Garmin’s New Cycling Computer Is Built for Mountain Bikers
We may earn a commission from links on this page. Mountain bikers, listen up: Garmin recently launched its latest cycling computer specifically tailored for you. The Edge MTB is designed to meet the unique needs of off-road riders. For context, the Edge MTB represents a departure from Garmin’s traditional one-size-fits-all approach to cycling computers. This […]
Mountain bikers, listen up: Garmin recently launched its latest cycling computer specifically tailored for you. The Edge MTB is designed to meet the unique needs of off-road riders.
For context, the Edge MTB represents a departure from Garmin’s traditional one-size-fits-all approach to cycling computers. This device focuses pretty exclusively on mountain biking scenarios, incorporating specialized tracking modes and trail-specific functionality that road cyclists would never need.
Here’s how the Edge MTB works, and what sets it apart from other cycling computers.
Profiles for different riding styles
The computer introduces two distinct ride profiles designed for different mountain biking disciplines. The “enduro” profile recognizes that mountain biking involves both climbing and descending phases, allowing riders to track these segments independently. Users can manually switch between climb and descent tracking with a button press, or rely on the automatic pause feature to handle the transitions.
The “downhill” profile addresses a common frustration among gravity-focused riders: the need to constantly pause and resume recording when using chairlifts or shuttle services. (Huge for us dual Strava-Garmin users). This mode intelligently filters out uphill travel that isn’t pedaled, so that only actual descent time and statistics are recorded. This eliminates the tedious ritual of manually pausing the device every time riders board a lift or hop in a shuttle vehicle.
Better GPS for winding trails
Both specialized profiles utilize 5 Hz GPS recording, providing more frequent position updates than standard cycling computers. This higher sampling rate translates to improved accuracy when tracking the technical, winding paths typical of mountain bike trails.
The device also introduces virtual gates functionality, enabling riders to set checkpoint markers along trails to monitor split times across specific segments—useful for training or comparing performance on familiar routes.
What do you think so far?
Trail navigation features
The Edge MTB comes equipped with Forksight, which displays approaching trail names as riders navigate through trail networks. The device ships with preloaded Trailforks maps, giving users immediate access to trail information without requiring additional downloads or subscriptions.
Other features and specs
According to Garmin, the Edge MBT’s battery performance reaches 14 hours of standard operation, extending to 26 hours with battery saver mode. It has a scratch-resistant Corning Gorilla Glass display and an IPX7 water resistance rating. Safety features include LiveTrack sharing and automatic incident detection.
The Edge MTB is available for $399.99, making it a mid-range option among Garmin’s cycling computer lineup. Mountain bikers are sure to appreciate a computer that does more than simply treat off-road cycling as simply road cycling in a different environment.
Industry trends driving vehicle innovation in defense
Industry trends driving vehicle innovation in defense We live in a time of unprecedented innovation in diverse fields, from computing to robotics and vehicle manufacturing. These innovations come together in the military vehicle industry, which stands at the cutting edge of today’s technological advancements, bolstering national security by staying two steps ahead of every threat. […]
Industry trends driving vehicle innovation in defense
We live in a time of unprecedented innovation in diverse fields, from computing to robotics and vehicle manufacturing. These innovations come together in the military vehicle industry, which stands at the cutting edge of today’s technological advancements, bolstering national security by staying two steps ahead of every threat.
If you’re a keen watcher of defense innovations, this guide from Advanced Conversion Technology explains key trends you need to know regarding where the military vehicle industry is today and where it’s headed tomorrow.
11 Trends Shaping Vehicle Innovation in Defense
The future of military vehicles waits at the intersection of several trends already in motion today. Here are the top 11 trends driving innovation in the military vehicle industry.
1. Autonomous Vehicles
The autonomous vehicle trend has captured the civilian market’s imagination and has become increasingly relevant to defense. In 2019, the United States military announced the deployment of autonomous combat trucks to reduce accidents.
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The global autonomous vehicle market is worth over $270 billion and is forecast to reach over $4,450 billion within the next decade. The defense industry contributed $17.53 billion in autonomous vehicle revenue during 2024 alone and has emerged as a leading source of demand for this technology.
Trailblazing manufacturers have already developed AI-driven aircraft, drones, weapons, and intelligence systems. These technologies are capable of executing complex defense missions without requiring human intervention. The latest autonomous defense vehicles benefit from enhanced situational awareness, integrating video streaming and recording with artificial intelligence (AI) analysis to capture and communicate real-time intelligence.
Achieving full autonomy for combat vehicles remains challenging because of the high-stakes, unpredictable environments in which these machines operate. Compliance with international laws and ethical standards is also a consideration with machines capable of executing autonomous lethal force.
Expect to see substantial progress in solving these problems over the coming years, with significant investment and concerns for the safety of human soldiers driving innovation.
2. Robotic Vehicles
While NVIDIA and Tesla may be the first names on many people’s minds when discussing robotics, the U.S. Army and the Department of Defense (DOD) are at the forefront of robotic vehicle innovation. The robotic combat vehicle (RCV) is one of the most pertinent examples.
RCVs integrate robotics, AI, and advanced weaponry to navigate difficult terrain, gather intelligence, and confront enemy forces. They can operate semi-autonomously or via remote control, minimizing human vulnerability while maximizing efficiency. Light, medium, and heavy RCV variants exist, optimized for differing combat priorities from rapid deployment to intense combat situations.
Key features of the latest RCVs include:
Autonomous navigation systems.
Remote operation capabilities.
Advanced sensor integration.
Enhanced situational awareness.
Modular design for mission adaptability.
Precision targeting systems.
Stealth and reconnaissance capabilities.
These features help the military to enhance commanders’ battlefield awareness, bring greater force to combat situations, and save lives.
3. Avionics Advances
Defense vehicle innovations are going airborne as the field of avionics progresses. For example, the U.S. Air Force has contracted industry leaders to build and supply Collaborative Combat Aircraft (CCA). These are military drones with onboard AI control systems designed to collaborate with teams alongside manned aircraft.
Among the broader trends shaping tomorrow’s avionics, key developments include:
Resilient communication systems: Anti-jamming technologies and cybersecurity innovations are accelerating to protect aircraft communication systems from evolving threats.
Advanced sensor fusion: State-of-the-art sensor systems combine data from multiple sources, including radar, EO/IR, and SIGINT, to give pilots a comprehensive understanding of their operational environment.
Efficient propulsion: Advances in electric propulsion will deliver quieter, more sustainable, and more cost-efficient aerospace propulsion systems.
Open architecture: Prioritization of sustainability and reduced asset life cycle costs favors modular avionics systems with open architecture for easier upgrades and enhanced adaptability.
4. Vetronics Innovations
Military vehicle electronics systems are advancing in response to demand for increased efficiency, connectivity, and automation. Prevailing industry trends are driving vetronics innovations like:
Energy efficiency: Smart power management systems are gaining prominence, allowing for dynamic power allocation based on mission requirements. These systems help offset the increasing power demands of the latest sensors and protection systems. Electric and hybrid propulsion systems are also emerging to reduce fuel dependence and maximize operational efficiency.
AI integration: Embedded AI and machine learning algorithms within vetronics systems can automate tasks like diagnostics, predictive maintenance, and threat detection. These elements help minimize human error and increase vehicle uptime.
Open architecture: Like avionics systems, open-architecture vetronics systems will continue gaining popularity, as they are adaptable in the midst of rapidly evolving battlefield requirements.
5. Ruggedization
Advancing ruggedization is a mainstay of defense vehicle developments, and this trend will continue over the coming years. Vehicles and components must withstand harsh temperatures, intense vibrations, and impact by enemy forces.
Material scientists are developing superior lightweight composites, high-strength alloys, and enhanced coatings for optimal durability without excessive weight. These developments enable equipment to meet and exceed military standards, such as:
MIL-STD-810H: This standard outlines environmental tests for temperature, shock, vibration, humidity, altitude, rain, sand, dust, and ice.
MIL-STD-461G: This standard sets requirements for controlling electromagnetic interference (EMI), including interference from jamming attacks.
MIL-STD-1275E: This standard prescribes the power characteristics for 28 VDC electrical systems in military vehicles, including surge protection and electromagnetic compatibility.
6. Extending Vehicle Lifespans
Extending military vehicle lifespans is a constant priority, as it helps to reduce acquisition spending, preserve operational readiness, and minimize downtime.
As today’s global security context demands maintenance strategies that keep technologically advanced machines ready for action within constrained budgets, extending life spans is even more important. This means the DOD and U.S. Army are paying increasing attention to modernization programs and sustainment strategies to keep vehicles in service longer.
Traditional lifespan extension protocols include routine maintenance, updates and upgrades, repairs, part replacements, and technical assistance. Every year, more advanced solutions are emerging for each of these processes.
One key area of innovation is predictive maintenance. Some new vehicles can carry onboard sensors to monitor the condition of components like engines, hydraulics, and transmissions. This technology automates proactive maintenance scheduling via machine learning analysis of sensor data. A predictive maintenance strategy can help reduce breakdowns, cut expenses, and optimize vehicle performance.
7. Sustainability Initiatives
Sustainability is a major concern motivating innovation in the military vehicle industry. Environmental regulations, resource scarcity, and increasing consciousness of how military operations impact ecosystems are steering the military toward efficiency and sustainability throughout the vehicle life cycle.
Key trends in defense vehicle sustainability include:
Fuel efficiency: Sustainable vehicle innovations aim to reduce fuel dependency through electric and hybrid fleets, as well as alternative fuels like biofuels, synthetic fuels, and hydrogen.
Waste reduction: Waste reduction strategies include using recyclable materials, implementing closed-loop manufacturing, and developing end-of-life recycling protocols for vehicles and components.
Additive manufacturing: As an additive manufacturing process, 3D printing is a more efficient method for creating vehicle components than subtractive processes like CNC machining. It is already used for replacement parts and will likely see expanded applications over the coming years.
8. Protecting Vehicle Networks
Cybersecurity is becoming paramount as defense and military vehicles become increasingly connected to networks. Vetronics and avionics systems rely on networks for communication, navigation, sensor data processing, and weapons control, creating potential points of vulnerability to cyberattacks. As threats become more sophisticated, cybersecurity is a focus of innovations aiming to protect vehicles, intelligence, and lives.
A fundamental aspect of military vehicle cybersecurity is its layered security architecture. Layered architectures involve multiple stages of security barriers, including firewalls, intrusion detection, and encryption. These cybersecurity systems may also involve secure boot and runtime integrity monitoring to ensure only authorized software loads onto vehicle systems and all vehicle software remains free from tampering during operation.
Robust authentication and access control protocols are also foundational to vehicle cybersecurity. Best practices in this area include:
Multifactor authentication.
Role-based access control.
Strong passwords.
Regular cybersecurity audits.
Penetration testing to identify vulnerabilities.
Recent breakthroughs in quantum computing have forced the rapid development of post-quantum cryptography (PQC), as many current cryptographic algorithms could be susceptible to attacks by quantum computers. Expect PQC to become a standard cybersecurity measure, especially for combat and intelligence vehicles.
9. Artificial Intelligence
AI’s applications in the military vehicle industry are expanding and improving at an astonishing pace. Along with autonomous navigation, predictive maintenance, and sensor fusion, key areas of development to watch include:
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Decision support: AI can empower decisions at all levels of command, analyzing vast quantities of data, interpreting complex patterns, and distilling information into actionable insights when quick decisions are crucial.
Electronic warfare (EW) systems: AI-based EW systems can detect, identify, and counter electronic and electromagnetic attacks. For example, AI-based EW systems can recognize and stop jamming signals without human intervention. The latest developments involve predicting electronic attack patterns to prepare vehicles for proactive defense.
Sensor systems: AI-based sensor systems are improving at automatic target detection, classification, and prioritization. Embedded in RCVs and paired with video streaming, AI algorithms can distinguish enemy vehicles from friendly ones, even in obscured environments, and direct onboard weaponry to engage the threat.
Counter-unmanned aircraft systems (C-UAS): C-UAS can equip vehicles for defense against AI-driven drone swarms. The AI algorithms within C-UAS solutions can track multiple drones at once, predict their movements, and respond appropriately. Responses could include jamming the drones’ communication lines or deploying kinetic interceptors.
10. Advanced Stealth Tech
Stealth technology is progressing to minimize vehicles’ visibility to enemies across radar, infrared, acoustic, and visual detection systems. Strides in stealth technology can be decisive in mission success in contested environments.
The current state of stealth tech includes shaping vehicles to deflect radar waves and applying radar-absorbing materials (RAM), advanced cooling, and specialized exhausts to conceal vehicles’ thermal signatures, adaptive camouflage for visual stealth, and reduced noise for acoustic stealth.
Looking to the future of stealth tech, expect to see more of the following:
Active multispectral camouflage that adapts to changing environments.
EW disguises systems that disrupt enemy sensors.
Enhanced stealth capabilities in unmanned vehicles for surveillance and covert operations.
11. Advanced Power Supplies
Advanced power supplies are essential to a wide array of military vehicles. The further vehicle innovations progress, the more imperative, reliable, and efficient power supplies become. Technological developments will drive significant growth in the military power supply market, reaching a predicted value of $20 billion by 2032. The top trends in advanced military power supplies include:
Reliability: Power supplies must withstand extreme conditions and comply with strict MIL-STDs.
Size, weight, and power (SWaP) optimization: The key design goal is high power density while minimizing size and weight for optimal functionality.
Switch-mode power supplies (SMPS): These are established in a wide range of military applications thanks to their small size, lightweight design, efficiency, and effective heat dissipation. However, they come with drawbacks, including noise and electromagnetic interference (EMI).
Wide bandgap (WBG) semiconductors: With a larger bandgap than regular silicon, these conductors allow higher switching frequencies, operating temperatures, and breakdown voltages, as well as lower losses. These characteristics help improve SMPS performance, reliability, and efficiency.
AI integration: AI can enable self-learning and self-service functions for power supply systems to enhance their reliability. Power supply engineers and designers can also use AI for power supply design, improvement, testing, and monitoring.
Modular power supplies: These systems contain multiple modules connected in parallel or series. This provides scalability, ease of maintenance, and strategic redundancy in case a module fails or needs upkeep.
Embedded power supplies: A power supply embedded within a military vehicle, system, or device can support SWaP optimization and thermal management. This means vehicles with embedded power supplies can benefit from greater efficiency, reliability, and performance.
Programmable power supplies: These power supplies allow configuration and control through software or hardware commands, supporting enhanced versatility.
From autonomous and robotic vehicles to sustainability, stealth, and superior power supplies, the military vehicle industry is seeing phenomenal growth and innovation.
Attentive industry observers will see today’s emerging trends become established norms of defense technology. In a complex and contested security landscape, this continued progress in military and defense vehicles is integral to national interests for worldwide peace and stability.
This story was produced by Advanced Conversion Technology and reviewed and distributed by Stacker.
Big 5 Sporting Goods Sold to Worldwide Golf for $112 Million
Big 5, a sporting goods retailer based in the western U.S., has been sold for $112 million. The buyers: a partnership made up of another retailer in this space, Worldwide Golf, and private investment firm Capital Hill Group, the company announced last week. “This transaction marks an exciting new chapter for Big 5 that allows […]
Big 5, a sporting goods retailer based in the western U.S., has been sold for $112 million.
The buyers: a partnership made up of another retailer in this space, Worldwide Golf, and private investment firm Capital Hill Group, the company announced last week.
“This transaction marks an exciting new chapter for Big 5 that allows the company to carry on its legacy of serving customers with quality sporting goods at an exceptional value while maximizing value for our stockholders,” Steven G. Miller, Big 5’s CEO, said in a news release. “I want to thank our dedicated employees, loyal customers and valued vendors who continue to support Big 5 in each of the communities we serve.”
The release added that the deal combines Capitol Hill’s financial resources with Worldwide Golf’s specialty retail expertise to give Big 5 the resources it needs to build on its position.
Based in California, Big 5 sells athletic shoes, apparel and accessories, along with outdoor and athletic equipment for team sports, fitness, camping, hunting, fishing and recreation. Worldwide Golf, per the release, operates under a range of eCommerce sites and “subbrands,” including worldwidegolfshops.com, globalgolf.com, Golfers’ Warehouse, The Golf Mart, Van’s Golf Shops, Uinta Golf and Golfdom.
In other retail news, PYMNTS wrote on the Fourth of July about the effect of shifting tariffs on the “Buy American” ethos.
Last year, that report said, the U.S. imported almost $3.3 trillion worth of consumer goods and the components to make those goods. Considering that Americans’ total retail spending for 2024 came to $7.3 trillion, imported goods made up 45% of shoppers’ purchases, according to a PYMNTS Intelligence calculation based on Bureau of Economic Analysis and census data.
As the White House continues its tariff talks with foreign governments, it’s easy to see that these levies have the power to affect people’s budgets and bank accounts.
Consumer optimism about the impact of the tariffs varies greatly depending on what they value in their purchases, as shown in the May PYMNTS report, “Consumer Tariff Sentiment: Informed Americans Are Skeptical of the Benefits.”
“When given the choice between low-priced or American-made products, 39% of shoppers always or mostly value affordability, a feature associated with imports from low-cost China,” PYMNTS wrote. “Conversely, 34% always or mostly prefer items made in the U.S., and 26% feel each matters equally.”
watchOS 26 beta 3 now available with 6 new features
A couple of weeks after seeding watchOS 26 beta 2, Apple is now releasing its third testing version. At this moment, it’s unclear what’s new with this update. However, Cupertino is likely fixing bugs and improving battery life ahead of the fall release. In addition, Apple prepares the public beta of watchOS 26. If the […]
A couple of weeks after seeding watchOS 26 beta 2, Apple is now releasing its third testing version. At this moment, it’s unclear what’s new with this update. However, Cupertino is likely fixing bugs and improving battery life ahead of the fall release.
In addition, Apple prepares the public beta of watchOS 26. If the company follows the trend, this version should be available in the next few days. Still, you shouldn’t update to the public beta before reading this.
That said, watchOS 26 also takes advantage of the new Liquid Glass design. While the visual changes are more subtle, Cupertino is improving some Watch Faces to use the maximum potential of the new Apple Watch Series 10 display. Unfortunately, so far, it seems watchOS 26 beta also removes loved Watch Faces, while it’s still unclear if Apple plans to add new ones during this testing cycle.
Besides that, the Smart Stack is now smarter, as it suggests information based on your location. Or, if you’re without cellular connection, the Apple Watch can retrace your way back. A new wrist flick for Apple Watch Series 9 and newer makes it easier to dismiss notifications and go back to the Watch Face. Users just need to turn their wrist over and then back for that.
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Apple is also preparing interesting Apple Intelligence features that rely on an iPhone 15 Pro or newer. Two of the most important functions are:
Live Translation: With an Apple Watch Series 9 and newer, you’ll see Live Translation capabilities inside the Messages app, which means messages in an unknown language will be translated automatically to your preferred language.
Workout Buddy: Apple added a new fitness experience that “generates personalized pep talks using voice data from an Apple Fitness+ trainer.” The company wants to encourage users to challenge themselves based on the Health app data.
BGR will let you know if we find new features with watchOS 26 beta 3. Alongside it, Apple released the third test versions of iOS 26, iPadOS 26, macOS Tahoe, tvOS 26, and visionOS 26.
Google Pixel Watch vs Fitbit: I tried both to find the best
A few years ago, Google bought Fitbit and began integrating the fitness tracking technology into its own devices, offering better health monitoring in a Pixel design. The Google Pixel Watch 3 is the latest in the collaboration, released only last year. However, Fitbit didn’t go out of production when it was bought out. The Fitbit […]
A few years ago, Google bought Fitbit and began integrating the fitness tracking technology into its own devices, offering better health monitoring in a Pixel design. The Google Pixel Watch 3 is the latest in the collaboration, released only last year.
However, Fitbit didn’t go out of production when it was bought out. The Fitbit Charge 6, which I found to be the best Fitbit overall in my guide, was released only a year before the Pixel Watch 3.
* * * * * You can’t have a discussion about sports technology today without including athletes in that conversation. Their partnerships, investments and endorsements help fuel the space – they have emerged as major stakeholders in the sports tech ecosystem. The Athlete’s Voice series highlights the athletes leading the way and the projects and […]
You can’t have a discussion about sports technology today without including athletes in that conversation. Their partnerships, investments and endorsements help fuel the space – they have emerged as major stakeholders in the sports tech ecosystem. The Athlete’s Voice series highlights the athletes leading the way and the projects and products they’re putting their influence behind.
* * * * *
NBA 2006 No. 1 overall pick Andrea Bargnani played 10 years in the NBA — mostly with the Raptors but also with the Knicks and Nets — before finishing his pro career in Spain. Since retiring, Bargnani has returned to his native Italy and has been an active investor. Most recently, the 39-year-old made his first sports tech investment in Pick-Roll, a social basketball app that connects players seeking to join pickup games and find community around a shared love of the sport.
On the appeal of joining Pick-Roll:
I’ve been very active in the private equity, venture capital world in the last few years. So when I got in touch with Pick-Roll, I immediately liked the fact that it meets the most basic need of every basketball player, which is to find the nearest playground and organize a pickup ball game. It sounds pretty, pretty simple, but it can be very challenging at times. And there are millions of basketball players out there, so I think the idea is very scalable in the future.
That’s how I started playing basketball anyway, because you always start at the playground with your own friends, and that kind of community, that kind of culture, is something that is pretty precious for, I think, every basketball player that come closer to the game. So that’s how we started, and now it’s evolving into more of a community platform where basketball players can connect to each other all around Europe and around the world, eventually.
On how he would have used the app as a younger player:
Looking for basketball courts in Italy, or Europe overall — you don’t have this kind of problem in the US — you never know in what kind of shape the playground is. In the U.S. especially in New York, I was living by in Tribeca, so by the river, every basketball court is perfect. It looks brand new. So you already know that you can go there, and it’s a world-class playground.
In Italy, you never know how the playground looks. The idea of connecting to the app and learning if you’ve got the net, if the rim is straight, it’s broken, the board is installed in the right way, the concrete is without holes. So all this kind of information are pretty precious for European basketball players that go to the playground.
On its expansion to the US:
Obviously the US is a huge market, one of the sexiest markets in the world, basketball-wise. For us now, we’ve been doing a campaign in strategic cities and strategic countries. For example, we just finished a campaign in the Philippines, which is a huge market for us, because together with the United States and Lithuania, maybe these three countries, basketball is the No. 1 sport. So we are doing different campaigns in different cities to see how the people react, and so far, the feedback is great. We’re drawing a lot of attention, and the users are growing very fast. We need big shoulders to approach the US market, but eventually that’s the end goal.
On his interest in tech:
I was always fascinated by the tech world. I had never invested directly in a sport tech venture, so this is the first investment sport tech-wise. But I was always fascinating by the by the tech world. The NBA is going — or sport in general — toward that direction, retrieving a lot of data, working on the data, analyzing the data already.
In my last years, every player was wearing the pod, or however you want to call [the sensor] on the back to keep track of every movement you make, to understand if you’re tired, if you’re injury-prone. Now I see in every practice facility, they have the shooting machine [Noah]. They analyze the arc of your shot. The technology is playing a huge role, maybe even too big a role, in every aspect of our life. But that’s where we are going is. It is exciting and undeniable.
On the growth of basketball in Europe:
It has changed a lot, obviously. The NBA keeps expanding. They exactly know what they’re doing. They exactly know where they’re going. I’m very happy about that, as a former NBA player, and for basketball overall, because it’s becoming more and more an international game, so more and more people are getting closer to the game. Also, the 3×3 basketball project is growing a lot. It’s an Olympic sport. FIBA is pushing it a lot. The FIBA 3×3 World Tour is pretty something, if you look at the cities where they’re playing.
On the possibility of an NBA-backed league in Europe:
Obviously you hear that more and more often. Ideally, that’s amazing. Obviously everybody that thinks about that tries to figure out how the logistics would work about that — travel-wise and everything else — but it’s fascinating and it would be amazing. I don’t think we’re going to see that next year or the day after that. It takes a little more time, definitely, because the cultures are so different. The way people love sport in Europe is so different. The way people love the sport overall, in the U.S., is different.
From Temazcal ceremonies to sunrise yoga, the Erewhon-exclusive getaway offers immersive wellness experiences at one of Mexico’s top luxury resorts for Lifestyle Collective members One&Only Palmilla, a luxe beachfront resort in Los Cabos, is tapping into Erewhon’s wellness-savvy fanbase through a new partnership with the grocer’s growing members-only Lifestyle Collective. Starting today, Erewhon Lifestyle Collective […]
From Temazcal ceremonies to sunrise yoga, the Erewhon-exclusive getaway offers immersive wellness experiences at one of Mexico’s top luxury resorts for Lifestyle Collective members
One&Only Palmilla, a luxe beachfront resort in Los Cabos, is tapping into Erewhon’s wellness-savvy fanbase through a new partnership with the grocer’s growing members-only Lifestyle Collective.
Starting today, Erewhon Lifestyle Collective members can access a wellness-forward travel package that blends holistic healing with high-end hospitality. Dubbed the “Baja Wellness Escape,” the limited-time experience features cold-pressed juices, spa credits, personalized rituals and access to the resort’s curated fitness programs.
The deal marks One&Only Palmilla’s entry into Erewhon’s collection of brands spanning fitness, wellness, beauty tech, activewear and even Prenuvo full-body scans. For Erewhon, the partnership builds on its existing wellness travel offerings, bringing health-oriented escapes to members beyond the aisles of its Southern California stores.
Guests booking the Erewhon-exclusive escape can also access the One&Only Spa and participate in some of the top wellness travel trends, such as full moon meditations, Temazcal ceremonies, sunrise yoga and personalized wellness consultations.