When Nancy Guthrie, mother of NBC’s 鈥淭oday鈥 show co-anchor Savannah Guthrie, was kidnapped from her Tucson, Arizona, home on Feb. 1, investigators turned to the tools of forensic science鈥攆ingerprints, DNA and digital evidence from her cell phone and Ring doorbell camera.
More than two months later, the case remains unsolved, but it has put a spotlight on the pivotal role forensic science plays in active investigations, says , executive director of the (FNSSI) in the .
鈥淓veryone wants to be their own forensic scientist, but it鈥檚 a very difficult job,鈥 says Corrado, who co-founded the Onondaga County Cold Case Task Force and was director of the Onondaga County Crime Laboratory for more than 20 years. 鈥淵ou鈥檙e looking at minutiae for a long time, and you don鈥檛 always get that exciting result, something that can help solve the case.鈥
In the highly technical, ever-evolving field of forensic science, here are five things you may not have known about the work.
1. You Can’t Rush Forensic Science
Thirty years ago, when Corrado first entered the field, she says most people didn鈥檛 know about forensic science until the rise of fictional TV shows like 鈥淨uincy,鈥 鈥淐SI鈥 and 鈥淣CIS,鈥 which brought widespread interest to the field.
Now, with more people listening to true crime podcasts and watching true crime shows, Corrado says the public can feel a misplaced sense of frustration when a case isn鈥檛 immediately solved.
鈥淭he public may wonder why it takes investigators so long to get back DNA tests or toxicology results, but these things take a while,鈥 Corrado says. 鈥淭here鈥檚 a lot of pressure on forensic scientists to get things done faster, but we need to work meticulously and document everything. The last thing you want to do is rush and make a mistake.鈥
2. New Advancements Help Solve Cold Cases
New technological advancements have allowed investigators to obtain a profile from a very small amount of DNA. Instead of relying on blood or saliva, Corrado says investigators can gather DNA from items of clothing worn by a suspect or through something they touched.
Corrado says forensic investigative genetic genealogy (FIGG) is taking on a larger role, comparing collected DNA samples with publicly available databases聽on genealogy websites. FIGG has helped crack such high-profile cold cases as the Golden State Killer attacks, and Corrado says FIGG can be used in active investigations like the Nancy Guthrie case.
鈥淟aw enforcement can search these commercially available genealogy databases to expand their search,” Corrado says. “Instead of just looking at convicted individuals in the CODIS national DNA database; we can also search anyone who has contributed DNA to the genealogy database. Once there is a close match in the database which could be a distant relative of the perpetrator, genealogists can build family trees using public records to narrow down a list of candidates. The technology has been a real game changer.鈥
3. It鈥檚 About More Than Connecting a Suspect to a Crime
One of the most common misconceptions she encounters is that forensic scientists are only there to connect a suspect to a crime. Their job is to factually observe evidence, determine what it reveals and present findings to both sides in a criminal or civil case.
鈥淚t鈥檚 not our job to determine someone鈥檚 guilt or innocence,鈥 Corrado says. 鈥淲hile a large amount of the work done by crime labs results in tying someone to the scene of a crime, many times the work we do excludes someone. It鈥檚 not just about tying people to a crime; it鈥檚 also helping to ensure that people aren鈥檛 wrongfully convicted.鈥
4. Classroom Experiences Range From Crime Scenes to the Courtroom
FNSSI courses include a crime scene analysis class, where students learn how to document potential sources of evidence, including crime scene photography. The class culminates with students examining a mock crime scene.
In the forensic DNA classes, students analyze biological evidence and identify different body fluids. Some courses provide students with experience testifying as a key witness in a mock trial before a prosecutor and defense attorney.
Students also explore the legal issues facing forensic scientists and learn how to maintain quality control when examining potential evidence.
鈥淔orensic science changes rapidly,” Corrado says. “We give our students the foundational knowledge to understand what is going on now in the field, and then we tell them it鈥檚 on them to stay up to date on the latest trends by reading journal articles and attending conferences.”
5. Taught by Those Who Do the Work
Many of the full-time and adjunct faculty are either former forensic scientists or currently work as practitioners for agencies like the Onondaga County Center for Forensic Science, the New York State Police Department and the Monroe County Medical Examiner鈥檚 Office.
Other faculty members work with forensic science companies to conduct biological, human and microbial DNA and forensic chemistry research, creating an opportunity for students to learn the most current procedures and technologies while also making connections in the field.
Students are also encouraged to intern with a local crime lab, medical examiner鈥檚 office or a federal agency.
鈥淩eceiving that exposure to current technologies while making connections is the best way for students to ensure they鈥檙e staying current in the field. It can really help them with their future career,鈥 Corrado says.
The FNSSI also collaborates with DNA analysts from crime labs and coroners from across the state, training practitioners on the latest technological advancements in the field.
鈥淭hese agencies need help bringing new technologies into the field, someone to make sure it works before the crime labs start implementing it,鈥 Corrado says. 鈥淲e collaborate with these organizations to help further the progress of forensic science.鈥
