Artificial Intelligence, Machine Learning Boost Arkansas Animal Science Research (2024)

April 25, 2024

U of A System Division of Agriculture/Paden Johnson

Aranyak Goswami joined the Arkansas Agricultural Experiment Station as an assistant professor in April to boost research in three departments using bioinformatics.

Supercomputers and artificial intelligence aren't typically thought to go with animal science, but they are among the tools for a relatively new field of science called bioinformatics that can be used to improve animal health and productivity.

Jumping from human-focused medical research at Yale University and Stanford University, Aranyak Goswami is a bioinformatics specialist who recently became an assistant professor for the Arkansas Agricultural Experiment Station. He will work with three different departments to boost the research arm of the U of A System Division of Agriculture.

"Artificial intelligence and machine learning are at the forefront of many aspects of animal and poultry production," said Michael Looper, head of the Animal Science Department. "Dr. Goswami's expertise in these key areas complements our current research programs in animal health, genetics and wellbeing."

Like putting together a jigsaw puzzle from millions of small pieces, Goswami implements data analysis tactics to make sense of data generated from complex research like genetic sequencing. The field known as bioinformatics, or computational biology, links biological data with information storage, distribution and analysis to support many scientific research areas.

Use of the term bioinformaticsbegan in the 1970s, based onfoundations laid in the 1960s.

Looper said collaborations between the fields of computational biology and animal science will "greatly benefit producers in Arkansas and beyond." Goswami is already working with Jiangchao Zhao, aprofessor of animal science, on a collaboration that will study animal microbiomes that regulate digestion, reproduction and infection resistance, to name a few.

"One of my main interests will be to explore microbiomes to improve cattle and poultry health," Goswami said. "There are a lot of genomes which are coming out that need to be sequenced, and there are several gaps in this field."

Genome sequencing is a method used to determine the entire genetic makeup of a specific organism to find comparative changes of the genome. For example, Goswami's research would examine different gene expression patterns.

"You can study the biological pathways that are activated and those that are not," Goswami explained. "And what are the specific metabolic pathways they are using? And what are their protein interactions? What can we find to make them healthier or improve meat productivity?"

With gut health in mind, Goswami's analysis will help animal scientists pinpoint a specific class of bacteria or virus affecting an animal to help design probiotics and other therapeutic approaches.

As a computational biologist, Goswami said he wants to apply his experiences in human health research and machine learning to animal health.

"Whatever is exciting in the human field in general is more exciting for the animal field because the genomes are not standardized," Goswami said. "There is a lot of sequencing that needs to be done and a lot of methods that need to be developed. So that's a lot of exciting work for a computational biologist."

Machine learning in agriculture

Goswami will teach courses through the Dale Bumpers College of Agricultural, Food and Life Sciences. Through the experiment station, he will conduct research in the Animal Science and Poultry Science departments and the Center for Agricultural Data Analytics.

"We are thrilled to have Dr. Goswami join our programs here in Bumpers College and the Arkansas Agricultural Experiment Station," said David Caldwell,head of the Poultry Science Department and director of the Center of Excellence for Poultry Science. "We believeongoing research in the areas of poultry food safety and disease prevention that involve high-throughput sequencing or omics data will gain significant benefits from Dr. Goswami's expertise inbioinformatics."

Goswami said he looks forward to helping develop the Center for Agricultural Data Analytics as a "world-class center in machine learning, statistical learning and mathematical modeling with respect to agriculture."

"Most of our students have never had the opportunity to take a course in artificial intelligence," Looper said. "Through his teaching responsibility, Dr. Goswami also will expose our students to the exciting field of machine learning in the agricultural sciences."

New field with potential growth

Bioinformatics is a relatively new field of science, but there is a lot of potential expansion, Goswami said. In 2017, Goswami completed his doctorate in bioinformatics, focusing on microbial ecology, evolution and genomics at the Indian Institute of Chemical Biology under Chitra Dutta in Kolkata. Goswami said Dutta is a pioneer in bioinformatics and computational biology in India, with a theoretical physics and mathematical sciences background.

Goswami has served in postdoctoral positions at Yale University, working with psychiatrists, epidemiologists and physicians focused on cardiovascular, genetics and internal medicine research. His most recent position was as a Stanford University postdoctoral fellow and research scientist.

At Stanford University, Goswami was involved in an initiative known as the "Long-Range Planning Report" to highlight the rights of postdoctoral faculty in aspects such as salary, healthcare, security and career development.

"Our efforts have the potential to catalyze transformative changes in the broader landscape of postdoctoral experiences throughout the United States," Goswami said.

To learn more about Division of Agriculture research, visit the Arkansas Agricultural Experiment Station website:https://aaes.uada.edu. Follow on Twitter at @ArkAgResearch. To learn more about the Division of Agriculture, visithttps://uada.edu/.Follow us on Twitter at@AgInArk. To learn about extension programs in Arkansas, contact your local Cooperative Extension Service agent or visitwww.uaex.uada.edu.

About the Division of Agriculture:The University of Arkansas System Division of Agriculture's mission is to strengthen agriculture, communities, and families by connecting trusted research to the adoption of best practices. Through the Agricultural Experiment Station and the Cooperative Extension Service, the Division of Agriculture conducts research and extension work within the nation's historic land grant education system.The Division of Agriculture is one of 20 entities within the University of Arkansas System. It has offices in all 75 counties in Arkansas and faculty on five system campuses.The University of Arkansas System Division of Agriculture offers all its Extension and Research programs and services without regard to race, color, sex, gender identity, sexual orientation, national origin, religion, age, disability, marital or veteran status, genetic information, or any other legally protected status, and is an Affirmative Action/Equal Opportunity Employer.

Topics
  • Agriculture
  • Science
  • Technology
  • UA System
  • Department of Animal Science
  • Department of Poultry Science
  • UA Division of Agriculture
Contacts

John Lovett, project/program specialist
Agricultural Communication Services
479-763-5929, jl119@uark.edu

Robby Edwards, director of communications
Bumpers College
479-575-4625, robbye@uark.edu

Artificial Intelligence, Machine Learning Boost Arkansas Animal Science Research (2024)

FAQs

How is AI helping animals? ›

Scientists use AI to study animal communication

There has been a boom in our understanding of animal communication in recent years, and we owe it partly to artificial intelligence (AI). AI allows researchers to analyze huge amounts of audio data of animal calls in seconds that would take humans decades to sift through.

What does AI stand for in animals? ›

Artificial insemination (AI) is the process of collecting sperm cells from a male animal and manually depositing them into the reproductive tract of a female.

How artificial intelligence is applied in animal science? ›

Vital sign monitoring is an essential preliminary evaluation before disease diagnosis and treatment in animals. Real-time monitoring devices with AI-based analytics enable remote tracking of health indicators, allowing veterinarians to monitor conditions, identify early signs of deterioration, and optimize treatment.

Will AI replace animals? ›

The integration of AI with emerging technologies like organ-on-a-chip and in vitro models shows promise in replacing animal testing. These innovative systems replicate the structure and function of human organs or tissues, providing a more physiologically relevant environment for testing substances.

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