Do We Really Need to Clean Up the Gulf?Biodegradation might be crude, but it works.
The current drama over the Gulf oil spill reminds me of an article some years ago saying that, despite millions spent on massive coastline cleanup following the E xxon Valdez disaster, contaminated areas untouched by cleanup crews reverted to their pristine pre-spill condition just as quickly as those with human help. Is this a case of letting Mother Nature alone to do what she does best, or simply not true?—Mike Hogan, Auckland, New Zealand
Apparently the good news hasn’t gotten out to kiwi country. Rush Limbaugh has already assessed the situation in the Gulf of Mexico and announced, “The ocean will take care of this on its own if it was left alone and was left out there. It’s natural. It’s as natural as the ocean water is. Well, the turtles may take a hit for a while, but so what?” Still, maybe you won’t mind getting a second opinion from me.
The basics: First, oil is mostly biodegradable. Some of it evaporates or breaks down with exposure to sunlight, and at least 20 types of marine bacteria plus several types of fungi can degrade what’s left. Surprised to learn that bacteria eat oil? Don’t be. Although oil spills from tankers and wells make the news, they account for less than 15 percent of the total petroleum entering the world’s oceans, while 47 percent comes from natural oil seeps. (The rest largely comes from petroleum use.)
That doesn’t mean oil biodegrades easily. Crude oil consists mainly of various types of hydrocarbons, some of which break down readily, others not at all. Light oils generally degrade faster than heavy ones. Very light crude might lose 60 percent of its volume due to biodegradation in four weeks, heavy crude just 10 percent. Temperature is important—warmer waters encourage bacteria growth, which is one bright spot for the Gulf.
A big factor slowing oil breakdown is that oil doesn’t contain much nitrogen or phosphorus, both of which are needed for good bacterial growth. Enter bioremediation, in which fertilizer is added to encourage naturalin which bacteria. First tried in the 1960s, it evidently works. One 2002 study showed that adding just 0.25 percent fertilizer to oil on a lab-simulated beach quintupled the natural biodegradation rate. Tests in 1994 in Delaware Bay, which is already rich with bacterial nutrients, showed fertilizer doubled the rate of oil degradation in shallow waters. The same year, scientists fighting a spill on a beach near Haifa, Israel, reported that bioremediation had reduced oil contamination 88 percent in just four weeks.
Sometimes nature doesn’t need much assistance. Following the 1978 wreck of theAmoco Cadiz off the coast of Brittany, oil was broken down quickly by local microbes, which had grown accustomed to the stuff thanks to shipping leakage. Same for the 1980 Tanio wreck in the same area—biodegradation was detectable within 24 hours. The blowout of the Ixtoc well in the Gulf of Mexico in 1979 was different. Warm water and friendly bacteria raised hopes for speedy degradation, but in this case the oil formed an emulsion, or mousse, on the surface that proved resistant to breakdown.
To answer your question: It’s true that human efforts didn’t clean up most of the 1989 Exxon Valdez spill. Some hydrocarbons degraded rapidly without assistance, possibly because bacteria in Prince William Sound had acclimated to resin emitted by pine trees on shore.
But bioremediation seemed to help. Local bacteria were found to be starving for nutrients, and once fertilizers were added to a test area they got busy. Within a couple weeks a “white window” of clean rocks appeared among the gunk-covered ones. Eventually more than 70 miles of beach were treated this way.
Later researchers questioned how much oil the process actually got rid of, though. It’s been calculated that all told, bioremediation, skimming, spraying, and scrubbing were responsible for removing less than a sixth of the spilled oil. Whom- or whatever deserves the credit, most of the Exxon Valdez spillage did eventually disappear.
Not all of it, though—biodegradation has its limits. Oxygen is key in much bacterial action, and once oil gets buried under sediment things really slow down.
Conclusion? Let’s break this down into more digestible bits. Do oil spills mostly go away on their own? Yes. Does that mean we’re better off leaving them alone? Of course not. Nobody doubts we need to plug leaks and contain spillage, and I’m persuaded bioremediation helps at least sometimes.
But other intervention may be wasteful or harmful. Excessive use of chemical dispersants may threaten wildlife. Animal rescues may be expensive PR exercises. The chief lesson from past spills is how little we know about what works. We’d better find out.
Credit: —Cecil Adams