News

Cattle tick, handling demonstrations featured at 47th South Texas Cow-Calf Clinic

November 15, 2018 by Rob Williams

by Blair Fannin, Texas A&M AgriLife Communications

Texas A&M AgriLife Extension’s Dr. Joe Paschal, Agency Interim Director Dr. Parr Rosson, Texas A&M AgriLife Research Entomologist Dr. Pete Teel, were all part of the recent 47th South Central Texas Cow-Calf Clinic in Brenham. (Texas A&M AgriLife Extension Service photo by Blair Fannin) — Texas A&M AgriLife Extension’s Dr. Joe Paschal (left), Agency Interim Director Dr. Parr Rosson (center), Texas A&M AgriLife Research Entomologist Dr. Pete Teel (right), were all part of the recent 47th South Central Texas Cow-Calf Clinic in Brenham. Photo by Blair Fannin, Texas A&M AgriLife Communications

BRENHAM – Ranchers working cattle this fall and winter, or surveying pastures and wildlife, need to be mindful of ticks harboring on livestock and forage habitats.

Dr. Pete Teel, Texas A&M AgriLife Research entomologist in College Station, recently gave a tick update at the 47th South Texas Cow-Calf Clinic in Brenham.

Teel discussed a variety of ticks common to Texas, including those that have not entered the Lone Star state and pose potential health consequences not just for cattle, but for humans.

One of the most common ticks in Texas is the Lone Star tick. It is a three-host tick, starting out as a tiny seed tick on animals, then dropping back into the environment to molt to nymphs. Nymphs repeat this sequence attaching and feeding on a second host, dropping into the environment to molt to adult ticks, then attach and feed on the third host, Teel said.

Cattle and wildlife such as deer or feral hogs are common hosts for this tick.

“More than 95 percent of this tick’s life is spent in the pasture in vegetation types that support tick development and access to hosts,” Teel said.

Another tick found in Texas, the Gulf Coast tick, is also a three-host tick.

“They particularly like to infest ground dwelling birds during the larval and nymphal stages, and infested birds can be a continuous source of pasture infestation,” he said. “Adult Gulf Coast ticks like to attach themselves to the ears of livestock or wildlife.

“Pesticide-impregnated ear tags were originally developed to control infestations of Gulf Coast ticks on cattle, and this control tactic remains effective if applied during the peak infestation period from July to October in Texas.”

Teel stressed practicing good biosecurity. He advised cattle producers purchasing cattle to temporarily quarantine new animals to inspect, treat and observe them prior introducing them to the home herd.

“Newly purchased animals of any species could serve as potential hosts for ticks,” Teel said.

The potential for the Asian Longhorn tick to enter Texas looms. It was discovered in nine states in 2018, including Arkansas, he said. The climate of Texas is predicted to support the Asian Longhorn tick, so surveillance in 2019 will be needed, he noted.

“It was discovered on a sheep farm in the summer of 2017 in New Jersey, and experts think it may have been introduced to the U.S. as early as 2010,” Teel said. “Originating from China, it long ago spread to Australia and New Zealand. It is a relatively small, brownish tick, but can do a lot of damage.”

Teel said the Longhorn tick is a “highly adaptable tick” and is likely to spread over much of the U.S.

Teel reviewed the history and ecology of cattle fever ticks and provided an update on cattle fever tick infestations. He reminded the audience of the risks of cattle fever ticks and their transmission of pathogens causing bovine babesiosis.

“At risk is our economy of the Texas cattle industry and the more than 400,000 cattle producers throughout the southern region where this tick could survive if permitted to be reintroduced,” Teel said.

“More than one third of the U.S. fed cattle are produced in this region. U.S. cattle are naive to bovine babesiosis and mortality is estimated to exceed 70 percent in naïve cattle. There are no protective vaccines or approved drugs. Our focus is to prevent the only vector, cattle fever ticks, from re-establishing populations in the U.S.”

For more information, Teel said producers can visit http://tickapp.tamu.edu/ for a complete background on common ticks found in Texas and more in the mobile app available for smartphones.

Also during the program, Dr. Joe Paschal, AgriLife Extension livestock specialist in Corpus Christi, discussed animal identification.

Dr. Jason Cleere, Texas A&M AgriLife Extension Service beef cattle specialist, and Mark Klaus, Washington County beef producer at the 47th South Central Texas Cow Calf Clinic in Brenham. (Texas A&M AgriLife Extension Service photo by Blair Fannin)

Paschal said it’s important for ranchers to maintain good health records on their herds and have cattle permanently identified with brands and other unique forms of identification. This information is important for source-verified programs, animal disease traceback and required for animal health tests such as brucellosis, he said.

“There’s a need for traceback in the industry resulting from animal diseases,” Paschal said. “There are a lot of diseases out there that affect both humans and animals.

“In the past, the required vaccination of all beef breeding heifers for brucellosis kept the beef cow herd in the U.S. and Texas with a form of permanent identification. However, since all of the U.S. is now free of brucellosis, many cattle producers are no longer brucellosis vaccinating their replacement heifers since it’s no longer required by law.”

Consequently, Paschal said most of the nation’s and state’s cowherd is at risk for lack of any traceability for infection.

“It doesn’t have to be an exotic disease, it could be something as simple as the current cattle fever tick outbreak that has required trace backs to 82 different counties in Texas and a number of states.”

Participants also heard an update on Texas Beef Council activities from Mike McCravey, industry relations manager in Austin, and an afternoon session devoted to cattle-handling demonstrations from Dr. Ron Gill, AgriLife Extension livestock specialist and associate department head for animal science at Texas A&M University in College Station.

Study Abroad Trips to Trinidad and Tobago, Costa Rica Bring Valuable Field Research Experience to Students

September 10, 2018 by Rob Williams

Students in the Trinidad and Tobago program. Photo by Adrienne Brundage.

Several students from the Department of Entomology and other departments around the university spent the summer researching in a different location as they ventured to Trinidad and Tobago and at the Soltis Research Center in Costa Rica this summer for research during two study abroad programs.

The two groups developed and carried out research projects in the field and learned about the local cultures in both Trinidad and Tobago, and in Costa Rica. At the end of the program, the students turn their research into a paper that is ready for publication.

Trinidad and Tobago program coordinator Dr. Adrienne Brundage said the trip to the two islands temporarily took place of the Dominica Study Abroad after the research center they were using was severely damaged by Hurricane Maria in 2017.

With the help of co-instructor and Wildlife and Fisheries professor Dr. Kevin Conway, Brundage decided on using a similar center that was located in Trinidad and Tobago. She said the environment at the research center in Trinidad and Tobago was similar to what they have done for the previous trips to Dominica.

“Because of the hurricane damage, we made the decision with the Archbold Tropical Research Center in Dominica that it wouldn’t be prudent to have students on the grounds quite yet,” she said “That left us to find something that was close to the amenities we are used to in Dominica on some other island.”

The students’ research projects ranged from studying and creating medicinal plant identification guides with newer photos and researching mosquito habitats and species to surveying geckos and other lizards and other related organisms.

“The students worked to reach out of their comfort zones with their research and it showed,” Brundage said.

Group photo of students in Costa Rica near the Solis Center — Students in the Costa Rica program. Photo by Dr. Hojun Song

During the Costa Rica trip led by Drs. Hojun Song and Spence Behmer in August, some of the projects the 19 students worked on included collecting and preparing insects and studying the behavior and ecology of such insects as ants, termites and grasshoppers.

Students doing field work in Costa Rica — Students in the Costa Rica program doing field research. Photo by Dr. Hojun Song.

Song said that a total of 2,000 insects were collected and prepared to help create a more long-term insect collection at the Soltis Center for researchers to use in their research. The students also gained valuable field research techniques that can be used for other courses and during their future careers.

Junior Jose Torres collected more than 100 species of nocturnal insects that were native to Costa Rica and a group project dealing with the feeding preferences of termites. Torres said the trip was a good learning experience and learned more about what it takes to set up and conduct a research project.

“Aside from the few lectures we had abroad and the learning experiences of running an experiment in limited time, I learned a lot from watching and observing the nature around me during my hiking trips,” Torres said. “I learned that there is so much biodiversity that remains hidden from so many people simply because they do not have the opportunity to go on such expeditions.

He also added that studying abroad improved his skills in insect behaviors and biodiversity.

Student Gabrielle Manno identifying mosquitoes for her project looking at a microscope. — Gabrielle Manno identifying mosquitoes for her project. Photo by Dr. Adrienne Brundage

The observations I made during the study abroad trip helped me become a better entomologist because the insects I observe where I normally do, which is insects in either Dallas or in College Station TX, have their own uniqueness. Observations like this will help me learn about the world around me for the rest of my life.”

Aaron said that she had a great experience and would love to return if she had the chance again.

“I learned to be much better at identifying all types of insects, not only beetles and I had the opportunity to learn about Trinidad’s culture including food, people, economy, and so many more things that I never would have had the opportunity to see in person otherwise,” she said. “I would absolutely go back in a heartbeat.”

Students Stephanie Rodriguez, left, and Jennifer Iglesias (right) with Dr. Spence Behmer (foreground) checking data collected from the field. Photo by Dr. Hojun Song

Senior Patryk Tomaszkiewicz’s research project was collecting Aedes aegypti mosquitoes in Trinidad and Tobago and tracking which were the most active and which females were able to produce more offspring.

He said the project was a great learning experience and taught him valuable personal skills. “I learned to adapt and change my project so that I could complete it, given the environment I was given,” he said. “I also learned valuable personal skills and I found that some people aren’t the way you thought they’d be. However, I also learned how to better work in a group and how to make group research successful.”

Aaron’s individual project was conducting a survey of forensically important beetles in Trinidad and Tobago and was involved in a group project where she compared a survey of pollinators of Cordia curassavica and Stachytapheta jamaicensis plants.

“The trip was amazing!” senior Kayleigh Aaron said. “I had such a great time learning about the country and meeting new people, all while making some really great friends along the way.”

Tomaszkiewicz also enjoyed the trip and would go again if he had the chance.

“The trip was great. I got to experience a new climate, a new culture, and a new part of the world that I’ve never been to,” he said. “I got to meet great people and I had the chance to do a research project about something that I was really passionate about.”

Grad Students Research Presentations Receive Awards During Forum

August 24, 2018 by Rob Williams

The winners of the 21st Graduate Student Forum. From left to right: Ivy Wei Chen (second place), Erfan Vafaie (first place), and Liz Walsh (third place)

Three graduate students received top awards for their research during the 21^st annual Graduate Student Forum held in the Heep Center on August 23.

The forum gives graduate students the experience of presenting their research to peers in a format similar to what they would see during a research paper competition at conferences. Students were given a set amount of time to present their research and answer questions from the audience.

Erfan Vafaie received first place for his presentation titled “Use of multiple natural enemies for inoculative biological control of Bemisia tabaci in greenhouse Poinsettia production,” Ivy Wei Chen received second place for her talk “Insect sterol requirements: a novel target for controlling insect herbivore pests.”

Liz Walsh then received third place for her talk titled “Effects of pesticide exposure during development on the mating frequency of honey bee (Apis mellifera L.) queens.”

Vafaie is a Ph.D. student advised by Dr. Kevin Heinz, Chen is advised by Dr. Keyan Zhu-Salzman, and Walsh is advised by Dr. Juliana Rangel.

The forum also featured a question and answer session with Drs. Micky Eubanks, Ed Vargo, Zach Adelman, and Jeffery Tomberlin. During the discussion, members of the audience asked questions about their experience, how each handled stress and speaking in public, and career options for graduate students when they graduate.

All winners received a certificate and a cash prize during a special awards ceremony following the main session.

Congratulations Summer 2018 Graduates!

August 9, 2018 by Rob Williams

The summer ended well for four students in the Department of Entomology as they joined approximately 2,200 Aggies during summer commencement on August 10.

The students expected to graduate this summer included 2 undergraduates and 2 Master’s degree candidates.

The Department would like to congratulate the following students and wish them good luck on their future endeavors:

Undergraduates

Gabriel Rick Contreras	Bachelor of Science – Entomology
Aria Crysta Deluna	Bachelor of Science – Entomology

Graduate Students – Master of Science

Ryan Selking	Entomology
Jeremy Hewlett	Entomology

Rise of the grasshoppers: New analysis redraws evolutionary tree for major insect family

July 24, 2018 by Rob Williams

Grasshoppers are one of the most ubiquitous groups of insects in the world, found everywhere from grasslands to tropical rainforests to isolated mountain ranges to sandy deserts.

And now, thanks to a decade-long analysis of grasshoppers’ genetic relationships, scientists have the clearest picture yet of the evolutionary pathways grasshoppers have followed to attain such diversity–and the findings put the birthplace of the broadest lineage of grasshoppers in South America, not Africa, as previously thought. These findings were published in the latest issue of Insect Systematics and Diversity.

Led by associate professor Dr. Hojun Song, researchers at Texas A&M and the Museo de La Plata in Argentina gathered grasshopper specimens from 22 countries and extracted DNA samples. During the study, the researchers analyzed nucleotide sequences of both nuclear and mitochondrial genomes from 142 grasshopper species to learn how they are related to each other.

“We used the differences in nucleotides among different species to infer the relationships,” Song said. “For example, closely related species will share similar stretches of nucleotides because they share a common ancestor, but distantly related species will have more different nucleotides between them.”

The resulting phylogeny of the family Acrididae, which is the largest taxonomic family of grasshoppers, gives science a new, more nuanced understanding of how grasshoppers have evolved. It shows that grasshoppers within Acrididae descended and diversified from one common ancestor, but many of the currently recognized subfamilies are deemed “paraphyletic,” meaning they couldn’t be narrowed down to their own single common ancestor on the Acrididae family tree.

The taxonomy has been very difficult to understand due to convergent evolution, but Song and his group said that their genetic analysis offers a new lens through which taxonomists may look to revisit grasshopper classification.

“There are some subfamilies, such as Catantopinae and Hemiacridinae, that have been considered taxonomic dumping ground for many decades,” Song says. “This means that a lot of unrelated groups have accumulated in these artificial groupings. Showing the paraphyletic nature of these groups is the first step to reclassify taxonomy, and we foresee that there would be some major shifts in grasshopper classification in the near future.”

This photo shows the diversity of the grasshopper family Acrididae. — The above photo shows the diversity of the grasshopper family Acrididae. From top left, Anacridium aegyptium (Linnaeus, 1764) (Cyrtacanthacridinae), France; Dactylotum bicolor Charpentier, 1845 (Melanoplinae), Mexico; Kosciuscola tristis Sjöstedt, 1934 (Oxyinae), Australia; Adimantus ornatissimus (Burmeister, 1838) (Copiocerinae), Argentina; Calliptamus italicus (Linnaeus, 1758) (Calliptaminae), France; Proctolabus mexicanus (Saussure, 1859) (Proctolabinae), Mexico; Marellia remipes Uvarov, 1929 (Marelliinae), Colombia; Paulinia acuminata (De Geer, 1773) (Pauliniinae), Colombia; Acrida sp. (Acridinae), Vietnam; Hylopedetes surdus Descamps & Rowell, 1978 (Rhytidochrotinae), Costa Rica; Trimerotropis pallidipennis (Burmeister, 1838) (Oedipodinae), Mexico; Stenopola puncticeps (Stål, 1861) (Leptysminae), Argentina; Rhammatocerus pictus (Bruner, 1900) (Gomphocerinae), Argentina; Abracris flavolineata (De Geer, 1773) (Ommatolampidinae), Costa Rica; Hemiacris fervens Walker, 1870 (Hemiacridinae), Mozambique. Photo credits: Ruben Foquet, Ricardo Mariño-Pérez, Hojun Song, Maria Marta Cigliano, Paolo Fontana, and Juan Manuel Cardona.

The most significant of those shifts is the determination that the common ancestor of grasshoppers in the Acrididae family lived in South America, not Africa. The researchers also studied fossil specimens to calibrate the age of certain grasshopper subfamilies, and they found that the earliest diverging lineage within the Acrididae family is also primarily found in South America.

“These relationships collectively point to the South American origin of this cosmopolitan family,” Song says. “Our time-calibrated tree shows that Acrididae originated in the Paleocene of the Cenozoic period, 59.3 million years ago.”

At that point in history, Song said that the continents of South America and Africa were already separated but closer compared to their current positions, and northern Africa was covered in tropical rainforests, much like the Amazonian region in South America.

Song and colleagues propose that Acrididae’s single ancestor first branched off from its relatives in South America and then traversed the Atlantic sometime around 57 million years ago. Those grasshopper “colonists” found suitable habitat in Africa and then rapidly radiated and diversified across Africa and into Europe and Asia. After that, the genetic analysis points to at least three subsequent recolonization events in which grasshoppers traversed back to North America, furthering their global spread and diversification.

Given grasshoppers’ iconic status in the insect realm, Song said he was surprised that no one had previously attempted to build a phylogeny of Acrididae through molecular genetic techniques. The new effort was made possible by grants, dating back to 2008, from the National Science Foundation for Song’s research into the evolution of Orthoptera, the insect order comprising grasshoppers and their relatives such as locusts, crickets, and katydids. Before such a phylogenetic project can even begin, years of field work is necessary to collect the broad range of sample species needed, aided by contributions from international collaborators, as well.

“It is not an overstatement to say that this study took 10 years to complete,” Song said. “This type of research requires extensive taxon sampling to appropriately represent the known diversity, which is probably the most challenging–but also the most exciting–aspect of any large-scale phylogenetic study.”

Acrididae is known to contain approximately 6,700 species. While the new genetic analysis is the most detailed yet on the grasshopper family, the species it sampled constitute only 2 percent of Acrididae’s full diversity. Song and his colleagues are eager to further build out the grasshopper family tree.

“We plan to increase the taxon sampling in the future and use more phylogenetic markers to build a more comprehensive phylogeny. At the same time, we plan to reclassify major groups within the family so that the classification would reflect monophyletic groups,” he says.

The paper can be viewed at https://academic.oup.com/isd/article/2/4/3/5052737 and via Entomology Today at https://entomologytoday.org/2018/07/24/grasshoppers-new-analysis-redraws-evolutionary-tree-acrididae-family-insect-systematics-diversity/