Posts tagged found
Serial killer identified 4 years after his death
Jun 10th
Case Summary
On July 1, 1982, several fishermen discovered the decomposing body of a female in a ravine near the 32,000 block of Boulder Canyon Drive in unincorporated Boulder County. Investigators found that the victim, 20 year-old Susan Becker, had sustained 13 stab wounds to her torso and neck and died from her injuries. A black handled knife, believed to have belonged to Ms. Becker was found near her right hand; it was later determined that the knife had not caused the wounds to Ms. Becker. The body was clothed at the time that it was discovered and was covered with a towel, presumably placed there by her assailant. Some of Ms. Becker’s personal effects were found in a day pack with the body.
Ms. Becker was raised in the Boulder area and frequently spent time in Boulder Canyon sunbathing. She was last seen in Boulder by a friend sometime during the morning of June 20, 1982.
At the time, Sheriff’s detectives were unable to identify a suspect in Ms. Becker’s death. Mr. John Agrue figured as a person of interest in the investigation, however, declined to cooperate with investigators. His extended family was interviewed by detectives, and statements indicating that Agrue had hiked in the area where Becker’s body was found were provided, however, there was not enough evidence to link him to Ms. Becker’s murder.
John Agrue had been previously convicted in the 1966 murder of his 14 year old sister-in-law, Susan Marino, in Illinois He was paroled in January 1982 after serving 16 years of a 20-50 year indeterminate sentence and moved to Boulder, and then to Longmont shortly thereafter.
On July 9, 1982, 94-year-old Orma Smith’s body was found in the Big Elks Meadows area, south of Estes Park, Colorado. Ms. Smith resided in Longmont; John Agrue was her neighbor at the time of her death. Larimer County Sheriff’s investigators were unable to link him to Ms. Smith’s murder at the time.
On July 15, 1982, Agrue attempted to abduct a 26 year-old female student at knife point while she was starting her car on the University of Colorado Campus in Boulder. The student was able to flag down a passing University employee who rendered assistance. Agrue was arrested and convicted of the crime.
After serving his sentence in the Colorado Department of Corrections for the attempted abduction, Agrue was returned to Illinois in 1984 to complete his sentence for the murder of his sister in law, his parole having been revoked following his conviction in Colorado. After his release in 1989, he lived in Illinois, where he died in 2009 after an accidental drug overdose. Subsequent to his death, relatives discovered numerous women’s purses, jewelry, and other effects in his home, along with newspaper articles about the attempted abduction of the 26 year-old female, the Smith homicide, and Becker homicide.
In June 2010, the Larimer County Sheriff’s Office announced that advances in DNA evidence and comparison (a technology unavailable in 1982) definitively linked Argue to Orma Smith’s murder. Boulder County investigators, working with Larimer County and Illinois law enforcement officials,
re-evaluated Agrue’s potential involvement in Ms. Becker’s death.
There were a number of similarities in the three homicides and the attempted abduction: three of the four involved young women (Ms. Smith being the exception), their purses or personal effects were taken by the suspect, and all involved the use of a knife. The three homicide victims died from multiple stab wounds inflicted upon the same area of the body; Ms. Marino’s ,Ms. Becker’s and Mrs. Smith’s bodies were found in or near mountain streams.
The Boulder County Sheriff’s Office recruited the assistance of the Federal Bureau of Investigations Behavioral Analysis Unit, presenting them with the case facts from the four investigations. Upon review, the FBI’s experts concluded that it was highly probable that Mr. Agrue was responsible for Susan Becker’s murder. Detectives shared the case facts and the FBI experts’ opinions with the Boulder County District Attorney’s Office and solicited their opinion. They agreed that there was probable cause to believe that Mr. Agrue was responsible for Susan Becker’s death and, that if he were still alive, they would pursue murder charges against him.
The FBI’s Behavioral Analysis Unit is also investigating the potential of Mr. Agrue having been involved in other homicides as a serial killer.
Sheriff’s office release
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Missing elderly woman, dog and car found in Wyoming; are safe with state troopers
May 30th
A 74-year-old woman who had been reported missing by her family has been found this afternoon just outside of Laramie, WY. She is safe and is with Wyoming Highway Patrol troopers. Her family is en route to Laramie to pick her up.
Betty Begin didn’t show up for a family dinner on Tuesday, May 28, 2013, and her family became concerned and contacted Boulder police. Earlier today, the Boulder Police Department issued a news release asking the public for help in locating Begin, who was last seen yesterday afternoon. Begin suffers from some memory issues, and family members told police that she sometimes becomes disoriented.
This afternoon, May 29, 2013, Begin apparently ran out of gas on Interstate 80, just outside of Laramie, WY. Begin had been driving in the fast lane, and was reportedly nearly hit by another driver when she ran out of gas. The Wyoming Highway Patrol was notified, and a check of Begin’s record showed that she had been reported missing in Colorado.
Begin was with her dog, Buddy, and both are safe. Family members are on their way to Laramie to pick them up.
At this time, police have no further information about Begin’s activities between the time she was reported missing and the time she was found.
The Boulder Police Department would like to thank the Wyoming Highway Patrol, the public and the media for their help in publicizing this case and ultimately locating Betty Begin.
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CU study hints conditions on Mars may support energy for life forms
May 30th
The findings, published in the journal Nature Geoscience, also hint at the possibility that hydrogen-dependent life could have existed where iron-rich igneous rocks on Mars were once in contact with water.
Scientists have thoroughly investigated how rock-water reactions can produce hydrogen in places where the temperatures are far too hot for living things to survive, such as in the rocks that underlie hydrothermal vent systems on the floor of the Atlantic Ocean. The hydrogen gases produced in those rocks do eventually feed microbial life, but the communities are located only in small, cooler oases where the vent fluids mix with seawater.
The new study, led by CU-Boulder Research Associate Lisa Mayhew, set out to investigate whether hydrogen-producing reactions also could take place in the much more abundant rocks that are infiltrated with water at temperatures cool enough for life to survive.
“Water-rock reactions that produce hydrogen gas are thought to have been one of the earliest sources of energy for life on Earth,” said Mayhew, who worked on the study as a doctoral student in CU-Boulder Associate Professor Alexis Templeton’s lab in the Department of Geological Sciences.
“However, we know very little about the possibility that hydrogen will be produced from these reactions when the temperatures are low enough that life can survive. If these reactions could make enough hydrogen at these low temperatures, then microorganisms might be able to live in the rocks where this reaction occurs, which could potentially be a huge subsurface microbial habitat for hydrogen-utilizing life.”
When igneous rocks, which form when magma slowly cools deep within the Earth, are infiltrated by ocean water, some of the minerals release unstable atoms of iron into the water. At high temperatures — warmer than 392 degrees Fahrenheit — scientists know that the unstable atoms, known as reduced iron, can rapidly split water molecules and produce hydrogen gas, as well as new minerals containing iron in the more stable, oxidized form.
Mayhew and her co-authors, including Templeton, submerged rocks in water in the absence of oxygen to determine if a similar reaction would take place at much lower temperatures, between 122 and 212 degrees Fahrenheit. The researchers found that the rocks did create hydrogen — potentially enough hydrogen to support life.
To understand in more detail the chemical reactions that produced the hydrogen in the lab experiments, the researchers used “synchrotron radiation” — which is created by electrons orbiting in a manmade storage ring — to determine the type and location of iron in the rocks on a microscale.
The researchers expected to find that the reduced iron in minerals like olivine had converted to the more stable oxidized state, just as occurs at higher temperatures. But when they conducted their analyses at the Stanford Synchrotron Radiation Lightsource at Stanford University, they were surprised to find newly formed oxidized iron on “spinel” minerals found in the rocks. Spinels are minerals with a cubic structure that are highly conductive.
Finding oxidized iron on the spinels led the team to hypothesize that, at low temperatures, the conductive spinels were helping facilitate the exchange of electrons between reduced iron and water, a process that is necessary for the iron to split the water molecules and create the hydrogen gas.
“After observing the formation of oxidized iron on spinels, we realized there was a strong correlation between the amount of hydrogen produced and the volume percent of spinel phases in the reaction materials,” Mayhew said. “Generally, the more spinels, the more hydrogen.”
Not only is there a potentially large volume of rock on Earth that may undergo these low temperature reactions, but the same types of rocks also are prevalent on Mars, Mayhew said. Minerals that form as a result of the water-rock reactions on Earth have been detected on Mars as well, which means that the process described in the new study may have implications for potential Martian microbial habitats.
Mayhew and Templeton are already building on this study with their co-authors, including Thomas McCollom at CU-Boulder’s Laboratory for Atmospheric and Space Physics, to see if the hydrogen-producing reactions can actually sustain microbes in the lab.
This study was funded by the David and Lucille Packard Foundation and with a U.S. Department of Energy Early Career grant to Templeton.
-CU-
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