In a world in which we’re increasingly conscientious about the most fleeting of day-to-day lifestyle choices—from the provenance of our slip-on shoes to the fair trade nature of our caffeine habits—it’s peculiar that so little conversation up to this point has occurred around perhaps the least fleeting of occasions: our eventual demise. As a licensed mortician, natural burial advocate, and founder of the Order of the Good Death, a collective dedicated to staring down the death anxiety inherent within modern culture, Caitlin Doughty concurs. She sees natural burial as part of a much larger trend and perhaps the beginning of a movement.
“There’s already a cultural shift. In the past few years there has been a radical uptick in the number of people wanting to be involved in changing the conversation about death,” she says.
In October, Doughty was one of the organizers behind Death Salon, a three-day event in Los Angeles (with one scheduled to take place in the United Kingdom in 2014 and one in Ohio in 2015) where academics, “death care” professionals, historians, and artists gathered to rethink our relationship with human expiration. Topics at the salon included 16th-century bejeweled skeletal art, the relationship between death and feminism, and the controversial Body Worlds displays of German anatomist, Gunther von Hagens—as well as panels advocating for natural burial practices. Strange as some of them may sound, Doughty doesn’t believe that these conversations belong merely to an eccentric fringe.
“The type of person who believes climate change is a serious threat to the environment is the type of person who is not going to want the dead body of a loved one to go into the ground pumped full of cancer-causing chemicals and locked in a metal casket in a big concrete vault,” she says. “It’s exactly that kind of extreme consumption that got us into the environmental trouble we're now in.”
The contemporary burial practices that Doughty alludes to have relatively recent origins. While the roots of human burial date back to the Middle Paleolithic period of 200,000 years ago, the traditional lawn cemetery, with its trimmed grass, concrete vaults, and metal plaques, originated only late in the 19th century, and has been a prominent human burial practice ever since.
In the 1960s, however, many championed cremation as a more ecologically responsible alternative to burial. This was particularly due to the actions of the Catholic Church, which lifted a centuries-long ban on the practice in 1963. Cremation numbers in the Western world rose sharply; from around 4 percent in 1965, according to the Cremation Association of North America, to more than 40 percent at present, with projections towards 50 percent by 2018. Yet, despite it's popularity, according to the Green Burial Council, an organization founded in Joshua Tree that calls for certifiable standards for sustainable burial, cremation only adds to a person's final carbon footprint. It takes nearly 23 liters of fuel and up to four hours for a body to be fully incinerated, a process that emits noxious gases including dioxin, hydrochloric acid, sulfur dioxide, and carbon monoxide, as well as mercury and other toxic metals into the atmosphere.
Enter alkaline hydrolysis (also known as resomation, aquamation, or bio cremation), a water-based chemical resolving process that uses an alkaline solution of potassium hydroxide combined with 300-degree Fahrenheit heat and 60 pounds of pressure per square inch to dissolve bodies in large stainless steel cylinders. After two to three hours, the body is transformed into a sterile coffee-colored liquid the consistency of motor oil that can be safely poured down the drain, alongside a dry bone residue similar in appearance to cremated remains. According to Resomation Ltd., the UK-based manufacturer of biocremation equipment, substituting ordinary cremation with alkaline hydrolosis can reduce greenhouse gas emissions by up to 35 percent. It also removes the need for burial space, an important benefit, given the world's growing urbanization and rapidly increasing population. To date, however, alkaline hydrolosis is only available in Australia and a few states in the U.S.
