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Cable skiing

Cable skiing is a watersport variant of water skiing and wakeboarding in which participants are towed across a body of water by an electrically driven overhead cable system, rather than a boat, enabling multiple riders—up to 12 or more simultaneously—to engage without environmental impact from motors on the water.^[1]^[2]^[3] The system typically features a continuous loop cable suspended approximately 30 feet above the surface by 5 or 6 towers positioned around a lake or pond circuit, with the cable operating at speeds up to 36 miles per hour to propel riders using short tow ropes until they fall or release.^[1]^[3] Invented in 1959 by German engineer Bruno Rixen, who constructed the first modern water ski cableway on a lake in Bordesholm, Germany, to make the sport more accessible and affordable, cable skiing evolved from earlier experimental systems and gained formal recognition by international water skiing organizations in the 1980s.^[1]^[2] By 1994, a dedicated world governing body had formed under the International Waterski and Wakeboard Federation (IWWF), which now oversees competitions including slalom, tricks, and jumps on cable systems.^[1]^[2] As of 2019, over 1,000 cable parks operated globally, with a concentration in Europe, where they serve as hubs for recreational and professional training in disciplines like wakeboarding (which accounts for about 80% of participation), traditional water skiing, kneeboarding, and wakeskating.^[1]^[4]^[3]^[5] These installations, often featuring modular tower designs from manufacturers like Rixen Cableway, promote eco-friendly access to the sport, as full-day sessions cost significantly less than equivalent boat-towed time while accommodating high daily capacities of 300 to 500 users.^[1]^[3] Cable parks also incorporate obstacles such as rails and kickers for advanced "jibbing" maneuvers, enhancing the sport's appeal in competitive events sanctioned by bodies like USA Water Ski & Wake Sports.^[4]

History

Early inventions

The origins of cable skiing trace back to the 1950s, with one of the earliest operational systems emerging in Helsinki, Finland, credited to Kauko Kolma, a construction foreman and avid water skier who devised a functional cable setup on a local lake, often regarded as the world's first such installation.^[6] Kolma's prototype utilized simple mechanical components to pull skiers along a fixed path, addressing the need for accessible water skiing in regions with limited boating resources.^[1] The foundational design for modern cable skiing was established by German engineer Bruno Rixen, who conceived the idea in 1961 and filed his initial patents that year for an electrically driven cable system, enabling continuous towing around a circuit without boat dependency.^[7] Rixen's first prototype, constructed on Lake Bordesholm in Germany in 1961, employed improvised elements such as wheels from a combine harvester and power from a Bulldog tractor, allowing initial tests with custom-made skis.^[7] Key technical challenges in these early prototypes included maintaining cable tension to prevent rope twisting, which Rixen overcame through a patented two-rope principle that separated the drive and tow lines for stability.^[7] Additionally, carrier mechanisms posed issues in smooth rider attachment and release; Rixen's innovations featured an automated towline system with a catch fork and pneumatic controls to ensure a 90-degree launch angle, resolving inconsistencies in early manual setups.^[7] These advancements laid the groundwork for the sport's commercialization in the 1960s.^[1]

Development and commercialization

Building on early prototypes developed by engineers like Bruno Rixen in the early 1960s, cable skiing transitioned to commercial viability through targeted innovations in automation and system reliability. In 1966, Rixen installed the world's first commercial water ski cableway in Benidorm, Spain, featuring automated towline release that allowed continuous operation without manual intervention, marking a pivotal shift from experimental setups to scalable recreational infrastructure. This installation, operational for decades and accumulating over 70,000 hours by the early 2020s, demonstrated the system's durability and attracted initial investment in the sport.^[7] During the 1970s, commercialization accelerated across Europe as Rixen Seilbahnen expanded production, establishing manufacturing standards for robust pulley systems and drive mechanisms that transitioned from V-belts to more efficient electronic controls. Installations proliferated in countries including Austria and Switzerland, where the technology integrated with growing tourism sectors around alpine lakes, enabling year-round access without reliance on motorboats. Building on the first water ski championship organized by Rixen in 1969, these 1970s developments supported the hosting of subsequent championships, showcasing the sport's competitive potential and spurring further adoption. Early patents filed by Rixen in the 1960s, totaling 37 innovations, addressed critical challenges like cable twisting via a two-rope principle—essential for multi-tower configurations—and side-launch mechanisms, distinguishing them from simpler two-tower linear setups that emerged later for shorter courses.^[7]^[8] The introduction of cable skiing to the United States occurred in the 1980s through imported European technology, with Ski Rixen USA opening the first dedicated cable park in Deerfield Beach, Florida, in 1983. This milestone adapted Rixen's multi-tower full-size cable design to American markets, emphasizing affordability and environmental benefits over boat-based waterskiing, and laid the groundwork for domestic manufacturing adaptations. Key patents from this era, including those refining tower spacing and load distribution for both two-tower (linear, back-and-forth) and multi-tower (circular) systems, ensured compliance with emerging safety and operational standards, facilitating broader commercialization beyond Europe.^[9]

Cable Systems and Equipment

Types of cable systems

Cable skiing systems are broadly categorized into two-tower and multi-tower configurations, each designed for different scales of water bodies and rider capacities. Two-tower systems, also known as straight-line or point-to-point setups, consist of two support towers connected by a single cable span, typically ranging from 200 to 400 meters in length, and operate in one direction, requiring riders to return to the starting point after each run.^[10] These systems are suited for smaller lakes or ponds and support fewer simultaneous riders, making them ideal for beginner-friendly or compact installations.^[11] Multi-tower systems, often referred to as full-size or circuit cables, feature 4 to 6 towers arranged in a continuous loop, with total circuit lengths of 800 meters or more, allowing riders to be pulled in a circular path without interruption.^[12] Carriers are spaced approximately every 75 to 100 meters along the loop, enabling multiple riders—up to 8 or more—to participate simultaneously, which enhances throughput in larger venues.^[13] These setups are engineered for higher rider volumes and advanced maneuvers, with towers often placed partially in water or on land for optimal layout.^[3] Overhead cables in both systems are typically suspended at heights of 7.9 to 9.1 meters above the water surface to provide clearance for jumps and turns, though variations up to 11.5 meters exist in some full-size installations.^[3] Speeds are adjustable but standardized for disciplines: up to 58 km/h for water skiing slalom events to accommodate competitive requirements, while wakeboarding operates at lower speeds of up to 31 km/h for safety and control during tricks.^[12] Electric drive motors, commonly rated from 7 to 45 kW depending on system size, power the main cable, offering environmental benefits through reduced emissions and quieter operation compared to older diesel models.^[14] Key components include tension pulleys mounted on tower cantilevers to guide the main running cable—usually 10 mm in diameter with a minimum breaking load capacity—and anchoring cables of 20-22 mm for stability.^[14] Rider carriers, positioned at intervals on the cable, feature detachable grips and ropes with 5.5-7 mm diameters, engineered to withstand at least 590 kg breaking loads and minimal elongation (up to 7% at 115 kg load) for reliable towing.^[12] These elements ensure smooth operation, with systems requiring at least four deflection pulleys in full-size rigs to maintain tension and direction.^[12]

Skier equipment

Cable skiing participants require specialized equipment adapted for the consistent pull and shorter distances provided by overhead cable systems, distinguishing it from boat-towed variants. This gear emphasizes durability, flotation, and quick handling to facilitate starts and maneuvers in controlled water environments.^[15] Water skis for cable skiing are typically shorter than those used in open-water boating to enhance agility and responsiveness under the cable's steady tension. Dual skis for beginners or combo sets measure around 150-170 cm for adult riders, constructed with lightweight cores like Paulownia wood and reinforced bases for repeated impacts against docks or obstacles. Single slalom skis, used for advanced riding, follow similar lengths but feature narrower profiles with fixed bindings and fins to maintain stability at speeds up to 50 km/h. These designs ensure the skis float independently, aiding in deep-water starts.^[16]^[12] Wakeboards tailored for cable parks prioritize flexibility and impact resistance over speed, with lengths generally ranging from 130-150 cm for adults depending on rider weight (e.g., 135-139 cm for 60-80 kg individuals). Bindings are open-toe or adjustable for quick entry and exit, often with reinforced edges to withstand grinding on features like ramps or rails. The boards' continuous rocker and softer flex allow for easier presses and butters, essential for park-style riding.^[17]^[18] Safety gear is essential to mitigate risks from falls at higher speeds and proximity to fixed structures. Mandatory life vests provide buoyancy and impact protection to the torso, meeting standards for flotation equivalent to the rider's weight while remaining non-inflatable and smooth-surfaced. Helmets, required by governing bodies, must fit securely and cover the head fully to guard against collisions. Impact vests and padded gloves enhance protection; the latter offer reinforced palms for secure grip on handles, preventing blisters during extended sessions.^[15]^[12]^[19] Handles and ropes are designed for reliability and quick release in cable systems. Ropes, typically 15-20 meters long (e.g., 17.80 m minimum for full-size cables), use single-braided monofilament or Spectra materials with low elongation (≤7%) and high breaking strength (≥590 kg) to maintain tension without stretching. Handles feature ergonomic, non-slip grips 2.5-2.8 cm in diameter, often taped for fixed positioning, and include quick-release mechanisms for safety. These components attach directly to the cable loop, enabling seamless transitions between riders.^[15]^[12]

Techniques

Basic riding techniques

Cable skiing beginners typically start seated on the water surface with skis on, holding the handle attached to the cable system's carrier with arms straight and relaxed. The body should be positioned with knees bent and leaning slightly back for stability. As the cable engages and begins to pull, the skier maintains a tucked position, allowing the pull to gradually plane the skis on the water surface before standing up with hips forward and arms extended.^[20] Many cable parks offer two-tower systems for beginners to practice shorter pulls and easier starts. Once up, maintaining speed and direction requires balanced weight distribution across both skis, with the skier's weight centered and knees slightly bent to absorb the cable's consistent pull. For turns, beginners lean the body into the direction of travel while shifting weight by bending the opposite knee—for instance, bending the right knee to initiate a left turn—allowing the skis to carve naturally without excessive force. This technique emphasizes keeping shoulders level and hips squared to the direction of travel, preventing cross-wake instability common in early sessions.^[21]^[22] Stopping and exiting involves releasing the handle from the carrier, which disengages the skier from the cable, followed by gliding on the skis toward the shore or a designated exit point while maintaining balance to avoid falls. In cable systems, this release is straightforward due to the overhead mechanism, allowing the carrier to continue without the skier.^[20] Adaptations for beginners often include starting on two skis for greater stability, with a life vest and beginner-friendly combo skis to aid flotation and ease of use. Progressing to one-ski slalom basics involves first mastering two-skis riding, then loosening the binding on the trailing ski to practice dropping it mid-ride, focusing on weight transfer to the front ski while keeping the body upright and arms straight.^[23]

Advanced tricks and wakeboarding

Advanced tricks in cable skiing and wakeboarding build upon foundational edging and balance, enabling riders to execute dynamic spins, presses, and obstacle interactions that leverage the consistent pull of the overhead cable system. A key technique for generating airtime is "loading the line," where the rider progressively edges harder against the cable's tension to store energy in the rope, releasing it explosively upon takeoff for heightened jumps. This method is particularly effective in cable parks, as the fixed tension allows precise control over pop without relying on boat wakes.^[4]^[24] Common spins include the heelside backside 180, performed by initiating a heelside edge (using the board's heel-side rail), rotating 180 degrees with the back facing the cable first, and landing switch (opposite foot forward). Similarly, the toeside frontside 180 involves a toeside approach with the front facing the cable during rotation. These maneuvers require torso twisting and handle passing for smooth transitions, often practiced on flat water before progressing to features. Butter tricks, such as the tail butter or boardslide, involve pressing the board's tail or nose into the water or a flat obstacle like a butter box to create a smooth, grinding motion, emphasizing body lean and edge control for stability. Rail slides, executed on metal or wooden rails, typically start with a 50/50 approach (straight along the rail) or boardslide (nose leading after a 90-degree rotation), demanding compact posture to maintain speed and avoid slippage from the cable's pull.^[25]^[24]^[4] Wakeboarding on cable systems adapts traditional boat-based skills to park features, incorporating ramps (kickers) for aerial tricks, where riders approach at speed, absorb the ramp's incline with bent knees, and launch while maintaining handle position at the leading hip for controlled airs like grabs or spins. Sliders and rails enable grinding variations, with progression involving starting on wide, flat boxes before tackling steeper or curved elements. This setup fosters creativity, as the cable's constant speed supports repeated attempts without repositioning.^[26]^[24] Progression from cable skiing (using two skis or mono ski) to wakeboarding often involves adapting to the board's single-fin stance, starting with basic surface rides before incorporating switch riding—where the rider intentionally leads with the non-dominant foot to build versatility for landings and spins. Mastering switch requires even weight distribution and shoulder alignment over the board, allowing seamless transitions between stances during advanced sequences. This evolution enhances overall skill, as wakeboarding's wider board facilitates spins and presses not feasible on skis.^[4]^[24]^[25]

Competitions and Events

Major competitions

The International Waterski and Wakeboard Federation (IWWF) has organized the World Cable Wakeboard Championships since 2001, with the inaugural event held in August that year at Duisburg, Germany.^[27] These annual competitions feature elite athletes competing in categories such as open men, open women, and youth divisions across wakeboard and wakeskate disciplines, often attracting over 200 participants from more than 20 countries. Recent editions include the 2024 event at Le Kable in Choisy-le-Roi, France, where competitors vied for titles in preliminary and final rounds judged on trick difficulty, style, and execution.^[28] In Europe, the IWWF Europe and Africa Cable Wakeboard Championships serve as a premier continental series, held annually since the early 2000s at venues across the region, including notable stops in Germany and Poland.^[29] For instance, the 2025 edition took place from August 18 to 23 at Wake Zone Stawiki in Sosnowiec, Poland, drawing top regional talent for youth and senior divisions with events emphasizing technical runs and aerial maneuvers.^[30] These championships highlight emerging European riders and contribute to the global ranking system under IWWF rules. In the United States, the USA Wakeboard Cable National Championships, sanctioned by USA Wakeboard, crown national champions and qualify athletes for international teams, with pro and amateur divisions. These nationals emphasize cable-specific skills and have grown to include significant prize purses, fostering domestic talent progression. Notable records from major competitions include Irina Turets' 51.1-meter cable jump in the women's division at the 2017 IWWF World Cup, establishing a benchmark for distance in the discipline.^[31] In terms of height, Nik Guehrs achieved a 6.7-meter air during a 2025 Red Bull cable wakeboard event, showcasing the sport's vertical limits in competitive settings.^[32]

Governing organizations

The International Waterski & Wakeboard Federation (IWWF), established in 1946 in Geneva, Switzerland, acts as the worldwide governing authority for towed water sports, encompassing cable skiing, wakeboarding, and related disciplines.^[33] Under its umbrella, the Cable Wakeboard World Council (CWWC) specifically oversees cable-based activities, developing and enforcing international rules for competitions, athlete eligibility, and technical standards.^[15] The IWWF mandates licensing for participants in sanctioned events, ensuring compliance with anti-doping protocols and safety guidelines, while also facilitating athlete progression through qualification criteria for major titles.^[34] Regionally, the European & African Cable Wakeboard Council (ECWC), operating as a specialized body within the IWWF structure, establishes standards and coordinates activities for cable skiing across Europe and Africa.^[35] The ECWC contributes to rule adaptation for continental contexts, organizes certification for officials and event organizers, and promotes athlete development via training seminars and regional qualification pathways.^[36] At the national level, organizations such as USA Water Ski & Wake Sports serve as affiliates of the IWWF, managing domestic cable skiing events, rule implementation, and grassroots programs in the United States.^[37] These bodies handle system inspections for competition venues, support coaching initiatives, and integrate cable disciplines into broader athlete development frameworks, including youth and adaptive programs.^[38] Similar national federations worldwide, coordinated through the IWWF, ensure localized enforcement of global standards while fostering participation growth.^[33] These organizations collectively sanction key international and regional competitions to maintain competitive integrity.

Venues and Popularity

Global distribution

Cable skiing facilities exhibit a strong concentration in Europe, where the sport originated and proliferated extensively. Germany leads with nearly 100 operational cable parks, including the renowned Wasserski Langenfeld, which holds the distinction of being the largest cable park worldwide featuring four full-size cables and additional systems.^[39]^[3] Other notable European hubs include Poland, home to over 37 cable systems such as the 960-meter track at Wake Park Margonin, and Austria, with facilities like the Wakeboardlift Vienna offering an approximately 800-meter circuit that supports multiple riders simultaneously.^[40]^[41]^[42] In North America, the United States hosts around 50 cable skiing sites, with a particular density in warmer regions like Florida—exemplified by the Orlando Watersports Complex and Miami Watersports Complex—and California, facilitating year-round access. Canada maintains a smaller footprint, with fewer than 15 dedicated cable parks, such as the Whiplash Cable Wake Parks in Kelowna and Sask Cable Park in Saskatchewan, often integrated into broader watersports venues.^[43]^[44]^[45] Emerging presence is evident in other continents, including Australia with established parks like Melbourne Cable Park and Perth Wake Park, Asia featuring facilities in Japan and Indonesia such as Bali Wake Park, and South America with growing installations in countries like Brazil. These developments reflect the sport's gradual international expansion from its European roots.^[46]^[47]^[48]^[49]

Growth trends

Cable skiing has seen notable expansion since the early 2000s, evolving from a handful of specialized facilities to over 200 cable parks worldwide, with estimates exceeding 300 as of recent directories, a surge largely propelled by the rising popularity of wakeboarding, which utilizes compatible overhead cable infrastructure for both sports.^[50]^[43] This growth reflects broader interest in towed water sports, with new installations appearing across Europe, North America, and Asia, enhancing accessibility in diverse geographic settings.^[51] Key economic drivers include the relatively lower operational costs compared to boat-based skiing, as electric cable systems eliminate fuel expenses and enable efficient, high-volume usage without the need for multiple vessels.^[3] While initial installation for full-scale systems often exceeds $200,000 for a basic five-mast setup including machinery, the long-term efficiency—such as continuous operation supporting dozens of riders per hour—makes it viable for commercial venues, contributing to sustained investment despite upfront challenges like site preparation and permitting.^[52] These factors have lowered per-session costs for participants, typically ranging from $20–$40, broadening economic appeal for park operators and users alike.^[53] The sport's demographic draw lies in its inclusivity, accommodating participants of all ages and fitness levels from children as young as five to seniors, with adjustable speeds and no wake to navigate, presenting fewer physical and logistical barriers than boat skiing, which requires access to costly equipment and calm waters.^[54] This accessibility has attracted families and beginners, fostering steady participation growth as venues offer introductory lessons that build confidence without the intimidation of boat handling or group coordination.^[55] As of 2025, cable skiing continues to align with eco-tourism and urban recreation trends, with facilities increasingly incorporated into city parks and sustainable developments using electric drives to minimize emissions and noise, promoting year-round environmental stewardship alongside leisure activities. Events like the Langenfeld Open in May 2025 underscore ongoing international interest.^[8]^[56] Such integrations, seen in parks like those operated by Rixen Cableway, emphasize low-impact operations that enhance biodiversity in urban waterways while drawing eco-conscious visitors.^[57]

Safety and Environmental Impact

Safety considerations

Cable skiing presents several inherent hazards that participants must be aware of to minimize risks. Common dangers include collisions with fixed obstacles such as ramps, rails, or other riders in shared systems; high-speed falls that can result in concussions, fractures, or soft tissue injuries; and line entanglements, which may lead to severe lacerations or, in rare cases, loss of limbs if jewelry or loose clothing becomes caught.^[58] To address these hazards, comprehensive safety protocols are enforced at cable facilities. All riders are required to wear U.S. Coast Guard-approved flotation devices, such as life jackets, to prevent drowning, particularly in cases of unconsciousness following a fall; helmets are also mandatory to protect against head injuries. Qualified operators serve as spotters, monitoring rider positions and readiness via hand signals or radios, while speed limits—typically starting at 15-20 mph for beginners—are strictly controlled to allow safe progression and reduce impact forces during learning.^[59]^[58] Injury statistics indicate that the controlled environments of cable skiing help reduce variables like boat wakes and propeller strikes. For instance, overall injury incidence in wakeboarding ranges from 1.32 to 12 per 1,000 participant hours, with approximately 61% classified as mild and primarily involving sprains or abrasions rather than severe trauma.^[60] Emergency procedures are designed for rapid response, including quick-release handles on ropes that allow immediate detachment during entanglements or falls, and on-site medical setups with qualified first aiders, safety boats for water rescues, and clear access for emergency services. Facilities conduct regular risk assessments and maintain emergency action plans tailored to the site, ensuring swift intervention to prevent escalation of injuries.^[58]^[59]

Benefits and sustainability

Cable skiing offers notable environmental advantages over traditional boat-based waterskiing due to its reliance on electric motors, which eliminate the use of fossil fuels and produce zero local CO₂ emissions. This shift results in lower energy consumption compared to boat systems, significantly lowering the carbon footprint associated with the sport. ^[61]^[62]^[57] The electric drive also operates with minimal noise, mitigating acoustic pollution in aquatic environments. ^[62]^[57] Furthermore, the fixed cable path creates smaller wakes than propellers, reducing shoreline erosion and water disturbance, which has been shown to improve water quality in operational sites—for instance, increasing dissolved oxygen levels and reducing turbidity in semi-stagnant ponds over time. ^[57]^[62] From an economic perspective, cable systems enhance cost efficiency by eliminating fuel expenses entirely, a major ongoing cost in boat operations. Maintenance is also simplified without the wear from marine engines, and personnel requirements are approximately six times lower due to the automated nature of the system, which does not necessitate boat drivers or spotters for each rider. High throughput further boosts efficiency, with full-size systems supporting up to 17 riders simultaneously and handling 300–500 participants per day, allowing for greater revenue generation per facility. ^[3]^[57] Operationally, cable skiing improves accessibility by removing the need for boats, large crews, or extensive waterfront infrastructure, enabling installation in diverse settings such as lakes, rivers, or lagoons. This setup supports extended hours of operation, including year-round use in suitable climates, which maximizes participant access without weather-dependent boat logistics. Broader societal benefits include the promotion of inclusive water sports that foster physical activity and community engagement while maintaining a low environmental impact, thereby supporting sustainable tourism and recreation. ^[3]^[57]

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Rating 5.0 (8) Whiplash Cable Wake Parks is great for the experienced rider wanting to try new tricks or beginners learning how to get up and balance on a wake board.
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Watersports Locations in Australia - WakeScout
56 found · Barefoot South Australia Water Ski Club · Bayside Wake Park · Bedrock Waterski Club · Big River Holiday Park & Ski Lodge · Black Diamond Wakeboarding ...
[48]
https://www.baliwakepark.com/
[49]
Bali Wake Park: Bali's Most Exciting Family Water Park
Learn to wakeboard, kneeboard, waterski and skurf on the picturesque five hectare Cable Park lake, mounted with an overhead, state-of-the-art cable system.Cable Park · Cable park - 1 hour · Cable park - day pass · Open everydayMissing: Australia | Show results with:Australia
[50]
List Of Wakeparks Around The World - Boardsportsales.com
Oct 16, 2018 · Here's a huge list of wakeboard parks around the world. · Africa · Asia · Australia · Europe · North America · South America ...
[51]
Cablewakeboard.net – The official website of the IWWF E&A Cable ...
25TH IWWF CABLEWAKEBOARD EUROPE AND AFRICA CHAMPIONSHIPS - OPEN · 24th IWWF CABLEWAKEBOARD Europe and Africa Championships - YOUTH & SENIOR · RIDERS · IWWF 2022 ...
[52]
Cable wakeboard parks spread across the world - Surfer Today
Oct 22, 2012 · New wakeboard parks are being opened in France, Germany, Russia, Great Britain, the USA, Turkey, and Ukraine.Missing: distribution | Show results with:distribution<|control11|><|separator|>
[53]
How much does it cost to build and operate a cable wake park?
Sep 14, 2013 · A basic 5-mast wake park will set you back by at least 200K EUR - this is the cost of cable and machinery, so you should add the cost for land, etc.How much does a new chairlift for a ski resort cost? - QuoraHow much does it cost to build and run a chairlift at a ski area? - QuoraMore results from www.quora.com
[54]
The Costs Of Building A Cable Park - A Comprehensive Introduction
Jul 5, 2022 · The costs of building a Cable Park depend on several factors. We give an overview of the most important parameters.Missing: components | Show results with:components
[55]
Water Skiing - Move United
People of all ages and abilities can enjoy the fun and excitement of water skiing. All that's needed is a desire to learn and a body of water that can ...
[56]
Boat vs cable skiing, how big of a difference? - BallOfSpray
Sep 26, 2022 · Cable skiing has no wake to cross and the rope is attached at a height well above regular pylon height, so it can actually lift you up like a wakeboard tower ...Missing: demographic appeal
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Sustainability - Rixen Cableway
Rixen cableways use electric drives, improving water quality and reducing fuel use. They aim for 0-emission, and are environmentally friendly, with low noise.Missing: trends eco-
[58]
None
### Summary of Safety Recommendations for Cable Skiing/Wakeboarding (BWSW)
[59]
[PDF] USA Water Ski - International Waterski & Wakeboard Federation
This manual is written to address the safety recommendations for the operation of tournaments sanctioned by IWSF. It is designed to cover both general and ...
[60]
Isolated Femoral Shaft Fracture in Wakeboarding and Review ... - NIH
Sep 18, 2020 · In wakeboarding, the overall incidence of injuries ranges from 1.32/1,000 hours (or 1.41/1000 runs) to 12/1,000 hours, of which most (61%) are ...<|separator|>
[61]
Oh, snap: Cable wakeboarding injury paper falls to duplication
Aug 7, 2012 · The most common form of injuries were mild injuries (61%; 19.5/1000 h), 15% were very severe (4.8/1000 h), 14% were severe (4.5/1000 h) and 10% ...Missing: statistics | Show results with:statistics
[62]
RixenCableway becomes official partner of IWWF - Blooloop
Sep 19, 2025 · Recognised for their eco-friendly design,Rixen's cable parks reduce energy consumption by up to 95% compared to boat systems, making them both ...
[63]
Positive Impact on the Environment of an Outdoor Sport - Preprints.org
Jul 15, 2021 · A cable-ski is a nautical ski system whereby a motorboat is substituted by a cable ... Positive Impact on the Environment of an Outdoor Sport.