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Three Steps

The Three Steps are three nearly vertical rocky outcrops on the Northeast Ridge route of , situated at elevations of approximately 8,560 meters for the First Step, 8,610 meters for the Second Step, and 8,710 meters for the Third Step, forming key technical obstacles for climbers ascending from the side. These features, composed of steep and faces rising 15 to 40 meters high, demand advanced rock-climbing skills at extreme altitudes where oxygen levels are critically low, often requiring fixed ropes, ladders, and supplemental oxygen for safe passage. The First Step, the lowest and least demanding of the trio, presents a 15- to 30-meter near-vertical wall graded at UIAA II-III difficulty, typically ascended via a series of cracks and holds with the aid of fixed ropes installed by early expeditions. It serves as an initial test of climbers' balance and endurance on the exposed ridge, with ascent times averaging 30 to 60 minutes under good conditions. Historically, it was first surmounted during British reconnaissance expeditions in the 1930s, marking a pivotal point in mapping the Northeast Ridge as a viable summit path. Rising higher, the Second Step is the most technically challenging, featuring a 30-meter overhanging wall that originally required at UIAA V+ difficulty before the installation of a permanent in 1975 by teams, which has since facilitated thousands of ascents but still poses risks from and congestion. Located just above the First Step, it took climbers , Konbu, and Liu Lianman approximately two hours to overcome during the 1960 expedition—the first confirmed traversal of this section—using pitons and teamwork in the "" where altitudes exceed 8,000 meters and survival without oxygen is measured in hours. This step's conquest was instrumental in enabling the 1960 first ascent of via the North Ridge, which was the first confirmed summit via this route and followed the more famous route ascent by and in 1953. The Third Step consists of a short rocky section about 10 meters high at approximately 8,710 meters, historically rated at lower difficulty than the Second Step and typically climbed using fixed ropes to manage exposure over the north and east faces. First traversed by the 1960 expedition, it remains a physical with ascent times of 1 to 2 hours, and has been a site of several fatalities due to and exhaustion in the final push to the . Collectively, the Three Steps define the Northeast Ridge as one of Everest's most demanding routes, accounting for about 20-30% of all summits annually while posing higher risks than the path due to their technical nature and remoteness from rescue. Their preservation and maintenance, including periodic ladder replacements and rope fixes by commercial operators, underscore the balance between adventure and safety in modern high-altitude , with ongoing debates about environmental impact from fixed gear.

Overview

Location and Description

The Three Steps refer to three prominent rocky outcrops on the Northeast Ridge of , positioned as steep rock barriers between approximately 8,500 and 8,800 metres (27,890 and 28,870 feet) in altitude. These features include the First Step at 8,564 metres (28,097 ft), the Second Step at 8,610 metres (28,250 ft), and the Third Step at 8,710 metres (28,580 ft), marking critical elevations along the ridge's upper section. They collectively interrupt the otherwise snow- and ice-covered ridge, presenting vertical to near-vertical rock faces that rise abruptly from the surrounding terrain. Geologically, the Three Steps consist of limestone outcrops from the Tethyan sedimentary sequence (Qomolangma Formation), formed as marine sediments on the ancient Tethyan seabed approximately 450 million years ago, subsequently uplifted and slightly metamorphosed during the Himalayan from the collision between the and Eurasian tectonic plates beginning around 50 million years ago. Glacial by the Rongbuk and East Rongbuk Glaciers has exposed these outcrops, sculpting the steps into their current form through millennia of ice movement and freeze-thaw cycles. Structurally, the Three Steps occupy a narrow, knife-edge section of the Northeast Ridge, where the exposure is extreme due to precipitous drops exceeding 2,000 metres on either side. To the north lies the vast descending to the , while to the south, the plunges toward the remote Kangshung Glacier in the East Col region. This configuration creates a visually striking and precarious , with the steps protruding as isolated towers amid otherwise gentler slopes, highlighting the ridge's role in the broader North Ridge route ascending from the at 7,010 metres (23,000 ft) toward the summit.

Significance in Mount Everest Climbing

The Three Steps have played a pivotal role in the history of Mount Everest ascents via the northeast ridge, serving as formidable barriers during early 20th-century British expeditions. The 1921 expedition first explored the route but was halted short of the steps due to logistical and technical challenges, while the 1922 and 1924 attempts saw climbers like and Andrew Irvine confront the rocky obstacles directly, with the latter pair last observed near the Second Step before their disappearance. These steps represented the culmination of the ridge's technical demands, preventing summit success until the 1960 Chinese expedition overcame them to achieve the first confirmed ascent from the north side. The Three Steps demand advanced skills at altitudes exceeding 8,500 meters, where thin air exacerbates fatigue and increases fall risks, contributing to the northeast ridge's overall classification as a Grade IV-V route in terms. This technical severity arises from near-vertical rock faces requiring precise hand- and footholds, often aided by fixed ropes in modern ascents, distinguishing the steps from the more glacier-dominated sections of the route. In comparison to the southeast ridge from , the northeast route via the Three Steps is technically more demanding due to its rock-heavy profile but offers logistical advantages, such as avoiding the unstable and benefiting from potentially more predictable weather patterns on the side. While the south route involves extensive and traversal with fixed lines, the north's steps necessitate greater proficiency, making it preferable for experienced alpinists despite the added climbing exposure. Post-1960 expeditions highlight the Three Steps as critical risk points on the north route, where delays from and altitude-related exhaustion have contributed to higher failure rates compared to the south side, with ascent success around 37% versus 48% overall from 1990 to 2012. Fatality data indicates the north ridge accounts for a disproportionate share of technical mishaps, with a death rate of approximately 1.57% among attempts, often linked to falls or exhaustion near the steps, underscoring their role in limiting summits and amplifying dangers in the .

The Northeast Ridge Route

Position Within the Route

The Northeast Ridge route ascends from the at 7,000 meters, following the North Ridge after the initial traverse up the East from Advanced Base Camp at 6,400 meters. Climbers progress through a series of high camps, including Camp 1 at the , Camp 2 at 7,500 meters, Camp 3 at approximately 7,900 meters near the base of the Yellow Band, and a higher camp (often designated Camp 4) at approximately 8,300 meters within the Yellow Band. The Yellow Band, a distinctive layer of yellowish at around 8,200 meters, marks the transition to the exposed Northeast Ridge proper, where the Three Steps begin shortly thereafter. The Three Steps—encountered in sequence as the First Step, Second Step, and Third Step—form the most technical portion of the upper , spanning approximately kilometer along this narrow, wind-swept feature before giving way to the final snow slopes. This section is typically tackled in a single push starting from the high camp during the summit day, with climbers allocating 4-6 hours to navigate the Steps amid extreme altitude, cold, and exposure, often using supplemental oxygen and fixed ropes. Below the Steps lies the sheer North Face wall, dropping over 3,000 meters into the , while above them rises the pyramid, a moderately angled and slope requiring minimal technical climbing to reach the 8,848-meter . Alternative approaches via the direct , such as the —which was first climbed to the summit in —could theoretically bypass the Three Steps by ascending steep ice and rock gullies to join the ridge near the summit, but these routes are regarded as extraordinarily hazardous due to risk, extreme steepness, and lack of fixed protection.

General Challenges and Technical Demands

The Northeast Ridge route, particularly in the vicinity of the Three Steps above 8,500 meters, presents profound physiological challenges due to extreme altitude. severely limits oxygen availability, leading to rapid fatigue and diminished cognitive and motor functions, with maximal oxygen uptake reduced by roughly 70% compared to performance levels. This impairment demands meticulous foot placement on the route's loose, fractured rock, where even minor errors can result in fatal falls, as climbers' coordination and strength are compromised by the "" conditions. Environmental hazards further intensify the demands, including gale-force winds that frequently exceed 100 km/h, which can dislodge climbers or freeze exposed skin and equipment. The proximity to the heightens avalanche risk, with unstable snow and from the steeper slopes occasionally sweeping across the ridge, contributing to numerous fatalities over the years. Temperatures routinely drop to -30°C or lower, complicating manual tasks like rope manipulation and increasing threats, even for well-insulated teams. Technically, the route requires proficiency in mixed terrain, blending unroped on steep slabs with aid-assisted ascents via fixed lines and ladders to overcome vertical faces, all while managing sheer exposure that amplifies psychological strain. Equivalent to Yosemite Decimal System grades of 5.7 to 5.10 at , these sections test climbers' endurance and technique under , where the perceived difficulty escalates due to reduced power and precision. Preparation is essential, involving 3-4 weeks of staged rotations to stimulate physiological adaptations like increased production, though full expeditions span longer periods. Supplemental oxygen is mandatory for nearly all climbers on this route to counteract and sustain effort, delivering a partial atmospheric equivalent to lower altitudes and enabling progression through the otherwise prohibitive terrain.

The First Step

Physical Characteristics

The First Step is situated at an altitude of approximately 8,500 to 8,560 meters along the Northeast Ridge of , consisting of a 15- to 30-meter near-vertical wall of gray bands separated by a wide sloping ledge, ascended via a steep, loose snow or concave rock wall with cracks and holds. This feature rises from the ridge shortly above Camp 4 at 8,300 meters, presenting UIAA II-III difficulty (equivalent to 5.4-5.6 on the Yosemite Decimal System) intensified by extreme altitude and low oxygen. The exposure is severe, with a drop of over 2,000 meters to the east toward the , though fixed ropes aid passage along the prow or rightward traverse to avoid the most vertical sections. The rock quality features blocky with potential icy overlays and loose , demanding careful footwork and balance on the exposed .

Historical and Modern Climbing Accounts

The First Step was first surmounted during the 1933 British Mount Everest expedition, when Percy Wyn-Harris and Lawrence Wager turned the feature en route to traversing under the Second Step, reaching approximately 8,400 meters without supplemental oxygen amid reconnaissance efforts to assess the Northeast Ridge viability. Earlier, the 1921 British reconnaissance had explored the lower ridge but did not reach the Steps, while the 1924 attempt by and Andrew Irvine left evidence (an and oxygen bottles) just below the First Step before their disappearance. In subsequent decades, the First Step became a standard obstacle on North Ridge ascents, with the 1960 Chinese expedition overcoming it during their first summit via this route. Notable alpine-style pushes, such as Reinhold Messner's 1980 solo ascent variations, highlighted its demands without fixed aids. In modern climbing as of 2025, the First Step is typically ascended using fixed ropes installed by expeditions, with ascent times of 30 to 60 minutes under good conditions, serving as an initial technical test before higher Steps. has accelerated ice melt on the Northeast Ridge, exposing more and increasing slip risks, though fatalities here remain lower than on subsequent features due to its relative moderate difficulty. ascents are uncommon owing to cumulative , but fixed has enabled thousands of passages annually.

The Second Step

Physical Characteristics

The Second Step is situated at an altitude of approximately 8,610 meters along the Northeast Ridge of , featuring a nearly vertical to overhanging rock wall about 30 meters high, composed of steep and that presents the most technically demanding obstacle on the route. This wall rises from a narrow ridge with extreme exposure, including a 2,500-meter drop to the east toward the and similar peril to the west. The rock quality is generally solid but can loosen under frost and traffic, with the being an overhanging section requiring advanced free-climbing techniques at UIAA V+ (Yosemite Decimal System 5.10) difficulty before aids. Since 1975, a permanent aluminum —installed by a expedition—spans the upper portion, reducing the free-climb section but still demanding precise movement at extreme altitude where fatigue amplifies risks. Ascent times average 30-60 minutes with fixed ropes and the ladder, though conditions like wind and ice can extend this.

Historical and Modern Climbing Accounts

The Second Step was first surmounted during the 1960 Chinese expedition by , Konbu, and Liu Lianman, who used pitons, teamwork, and improvised aids to free-climb the wall over approximately two hours in the , enabling the first confirmed summit via the North Ridge. Earlier British attempts, such as the 1924 expedition where and Andrew Irvine may have approached or attempted it (last seen near its base by ), failed to conquer it, highlighting its barrier status pre-1960. In 1933, and Lawrence Wager reached about 8,570 meters on the Northeast Ridge, approaching the Second Step but turning back due to exhaustion. The 1975 Chinese expedition's ladder installation transformed accessibility, allowing thousands of subsequent summits, though it sparked debates on purism versus safety. In modern , the step remains a bottleneck due to single-file traffic on the , risks of dislodging holds, and occasional ladder maintenance (e.g., replacements in the and ). Free ascents are rare; notable is Conrad Anker's 1999 climb without the ladder to simulate Mallory/Irvine, rated as one of the hardest pitches on the route at altitude. As of 2025, climate-driven ice melt has exposed more rock, increasing slip hazards, but no major structural changes reported.

The Third Step

Physical Characteristics

The Third Step, situated at an altitude of 8,710 meters along the Northeast Ridge of , consists of a 20-25 meter mixed rock and slab topped by a short vertical headwall that overhangs less severely than the Second Step. This structure rises from a boulder-strewn plateau and can be ascended via low-angled slab sections or a through the rock band, providing varied lines for climbers. The feature presents extreme exposure, with sheer drops exceeding 2,500 meters on both sides—to the on the east and the Central on the west—though the ridge broadens slightly at this point, allowing limited side traversal to avoid the most direct vertical peril. The rock quality involves blocky formations with icy overlays, including exposed ledges and potential flake holds within the chimney system, contributing to a sense of precariousness despite the overall moderate steepness. The difficulty is generally rated 5.6 to 5.8 on the Yosemite Decimal System, but this is intensified by the physical exhaustion of summit day at extreme altitude.

Historical and Modern Climbing Accounts

The Third Step on Mount Everest's Northeast Ridge was first reached during the 1960 Chinese expedition, when , Gonpo, and Qu Yinhua summited via the North Ridge after surmounting the Second Step, navigating the rocky terrain above amid severe weather and limited equipment. Earlier, in 1933, British climber , during the expedition led by Hugh Ruttledge, pushed alone up the Northeast Ridge from Camp 6 at approximately 27,200 feet (8,300 meters), reaching near the base of what would later be identified as the Third Step area before turning back due to exhaustion and deteriorating conditions, marking one of the highest points achieved pre-World War II on that flank. In the 1980s, Polish mountaineer contributed to alpine-style ascents on , though his primary routes were on the south side; notable solo efforts on the Northeast Ridge during this era highlighted the step's demands, with climbers like completing a solo ascent of the North face variation in 1980, bypassing traditional fixed lines and confronting the Third Step's mixed slab in extreme fatigue. These pushes underscored the step as a pivotal barrier, often requiring improvised techniques without supplemental oxygen. In the , the Third Step is typically ascended using fixed ropes, but downclimbs remain precarious, with climbers descending carefully to avoid slips on the exposed rock faces. Post-2015 Nepal earthquake assessments noted increased instability in the rock formations around the Third Step, with more frequent rockfalls reported in expeditions through 2025. Reports from the indicate accelerating ice melt due to , exposing more bare rock on the Northeast Ridge and heightening slip risks, as seen in studies of nearby glaciers losing decades of accumulated ice annually through melting and . ascents of the Third Step are rare, limited by cumulative fatigue from the prior steps, which often leads to judgment errors and contributes to overall route attrition, though isolated incidents here are fewer than on lower sections.

Climbing Aids and Safety Measures

Installation of Fixed Equipment

The installation of fixed equipment on the Three Steps of Mount Everest's Northeast Ridge began with the pioneering efforts of the 1960 Chinese expedition, which fixed safety ropes on the Second Step during their historic ascent via the north side. These initial ropes, secured using ice picks and basic anchors, marked the first permanent aids on the route's challenging rock features, facilitating subsequent climbs by providing essential against falls on the exposed . A significant advancement occurred in 1975 when another Chinese expedition installed an aluminum ladder on the Second Step's near-vertical headwall, approximately 15 meters high, to bypass the most technical section of the 50-meter cliff. This ladder, bolted directly to the rock, transformed the Second Step from a formidable obstacle—previously requiring advanced free-climbing techniques—into a more accessible feature for high-altitude mountaineers. The equipment has undergone replacements, including a new ladder installed by Chinese teams in 2007 after the original was temporarily removed during a historical reenactment expedition. Fixed ropes, typically semi-static nylon lines with diameters of 8 to 11 millimeters, are anchored across all three steps using rock bolts on stone surfaces and ice screws in frozen sections, ensuring stability amid the ridge's steep angles. Ongoing installation and maintenance involve coordinated efforts by experienced guides, who conduct annual inspections and replacements each climbing season to address degradation from ultraviolet radiation, high winds, and mechanical wear. These guides, often working under the oversight of the China Mountaineering Association, standardize rope placements to cover the First and Third Steps—both equipped solely with fixed s without ladders—while extending lines up to 30 meters on the Second Step alongside the ladder. International collaborations in the , such as joint expeditions, contributed to refining these placements for consistency and safety, though primary responsibility remains with local teams who reset the entire system seasonally to mitigate risks from environmental exposure.

Impact on Accessibility and Risk

The installation of fixed ladders and ropes on the has significantly enhanced accessibility to the north ridge route of , transforming it from a domain primarily for elite mountaineers to one viable for guided commercial expeditions. Prior to the 1975 placement of the ladder on the Second Step, the north ridge saw no confirmed summits by foreign climbers and minimal overall success rates below 10%, as the technical rock features of the steps posed insurmountable barriers for most parties without advanced free-climbing skills. Following the ladder's installation and subsequent fixed ropes on all three steps, success rates for guided parties on the north route improved to approximately 37% between 1990 and 2012, enabling broader participation by less experienced climbers while reducing the technical demands from roughly 5.9 to 5.10 difficulty to around 5.4 with aids. These aids have also markedly reduced risks associated with the steps, particularly by mitigating falls and exposure during ascents and descents. The Second Step alone has prevented numerous potential fatalities, with historical accounts indicating that pre-1975 attempts often resulted in deaths from slips on its near-vertical face, whereas post-installation, the feature's traversal time has decreased by 1-2 hours, minimizing time spent in the and associated hypoxia-related errors. Fixed ropes across the First and Third Steps similarly lower the incidence of and injuries, contributing to a 70% decline in step-specific fatalities since 2000, as overall north ridge death rates stabilized at about 1.57% despite increased traffic. However, this increased accessibility introduces drawbacks, including dependency on aids that fosters and new hazards. Bottlenecks frequently form at the steps, with queues exceeding 50 climbers during peak summit windows, exacerbating fatigue and oxygen depletion in high winds. Environmentally, abandoned fixed ropes and related gear have accumulated, with an estimated 400 kg of plastic ropes discarded annually on the north ridge by the , contributing to long-term as the synthetic materials degrade slowly in the conditions.