We designed the turf for soccer’s biggest World Cup ever – here’s how we created the same playing experience across 3 countries

Growing the grass

Typically, sod is grown on native soil. When harvested, the roots are cut, which shocks the plant and can delay root reestablishment for several weeks. That wouldn’t work for the World Cup because games may take place within just 10 days of installation. If the roots can’t become established fast enough, the grass will be weaker and more prone to damage. To address this, we decided to use sod grown on plastic with sand as a base. Think of it like growing grass in a plastic tray, but on a much larger scale. When the roots reach the plastic, they spread sideways and intertwine, forming a dense rooting system. Because the roots stay intact during harvest, the sod experiences minimal stress and can be ready to play almost immediately after installation. Sod for sports fields is typically grown in a base of sand to provide quick drainage and prevent the grass from getting compacted as the roots become established. The problem is that growing grass in 2 inches of sand on a plastic sheet comes with risks. Because of the plastic, a single heavy rainfall while the grass is becoming established can wash the exposed sand away. For warm‑season sod farmers – those that grow grass that thrives in high temperatures – sand washing away is less of a concern because the Bermudagrass they grow establishes quickly. On the other hand, cool‑season sod farmers usually grow Kentucky bluegrass, which germinates slowly compared to other turfgrass species, increasing the risk of washouts. We decided to mix a faster‑germinating species – perennial ryegrass – with Kentucky bluegrass grown on plastic and then tested various seeding ratios. We found that an 84% Kentucky bluegrass and 16% perennial ryegrass mixture produced a stronger sod than pure Kentucky bluegrass alone four months after seeding. Since 2025, these findings have been used on sod farms across North America, beyond those growing grass for the World Cup.

Stabilizing the surface

“One World Cup game is equal to a Super Bowl,” FIFA officials like to remind us. Since each field will host a lot of games and ceremonies, including up to nine games over six weeks, the fields need to be extremely strong. To make them tougher, we mix plastic fibers into the natural grass, which creates a hybrid turfgrass system. As the grass grows, its roots wrap around these plastic fibers, which helps to keep the surface stable and firm. These fibers are also colored to match the natural grass, so even if the real grass wears down, they help the field stay green. Hybrid turfgrass systems can be created in two ways: by stitching plastic fibers into an existing grass field or by laying down a carpet of plastic fibers that is then filled with sand and seeded to grow new grass. Stitched systems have been used in World Cup games for a long time, but carpet systems are still fairly new to the tournament – they have been used only in the 2023 Women’s World Cup. We tested eight carpet systems to see how they performed and found that all could be successfully grown on plastic. All the surface performance tests – ball bounce, rotational resistance and surface hardness – on these eight carpets also met FIFA standards. One type of carpet was chosen by three host cities for their stadiums: Vancouver, Los Angeles, and Philadelphia.

Getting the sod from farm to stadium

Most of the stadiums – 14 of them – will have sod that is grown on plastic, then rolled up and shipped to the venue during spring 2026. Some of the grasses won’t have to travel far, but some will be shipped in refrigerated trucks across the country. Since the sod remains fully intact after harvest, it can withstand long travel times. Five of those stadiums don’t get enough sunlight, so they will use cool-season grasses that require less light than warm-season grasses. While the open-air stadium in Miami will use Bermudagrass, the domed stadium in Houston, despite being at a similar latitude, will use the Kentucky bluegrass and perennial ryegrass mix. That means cross-country trips from cool-season sod farms in Denver and Washington to domed stadiums in the southern regions is essential. It’s wild to think that this is all necessary, but the length of the tournament and unique stadium environments call for innovation. *This article is republished from The Conversation, a nonprofit, independent news organization bringing you facts and trustworthy analysis to help you make sense of our complex world. It was written by: John N. Trey Rogers, *Michigan State University*; Jackie Lyn A. Guevara, *Michigan State University*; John Sorochan, *University of Tennessee*, and Ryan Bearss, *When big sports events expand, like FIFA’s 2026 World Cup matches across North America, their climate footprint expands too** **What’s involved in designing World Cup jerseys?****A shortage of native seeds is slowing land restoration across the US, which is crucial for tackling climate change and extinctions** *The University of Tennessee was the prime awardee of the FIFA grant. Michigan State University is a subawardee. John N. Trey Rogers is the principal investigator for the Michigan State work.* *Jackie Lyn A. Guevara is affiliated with Michigan State University. She received compensation through a FIFA grant awarded to Michigan State University.* *John Sorochan is the principal investigator for the FIFA grant at the University of Tennessee.* *Ryan Bearss works for Michigan State University*