Even before Russia鈥檚 invasion of Ukraine caused oil prices to shoot up, electric vehicles were having a moment. The ad lineup for the Super Bowl is a reasonable barometer of automakers鈥 priorities, and for the 2022 game, six companies, from Chevy to newcomer Polestar, ran commercials featuring (up from just one last year).
Of note for outdoorsy folks, the lineup is clearly shifting from dainty Priuses (Prii?) and Leafs (Leaves?) to brawny electrified Silverados and Cybertrucks. From the new Ford F-150 Lightning to Rivian鈥檚 R1T鈥攚hich will feature a perfectly 鈥檊rammable camp kitchen made in collaboration with Snow Peak鈥攖he auto industry is getting very close to offering EVs that are every bit as camping-trip-worthy, ski- vacation-worthy, and generally adventure-worthy as their internal-combustion-powered cousins.
So you might be tempted to upgrade: If you could have all the utility your current rig offers, free of both the cost and guilt of fossil fuels, what鈥檚 not to love, right?
Aside from availability (that electric Silverado is , for instance), there鈥檚 another reason to slow-roll your enthusiasm. While EVs are better choices than internal-combustion (ICE) cars and trucks on some measures, they still come with big costs, literal and figurative. I鈥檓 here to make a different argument: Whatever your goal鈥攖o save money, the planet, or your sanity and health鈥攖he EV that will change your life isn鈥檛 a car, truck, or SUV. It鈥檚 an e-bike.
I can hear the guffaws and but-but-buts already.
鈥淚 can鈥檛 go skiing with an e-bike!鈥
鈥淭hat cargo bike won鈥檛 fit a fifth of my car-camping gear.鈥
鈥淚鈥檓 a contractor!鈥
We can 鈥渨hat if鈥 all kinds of specific scenarios for which an e-bike doesn鈥檛 work. And if you need a new vehicle to replace that beloved early-aughts Tacoma with 300k on the odometer and enough rust that you can almost see through the floorboards, by all means, make your next four-wheel vehicle an electric. What I’m advocating here is not a Cort茅s-burned-his-ships moment where you forgo four-wheel transportation entirely. I’m saying keep your old car; get an e-bike, and use it to replace car trips. I’m saying that I want that stat about the to go up even more. I鈥檓 saying that even for skiers, car-campers, and contractors some of the time, this works because an e-bike, especially today鈥檚 cargo variety, is actually far more capable for your daily use than it seems.
Americans like SUVs and trucks because they鈥檙e rugged, capable, and versatile. They can haul lots of stuff, and you can mod them or add accessories to make a sweet overlanding/car-camping rig. But as Strategic Vision鈥檚 of 250,000 vehicle owners notes, roughly a third of pickup truck owners . Sure, car camping relies on a car. How many days a year do you camp, really? The rest of the time, that devotion to maximum utility means we鈥檙e severely over-gunned, using a 4,000-pound vehicle : to inefficiently to and from work, schlep 50 pounds of food home from the local grocery store, or drive a handful of miles to the trailhead for a run. That鈥檚 all stuff an e-bike . And camping, .
With our actual, daily use in mind rather than our imagined #livingmybestlife version, comparing four wheels (ICE or EV) to two, an e-bike comes out clearly on top on almost every measure. And people are noticing. The last two years, in the U.S. Recent research shows there鈥檚 if cities have safe infrastructure; some 70 percent of people in the 50 largest metro regions in the U.S. say they would like to ride more, but don鈥檛 because of concerns about safety in traffic. That鈥檚 not just recreational riding: a recent McKinsey survey found .
All of that says that the smartest play鈥攆or your wallet, for the planet, and for your health and happiness鈥攊sn鈥檛 to swap your gas guzzler for an EV, but to keep your current vehicle and buy an e-bike to use as a second (or first!) vehicle for all the stuff for which it鈥檚 a far better choice than a car.
For Saving Money
One big aspect that attracts people to EVs is on things like fuel and maintenance. Fuel costs to drive an ICE vehicle 10,000 miles a year (about $700-$1600) are roughly two to four times the cost to charge an EV for the same amount of driving, according to . Gas has : $1,840 for the average vehicle studied, which widens the gap further. You can estimate your specific costs in AAA’s new .
But for e-bikes, costs are dramatically lower than either ICE or electric vehicles, thanks in part to the relatively tiny batteries and the fact that e-bikes鈥 hybrid power source (electric and human) makes them highly efficient. In the heaviest use-case scenario鈥攔iding so much that you fully drain the 500 watt-hour battery 365 days a year, and living in (Hawaii)鈥攖he cost to ride an e-bike would be a little over $50 per year. Half that use, at national average electricity costs, your annual fueling cost would be $10, or about 2.5 percent of the cost of EV charging.
What about other costs, like registration, insurance, and depreciation? Factor in those and you can expect an EV to cost you about $7,500 per year ($2,500 without estimated depreciation), says AAA. That鈥檚 about mid-pack measured against various ICE vehicle styles. So unless you’re stepping down from a full-size ICE pickup or SUV, you won鈥檛 actually save much, if any, money switching to an EV.
There isn鈥檛 a single great resource for ownership cost of bicycles; estimates range from as low as $100 to . Both are wrong, in my view; the lower estimate doesn鈥檛 realistically cover maintenance costs, while the higher one attempts to account for fueling in terms of extra calories for the rider. But bikes are already among the ever created, and a lightweight electric motor means you鈥檒l burn fewer calories to ride, not more (). In short, the extra calories burned by pedaling are a rounding error in the scheme of your normal diet.
Maintenance? Riding a few thousand miles a year, figure you鈥檒l go through two tires (the priciest e-bike tires are about $80 each) and two chains ($60 per chain for a high-quality e-bike specific model). Add another $50 for labor for all that. Annual complete tuneup? About $100. Miscellaneous repairs like a flat tire or brake adjustment? Another $50 to $70.
So your total cost to operate an e-bike, including charging, would be around $500 a year. That鈥檚 about $2,000 less than it costs to operate an EV, and closer to $6,000 less if you factor in squishy costs like depreciation, for both an EV and a bike. You鈥檙e not saving the full $2,000, however. Since you kept your current car, you鈥檒l still have a lot of those costs.
If you drive 10,000 miles a year normally and cut that by a third with your e-bike, you鈥檒l save about $225-525 on gas at $4/gallon. Maintenance savings are harder to directly measure, but figure you鈥檒l save 25 to 50 percent there too (another $200 to $400, ballpark). If you can get your car mileage under 5,000 a year, you (modestly) lower your insurance costs by switching to a low-miles plan. All told, you鈥檒l save $400 to $900 a year just by replacing a third or so of your car miles with bike miles. Drive less, save more. And you still have a car.
For Fighting Climate Change
Transportation is鈥攏arrowly鈥 in the U.S. And cutting miles by switching to a bike is also the most effective way to cut your carbon output from transportation. That鈥檚 because any vehicle has a total carbon footprint broken down into two parts: creating it (production phase) and operating it (use phase). The figure that captures both of those is called a Life Cycle Assessment.
Life Cycle Assessment (LCA) is usually expressed in terms of grams of carbon dioxide produced per mile driven, which spreads the carbon produced in making the product over its estimated lifespan. According to Tesla鈥檚 , a grid-charged Model 3 in the U.S. has an LCA of 180g/mile, it lasts about 200,000 miles with only minor repairs (aka it doesn鈥檛 need a new battery pack). It鈥檚 worth noting that figure is for a sedan; an E-SUV or truck would have a higher per-mile cost. That figure jumps around depending on how it鈥檚 charged. In Europe, says Tesla, the Model 3鈥檚 LCA drops to around 120g/mile thanks to electricity production that relies more on renewables and nuclear than our domestic power supply, while in China鈥檚 coal-and-gas-heavy grid it鈥檚 over 300g/mile.
In any case, using the U.S. figures, that means a Model 3, in its lifetime, will produce 36,000kg, or almost 40 tons, of carbon dioxide emissions. (A typical ICE vehicle over the same lifespan.) For an EV, by far the biggest chunk of carbon emissions comes from creating it. Your current vehicle, of course, already exists; the carbon emissions from creating it are already a sunk cost. Just riding a bike rather than driving lowers both the carbon emissions from the car’s use phase, and negates the massive carbon emissions that would come from buying a new EV. This is basically Patagonia’s at a scale that dwarfs trying to get another ski season out of those shell pants.
What about bikes, though? They have a carbon cost too, right? Last year, as part of its sustainability initiatives, bike brand Trek at the carbon footprint of its products. Trek’s average bike requires 174kg of CO2 to produce. The only e-bike included in the analysis鈥攖he full-suspension Rail mountain bike series鈥攊s a decent proxy for cargo bikes in its aluminum-framed versions, and requires 190 to 240kg of CO2 to produce.
Factor in charging costs (it takes two to three percent of the energy needed to charge a standard EV), and an e-bike ridden 2,000 miles a year has an LCA of about 10-15g/mile if it lasts 10 years on the original battery, frame, and motor. That鈥檚 12 to 18 times more efficient than a Tesla on a per-mile basis, literally an order of magnitude smaller than for even an EV charged completely via renewable energy. Doubt my math? shows very close results.
As the energy grid (hopefully) shifts away from fossil fuel sources toward more renewables, that will drop the total carbon cost of all electric transportation. If that doesn鈥檛 happen, or happens slowly, , but at a substantially lower level. One new study estimates that, if the current fossil fuel-heavy grid doesn鈥檛 shift more toward renewables, half of all the benefits of increasing EV use from rising electricity use, which makes carbon-efficient transport like bikes even more important.
None of this, by the way, addresses the carbon footprint of infrastructure, and last time we checked electric cars weren鈥檛 any smaller or lighter than ICE cars. The (176kg) is slightly less than what Trek emits making the average e-bike. Bikes still need lanes and parking too, of course, but ; you can park five to 10 bikes in a single car space, for instance.
For A Better Life
When it comes to capability, a car or truck seems like the clear winner, right? And in some situations鈥攔eally bad weather, when you need to carry a lot of stuff, or if you鈥檙e headed out of the city and into the wilderness鈥攖hey鈥檙e absolutely preferred.
But bikes, especially the cargo variety, are surprisingly versatile, since car trips are often single-occupant () and short-distance (60 percent of trips are ),聽carrying small cargo loads like groceries or none at all. Even compact cargo bikes can haul at least 350 pounds including the rider. Urban Arrow鈥檚 acclaimed Family frontloader model has 16 cubic feet of cargo capacity in the box: plenty spacious enough for a Costco run. Need to ferry people around as well? Whether longtail, compact, or frontloader style, most cargo bikes can also carry two to three people (two adults or an adult and two kids). And check out the Twitter hashtag for inspiration on all the stuff you can realistically carry on a bike.
Other benefits? You get free VIP parking everywhere you go. You鈥檙e never stuck in traffic. Commuting or erranding by bike means you get exercise while getting stuff done, creating more free time to spend with family, friends, or doing things you love. And cargo bike converts can all tell some variation of how riding has helped deepen their interactions and adventures with their family, how the kids never get bored and love taking 鈥渢he big bike鈥 instead of the car.
That extra life satisfaction might be one of the biggest dividends of mode-switching, although it鈥檚 hard to measure. But it鈥檚 not the only quality-of-life metric. Riding instead of driving actively makes your city a more pleasant place to live, for everyone.
That鈥檚 because electric vehicles sidestep only one small part of what makes personal car ownership such a stubborn problem for cities. They may run on electricity, but they鈥檙e still cars, and you don’t fix car problems with a different kind of car. A new analysis from Germany estimates that the average person鈥檚 Roughly a third of that is what economists call externalities: costs paid by other people, in the form of time lost to traffic congestion, higher mortality from and , and the effects of climate change.
EVs are absolutely a vital part of fighting climate change, and will play an essential role in greening our transportation system. But they are not, in themselves, a fix. As Peter Norton, professor at the University of Virginia and author of 鈥溾 , an EV is an improvement on cars “like a filter is an improvement on a cigarette.鈥
All this time, we鈥檝e been talking about e-bikes, which raises the question: Why couldn鈥檛 you just do this with regular, pedal-only bikes? You can, of course. But the addition of lightweight electric motor-assist is the secret sauce that transforms the e-bike experience for utility riding.
E-bikes simply change the geometry and geography of a city. They shrink distances and flatten hills. The motor boost of two to three times your normal power output turns errands and hauling even heavy cargo from an arduous grind that only the most committed (and fit) environmental activist would consider into an enjoyable enterprise accessible even to people trying to change a sedentary lifestyle. They鈥檙e horizon-expanders, daily adventure-enablers, and conversation-starters鈥攕ay, when rolling past the line of cars at school to pick up your kids. E-bikes, along with other forms of micromobility and a sustained investment in transit, are the keystones to healthy, carbon-neutral transportation in cities, ending dependence on fossil fuels and depriving autocratic regimes of .
If any of what I鈥檝e talked about matters to you, then keep your car for as long as you can. Just drive it less, and replace those miles with an e-bike. Try it for three months. I doubt you鈥檒l go back.