The reaction is understandable, given most people regard the yellow flowers as pesky intruders in their gardens rather than a promising source of rubber for tyres.
"People just think of it as a horrible weed and ask how can you get enough material for tyres from just a small root," she said.
Her research team is competing with others across the world to breed a type of dandelion native to Kazakhstan whose taproot yields a milky fluid with tyre-grade rubber particles in it.
Global tyre makers such as industry leader Bridgestone Corp and No.4 player Continental AG believe they are in for rich pickings and are backing such research to the tune of millions of dollars.
Early signs are good. A small-scale trial by a U.S. research team found the dandelions delivered per-hectare rubber yields on a par with the best rubber-tree plantations in tropical Asia.
So within a decade, rather than being a backyard bane like their wild cousins, the new flowers might be seen in neat rows in hundreds of thousands of acres across Europe and the United States, where they can grow even in poor soil.
And they could have some interesting modifications. For instance, German researchers have bred the plants to grow to up to a foot (30 cm) in height, dwarfing many of their backyard cousins. They are also developing the dandelions with upright rather than flat-growing leaves - just so harvesting machines have something to grab on to.
The tyre industry, which consumes about two-thirds of the world's natural rubber, has long felt uneasy about its complete reliance on rubber-tree tapping in a handful of Southeast Asian nations which account for most of the $25 billion in annual natural-rubber output.
More than 100 years since the invention of synthetic rubber from petrochemicals, global road and air traffic still depends on the unique properties of plant-based rubber - which to date cannot be replicated by the man-made material.
Passenger car tyres need to have 10-40 percent natural rubber content to allow them to stay flexible at low temperatures and to keep tiny cracks from growing. Truck and aircraft tyres need an even higher percentage.
Tyre makers' worst fear is that an uncontrollable fungus that has choked all attempts to run plantations in Brazil - where the rubber tree originates - might one day wreak havoc in Southeast Asia.
The volatility of the rubber market has added urgency to the search for alternative crops. Rubber prices surged to a record high of more than $6 per kg in early 2011 - when weather-related supply shortages in Southeast Asia coincided with strong demand growth and speculative rubber traders betting on further gains.
But prices slumped to multi-year lows of $2 this year on expectations of slowing economic growth in China, the world's largest rubber market.
The volatility has been compounded by the fact that it takes about seven years to develop a new plantation and, during this development process, farmers tend to react to price changes by increasing or cutting their acreage.
Chuck Yurkovich, head of research and development at Cooper Tire & Rubber Co, which collaborates with Bridgestone in an Ohio-based dandelion project, said: "We would hopefully have a steady supply of a good natural rubber substitute at consistent prices to take us out of the wild swing in cost."
Any impact on prices would have huge implications for tyre firms. Natural rubber accounted for about a third of raw material costs at the world's second-largest tyre maker Michelin last year, for example, and almost a quarter at smaller peer Pirelli, say analysts at Credit Suisse.
Another concern about the current market is that rubber-supplying countries, led by Thailand and Indonesia, will not have the acreage to keep up with long-term growth in tyre demand. Credit Suisse analysts put demand growth rates at close to 4 percent annually over the next four years.
Tyre makers took a lesson from history in the search for a home-grown feedstock.
When trade with Asia collapsed during the Second World War, the Kazakh dandelion, also called Russian dandelion, was cultivated in the United States, Europe and Soviet Union for an emergency supply of rubber despite meagre yields.
After the war, however, trade links were restored and companies returned to the more cost-efficient Asian plantations.
It has only been in recent years that dandelions have been re-examined, given the fungus fears and price volatility and also advances in bioengineering that many believe have made the flowers an economically viable source of rubber.
The rediscovery began around 2007, when a team of researchers at Ohio State University started exploring dandelion and guayule, a desert shrub native to the southwest United States and Mexico. They were joined by Bridgestone and Cooper Tire in a project called PENRA.
An EU-backed rubber initiative based in the Netherlands followed suit in 2008 and van der Meer's follow-up project has India's Apollo Tyres Ltd and Czech tractor tyre maker Mitas a.s. as commercial partners. There is also a German group supported by Continental AG.
The U.S. researchers are pursuing both genetic modification and conventional breeding to domesticate the wild flower, while their European counterparts are focusing on the latter, claiming that modern precision breeding can do the job.
"The sugar beet gives you a good idea of what is possible. The taproot is enormous but if you look at the wild ancestor, the beetroot is only as thick as your finger," van der Meer said. Working at the Wageningen university and research centre, she coordinates the EU project, known as DRIVE4EU.
All contenders in the dandelion quest say that getting the farming right is as important as mastering the genetics. The challenges start with putting the seeds into the ground and they don't stop there.
"We had to find out that lots of things eat dandelions seeds in the field - ants, earthworms, mice," said Katrina Cornish, the Ohio team's research director.
One way to try to prevent this is to put a protective cover of clay around the seeds. Another option is to scatter sterilised Kentucky bluegrass seeds along with the dandelion seeds to tempt predators into eating them instead.
GRIND TO PULP
At the end of the seven-year U.S. programme in 2020, Cornish's team aims to have drawn up a detailed business plan and beginners' guide for future dandelion farmers, complete with instructions on how to fertilise, irrigate and harvest.
In a small plot trial, her team says it has achieved what would be annual per-hectare yields of more than 1,500 kg of rubber with just the second generation of dandelions, on a level with the best Asian tree plantations.
But that was under ideal conditions and has yet to be replicated on a farm-size scale. Her team is now in the process of harvesting eight acres of new dandelions planted last year.
In Germany, lead researcher Dirk Pruefer with the university of Muenster and state-backed research institute Fraunhofer, said the breeders with his project had achieved yields of up to 500 kg per hectare in the open field and are pushing for 1,000 kg.
Pruefer says calculations have shown that with the targeted yield of about 1,000 kg, land the size of Austria would be required to meet the entire global demand for natural rubber just from dandelions.
But far from hoping that the rubber tree can be replaced, tyre makers would be happy with even a complementary source.
The dandelion researchers are tight-lipped when it comes to disclosing how they process the harvest into a usable feedstock. One approach is to cut off the taproots and grind them into a pulp with the addition of some water. Further processing steps yield solid blocks of natural rubber.
The experimental rubber was shown on the test track to be on par with conventional natural rubber but it will take some more years of development even after the ongoing projects end before the first dandelion tyres come to market.
The University of Ohio's Cornish said she sees no shortage of farmers ready to seize the opportunity in the U.S. state. The typical reaction to her work is - "When can I start growing it"
FACTBOX: Tyre rubber from dandelions
Tyre makers such as Bridgestone Corp and Continental AG are spending millions of dollars on the development of new rubber-yielding crops such as dandelions to reduce their reliance on rubber-tree plantations in Southeast Asia.
Here are key facts about the rubber trade and the research into new sources of natural rubber.
WHAT IS RUBBER
Rubber is a polymer with the property of elasticity. There are two categories of rubber: natural rubber currently obtained from the rubber trees, or Hevea brasiliensis; and synthetic rubber derived from petrochemicals.
WHAT ARE THE MAIN USES OF NATURAL RUBBER
The tyre industry consumes about two-thirds of natural rubber produced globally. Natural rubber is also used to make gloves, condoms and thousands of other products for industries such as transport, construction, health, mining and weapons.
WHAT ARE ALTERNATIVES TO THE RUBBER TREE
The Russian dandelion, or Taraxacum kok-saghyz (TKS), is a type of dandelion native to Kazakhstan that can grow on marginal soil in temperate world regions.
Its taproot produces a milky fluid, which is similar to the fluid taken from the bark of the rubber tree.
Guayule, a desert shrub native to the southwest United States and Mexico, is also being explored as an alternative source in dry regions of the world.
WHY PURSUE ALTERNATIVES TO THE RUBBER TREE
* Dandelion and guayule could provide relief if the South American Leaf Blight, a tree-killing fungus, ever strikes rubber-tree plantations in the main growing region of Southeast Asia. The pathogen emerged in the early 20th century in Brazil, where the rubber tree is originally from. It has rendered large-scale rubber farming in South America almost impossible.
* Dandelions can be harvested within a year of sowing while new rubber-tree plantations need to be left growing for about seven years before they can be tapped. This lead time has contributed to massive swings in the rubber price.
* Dandelions can be grown in temperate regions of North America, Europe and Asia, even on marginal land not suitable for food production. This could accommodate further growth in tyre demand.
* Thailand, Indonesia, Vietnam, India, China and Malaysia currently account for almost the entire global natural rubber output. The land available for further expansion is limited and tropical rainforests could be at risk.
* For every ounce of rubber, dandelions yield more than two ounces of inulin, a carbohydrate that can be used as a food additive or as a precursor material for plastics or biofuels. Rubber trees do not yield any inulin.