USING OCCAM’S RAZOR WITHOUT CUTTING YOUR OWN THROAT

Occam’s razor is the law of parsimony. It’s a mental model of reasoning. At its core, Occam’s—also spelled Ockham’s or Ocham’s—states, “Among competing hypotheses, the one with the fewest assumptions should be selected.” Simpler yet, when solving a problem, the simplest solution is usually the right solution… but not too simple lest you cut your own throat.

A razor is a philosophical principle, or heuristic (shortcut) rule of thumb, that allows you to cut to the chase of the matter and shave off, or eliminate, unlikely explanations for a phenomenon and/or avoid unnecessary actions. Razors include three reasoning forms: deductive, inductive, and abductive. We’ll get to those in a bit, but cutting to the chase of this piece, the simplest example of Occam’s razor is the duck test.

If it looks like a duck, walks like a duck, swims like a duck, has feathers, and quacks, then it’s probably a duck. There’s also the zebra test commonly used in medical fields to avoid unnecessarily complicated diagnosis—when hearing hoofbeats, think horses, not zebras.

That’s all fine and dandy when examining webbed birds and hooved mammals. How about using Occam’s razor in everyday situations like homicide investigations?

I was taught back in Murder School 101 to always use Occam’s razor for solving crimes. My mentor was an old sergeant named Fred Mahle. Wonderful guy, rest his soul. BTW, Fred was the RCMP detective who got child serial killer Clifford Olson to confess and turn over ten bodies for a fee of a hundred grand. Best business deal ever. Ten families got closure. Olson got life and painfully died in jail from pancreatic cancer.

Fred was right when he said, “Looking at murder cases, the simplest answer is usually the right answer, but be careful with that logic. It could backfire, and you could cut your own throat.” Fred also taught me that the more bizarre a situation, the closer the answer was to home. Additionally, Fred said, “You get more bees with honey than you do with vinegar” and, “You slide further on bullshit than you do on gravel”.

Anyway, back to Occam’s razor and how this logic works.

William of Occam was a fourteenth-century Franciscan friar who had trouble with conventional Christian doctrine like miracles. As a scholastic philosopher and theologian, William took a heuristic (mental shortcut) approach to explain the unexplainable. History credits William of Occam with wise quips like, “It is vain to do more with what can be done with fewer”, “A plurality is not to be posited without necessity”, “Circumstances being equal, that is better and more valuable which requires fewer”, and “Entities are not to be unnecessarily multiplied”.

Greats like Aristotle, Newton, Einstein, Hawking, and Sagan all bought into the law of parsimony—parsimony being defined as, “Quality of being careful with money or resources: Thrift. State of being stingy, economy in the use of a means to an end. Economy of explanation in conformity with Occam’s razor”. These thinkers knew the simplest explanation to a problem was preferable to one that’s more complex. (Usually).

Minds like these deferred to core mental models which are the way we see the world and interpret reality. Mental models include concepts like core competence, first principles thinking, thought experiment, second-order thinking, probabilistic thinking, inversion, and Occam’s razor. Great minds also employed the three forms of reasoning.

Deductive, inductive, and abductive reasoning support any analytical application of Occam’s razor. Rather than paraphrase what deductive, inductive, and abductive reasoning mean, I’ll simply copy and paste this piece from Merriam-Webster:

Deductive Reasoning

Deduction is generally defined as “the deriving of a conclusion by reasoning.” Its specific meaning in logic is “inference in which the conclusion about particulars follows necessarily from general or universal premises.” Simply put, deduction—or the process of deducing—is the formation of a conclusion based on generally accepted statements or facts. It occurs when you are planning out trips, for instance. Say you have a 10 o’clock appointment with the dentist and you know that it takes 30 minutes to drive from your house to the dentist’s. From those two facts, you deduce that you will have to leave your house at 9:30, at the latest, to be at the dentist’s on time.

Deductive reasoning always follows necessarily from general or universal premises. If a sandwich is defined as “two or more slices of bread or a split roll having a filling in between,” and a hot dog is defined as “a frankfurter; especially a frankfurter heated and served in a long split roll” then one must deduce that any hot dog served in a split roll is a sandwich.

Inductive Reasoning

Whereas in deduction the truth of the conclusion is guaranteed by the truth of the statements or facts considered (the hot dog is served in a split roll and a split roll with a filling in the middle is a sandwich), induction is a method of reasoning involving an element of probability. In logic, induction refers specifically to “inference of a generalized conclusion from particular instances.” In other words, it means forming a generalization based on what is known or observed.

For example, at lunch you observe 4 of your 6 coworkers ordering the same sandwich. From your observation, you then induce that the sandwich is probably good—and you decide to try it yourself. Induction is at play here since your reasoning is based on an observation of a small group, as opposed to universal premises.

Abductive Reasoning

The third method of reasoning, abduction, is defined as “a syllogism in which the major premise is evident but the minor premise and therefore the conclusion only probable.” Basically, it involves forming a conclusion from the information that is known. A familiar example of abduction is a detective’s identification of a criminal by piecing together evidence at a crime scene. In an everyday scenario, you may be puzzled by a half-eaten sandwich on the kitchen counter. Abduction will lead you to the best explanation. Your reasoning might be that your teenage son made the sandwich and then saw that he was late for work. In a rush, he put the sandwich on the counter and left.

If you have trouble differentiating deductioninduction, and abduction, thinking about their roots might help. All three words are based on Latin ducere, meaning “to lead.” The prefix de- means “from,” and deduction derives from generally accepted statements or facts. The prefix in- means “to” or “toward,” and induction leads you to a generalization. The prefix ab- means “away,” and you take away the best explanation in abduction.

Whether you reason by deduction, induction, or abduction, you can always learn from what the greats had to say about using Occam’s razor. Here are three reasonable quotes worth noting:

Albert Einstein referred to Occam’s razor when developing his theory of special relativity. He formulated his own version: “It can scarcely be denied that the supreme goal of all theory is to make the irreducible basic elements as simple and as few as possible without having to surrender the adequate representation of a single datum of experience. Or, everything should be made as simple as possible, but not simpler.”

Physicist Stephen Hawking advocated for Occam’s razor in his book, A Brief History of Time: “We could still imagine that there is a set of laws that determines events completely for some supernatural being, who could observe the present state of the universe without disturbing it. However, such models of the universe are not of much interest to us mortals. It seems better to employ the principle known as Occam’s razor and cut out all the features of the theory that cannot be observed.”

Isaac Newton used Occam’s razor, too, when developing his theories. Newton stated: “We are to admit no more causes of natural things than such as are both true and sufficient to explain their appearances.” Newton sought to make his theories, including the three laws of motion, as simple as possible, with only the necessary minimum of underlying assumptions.

Furthermore, simple is as simple does. A conclusion can’t rely just on its simplicity. It must be backed by empirical evidence. And when using Occam’s razor to make deductions, we must avoid falling prey to confirmation bias. In the case of the NASA moon landing conspiracy theory, for example, some people consider it simpler for the moon landing to have been faked, others for it to have been real.

Lisa Randall best expressed the issues with the narrow application of Occam’s razor in her book, Dark Matter and the Dinosaurs: The Astounding Interconnectedness of the Universe: “Another concern about Occam’s Razor is just a matter of fact. The world is more complicated than any of us would have been likely to conceive. Some particles and properties don’t seem necessary to any physical processes that matter—at least according to what we’ve deduced so far. Yet they exist. Sometimes the simplest model just isn’t the correct one. This is why it’s important to remember that opting for simpler explanations still requires work. They may be easier to falsify, but still require effort. And that the simpler explanation, although having a higher chance of being correct, is not always true.”

Occam’s razor is not intended to be a substitute for critical thinking. It is merely a tool to help make that thinking more efficient.

Harlan Coben has disputed many criticisms of Occam’s razor by stating that people fail to understand its exact purpose: “Most people oversimplify Occam’s razor to mean the simplest answer is usually correct. But the real meaning, what the Franciscan friar William of Ockham really wanted to emphasize, is that you shouldn’t complicate, that you shouldn’t “stack” a theory if a simpler explanation was at the ready. Pare it down. Prune the excess.”

Occam didn’t have the only razor in the think-tank shop. Other greats contributed to the critical thinking crowd. Here are some examples:

Hanlon’s razor — Never attribute to malice which can be adequately explained by stupidity.

Hitchen’s razor — What can be asserted without evidence can be dismissed without evidence.

Hume’s razor — What ought to be cannot be deduced from what is.

Alder’s razor — If something cannot be settled by experiment or observation, then it’s not worthy of debate.

Sagan’s razor — Extraordinary claims require extraordinary evidence.

Okay. This is all philosophical and eggheady. What about some real-life examples of critical thinking used to disprove flawed logic using Occam’s razor? To combat the Walmart of Weird Beliefs and the Grab Bag of Fake News? I’m not going to try and explain bizarre behavior like QAnon, Proud Boys, or crazy conspiracy theorists who wear tinfoil hats. As my wise, redneck brother-in-law Darryl says, “Ya can’t fix stupid.”

But I will touch on two high-profile puzzles that can be solved through the application of the law of parsimony—Occam’s razor. One is the JFK assassination. I’m a life-long student of that event and, at one time, I wasted hours debating the case on an internet board. Like Darryl says, “Ya can’t fix stupid”, so I gave up.

The Kennedy assassination brings out craziness in people. Conspiracy Theorists (CTs) will have you believe in a massive cover-up by the Illuminati, a hit by the Mafia, a plot by the military-industrial alliance, LBJ did it, and on and on and on and on…

Using Occam’s razor applied to the case facts, Lee Harvey Oswald acted alone. A deranged man brought his cheap rifle to work and shot the President of the United States—arguably the most powerful and important person in the world—from a tall building. Extraordinary claims require extraordinary evidence, right? After 57 years there hasn’t been one single irrefutable piece of evidence that anyone other than Oswald was involved. Nothing. The simplest answer here is the correct answer.

Another Occam’s application is explaining the enigma of Donald Trump. Trump supporters will have you believe the man is an impeccably-crafted genius with sight farther than the furthest horizon. Others, using Occam’s razor, simply say the man is a natural-born grifter and a common asshole. I know which explanation I’ll accept.

Remember, Occam’s razor is complemented by other mental models, including fundamental error distribution, especially Hanlon’s razor, confirmation bias, availability heuristic thinking, and hindsight bias. The nature of mental models is that they tend to all interlock in a lattice and work best in conjunction.

It is important to note, like any mental model, Occam’s razor is not foolproof. Like Fred said, use it with care, lest you cut your own throat. This is especially crucial when it comes to important or risky decisions. There are exceptions to any rule, and we should never blindly follow the results of applying a mental model which logic, experience, or empirical evidence contradict.

Using Occam’s razor, though, you’ll generally call out quackery with the duck test, and when you hear hoofbeats behind you, in most cases you should think horses, not zebras—unless you’re on the African savannah.

COLIN PITCHFORK MURDERS — THE BIRTH OF DNA FORENSIC EVIDENCE

Colin Pitchfork. Just the name conjures up a devilish image—an evil monster—a story-villain of homicidal psychopathy. But Colin Pitchfork wasn’t a fictional work, though, like Hannibal Lecter. Pitchfork was a real serial murderer and sexual deviant who raped and strangled at least two teen girls in England in the mid-1980s as well as committing countless sexual offenses. And he was the first killer in the world to be convicted through DNA forensic evidence.

Four decades later, DNA forensic evidence is commonplace. So commonplace, in fact, that juries expect it. Through a phenomenon called the CSI Effect, clever defense counsels can plant doubtful seeds in jurors’ minds where they’ll wrongfully acquit a perfectly guilty person if there’s no DNA evidence linking the accused to the crime.

That wasn’t the case with Colin Pitchfork. He was perfectly guilty of murder, and DNA evidence proved it. We’ll look at the Pitchfork case facts in a moment and then do a DNA Forensic Evidence 101 crash course, but first let me tell you a bit of my police investigation background and why I have the authority to write this piece on the birth of DNA forensic evidence.

In the 1990s, when DNA evidence was under development, I was an active homicide detective with the Royal Canadian Mounted Police (RCMP) Serious Crimes Section. I was peripherally involved in surreptitiously collecting a biological sample from a suspect (later convicted) in the first DNA evidence trial in Canadian courts. Ryan Jason Love was taken down solely through DNA evidence for the 1990 murder of Lucie Turmel, a female cab driver who Love stabbed to death in the resort town of Banff, Alberta.

I was in the right place at the right time (DNA career-wise) in 1995 when Canada passed Bill C-104 Forensic DNA Analysis, a federal law. This legislation authorized search warrants for DNA sample collection on uncooperative suspects. The day the bill passed senate assent, I investigated a violent sexual assault where a police dog tracked and not-so-gently tackled a fleeing suspect. I executed the first DNA search warrant in Canada that resulted in convicting serial rapist Rodney John Camp.

Enough about me and my DNA exploits. Let’s take a quick look at the Colin Pitchfork murders and then try to make simple sense of this complicated business called DNA forensic evidence.

The Colin Pitchfork Murders

In November 1983, 15-year-old Lynda Mann’s body was found in the Narborough area of England, approximately one hundred miles northwest of London. She’d been beaten, raped, and murdered along a deserted pathway known as the Black Pad. Forensic evidence, at that time, determined semen on her was from a relatively common blood type that matched ten percent of males. The case fell cold after months of extensive investigation.

A second girl, 15-year-old Dawn Ashworth was found dead in July 1986. She’d also been beaten, raped, and strangled in a secluded Narborough footpath called Ten Pound Lane. As with Lynda Mann, the same semen type was on and in her body.

The Ashworth investigation revitalized the Mann file and the two cases became the Narborough Enquiry. Famed American crime writer Joseph Wambaugh would later write his book The Blooding about the phenomenal effort British authorities put into the investigations. Homicide detectives knew they had a serial killer—the similar blood types, the locations, and the modus operandis (MOs) were too strikingly similar to suggest otherwise.

The question was who donated the semen and how police could conclusively prove it.

Enter Alec Jefferys and his scientific team at the British Forensic Science Service. They’d been hard at work identifying Deoxyribonucleic Acid—the DNA double-helix molecule that provides a genetic fingerprint that’s unique to an individual except for identical twins. Jefferys & Company knew they were onto a world-changing forensic evidence breakthrough, and they used the Narborough Enquiry as a test case.

Initially in the Ashworth file, a strong suspect developed. He was a developmentally challenged youth named Richard Buckland who confessed under duress to the Dawn Ashworth murder. However, Buckland strongly denied the Lynda Mann slaying.

Alec Jefferys

By late 1986, Alec Jefferys’ team had their DNA identification process to the point where they were confident it could withstand courtroom scrutiny. The police took a blood sample from Richard Buckland and delivered it to the Jefferys lab. Conclusively, the lab results said, Buckland was not the semen donor in either the Mann or Ashworth killings. However, the DNA profile conclusively proved the Narborough killer was the same man.

Richard Buckland was a first—the first wrongfully accused person to be exonerated by DNA forensic evidence. Relying on a false confession is a law enforcement lesson harshly learned by detectives, but the British investigators moved on to find the real killer. The question was how?

The answer was a process of elimination.

The Narborough Enquirers took on the monumental task of getting blood samples for DNA analysis from as many late teen and adult males in the Narborough region as possible. This became known as “blooding” suspects and, after over 4,500 bloodings, it paid off.

Colin Pitchfork

In August 1987, police got a tip that one Ian Kelly had fraudulently submitted his blood sample to cover up for a friend, Colin Pitchfork. Both men worked as bakers in Narborough, and the plan backfired. Police took blood from Pitchfork under a court order. It matched the semen DNA profile in the Mann and Ashworth murders.

Colin Pitchfork confessed and got a life sentence. He also admitted to performing around 1,000 indecent exposure acts as well as other violent sexual assaults. Pitchfork’s motive for killing Lynda and Dawn, he said, was not for sexual gratification. He did it because the girls could identify him.

Since the first blooding that led to DNA forensic being soundly based in worldwide courtrooms, and even compounding the frustrating CSI Effect problem, DNA extraction and processing science has advanced leaps and bounds. Today, processing DNA for forensic evidence is mostly routine. Here’s a brief look—call it a crash course—in DNA Forensic Evidence 101.

DNA Forensic Evidence 101

Scientists have studied genetics since the early 1800s when Gregor Mendel suggested his theory that all living organisms had genetic blueprints that described and allowed their physical structure. Mendel also theorized all living organisms shared basic hereditary traits. Mr. Mendel did an interesting experiment with peas and proved that dominant and recessive genes got passed from parent to offspring. It’s a principle applying to peas and humans alike.

In the 1860s, Friedrich Meischer was the first to identify DNA in human blood white cells. (Note: DNA molecules do not appear in red blood cells because red cells are not really cells—they don’t have a nucleus which DNA needs to build a cell—DNA being the building blocks of cells.) By the 1920s, mainstream science widely accepted the DNA theory of genetics and inherited traits. And in the 1950s, famed genetic scientists James Watson and Francis Crick accurately described and isolated chemical structure in the double helix molecule.

Knowledge of this structure, the double helix, allowed Alec Jeffreys and his team to develop extraction, multiplication, and comparison techniques of DNA signatures within all species. DNA blueprints are present in the smallest of life’s creatures like gastropod mollusks to the largest like blue whales and are around 99.9% similar in every living species known to science. It’s that small 0.1% difference that makes species, and specimens within each species, entirely unique.

Your human body produces around 230 billion new cells each day. Nature programmed you for cell division where, uncontrolled by your conscious actions, your cells will divide into two with the new half receiving behavioral instructions from the old half. People being people and nature being nature, there are always small errors or slight changes to the genetic blueprint. Over time and through trillions of cell splits, we all become slightly different. Except, of course, for monozygotic or identical twins. (Science now finds tiny differences in monozygotic DNA structures at the mitochondrial level, but that’s for DNA 301.)

Genetic mistakes, or unintended differences, are where forensic scientists capitalize for evidence. Variances in DNA replication or sequences are called Single Nucleotide Polymorphism or SNPs. These variances normally go unnoticed, health-wise, but they’re the reasons things like hair and eye color vary, metabolisms aren’t the same in family members, and possibly why some seem to have God-given talents.

There really isn’t a lot known about why some relatives have two left feet and why some are Olympic athletes, but one thing that can be taken to the evidentiary bank is each human (save for those pesky twins) have tiny DNA blueprint variances, and that’s where the forensic folks go when examining DNA evidence.

Without stepping into DNA Forensic Evidence 201 or beyond, what’s needed for this crash course is knowing about markers and loci. DNA scientists break down the individual biological sample they’re examining and give it a barcode snapshot similar to a binary code. They have highlights called markers and loci which show unique traits of the sample. Quite simply, they make a graph of the markers and loci then compare the sample they’re questioning against the “known” one. If the markers and loci match, it’s an identification.

Caution! Spoiler Alert: DNA forensic evidence matching isn’t an exact science. It’s a complicated and precise process but, unlike fingerprinting with ridges, valleys, whorls, deltas, and accents which are 100% physically conclusive—to the elimination of all other humans in the world—DNA matches rely on conclusions based on statistical probabilities. However, the statistical matching models return such enormously large matching probabilities of 1:13 billion and such, that this circumstantial opinion or viewpoint is regularly accepted by juries as cold, hard fact.

DNA Forensic Evidence 101 isn’t the place to examine specific processing techniques like Restriction Fragment Length Polymorphism (RFLP), Polymerase Chain Reaction (PCR), Short Tandem Repeats (STR), or Amplified Fragment Length Polymorphism (ALFP). It’s not the place to touch on Touch DNA (Low Level DNA), Mixtures, Rapid DNA, CODIS, or Southern Blot analysis. But it’s worthwhile knowing the DNA evidentiary processing chain from crime scene to courtroom. It goes like this:

Collection — where a biological sample is found at a crime scene.

Extraction — where DNA is released from the cell at the lab.

Quantification — where the lab determines how much DNA they have to work with.

Amplification — where the lab copies the DNA to characterize it.

Separation — where the lab separates amplified DNA for identification.

Analysis and Interpretation — where the lab compares DNA to other known profiles.

Statistical Computation — where the lab calculates a match’s probability.

Quality Assurance — where the lab triple checks process accuracy.

Evidence Delivery — where the lab testifies about their conclusion(s).

In 1987, the birth of Colin Pitchfork’s DNA evidence process was slow, labor extensive, and extremely expensive. It might have even been painful. That’s no longer the case, as four decades has taken this science—originally deemed pseudoscience—and molded it into fast, economical, and highly reliable forensic evidence used around the world. Now, if science could find a permanent remedy for the CSI Effect, that’d be a real breakthrough.

So, you’ve graduated from the DyingWords crash course in DNA Forensic Evidence 101 and your certificate is in the mail. If there’s enough interest, I may run crash courses 201 and 301 where I’ll invite some expert DNA guest lecturers to explain the differences between loci and markers and why the Southern Blot is so slow compared to Rapid and maybe talk fun stuff like Touch DNA, Mixtures, CODIS, and Dirty. In the meantime, if you’d like to continue with this third-degree program, here are five Forensic DNA websites well worth checking out:

http://www.forensicsciencesimplified.org/dna/DNA.pdf

https://www.ojp.gov/pdffiles1/nij/bc000657.pdf

https://wyndhamforensic.ca/wp-content/uploads/2016/01/WyndhamForensic_Presentation_DNAAnalysis.pdf

https://www.fbi.gov/services/laboratory

https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3561883/

NEW CRIME BOOK – *AT THE CABIN* by GARRY RODGERS

Crime pays. That’s what I’ve learned as I publish Book 8 in my based-on-true-crime series At The Cabin. This follows In The Attic (which was #1 on Amazon’s Crime Thriller Bestselling list), Under The Ground, From The Shadows, Beside The Road, On The Floor, Between The Bikers, and Beyond The Limits. 4 more are planned in this series, but they’ve suddenly braked while I explore an intriguing opportunity with the film industry — a net-streaming project titled City Of Danger. In the mean time, here’s the product description / blurb / jacket copy for At The Cabin.

——

What monstrous savage viciously attacked Bea Bonnell—inflicting fractures, burns, and excruciating torture on her? And why did he do it? Bea was seventy-four years old, for God’s sake, when this true crime story occurred.

Beatrice Bonnell and her husband, Stan Bonnell, spend their winters at the cabin they own on De Courcy Island in the mild southwest coast of British Columbia. Their De Courcy cabin is far south of their second home near Atlin, an equally small place in the cold goldfields of northern Canada’s Yukon Territory. And it’s always safe and secure at the De Courcy cabin—until a masked and armed stranger arrives with a depraved demand and the brutal intent of getting back something extremely valuable. Bea resists, and the barbaric beast works Bea over—breaking her fingers and ribs, repeatedly singeing her side with a red-hot knife, then setting the cabin on fire with Bea blindfolded and hogtied inside.

Is there a link between the two cabins—Atlin and De Courcy—bringing on this atrocious assault and putting Bea Bonnell into a life-threatening state where she’ll succumb to horrific wounds? That’s the complex case facing the Serious Crimes Section. Their intricate investigation takes detectives from the wintery waters of the Pacific Northwest to the snow-packed roads of the Klondike where they prove two fundamentals found in solving all crimes. One: Occam’s razor—when faced with two hypotheses, the simpler one is always correct. Two: The stranger the circumstances, the closer the answer is to home.

At The Cabin is Book 8 in the Based-On-True-Crime Series by Garry Rodgers, a retired homicide detective with a second career as a coroner—now reincarnated into an international bestselling crime writer. Get At The Cabin in eBook format at Amazon, Kobo, and Nook.

Here are the First Two Chapters of At The Cabin

WARNING!

At The Cabin is based on a true crime story. Explicit descriptions of the crime scenes, factual dialogue, real forensic procedures, and actual police investigation, interview and interrogation techniques are portrayed. Some names, times, and locations have been changed for privacy concerns and commercial purposes.

Chapter One — Thursday, March 11th – 8:35 a.m.

“She’s lucky she’s still alive.” The detective from our Green Timbers Serious Crimes Section stopped. She swallowed. She was on the other end of my phone, calling from the Burn Unit at Vancouver General Hospital. “I’ve never seen such injuries… deliberate injuries. The viciousness of this attack is fu… appalling! Sheer cruelty and excruciating torture.”

“What’s the lady’s name again?” I had my notebook open, pen in hand, and a dark roast on my workstation desk.

“Beatrice Bonnell. She goes by Bea.” The Vancouver detective paused. She swallowed again. “Bea’s seventy-four years old, for God’s sake. This assault is just… excuse the language… fucking abhorrent!”

“Where did you say this happened?” I heard her say the place when she called to report one of the most despicable and savage offenses I’d ever investigate.

“At the cabin they own. It’s on De Courcy Island. Our map indicates it’s in your territory. Nanaimo Regional District.”

——

De Courcy Island was in my policing area. De Courcy was one of many chunks of rocky land jutting from the Pacific Ocean off the southeast side of Vancouver Island in British Columbia at Canada’s west coast. Officially, this water-bound and tree-filled region was known as the Southern Gulf Islands in the Salish Sea. Unofficially, the area was the “Big Island” and a bunch of little ones—over a hundred of them, depending on how you classified islands.

I was at my desk at the Nanaimo Serious Crimes Section when my colleague from Vancouver phoned. She’d been notified by hospital authorities when Bea Bonnell arrived by Helijet ambulance the previous evening. Because Bea’s attacked occurred outside the City of Vancouver, investigation responsibility fell to the local area holding jurisdiction for the spot.

That spot, on De Courcy, was just south of Nanaimo, which is a small city of 100,000 on the Big Island. Nanaimo was a hub of activity being straight across from Vancouver proper which was one of the most exotic, erotic, and expensive paces on the planet. Nanaimo also had an active crime rate exceeding Vancouver’s when measured on a per capita base. And the crime against Bea Bonnell rated at the top of atrocities one human being can inflict upon another.

——

“Give me what you got so far.” I was ready to write more besides Bea Bonnell and At The Cabin.

“I don’t know much, to be honest.” The detective’s voice was overtight, like a wound watch spring read to snap. “She was admitted here at eight-forty p.m. last night. Airlifted from Nanaimo to VGH, and they put her directly in the burn unit. It’s questionable if she’ll make it. She’s in critical condition suffering not only from multiple third-degree burns but also from fractured ribs and broken fingers. Whoever did this really worked her over.”

“Any suspects or motive?”

“No suspects by name. Just a lone male. Unknown male. Masked male armed with a handgun. Robbery on the surface, but I think there’s more going on here that’s not being told.”

“Like what?”

“It’s just the vibe I’m getting. What I’m told, and this is third-hand, is that the victim was alone at the cabin she and her husband Stanley Bonnell have on De Courcy Island. He goes by Stan. Stan Bonnell. Little older than her. Seventy-six.”

“Stan and Bea Bonnell? Seventy-four and seventy-six? When did the attack happen?”

“Yesterday afternoon. The best I can get is that it was after one p.m. when Stan left Bea alone at the cabin while he went to town. Nanaimo. They live at an isolated spot on De Courcy and have to take a boat off and on. Do you know the place? De Courcy, I mean. Not necessarily the cabin itself.”

“Yup. I’ve been in Nanaimo over thirty years, and I’m a boater. I’m familiar with De Courcy’s location and coastline but not the island by land. It’s like a lot of these small Gulf Islands. Sparsely populated and private.”

“Right. I Googled it. I also have GPS coordinates for the cabin location.”

“What else do you have?” I asked this as I wrote the GPS numbers in my book. “What was this guy after?”

“Well, this is where I’m having trouble. Bea is sedated so she can’t talk. The only one she’s told is Stan and he’s… I don’t know how to put it… vague. Not… I can’t say evasive. Maybe a touch of dementia, or maybe just the stress of this whole thing.”

“I can understand the stress. What’s the extent of Bea’s injuries?”

“Most of her fingers and some of her ribs are broken. Then she has a series of thirteen individual burns along her left side. Directly on her skin from her hip up to her mid-chest area. They look like what she says happened. First, he tied her hands behind her back. Then he broke or dislocated her thumbs and fingers and he threw her on the floor and began kicking her in the ribs. Then it got worse. He heated up a knife on the stove and began burning her again and again along the side until he got frustrated and left but not before setting the cabin on fire with her hog-tied with a pillowcase over her head.”

“Hog-tied? Pillowcase? Set the cabin on fire with her in it?” I’d never heard anything like it. “How the fuck did she survive?”

“She must be one tough old bird.” The detective was tenser now than when she’d started talking. “This is what I got from Stan and the medical staff he talked to. Stan left Bea alone at the cabin while he took his boat and left De Courcy to get something. He was gone four hours and got back just before dark. He found Bea lying on the ground outside the cabin door. She was still bound and hooded. She was in terrible pain and nearly delirious as well as hypothermic.

“I can’t imagine. It was so cold and wet here yesterday.”

“The best I know of what Bea told Stan, and this is hearsay, is that after Stan left, this masked man showed up at the cabin holding a handgun and threatened to kill her, Bea, if she didn’t give him what he wanted. Bea refused, so the guy wrapped her hands behind her back and took a pillowcase, I don’t know, from the bed maybe, and pulled it over her head. He told her he was going to work her over till she gave in. She told him she didn’t have anything to give him. Then he started bending and snapping her fingers, put the boots to her ribs, and then went into the burning.”

“This is just fuckin’ sick.”

“No better word to describe it.” The detective’s voice was like someone had turned her volume down.

“Then he set the cabin on fire? How’d she get out of being hooded and hog-tied?”

“I’m not that clear about this. The cabin didn’t burn down. He, the bad guy, told her since she didn’t give up what he wanted, she could die in there. So he took a bunch of papers and placed them around the stove. They caught fire and he left, closing the door behind him. Bea could see flames through the pillowcase, so she wiggled her way to the stove and managed to knock a pot of water off the top and that drenched the papers.”

“Wow!”

“Then she wormed her way to the door, forced it open, and rolled outside. Bea lay there on the wet and cold ground until Stan got back. Oh! And her feet, ankles, were tied too.”

“Just wow!”

“Like I first said, she’s fucking lucky to still be alive.”

“What’s her medical prognosis?”

“Not good. She’s in critical condition. They’re afraid she’s going to develop complications and pass away. The severity of her injuries and her age are so stacked against her.”

“What was this guy after? Like, to go to this extent, there must be something extremely valuable he wanted.”

“This is where I’m having a hard time.” The detective took a long pause. She quietly said, “I don’t think Stan is being truthful with me.”

Chapter Two — Thursday, March 11th – 9:40 a.m.

I sat in Leaky Lewis’s office. Harry was with me. We talked about the report I’d received on Bea and Stan Bonnell from the Green Timbers detective.

Leaky was in charge of support services in our police department. His real name was Jim Lewis, and he got the nickname because of a chronic condition. Leaky suffered from urinary incontinence which made him well suited to occupy the corner office equipped with a private washroom.

Our Nanaimo force had a complement of around 140 regular police officers with an additional sixty civilians working in various roles. The backbone of any police force is the uniform or patrol officers who handle front-line complaints and emergencies. I spent very little time in uniform as I quickly realized where the backbone ends up so I made a play for criminal investigations. Now, I had well over thirty years of detective experience and was a leading candidate to be put out to pasture—cop-speak for retirement.

The support services Leaky commanded included our Serious Crimes Section. We had three teams of two detectives, each of whom were mandated to solve violent offenses against people. Mostly, we did murder cases but serious assaults like the one on Bea Bonnell fell into our hands, especially since Bea’s prognosis wasn’t good. This had every shadow of a murder file developing as the time passed and clues came to light.

Besides our overworked Serious Crime Section, Leaky looked after our Forensic Identification Section, which was the CSI department, Drug Squad, Criminal Intelligence, Commercial Crime, Street Crew, Property Crimes, and one poor prick plagued with frauds and bad plastic.

Harry was my detective partner. Her real name was Sheryl Henderson. Sheryl was a large lady with large hair and an even larger personality. She got the name Harry after the Bigfoot or Sasquatch in the movie Harry and the Hendersons.

——

“I think Stan’s hiding something.” Harry was the first to speak. She’d listened in to the phone call with the Vancouver detective. “I don’t buy Stan’s statement. Like, some armed and masked stranger shows up while he’s away and does this to his wife and Stan doesn’t know what the guy was after? Give me a fucking break.”

Harry was never one to suppress her opinion. She was usually right, but tact and diplomacy weren’t strong character traits with Harry. Still, I loved her as my partner of three years, and I knew the number one strength holding Harry together—her loyalty.

We played the audio-recorded statement the detective took from Stan Bonnell and shipped to us as an email attachment.

——

“Please state your full name and address, Mister Bonnell.”

“Right. I’m Stanley Edgar Bonnell. That’s Bonnell with two n’s and two l’s. I go by Stan. Stan Bonnell. We have two places. That’s me ’n Bea, my wife. Beatrice June Bonnell. The winter we spend down at the cabin on De Courcy Island. Summers, me ’n Bea are up at the cabin at Surprise Lake ’bout twenty miles due east of Atlin. Atlin, if you know where it is, is in the northwest corner of British Columbia. Closest big town or trading center up there is Whitehorse in the Yukon Territory. We come down to De Courcy in November when things start to freeze up in the north, and we head back up in late April when things start to thaw out again and the frost is gone enough so we can work the ground.”

“Very well. Please tell me what happened at the cabin on De Courcy Island that led to you and your wife Bea to be here at Vancouver General Hospital where we’re recording your statement today.”

“Right. So I don’t know exactly what happened at the cabin ’cause I wasn’t there when it happened. I can only go by what Bea managed to tell me, and what I saw musta gone on. I was away in town. At Nanaimo. I left just after noon to conduct business and get supplies and I took the boat we moor at De Courcy at Gunderson’s dock. Bea was fine and everything was good when I left. However, when I come back approaching dark, I arrived to find a hell of a mess. Here was poor Bea all wrapped up on the ground outside the door and she was terrified and in terrible pain from her injuries. I pulls up in the truck. We got an old truck we use to get around on the island as the cabin is not down by the dock. It’s a bit inland. Anyway, I sees Bea on the ground with her hands tied behind her and her feet cinched at the ankles and this soaking wet cloth hood over her head and I says, ‘Land’s sakes woman. What have you gone and done to yourself?’ And she says the best she can ’cause she’s now terribly cold and shaking and really in pain, ‘He tried to rob me and he smashed-up my hands and my ribs and burnt me all over with a hot knife.’ And I says, ‘Who? Who done this?’ I untied her. Actually, I cut the rope off her hands and feet, ankles, and I yanked the hood off and I got her up and into the truck where what we got left of a heater was on. Bea says, ‘I don’t know who done this. I got no idea at all. You got to get me to the hospital.’ She was in bad shape. Real bad shape and the medical folks here don’t know if she’s gonna make it. Gonna pull through.”

“Did she describe her attacker?”

“Masked man with a gun. Handgun. That’s all she said. She got no idea who done this.”

“Did your wife say what he wanted? What he was after that made him do this?”

“She didn’t get into that much detail. She also told me he tried to set fire to the cabin with her in there. I looked and I saw where the papers on the floor were burnt and where she kicked the hot water pot over to douse them out.”

‘She was able to give you this detail, but not the reason the masked man with the gun came to your cabin and did these horrific acts to her?”

“Nope. I mean yes. Yes, Bea said what happened. As in who it was and what he did to her. She didn’t exactly go into all what was said. Like I said, Bea was in awful pain and terribly cold. All she wanted, and all I could think of, was getting her warmed up and to a place where her injuries could be treated. I took her by boat to Nanaimo where an ambulance met us at the dock. Seeing how bad she was, they flew her straight over here to the burn ward.”

“Excuse me for a sec. You said Bea knew who it was. She knew who it was that attacked her?”

“No. No. She knew it was a masked man with a gun who done this. A loner. She didn’t know who the guy was as in his identity. I got no clue who done this.”

“Do you know why he attacked Bea? What exactly he was after?”

“He might have been after something. Something real valuable enough to go to this stretch.”

“Stan, this is an extremely vicious attack. Whoever is behind this must have been desperate for something. What’s your suspicion?”

“I can’t really say.”

Chapter Three — Thursday, March 11th – 9:55 a.m.

“He can’t really say.” Harry scoffed. She clicked her pen. “Bullshit.”

——

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