faculty and students in the numerous committees he has been a member of or led as chair, including the Graduate Recruitment and Admission, Awards, and two faculty search committees.

He also has led to acquiring funds to help increase the diversity of recruitment activities in 2016 and has organized a symposium at the national Entomological Society of America to increase the number of Hispanic professionals in entomology.

Medina also has served as a panel member for the national Ford Foundation Fellowship, the Texas A&M Diversity Fellowship, and as a counselor for the Entomological Society of America’s SEEDS (Strategies for Ecology Education, Diversity and Sustainability) program. As a SEEDS mentor, Medina has been able to be a mentor undergraduate students from underrepresented groups at national professional meetings, as well as recruiting new Ph.D. students for the Department.

In addition to the award, Medina also was recognized for his recent promotion to professor during the ceremony.

TAMU Participates In Nation’s First NSF and NIJ Jointly-Supported Forensic Science Center

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Dr. Jeffery Tomberlin, left, and Dr. Aaron Tarone, right. Photo by Rob Williams

MIAMI, FLORIDA —Two faculty members from the Department of Entomology are taking the lead in Texas A&M’s participation in a newly formed Center for Advanced Research in Forensic Science (CARFS) funded in part by the National Science Foundation (NSF), the National Institute of Justice (NIJ) and its government and industrial partners.

Dr. Jeffery Tomberlin, Texas A&M AgriLife Research Fellow and director of the Texas A&M University Forensic and Investigative Sciences Program in College Station has been named the director for Texas A&M and his colleague, Associate Professor Dr. Aaron Tarone, has been named co-director.

The new center will have two focal points.  One based at Florida International University (FIU) draws heavily on faculty expertise at FIU and among its partner institutions, George Washington University and Northeastern University, in the areas of forensic chemistry, forensic microbiology, forensic molecular biology, and forensic psychology. The second foci is led by the University of South Alabama (USA) and Texas A&M who will focus on digital forensics and data analysis as well as microbial and decomposition forensics, respectively.

For Texas A&M University, the new center builds on a strong history of research related to decomposition ecology and applications in the forensic sciences in conjunction with the development of the undergraduate Forensic and Investigative Sciences Program in the Department of Entomology, Tomberlin said.  Through these initial efforts in entomology, research has diversified across colleges including, but not limited to the Colleges of Agriculture and Life Sciences,  Engineering,  Science, and Medicine.

“This opportunity is simply amazing,” Tomberlin said. “A lot of hard work over the last three years went into securing funding for this center. We are now in a position to really be a driving force in the development and validation of cutting edge techniques for applications in the forensic sciences.”

The Center will develop the next generation of forensic science tools for government agencies, non-profits and private industry. The Industry University Cooperative Research Center (IUCRC) partnership received NSF support to create the new Center along with funding from the National Institute of Justice (NIJ), the research, development and evaluation agency of the U.S. Department of Justice, dedicated to improving knowledge and understanding of crime and justice issues through science and about two dozen industrial partners.

“This is truly a historic moment for research in the forensic sciences. The aim of the new Center is to bring industry and government stakeholders in contact with academia to conduct research that is relevant to stakeholder needs,” said Chemistry and Biochemistry Professor José Almirall, the center’s director and the director of FIU’s International Forensic Research Institute. “For a very small investment, our partners benefit from research being conducted at five universities. Our faculty and students benefit from the collaborations amongst the universities as well as amongst the industry and government partners. This translates into innovation and job offers for our students.”

Lynne Chronister, Vice President for Research and Economic Development stated that “USA is extremely excited about the opportunities opened up through the establishment of this new Center and we are thrilled to be one of the two sites selected.  By marrying industry and universities and the digital, physical, social, and life sciences, we are confident that innovations in the field of forensic science will move forward exponentially. “

To date, the Center has recruited 21 government and industry members including the FBI, the U.S. Drug Enforcement Administration, global companies that have relevant research interests or are major suppliers to forensic laboratories, and smaller firms that are looking to pioneer new technology for forensic applications. These members will meet twice a year to vote on which proposals researchers will ultimately pursue.

Rebecca Ferrell, NSF program officer for biological anthropology and co-lead of forensic science activities at NSF, sees great potential in CARFS. “During the last decade, the need to bolster fundamental research that will support and improve the forensic sciences has been highlighted at the national level. Colleagues at NSF and NIJ have identified the IUCRC as a unique mechanism for addressing this research need, and we are excited to pursue this shared interest.  CARFS is well-positioned to pursue innovative research within and across the digital, natural, physical, and social sciences that will align with stakeholder interests and help move forensic science forward.”

Sword Named Innovation Award Recipient

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Dr. Greg Sword in front of a mural holding awards.
Dr. Greg Sword with his plaque and award. Submitted photo

Congratulations to Professor and Charles R. Parencia Chair in Cotton Entomology Dr. Greg Sword for receiving the Texas A&M Technology Commercialization’s Excellence in Innovation Award on May 4, 2017.

The awards were presented during a special luncheon at the Annenberg Presidential Conference Center inside the George Bush Presidential Library. Sword was recognized for his research with fungal endophytes that led to collaboration with an industry partner to produce a commercially available seed treatment for cotton.

The treatment allows cotton plants plagued by dwindling irrigation water and drought to produce more cotton fiber, which helps cotton producers to produce more in times of drought or low water conditions.

“Texas A&M faculty strive for excellence as comprehensive scholars, including excellent teaching, research, discovery and impact,” Texas A&M Provost and Executive Vice President Karan L Watson said. “These awards acknowledge their success in applying new knowledge to the issues of our day, through partnership with industry, commercialization of new ideas and transfer of knowledge to the people of our state, nation and world.”

Sword said the award also brings an awareness to the Department’s as well as the University’s resources and talent.

“I never dreamed that my research would lead to a patent, not to mention receiving an Excellence in Innovation Award,” Sword said. “I am honored, but what this award really highlights is the level of support and resources available here at Texas A&M to enable an idea to go from initial discovery to commercialization in such a short time. I’ve been very fortunate to have worked with lots of talented people all along the way, and their help really made this possible.”