For decades, environmental law has been built around visible harms: smokestacks, discharge pipes, landfills, and oil spills. We regulate what we can see. Microplastics represent the opposite problem, an environmental threat that is largely invisible, already ubiquitous, and increasingly understood to be biologically active. In many contemporary risk assessments, microplastics now rank among the top emerging environmental threats. That alone should command attention. The science behind it makes inattention indefensible.

Microplastics are generally defined as plastic fragments smaller than five millimeters. Some are intentionally manufactured at that size, microbeads, industrial pellets known as nurdles, and plastic glitter. Others are “secondary” microplastics, the inevitable byproduct of larger plastic items breaking down through sunlight, abrasion, and weathering: packaging, bottles, synthetic textiles, tires, fishing gear, and even disposable masks. Smaller still are nanoplastics, which are measured in billionths of a meter and are correspondingly harder to detect and study.

Exactly how much plastic humans have manufactured so far is not known. But scientists have guesstimated more than 18 trillion pounds, more than two times the weight of all living animals on the planet.

What makes microplastics different from earlier pollution problems is not merely their scale, but their reach. They are now found across land, sea, and air. They pass through water treatment systems. They travel in the atmosphere and fall back to earth in what some have aptly called “plastic rain,” a modern analogue to acid rain, but far more persistent. Sampling in national parks and protected areas in the American West found microplastics in roughly 98 percent of air and rain samples. Even these numbers likely understate the problem, because current methods cannot reliably count clear or white particles and fibers.

They are also in us. Microplastics have been detected in human blood, lungs, liver, joints, placentas, and brains. Estimates suggest that people may inhale tens of thousands of microplastic particles per day. The full health implications are not yet known, but the direction of the evidence is profound. Recent studies associate micro and nanoplastics with inflammation, cardiovascular disease, and increased risk of heart attack and stroke. Research has found higher concentrations of microplastics in placentas from premature births, raising concerns about fetal development and hormone disruption. Animal studies have shown microplastics moving through the brain and blocking blood vessels. Other work suggests a link to cognitive decline. While no responsible scientist will claim the case is closed, it is increasingly clear that we are running a large, uncontrolled experiment on ourselves.

The food chain provides another route of exposure. Microplastics have been found in seafood at astonishing rates, as well as in honey, tea, sugar, fruits, and vegetables. They enter farmland through sewage sludge used as fertilizer and then wash into waterways through runoff. In the ocean, they are ingested by organisms from plankton to shellfish to fish. The phrase “if you eat mussels, you eat microplastics” is not rhetoric; it is a literal description of current conditions (a study last year in Oregon found microplastics in 98.9% of seafood sampled).

There will be no putting this particular genie back in the plastic bottle.

From a legal and policy perspective, the problem is that we have designed our environmental control systems to capture large, visible waste streams. We do a decent job intercepting bottles and bags. We do almost nothing about fibers, fragments, and particles measured in microns. Two recent studies indicate that conventional American style stormwater systems actually accelerate the delivery of microplastics into water bodies. We celebrate devices like Baltimore’s Mr. Trash Wheel, and rightly so, but they are designed to catch what floats. The real problem is increasingly what cannot be seen.

There are some promising technological ideas: experimental filtration systems, magnetic extraction techniques, even robotic collectors (.. Sichuan University has developed a tiny robot fish that can collect microplastics). But these are, at best, partial measures. Once plastic has fragmented to this scale, there is no practical way to “clean up” the environment. The defining feature of plastic, its durability, is precisely what makes it so dangerous when it becomes pollution. Plastic never truly goes away; it just becomes smaller, more mobile, and more biologically available.

Compounding the problem is scale. Global plastic waste is projected to grow dramatically over the next decade, from 250 million tons a year to 460 million tons by 2030, driven by rising consumption. More plastic inevitably means more microplastics. Even bans that make sense, such as the U.S. ban on microbeads in cosmetics, illustrate the limits of single sector regulation. Researchers now find microbead like particles in remote areas and suspect industrial paints and coatings as a source. If that is correct, one industry’s solution simply becomes another’s problem, and in a global atmosphere, national bans have obvious limits.

From an environmental law perspective, microplastics expose a regulatory gap. They do not fit neatly into existing categories of air pollution, water pollution, or waste. They are all of those at once. They are a product, a byproduct, and a contaminant. They are emitted diffusely, transported globally, and persist indefinitely. That combination should sound familiar to anyone who has studied earlier failures to control substances like lead, PCBs, or PFAS, only this time, the volume is orders of magnitude larger.

We are, in all likelihood, in the lull before the storm. The science is moving quickly, and the early signals are not reassuring. What is needed now is not just more research, though we certainly need that, but a serious policy shift toward source control: product design, materials substitution, filtration at home clothing washing machines and municipal treatment plants, and a hard look at how much single use plastic we are willing to accept as the price of convenience.

“I Have One Word for You: Plastics.” This quote from the 1960s film, “The Graduate,” is a perfect encapsulation of the times, then and now. 

Today, microplastics are no longer just a scientific or environmental concern; they are rapidly becoming a MAHA (Make America Healthy Again) political issue, and for understandable reasons. At its core, MAHA is about reframing environmental and regulatory policy around human health outcomes, not just abstract ecological protection. Microplastics fit that narrative almost perfectly. Unlike many traditional pollutants, this is not a distant or theoretical risk. The evidence now shows that microplastics and nanoplastics are inside all of us. That transforms plastic pollution from a “save the whales” issue into a direct personal health exposure issue, which is exactly the kind of framing that drives MAHA style politics.

And for a legal profession that exists to anticipate and mitigate risk, microplastics should already be treated as the next major environmental and public health challenge. The legal question is not whether microplastics will become a central environmental issue, but how quickly our laws, policies, and business practices adapt to confront a pollutant that is everywhere, forever, and increasingly inside us.

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Join us for the next in our webinar series at the Intersection of Business, Science, and Law, “Exposomics is the Environmental Issue Your Business Should Take Seriously” on Tues, Jan 20 at 9 am. The webinar is complimentary, but you must register here.