Fact-checked by Grok 2 weeks ago

Branch line

A branch line is a secondary line that diverges from a main line to serve smaller communities, rural areas, or specific industries, typically featuring its own stations and operations while relying on the primary route for broader . Branch lines proliferated during the 19th and early 20th centuries as expanded to facilitate local , transporting goods like agricultural products and minerals to main lines for long-distance shipment. Their construction often followed demand from isolated regions seeking integration into networks, underscoring ' role in regional before widespread automobile and improvements diminished their viability. In contemporary rail systems, branch lines—frequently operated as short line railroads—fulfill critical "first and last mile" functions, linking local shippers to Class I carriers and handling substantial freight volumes, including up to 70% of goods in certain industrial contexts through dedicated spurs. Despite mid-20th-century closures prompted by rising operational costs and from trucks, surviving and revived branch lines remain vital for efficient supply chains, particularly in , , and resource extraction sectors.

Definition and Characteristics

Technical Definition

A in is a secondary railway route that diverges from a main line at a to serve local destinations, such as smaller towns, rural areas, or specific sites. These lines typically function as feeder routes, channeling freight and passengers to and from the primary network rather than forming part of high-capacity through corridors. Technically, branch lines are distinguished by their to one or more stations beyond the point, often operating with reduced demands compared to main lines, including potentially single-track configurations and lower design speeds. They may incorporate standard running lines equipped with signaling or safeworking systems to manage train movements, enabling scheduled or on-demand services. Unlike very short spurs used primarily for loading or maneuvering, branch lines extend to support ongoing operational needs over distances sufficient for multiple stops or dedicated purposes.

Distinctions from Main Lines, Sidings, and Short Lines

Branch lines differ from main lines primarily in their role, capacity, and infrastructure. Main lines constitute the primary arteries of a network, designed for high-volume, high-speed through with features such as multiple tracks, advanced signaling systems, and heavier weights to accommodate frequent and heavy freight or services. In contrast, branch lines serve as secondary feeders, branching from main lines to connect remote communities, industries, or smaller markets, typically featuring single tracks, lighter , and lower speed limits due to reduced volumes and simpler geometries. Unlike sidings, which are short auxiliary tracks diverging from main or branch lines for temporary purposes such as passing, car storage, or loading/unloading without scheduled , branch lines function as running lines extending to serve multiple stations or endpoints with regular operations. Sidings lack the continuous operational intent of branch lines, often being dead-end spurs or loops limited to a few hundred yards, whereas branch lines may span tens or hundreds of miles to deliver freight or passengers to destinations beyond the junction point. Branch lines are distinguished from short lines in terminology and scope, with the former referring to the physical track configuration as a secondary route off a primary line, regardless of operating entity, and the latter denoting independent III railroads—defined by the Surface Transportation Board as carriers with annual revenues under $289.4 million in 2023—that often manage former lines over short distances to link local shippers to I networks. While short line operators may run line services, the terms are not synonymous; a line can be part of a larger railroad's , whereas short lines emphasize operational and localized focus.

Historical Development

Origins in the 19th Century

The origins of branch lines trace to the early expansion of steam-powered public railways in , where secondary routes diverged from initial trunk lines to serve localized industrial demands. The , opened on 27 September 1825 as the first public line to employ steam locomotives for passengers and freight, incorporated short branches to collieries along its 26-mile route, enabling efficient haulage from mines to ports and demonstrating the practical advantages of such extensions over standalone lines. These early branches typically featured lighter construction, single tracks, and minimal infrastructure compared to main lines, prioritizing cost-effective access to resources like , which comprised the bulk of early traffic. The proliferation of branch lines accelerated during Britain's railway construction boom of the 1830s and 1840s, spurred by over 1,000 parliamentary acts authorizing extensions amid speculative fervor known as . By 1845, the network had grown to approximately 2,400 miles, with many new authorizations targeting branches to inland districts for mining, quarrying, and , thereby integrating peripheral economies into national transport. A key example is the , constructed from 1840 to 1841 over under 30 miles to connect coalfields to , dismantling canal monopolies and boosting output from 205,200 tons of coal in 1856 to 1,250,000 tons by 1869 after the 1855 Rhondda Valley extension augmented connectivity. In the United States, branch lines emerged concurrently with regional network growth post-1830, often as short feeders to emerging trunk systems amid industrialization and territorial expansion. The Branch Railroad, chartered on 12 February 1849 by the Illinois General Assembly, exemplified this with its six-mile track linking to the Aurora line, facilitating local freight to broader markets. Such developments reflected causal drivers like resource extraction and , with branches comprising a growing share of the roughly 9,000 miles of track laid by 1850, though they remained subordinate to high-capacity main lines in design and operation.

Expansion and Peak Usage (Late 19th to Mid-20th Century)

Following the establishment of extensive main line networks in the mid-19th century, branch lines underwent significant expansion in the late 19th and early 20th centuries to connect peripheral regions, local industries, and rural communities to broader rail systems. , this period saw railroad track mileage surge from 93,262 miles in to 193,346 miles by , with a substantial portion consisting of branch lines that facilitated the transport of agricultural goods, timber, and minerals from remote areas to major markets. These extensions supported westward settlement and industrial growth, peaking at approximately 254,000 miles of total track by 1916, many of which were secondary feeders. In Great Britain, the Light Railways Act 1896 streamlined the approval process for constructing lighter, more economical branch lines, exempting them from stringent engineering standards required for main lines and enabling local authorities and promoters to develop routes in underserved districts. This legislation spurred the building of over 1,000 miles of light railways by 1914, primarily as branches serving agriculture, quarries, and small towns, which complemented the maturing trunk network that had reached near-completion by the 1870s. Across Europe, similar developments integrated regional economies, with railway density increasing markedly between 1870 and 1910, as branch lines extended access to about 70% of the networks operational by 1900. Peak usage of branch lines occurred from the through the mid-20th century, when they handled peak volumes of freight and passengers before competition from automobiles and trucks eroded demand. In the U.S., branch lines were critical for hauling bulk commodities like coal and grain during and the , sustaining rural economies until the 1940s. In Britain, these lines operated at capacity during the same era, supporting wartime logistics in and essential peacetime services, with passenger and goods traffic reflecting the height of rail dependency prior to post-1945 declines. This zenith underscored branch lines' role in economic connectivity, though their lighter construction often limited speeds and capacity compared to main lines.

Post-World War II Shifts

Following , branch lines worldwide faced accelerated decline due to intensified competition from road transport, as governments prioritized highway construction and subsidies that favored trucks and automobiles over for short-haul and rural services. In the United States, non-commuter passenger traffic plummeted 84 percent between 1945 and 1964, reflecting a shift toward personal vehicles and buses that rendered many low-density branch lines obsolete for s. Freight on branch lines similarly eroded, as trucks offered greater flexibility for serving dispersed industries and farms, leading to a wave of abandonment petitions approved by the ; by the , thousands of miles of secondary trackage had been dismantled, particularly those connecting small towns where 's fixed infrastructure could not compete with road access. In the , the 1948 nationalization of railways under British Railways inherited a network burdened by wartime wear and pre-existing losses, with annual deficits escalating to £140 million by 1962 amid rising road usage. The 1963 Beeching Report, commissioned to rationalize operations, identified branch lines as prime candidates for due to their inability to generate sufficient revenue—often operating at under 20 percent —and recommended eliminating around 5,000 miles of predominantly rural and secondary routes. Implementation through the mid-1960s resulted in over 2,000 station closures, disproportionately affecting branch lines that lacked integration with mainline or high-volume freight corridors, as policy shifted toward concentrating resources on viable trunk lines. These shifts were underpinned by causal factors including uneven regulatory environments—railroads bore full track maintenance costs while received public funding—and technological mismatches, where branch lines' single-track, low-speed designs proved inefficient against trucks' adaptability. Empirical analyses of data indicate that post-1945 abandonments correlated strongly with proximity to expanding networks, with surviving branches often repurposed for specialized freight or preserved through local , though global mileage reductions exceeded 20 percent in many networks by 1970.

Operations and Infrastructure

Typical Design and Features

Branch lines are typically constructed as single-track lines branching from a main line via a or junction, designed for lower traffic volumes and speeds compared to main lines. This configuration reduces material and land requirements, with allowing sharper curves—often with radii as low as 300 meters or less—and steeper grades up to 2% or more, accommodating terrain while limiting speeds to 40-60 km/h. Track components emphasize cost-effective, lighter-duty materials: rails weigh 42-50 kg/m (approximately 85-100 lb/yd), typically jointed rather than continuously welded, to handle reduced loads of around 150 kN. Sleepers are predominantly timber, spaced 610-760 mm apart, with dimensions such as 178 x 229 x 2590 mm, providing adequate support under lower es (e.g., longitudinal stress limited to 34.5 MPa). depths are shallower, around 150 mm, using for stability on subgrades with bearing pressures of 150-300 kPa. Stations and infrastructure on branch lines feature simplified designs, including small platforms, basic shelters or halts without extensive buildings, and occasional passing loops or sidings spaced every 10-20 km for . Level crossings predominate over grade-separated junctions, and fencing or signaling is minimal, often relying on manual or token systems rather than . These elements reflect economical construction prioritizing functionality for local freight or passenger services over high-capacity operations.

Signaling, Maintenance, and Safety Protocols

Branch lines, owing to their secondary status and often single-track nature with infrequent services, utilize simplified signaling compared to high-capacity main lines. Common systems include the electric block, which requires crews to hold a unique physical or electronic for each section to authorize entry and ensure no opposing movements occur, thereby preventing collisions on low-traffic routes. Traditional variants, such as the one- or and ticket methods, similarly restrict sections to a single , historically applied to simple shuttle services on dead-end branches where only one or per section exists. These manual or semi-automatic approaches contrast with the absolute block or route signaling prevalent on main lines, prioritizing cost-effectiveness over complex for sparse operations. Maintenance on branch lines follows standardized railway practices but is scaled to lower traffic densities, with inspections focusing on , wear, and stability through visual, ultrasonic, and geometry car methods at intervals determined by usage—typically less frequent than on main lines but no less rigorous for . Preventive tasks encompass clearance to maintain visibility, periodic grinding to mitigate fatigue, and renewal to support alignment, often conducted during off-peak periods to minimize service disruptions. Corrective repairs, such as tie replacement or joint welding, address defects identified via mandated or regulatory checks, with branch-specific challenges like rural necessitating crews and for weather-impacted access. Safety protocols emphasize collision avoidance via token adherence, speed restrictions tailored to track classification—frequently Class 2 (maximum 25 mph for freight) or Class 3 (40 mph)—and infrastructure limits like curve radii or bridge conditions to account for lighter construction. Operators must confirm clear sections before proceeding, supplemented by on-board warnings and, where retrofitted, for automated enforcement, though many branches rely on procedural rules like one-engine-in-steam working. Level crossings, more prevalent on rural branches, require passive signage or basic gates with regular testing, while emergency protocols mandate immediate halts for signals or obstructions to uphold causal risk mitigation in variable terrain.

Economic Role

Freight and Passenger Services

Branch lines have primarily facilitated freight services by extending rail access to remote or specialized industrial sites, enabling the haulage of bulk commodities such as , , , agricultural products, and minerals from production areas to main lines or distribution hubs. In the United States, these lines support key sectors like , which depend on for transporting over 15% of products, , and kindred goods, including wheat, soybeans, corn, and , thereby linking rural producers to national and export markets. Short branch lines, often classified as Class III railroads, connect local shippers—such as paper mills, yards, and quarries—to larger Class I networks, handling one or few daily trains of heavy freight to optimize costs for low-volume origins. Passenger services on branch lines historically provided essential local for rural communities, operating frequent but low-capacity to regional centers before the mid-20th century dominance of automobiles and highways rendered them uneconomical. U.S. passenger traffic plummeted from 770 million riders in 1946 to 298 million by 1964, with branch lines bearing disproportionate losses as services shifted to 3 days per week or were eliminated entirely outside dense corridors. By 1966, accounted for under 2% of passengers, prompting widespread abandonment of unprofitable branch passenger routes in favor of subsidized mainline expresses. Economically, freight sustained most branch lines through dedicated spurs to extractive industries, while passenger operations often required cross-subsidization from freight revenues until and modal shifts decoupled them; for example, post-1950s policies prioritized freight viability, leading to passenger-only branches closing en masse. Today, surviving branches emphasize freight for commodities like timber and grain, with passenger revival limited to commuter extensions in urban fringes rather than traditional rural services.

Industrial Spurs and Specialized Uses

Industrial spurs, short railway extensions branching from main lines or longer branch lines, provide direct access to specific industrial facilities for freight loading and unloading. These tracks, often under one mile in length, connect factories, mines, quarries, and warehouses to the rail network, enabling efficient handling of bulk commodities like , , , and chemicals where rail's capacity advantages reduce per-ton-mile costs compared to trucking. Unlike full branch lines serving multiple communities, spurs prioritize single-site or localized industrial needs, typically featuring minimal such as a single track, derailers for safety, and on-site sidings for car storage. Historically, industrial spurs proliferated during the late 19th and early 20th centuries as railroads facilitated expansion; for example, investments in rail networks demonstrably spurred in rural areas by lowering barriers for heavy inputs. In regions like northern , approximately 70% of industrial properties constructed before 1920 incorporated spurs to support operations reliant on frequent, high-volume shipments. Spurs to steel mills, grain elevators, and oil refineries exemplified this, with railroads delivering raw materials inward and hauling products outward, often via dedicated switching locomotives. Specialized applications extended spurs beyond general . In mining districts, spurs accessed remote ore deposits, as seen in spurs serving quarries and metal extraction sites where hauled and concentrates over distances impractical for wagons. operations deployed temporary spurs into timberlands for log loading, with narrow-gauge examples in the U.S. facilitating seasonal harvests until trucking supplanted them post-1940s. uses peaked during , with spurs constructed to ammunition plants and shipyards—such as those branching to defense facilities in the Midwest—to expedite strategic movement under wartime production demands. ![NS Mt. Holly Branch Line at Mt. Laurel showing freight operations][float-right] In contemporary settings, spurs support niche freight like transport to construction sites or biomass to power plants, though many legacy spurs face maintenance challenges and conversion pressures from road competition. Recent projects, such as a Union Pacific spur to an electric vehicle battery facility in completed in 2023, illustrate ongoing viability for high-volume industries seeking to mitigate congestion and fuel costs. These installations often require site-specific , including grade separations and for non-rail-served segments, to integrate with modern supply chains.

Decline and Abandonment

Primary Causes

The primary causes of branch line decline and abandonment stemmed from the mid-20th-century shift toward road-based transportation, which eroded the economic viability of low-traffic secondary routes. Following , widespread adoption of affordable automobiles and buses drastically reduced volumes on branch lines, as travelers favored the flexibility and door-to-door convenience of personal vehicles; , non-commuter rail travel fell by 84% between 1945 and 1964 amid this modal shift. Concurrently, trucks displaced rail for short-haul freight—precisely the niche branch lines served—due to lower labor requirements, easier last-mile access, and investments in interstate highways that subsidized road competition, leaving rails burdened with fixed infrastructure costs without proportional revenue. Compounding this was the inherent unprofitability of branch lines, characterized by sparse traffic density, high maintenance demands for aging infrastructure, and outdated operational rules that inflated crew expenses relative to declining loads. In the UK, British Railways faced annual losses exceeding £300 million by 1962, prompting the 1963 Beeching Report, which recommended closing over 2,300 stations and numerous branch lines deemed incapable of covering even marginal costs, as raising fares to economic levels would further deter ridership. Across and , similar rationalizations occurred, with U.S. railroads abandoning approximately 25% of their route miles between 1960 and 1980 through mergers and regulatory approvals, often targeting underutilized branches amid deferred and lost ancillary revenues like mail contracts phased out by the U.S. Postal Service by 1977. Industrial contractions, such as mine closures, further diminished freight origins, but the core driver remained the failure to adapt to road dominance without equivalent public subsidies for rail upkeep.

Major Closure Initiatives

One of the most systematic major closure initiatives affecting branch lines occurred in the with the , stemming from the 1963 report The Reshaping of British Railways by , chairman of the state-owned . The report analyzed traffic data and financial losses, identifying 2,363 stations and 5,000 miles of track—representing 55% of stations and 30% of route mileage—for potential closure to eliminate unprofitable operations, with branch lines prioritized due to their low passenger and freight volumes relative to maintenance costs. Implementation began in 1964 under government approval via the Transport Act 1962, leading to the shutdown of over 2,000 stations and roughly 4,000 miles of track by 1970, disproportionately impacting rural branch lines that served isolated communities and minor industries. These closures were justified by British Railways' annual deficits exceeding £300 million by 1962 (equivalent to over £6 billion in 2023 terms), driven by competition from and subsidized bus services, though critics argued the undervalued and strategic benefits of retaining lines for potential . Branch lines like the and Dorset Joint Railway's rural spurs were among the first targeted, with passenger services withdrawn and tracks lifted to prevent reopening, resulting in severed connections for towns such as and . By the late , the initiative had reduced the network's branch line extent by over 40%, accelerating rural depopulation and shifting freight to lorries, though some lines persisted for freight until later rationalizations. In the United States, branch line closures lacked a singular national program akin to Beeching but accelerated through (ICC) approvals amid railroad bankruptcies and mergers from the 1960s to , with over 10,000 miles abandoned annually at peak in the early due to declining and agricultural traffic. The 1968 Penn Central merger, combining New York Central and , prompted rationalization of duplicate branch lines in the Northeast, culminating in the carrier's 1970 bankruptcy and transfer of 17,000 miles to in 1976, which further pruned low-density spurs serving fading industries like anthracite mining. These actions, regulated under the Interstate Commerce Act, reflected causal pressures from trucking deregulation and highway expansion rather than centralized policy, preserving main lines while eliminating many short branches under 100 miles.

Modern Applications and Revivals

Heritage and Tourist Operations

railways frequently repurpose disused branch lines, transforming them into tourist-oriented operations that emphasize historical recreation over commercial freight or commuter service. These lines, often restored by volunteer organizations, employ vintage and locomotives alongside period-appropriate carriages to offer scenic excursions through rural landscapes formerly served by the original . Maintenance of tracks, signals, and stations adheres to historical standards where feasible, supported by dedicated funding from fares, donations, and grants. Tourist schedules typically include themed events such as seasonal festivals, gala days with multiple locomotives in steam, and educational programs detailing and operations from the pre-electrification era. Passenger numbers on such lines underscore their appeal; in the alone, heritage railways facilitate around 18.5 million journeys per year, with up to 95% from domestic visitors drawn to the nostalgic of slower-paced, non-electrified . Safety protocols mirror those of active railways but incorporate volunteer programs to manage lower traffic volumes and heritage equipment limitations. Economically, these operations sustain local communities by generating revenue through ticket sales, onboard , and adjacent attractions like museums or gift shops, while preserving skills in restoration and trackwork that would otherwise be lost. Challenges include balancing authenticity with regulatory compliance for passenger safety and funding capital-intensive repairs on aging , often addressed via partnerships with authorities. In regions with extensive branch line closures, such as post-1960s rationalizations, these tourist railways serve as cultural anchors, demonstrating viable alternatives to full abandonment by leveraging in industrial heritage.

Contemporary Freight and Commuter Branches

In the United States, short line and regional railroads maintain extensive networks of branch lines primarily for , serving local industries, agricultural shipments, and connections to larger I carriers. These operators handle approximately one in every five rail cars annually across 47,500 route miles, representing 29% of the nation's freight rail infrastructure. This decentralized model, bolstered by post-1980 , enables efficient last-mile delivery to rural and industrial sites, supporting 478,000 jobs and contributing $56.2 billion in economic value-add. Specific examples include the Norfolk Southern Mt. Holly Branch Line in , where short s, such as those powered by GP40-2 locomotives, transport goods across industrial areas in Mount Laurel as recently as 2017. European freight branch lines, while facing competition from road haulage—with rail modal share often below 20% in major western countries—continue to operate for specialized cargo to ports and factories. Infrastructure upgrades, such as Switzerland's completed in 2016, have enhanced capacity for heavier and longer trains on connecting branches, reducing unit costs and boosting throughput for cross-Alpine freight. In , recent projects like Ukraine's 22 km Uzhhorod-Chop line, opened in 2025 with European-standard 1,435 mm gauge, integrate branch connections to facilitate both freight and cross-border flows. Commuter branch lines remain active in select urban regions, often branching from electrified main corridors to serve suburbs or institutions. In North America, systems like New Jersey Transit's Princeton Branch diverge from the Northeast Corridor to provide daily service to Princeton, accommodating peak-hour demands with diesel or electric multiple units. European examples include Paris's RER branches, which extend from central hubs to outer suburbs, carrying over 1.1 billion passengers annually across networked lines including secondary routes. These operations prioritize frequency and integration with urban transit, though many originated as freight branches repurposed for passenger use post-deregulation or electrification initiatives.

Recent Developments (2000–Present)

In the , government-backed initiatives have driven several branch line reopenings to address capacity constraints and regional connectivity. The , a former freight and branch closed to passengers since the 1960s, resumed services on December 15, 2024, linking , Blyth, and with upgraded infrastructure including new stations and compatibility. Similarly, the Cowley Branch Line in , dormant for passenger use since 1963 and currently limited to freight to the plant, was approved for a £120 million restoration in October 2025, with services expected by 2029 to serve up to 340,000 annual passengers via two new stations at Littlemore and . In , the Treherbert branch, part of the Rhondda lines, underwent and signaling upgrades as part of the project, reopening fully to passengers in February 2024 after temporary closures for works. In the United States, freight-oriented revivals have emphasized short line operations and resource-specific branches amid ongoing deregulation effects from the 1980 . Norfolk Southern rehabilitated a 21-mile coal-hauling branch in Alabama's 3-B Corridor by May 2025, constructing new sidings, yard expansions, and track to resume service to mines previously idled. Since 2004, over 50 initiatives have restored or proposed rail access to small towns and cities, often converting abandoned branches to short line freight or commuter services, with economic analyses showing benefits in efficiency and local employment. Short line railroads, managing many surviving branches, have expanded operations, as evidenced by awards to operators like the Napoleon, Defiance & Western in 2023 for rehabilitating underutilized lines serving and manufacturing. Globally, resource-driven and heritage projects have sustained branch line activity. In the , sections of the historic , including branches from to completed in 1908, have been partially revived since the early 2000s for freight and pilgrimage , with investing in track rehabilitation and station restorations by 2025 despite geopolitical interruptions. In developing regions like , new branch extensions such as the Awash-Woldia line, operational since 2019, support agricultural exports and connect rural areas to main networks, reflecting a trend toward expansion in emerging economies. These developments contrast with continued abandonments in low-traffic areas but highlight branch lines' adaptability to niche demands like renewables and urban fringe commuting.

Regional Examples

Europe

Branch lines formed a critical component of 's railway networks during the 19th and early 20th centuries, extending main lines to serve rural areas, local industries, and secondary passenger routes. In the , expansion accelerated from the onward, with many such lines constructed to fill gaps in connectivity and support in underserved regions. These branches often operated as light railways under permissive legislation, enabling cost-effective construction for freight and sparse passenger traffic. followed a parallel trajectory, with early secondary lines emerging alongside trunk routes; France's to line, opened between 1830 and 1832 as the continent's first public passenger , exemplified how branches integrated into broader systems for goods and commuter transport. Post-World War II, Europe's branch lines faced existential challenges from rising automobile use, subsidized road infrastructure, and shifting freight patterns, leading to widespread rationalization. The experienced the most acute contraction through the Beeching Report of 1963, which targeted unprofitable routes and precipitated a dramatic increase in closures, eliminating thousands of miles of track and over 2,000 stations by the 1970s. In continental countries, state-owned networks like those in and pursued similar economies, though with less centralized severance; many lines closed gradually from , often repurposed for trails or military use during conflicts. Revivals have been sporadic but notable in recent decades, driven by , commuter demand, and policy shifts. , for example, restored passenger services on a southwest branch line serving the Luchon area in September 2025, utilizing bi-mode trains to enhance regional connectivity. Cross-border projects, such as the reactivation of elements around Spain's Canfranc station by 2020, underscore potential for and freight reuse, though full-scale reopenings remain constrained by costs and competing transport modes. These efforts contrast with ongoing closures, like the 33 km branch shuttered in August 2025 due to low patronage, highlighting persistent viability tensions. Overall, Europe's surviving branch lines now emphasize niche roles in and leisure, preserving fragments of a once-expansive secondary network.

United Kingdom

Branch lines proliferated in the during the as extensions from main lines to serve rural districts, collieries, quarries, and market towns, integral to the rapid expansion of the rail network authorized by parliamentary acts. By the early , these secondary routes comprised a substantial portion of the system, with light railways under the 1896 Act facilitating cheaper construction for low-traffic areas. The network peaked in extent around 1923 under the , which grouped companies into the "," but branch lines often operated at low volumes, subsidized by main line profits. Following in 1948 under British Railways, mounting deficits—exacerbated by competition from and post-war fuel costs—led to initial closures, but the 1963 Beeching Report, "The Reshaping of British Railways," accelerated the process by identifying unremunerative lines for elimination. The report targeted closure of about 5,000 miles of track (roughly one-third of the network) and 2,363 stations, with branch lines bearing the brunt due to their sparse passenger numbers and dependence on freight from declining industries like . Implementations from 1964 onward closed over 8,000 miles total by the 1970s, though protests saved select routes like the Settle-Carlisle line, retained for freight until partial passenger revival in 1986. Preservation efforts emerged concurrently, with volunteer groups rescuing segments for heritage operation; the Keighley and Worth Valley Railway, a 4.5-mile former and Yorkshire branch closed in 1962, reopened in 1968 as the first such preserved passenger line, now attracting over 200,000 visitors annually via steam traction. Similarly, the , originating as a 1920s branch to local industries and closed in 1958, became Europe's first preserved standard-gauge line in 1960, spanning 9 miles with operational vintage signaling. In the contemporary network, surviving or revived branches support commuter flows and logistics; examples include the 7-mile Stourbridge Town branch, electrified in 2018 for diesel-multiple-unit shuttles from the main line, serving 0.5 million passengers yearly. Recent initiatives counter Beeching-era losses, such as the 2025 reopening of the 2.5-mile Cowley Branch in —dormant since 1963—to link new residential areas with , funded by local growth charges and projected to carry 1,200 daily users by 2035. These restorations prioritize viability metrics like ridership forecasts over , reflecting ongoing tension between retention costs and alternative transport modes.

Continental Europe

Branch lines in expanded rapidly during the late 19th and early 20th centuries to connect rural areas, industrial sites, and smaller towns to main trunk routes, often under or departmental initiatives. In , the Plan Freycinet of 1879 authorized the construction of approximately 18,000 km of secondary lines, many of which were narrow-gauge or light railways known as chemins de fer d'intérêt , peaking the network at around 63,000 km by the early 20th century. Similarly, in , Nebenbahnen proliferated, with the total rail network reaching 52,900 km by the mid-20th century, including numerous branches serving and . developed a dense web of branch and mountain lines, totaling 5,300 km today, many operated by private companies to navigate alpine terrain. Post-World War II, branch lines faced severe decline due to rising automobile and usage, higher operational costs, and from subsidized , leading to widespread closures. dismantled thousands of secondary lines from onward, with the network shrinking dramatically by the as many were converted to paths or abandoned. In , over 5,400 km of lines, predominantly branches, were removed since , reducing the network to 39,900 km amid underinvestment and modal shift. The Netherlands and retained denser networks with fewer absolute closures, but secondary spurs similarly declined. Preservation efforts have focused on scenic or historically significant routes for and . In , the de la Baie de Somme, a former secondary line closed in 1963, was saved by volunteers in 1969 and now operates as a . maintains operational branch lines like those of the , supported by federal subsidies and status, emphasizing connectivity in remote areas. preserves select Nebenbahnen sections, such as narrow-gauge lines in , through associations amid broader network rehabilitation prioritizing main corridors. These revivals contrast with the EU's focus on high-speed and freight mainlines, where branch lines often serve niche freight or commuter roles if viable.

North America

Branch lines in proliferated during the 19th-century railroad expansion to link main lines with rural communities, farms, and industries, facilitating economic growth in and resource extraction. By the early , the network included thousands of miles of such secondary tracks, but competition from highways and trucking led to widespread abandonments, particularly after , with regulatory changes like the U.S. of 1980 enabling short-line operators to preserve or revive segments for local freight. In both the and , surviving branch lines primarily handle freight, with occasional heritage or commuter revivals.

United States

In the United States, early branch lines emerged alongside trunk lines, such as those extending from the Baltimore & Ohio Railroad chartered in 1827, to serve emerging industrial and agricultural demands. Rail companies like the Great Northern Railway constructed branches to access timber, mining, and farming regions, exemplified by lines built in the late 19th century to Spokane and . A notable contemporary example is the Norfolk Southern Railway's Mt. Holly Branch Line in , which operates short freight trains to industrial sites, as observed in 2017 operations crossing Ark Road in Mount Laurel. Revivals of abandoned branches have occurred for freight purposes, such as RJ Corman's reactivation of a historic line in , in 2018, restoring service after decades of disuse. Similarly, the Rumford Branch in saw restoration efforts by 2019, reopening segments abandoned since 1938 to support paper mills and local industry.

Canada

Canada's branch lines developed to connect population centers with the vast interior, particularly during the late 19th-century push to settle the prairies and exploit resources, with networks radiating from cities to farms and towns like spokes on a . The Canadian Pacific Railway, founded in 1881, built extensive branches to link eastern provinces with western frontiers, while the Canadian Northern Railway expanded lines from to , incorporating secondary tracks for local service by 1923. Government-led rationalization in the mid-20th century closed many uneconomic branches, but remnants persist for freight, such as those operated by Canadian National and Canadian Pacific serving remote and areas. Recent developments include limited revivals for commuter or tourist use, though freight remains dominant, reflecting the shift from passenger-oriented branches to specialized cargo routes.

United States

Branch lines in the United States emerged extensively during the 19th-century railroad boom, linking rural locales, farms, mines, and factories to trunk lines for transporting commodities like grain, coal, and timber. The network peaked at 254,251 route miles in 1916, with numerous secondary routes comprising a significant portion dedicated to local service. Post-World War II shifts toward motor transport prompted mass abandonments of low-traffic branches, shrinking the system to roughly 140,000 route miles by the late . The Rail Revitalization and Regulatory Reform Act of 1976 and the of 1980 eased regulatory barriers, enabling Class I carriers to divest marginal lines to independent operators rather than fully abandon them, thereby sustaining service on many routes. Contemporary freight branch lines, frequently managed by shortline railroads, handle essential local hauls including chemicals, aggregates, and intermodal transfers, with over 600 such operators covering 47,500 route miles—about 29% of the national network. These lines connect shippers to Class I mains, supporting industries in regions like the Northeast and Midwest; for instance, Norfolk Southern maintains branches such as the Mount Holly Industrial Track in for daily freight movements. In passenger service, commuter systems utilize branch lines radiating from central cities, exemplified by Metro-North Railroad's and Lines serving suburbs north of .

Canada

In Canada, branch lines historically extended from main trunk railways to serve sparsely populated agricultural regions, particularly in the Prairie provinces of Manitoba, Saskatchewan, and Alberta, where they facilitated grain shipments from farms to export ports. These secondary lines, often narrow spurs or short feeders operated by the Canadian National Railway (CN) and Canadian Pacific Railway (CP), expanded rapidly during the early 20th century amid westward settlement and wheat booms, forming radial networks from divisional points to local elevators and sidings. By the mid-20th century, thousands of kilometers of such lines supported rural economies but faced declining viability as truck competition grew and farm consolidation reduced loading volumes. Under the Canada Transportation Act (1996), specific grain-dependent branch lines received statutory protections against hasty abandonment, including revenue thresholds and mediation processes, to safeguard grain flows. operates several such lines listed in Schedule I, including the 32.5 km Miami Subdivision from to , (M 0.0 to M 2.0), and the Neepawa Subdivision serving western elevators; maintains analogous feeders in and for similar commodity traffic. These protections stem from federal recognition of branch lines' role in national , though operators must demonstrate unprofitability—defined as revenues below 25% of avoidable costs over three years—before discontinuation. Widespread abandonments occurred post-World War II, accelerated by the 1987 National Transportation Act, which eased regulatory barriers; in alone, the 1960 Robson Committee endorsed scrapping 845 km of high-cost branches deemed economically unsustainable amid subsidized grain transport rates. Shortline operators acquired some remnants for local freight, but many reverted to prairie trails, reflecting causal shifts from rail to road dominance in low-density . CN has pursued further rationalizations, filing in 2025 to discontinue segments of the former Railway (acquired 2004), including underused trackage north of Prince George due to negligible traffic. Contemporary operations emphasize efficiency over expansion, with grain branches retaining viability through unit-train protocols and export demand; CN reinstated a voluntary abandonment moratorium on western lines in March 2024 amid disputes over competitive access, underscoring ongoing tensions between operator autonomy and public-interest safeguards. Tourist heritage lines, such as short preserved spurs in and , occasionally repurpose abandoned alignments, but freight remains the core function for active branches.

Asia and Oceania

Key Examples in Asia

India's railway network, operated by , features extensive branch lines designed as feeders to main trunk routes, primarily to tap traffic from underdeveloped regions and support agricultural and industrial growth. These branches often serve rural areas with limited industrial activity, where competition from roadways has impacted viability, as seen in lines like the Ubl branch spanning agricultural zones. Examples include the Madhupur-Giridih branch under Eastern Railway, which connects to coal-rich areas, and the Andal-Sainthia line facilitating regional freight and passenger services. Historical expansions, such as the Ahmedabad-Khed section opened on May 1, 1897, highlight early efforts to extend connectivity into remote terrains. In , branch lines typically serve rural or suburban routes, often integrated into larger networks or operated by private entities facing patronage declines. The Sunahara Branch Line, part of the in , exemplifies a short rural with eight stations dedicated to local access. Similarly, the Tatsuno Branch Line on the Chuo Main Line in provides connectivity to six stations in mountainous areas, underscoring the role of such lines in serving isolated communities. These branches, like the Wakasa Railway's rural route into Tottori Prefecture's heartland, rely on modest infrastructure but contend with depopulation and automobile competition.

Examples in Oceania

New Zealand's rail system, managed by , includes a mix of main lines supplemented by branch lines primarily for freight to ports, industries, and rural districts, with many historical spurs now rationalized due to economic shifts. The comprises branches such as the Port Chalmers Branch (61 km), linking to its port facilities for containerized cargo, and the Gracefield Branch (73 km), supporting industrial operations near . Other examples include the Kapuni Branch (44 km) for resource extraction and the Castlecliff Branch, a short industrial spur from Wanganui totaling under 10 km. These lines, totaling part of the 4,000+ km , emphasize freight efficiency over passenger services in post-1950s consolidations. In , branch lines often branch from interstate trunks to serve agriculture, mining, and coastal , with examples reflecting colonial-era expansions. The Coleraine-Casterton line, a 51 km single-track from the Portland main line in opened in 1884, facilitated dairy and wool transport until later freight declines. The Emu Park branch, extending 47 km from on Queensland's North Coast line, provided access to seaside resorts and rural hinterlands starting in the late . Shorter tourist-oriented spurs, like the 1.9 km from Loftus in , opened for park access and exemplify niche passenger roles amid broader freight dominance. Geoscience maps document these as integral to the national infrastructure, though many face underutilization outside resource corridors.

Key Examples in Asia

The Darjeeling Himalayan Railway, constructed between 1879 and 1881 by the British, serves as a prominent example of an Asian branch line, diverging from the broad-gauge main line at New Jalpaiguri and ascending 2,000 meters over 88 kilometers of 610 mm narrow-gauge track featuring helical loops and reverse inclines to negotiate gradients up to 1:100 without rack assistance. This engineering innovation supported tea estate logistics and passenger access to Darjeeling's hill stations, with operations persisting amid electrification challenges and landslides; it was designated a in 1999 for pioneering economical mountain rail construction using adhesion alone. Complementing this, the , initiated in 1891 and fully operational by 1908, branches 46 kilometers from Mettupalayam on the plains to in the via a 1,000 mm gauge rack-assisted system employing Abt gearing to surmount 52.9 inclines across 208 curves and 16 tunnels. Designed for freight and commuter traffic in a tea- and coffee-producing region, it remains a diesel-hauled heritage route under management, underscoring early 20th-century adaptations for tropical terrain. The , engineered from 1898 to 1903, exemplifies another colonial-era branch, extending 96 kilometers from on the Delhi–Ambala main line to with 102 tunnels, 864 bridges, and zig-zag patterns to handle 5-kilometer elevation gains on 762 mm narrow gauge. Primarily for administrative and tourist transport to the British summer capital, its bar-lipped rail and stone-block viaducts highlight precision grading; recognition in 2008 affirmed its role in advancing lightweight mountain infrastructure. These Indian hill branches, collectively inscribed under UNESCO's serial site, represent Asia's most enduring heritage examples, preserving steam-era techniques amid modernization pressures, while broader networks in and prioritize integrated high-speed trunks over isolated spurs, with many rural branches consolidated post-1980s reforms for efficiency.

Examples in

In , the Brisbane Valley railway line served as a prominent branch line extending 166 kilometres from Wulkuraka (near ) to in , branching off the main -to-Toowoomba route. Opened in stages between 1912 and 1914, it was constructed primarily to transport timber from the resource-rich Valley, supporting logging operations and local freight needs. Passenger services operated until 1993, with full closure to rail traffic in 1998 amid declining usage from road competition; the corridor has since been repurposed as the Brisbane Valley for recreational use. Another example is the branch line in Queensland's region, which extended approximately 6.5 kilometres from Cottonvale to the Amiens soldier settlement area. Opened on 2 December 1920 by (later ) to facilitate post-World War I veteran farming, it handled agricultural produce like and dairy until closure in 1959 due to uneconomic volumes. The line exemplified government efforts to integrate returned servicemen into rural economies via rail access, though maintenance costs and road alternatives led to its abandonment. In , the Ngakawau-Seddonville branch line in the of the was developed exclusively for extraction, branching from the Main North Line at Ngakawau to serve the Stockton opencast . Constructed in the and extended progressively, it transported output vital to regional , with operations peaking during wartime demand but facing rationalization in the late ; the Seddonville extension closed in , reflecting broader branch line contractions from freight shifts to trucks. The Southbridge Branch in , extending 18 kilometres from Prebbleton, illustrates light rural service patterns. Opened in 1875 to link farming districts, it carried peak annual passengers of 34,000 in , supporting and haulage, but patronage fell sharply post-1930s , leading to closure in 1962 as automobile ownership rose and branch economics deteriorated. Such lines underscore New Zealand's historical reliance on for inland connectivity before streamlining reduced mileage from over 5,000 in the 1950s.

Other Regions

South America and Africa

In , branch lines have primarily facilitated for commodities like minerals and agricultural products, with some repurposed for amid widespread network contraction. Brazil's rail system features numerous secondary lines branching from main trunks to serve regional economies, such as those connected to the Leopoldina Railway's 1,918-mile network originating in . In , a narrow-gauge branch diverges from the Ollantaytambo station on the Cusco line to reach , spanning approximately 20 kilometers and handling tourist traffic exclusively since the 1990s revival. Argentina's historical branch lines, integral to its once-expansive network exceeding 40,000 kilometers by the mid-20th century, supported rural connectivity but underwent mass closures post-1990s , leaving remnants like the Esquel line for heritage operations. Africa's branch lines, largely legacies of colonial development, connect peripheral areas to main corridors for resource extraction, though underinvestment has led to deterioration and rationalization. South Africa's network encompassed 7,278 kilometers of branch lines by 1954, linking magisterial districts to ports and markets for agricultural and freight, but national operators have contemplated closures since the due to profitability demands and from roads. Examples include the Avontuur Railway, a 285-kilometer Cape gauge line built in 1918 for fruit exports from the Langkloof Valley, which operated until 2009 before partial tourist reuse. In West Africa, Ghana's early 20th-century branches extended 1901-1923 coastal lines inland to zones and , boosting production along routes by enabling labor mobility and market access. Broader patterns show colonial branches fostering , with rural populations and cultivation concentrating near lines due to efficiencies, as evidenced in econometric studies of pre-independence networks. Modern challenges persist, with sub-Saharan lines averaging fair-to-poor condition and limited expansion beyond mineral export spurs.

South America and Africa

In , branch lines proliferated alongside main trunk routes in the late 19th and early 20th centuries, primarily to transport agricultural exports and mining outputs in nations like and , where railways enabled the integration of vast interior regions with ports. 's network once extended over 46,000 kilometers, concentrated north of 40° south latitude, with numerous lightly constructed branches serving pampas grain, livestock, and sugar estates via narrow-gauge feeders. These lines, often single-track and in nature, supported commodity booms but declined post-1940s due to highway competition and nationalizations, leaving many abandoned or converted for , such as extensions from Esquel in Patagonia. In , branch lines radiated from central corridors like the São Paulo-Rio Grande do Sul axis, aiding and shipment, though freight prioritization over passengers mirrored continental patterns. In , branch lines emerged during colonial expansion after , linking resource-rich peripheries—especially mines and plantations—to coastal main lines, with South Africa's Cape gauge (1,067 mm) dominating designs for cost efficiency in rugged terrain. South African examples include the Richmond Branch and spurs from the Cape-Natal main line to and , which hauled timber, , and passengers until dominance eroded viability by the mid-20th century, resulting in widespread closures and "streaks of rust" across the . By the 2010s, faced pressures to shutter underused branches due to low profitability, though some mining feeders persisted for bulk commodities like coal and ore. Elsewhere, such as in former British , branches extended from the (meter gauge) to support settler farms and inland trade, but post-independence underinvestment limited revival.

References

  1. [1]
    BRANCH LINE | definition in the Cambridge English Dictionary
    BRANCH LINE meaning: 1. a railway that goes from the main railway to small towns and countryside areas 2. a railroad…. Learn more.
  2. [2]
    BRANCH LINE Definition & Meaning - Dictionary.com
    Branch line definition: a rail line, directly or indirectly connected with a main line, having its own stations and service.. See examples of BRANCH LINE ...
  3. [3]
    Railway: The Branch Lines - Newfoundland and Labrador Heritage
    From 1915-30 there were five branches in operation on the Avalon and Bonavista peninsulas, connecting historic population centres and linking with the coastal ...
  4. [4]
    The branch line problem in British railway history - Sage Journals
    The purpose of this short article is to advance our knowledge of branch-line economics by examining some unusually complete data in the North Eastern. Railway's ...
  5. [5]
    [PDF] T he History of BNSF: A Legacy for the 21st Century
    The oldest of the BNSF predecessors were both founded in 1849: the Aurora Branch Line (which would eventually grow into the. Chicago, Burlington & Quincy – CB&Q) ...<|separator|>
  6. [6]
    What Are Short Line Railroads and Why Do They Matter?
    Mar 24, 2020 · Short line railroads play an important part in supply chains, providing shippers a critical connection to the nation's rail network and allowing ...
  7. [7]
    Branch lines and equipped areas - RFI
    Industrial branch lines help to transport almost 70% of the total volume of goods transported by rail. Specific negotiated agreements and infrastructural and ...
  8. [8]
    Nuts & Bolts: How Short Lines Deliver First-and-Last Mile Transport
    Jun 30, 2020 · Short lines don't often operate over long distances, but they're a key component in the “first and last mile” of freight rail transportation.<|control11|><|separator|>
  9. [9]
    A Branch Line Exploration: The Impact of Railroads on Small Town ...
    May 1, 2025 · A branch line in the context of railroading refers to a secondary railway line that diverges from a main line, primarily serving smaller ...
  10. [10]
    Short Lines & Branch Lines Volume 1 - John Pechulis Media
    Their primary purpose is to link industries requiring rail transport and provide an important connection to transport goods to and from smaller communities.
  11. [11]
    CSX.com - Railroad Dictionary
    Branch Line, A rail line which serves one or more stations beyond the junction of the main line or another branch line. A feeder line which brings freight to ...
  12. [12]
    [PDF] DEFINITIONS AND ABBREVIATIONS - Tacoma Rail
    Branch Line - A line serving one or more stations beyond the point of junction with the main or another branch line. 100. Brass Hat - A railroad executive ...
  13. [13]
    Railway Transport - an overview | ScienceDirect Topics
    A branch line is a secondary railway line that branches off an important transport route determined using the main line. A very short branch line is called ...<|separator|>
  14. [14]
    IntelliTrans Rail 101: Chapter 3
    Apr 22, 2020 · First, a branch line is a secondary railway line which branches off a Main Line. ... A Rail Siding is track off the Main Line to marshal or hold ...
  15. [15]
    History of rail - Railway 200
    This timeline includes the historic moment when, on 27 September 1825, George Stephenson's steam-powered Locomotion No. 1 travelled 26 miles between Shildon, ...
  16. [16]
    [PDF] The development of the railway network in Britain 1825-19111 Leigh ...
    This chapter describes the development of the British railway network during the nineteenth century and indicates some of its effects. It is intended to be a ...
  17. [17]
    Legend and legacy: 175 years of BNSF and counting - BNSF Railway
    Feb 12, 2024 · It was 175 years ago today, February 12, 1849, that the Illinois General Assembly chartered the Aurora Branch Railroad, a six-mile-long track between Batavia, ...<|separator|>
  18. [18]
    Railroads In The Gilded Age (1880s) - American-Rails.com
    Aug 22, 2024 · Railroads in the 1880s saw the country's rail network push past 100000 miles, heavier trains, and further growth in the western states.
  19. [19]
    Railroads In The 20th Century (1900s): Facts, Statistics, History
    Oct 27, 2024 · By 1900, the country's total rail mileage had increased to 193,346, from 163,597 in 1890. It would continue to grow for another decade before ...<|separator|>
  20. [20]
    Chronology of America's Freight Railroads | AAR
    During these years, the rail network will grow from 35,000 miles to a peak of around 254,000 miles in 1916.Missing: 1880-1950 | Show results with:1880-1950
  21. [21]
    Light Railways Act 1896 - Legislation.gov.uk
    Where a company have power to construct or work a railway, they may be authorised by an order under this Act to construct and work or to work the railway or any ...Missing: branch expansion
  22. [22]
    Light Railways in Britain - Mid-Suffolk Light Railway Museum
    Nov 11, 2020 · This Act allowed local people to promote railway lines in areas where the existing railway companies were not interested. In particular: Plans ...Missing: expansion | Show results with:expansion
  23. [23]
    European integration and national models for railway networks ...
    Aug 7, 2025 · About 70% of the railway lines operating today in Europe already existed in 1900 (Martí-Henneberg, 2013) .
  24. [24]
    Early Twentieth Century Railroads - History | HowStuffWorks
    Early 20th-century railroads saw major improvements in safety and comfort, as well as new regulations. Learn more about railroads in the early 1900s.
  25. [25]
    conversion of branch lines0 to light railways - API Parliament UK
    I believe that, to a certain extent, the Ministry of Transport appear to have forgotten the powers that they have under the old 1896 Light Railways Act. This is ...
  26. [26]
    Railroads in the Late 19th Century - Library of Congress
    By 1900, much of the nation's railroad system was in place. The railroad opened the way for the settlement of the West, provided new economic opportunities.
  27. [27]
    Modern Decline of Railroads - History | HowStuffWorks
    Between 1945 and 1964, non-commuter rail passenger travel declined an incredible 84 percent, as just about every American who could afford it climbed into his ...
  28. [28]
    Rail Travel's Decline (USA): 1950s-1970s - American-Rails.com
    Sep 6, 2024 · Between an 18-year span following the year after World War II, 1946, passenger traffic declined from 770 million to 298 million by 1964. · By the ...
  29. [29]
    27 | 1963: The end of the line - BBC ON THIS DAY
    British Rail was losing £140m a year when Dr Beeching took over the commission. His solution, announced on 27 March 1963, was equally straightforward - massive ...
  30. [30]
    Did Dr Beeching get it wrong with his railway cuts 50 years ago? - BBC
    Mar 27, 2013 · But he added: "The real instigators of rail closures were civil servants trying to work out how you adapt a country that was built around the ...
  31. [31]
    [PDF] Railway Track Design: A Review of Current Practice
    This paper reviews current railway track design practices, focusing on rails, sleepers, and ballast, and examines design methodology.
  32. [32]
    Different Types of Railway Tracks: 4 perspectives - Adortech
    Sep 10, 2024 · The speed limits can be lower on the branch line tracks, and they may be single tracks, where trains must take turns using the line. However, ...Missing: features | Show results with:features
  33. [33]
    [PDF] Montana Branch Line Study
    Jun 23, 2004 · Rail weight is normally expressed in “pounds”, which means pounds ... Branch line abandonment is both a cause and a symptom of rural ...<|separator|>
  34. [34]
    Electric Token Block - Railway Signs and Signals
    Electric Token Block is a method of working for single lines that overcomes the inflexibility inherent in the more primitive systems such as Train Staff and ...
  35. [35]
    Introduction to Single Line Block Working - TrainWeb.org
    Jun 5, 2020 · In 1912 GWR engineers Blackall and Jacobs invented the Electric Key Token (EKT) system and thereafter the GWR used EKT for new work and the ...
  36. [36]
    https://www.railsigns.uk/info/retb1.html
  37. [37]
    Railroad Track Maintenance Best Practices - R&S Track, Inc.
    Jul 19, 2023 · Best practices include regular inspections, track cleaning, rail grinding/welding, routine maintenance, and weather-related considerations for ...<|separator|>
  38. [38]
    6 Types of Railway Maintenance | All types explained - Adortech
    Aug 23, 2024 · It will include major repairs such as rail replacement, signal work, and rolling stock repair. This would make remedial maintenance procedures ...
  39. [39]
    Track classifications | Trains Magazine
    Jul 18, 2023 · Class 3: 40 mph for freight, 60 mph for passenger. This commonly includes regional railroads and Class 1 secondary main lines. Examples are BNSF ...
  40. [40]
    Working single lines with or without a train staff or token - RSSB
    Rule Book module GERT8000-TW6 sets out the requirements for drivers who work over lines signalled by the following systems: one-train working where a train ...Missing: branch | Show results with:branch
  41. [41]
    [PDF] Railroad Workplace Safety Compliance Manual
    333.01 Informational line-ups of trains used for on-track safety where prohibited. 333.03 Informational line-up procedures inadequate to protect roadway workers.
  42. [42]
    Freight Rail Overview | FRA - Federal Railroad Administration
    Feb 24, 2025 · Heavy freight such as coal, lumber, ore, and heavy freight going long distances are likely to travel by rail, or some combination of truck ...
  43. [43]
    [PDF] Chapter 2: The Importance of Freight Transportation to Agriculture
    US agriculture is increasingly dependent on transportation, moving products by truck, rail, and barge, and is the largest user of freight transportation.
  44. [44]
    Freight Rail & Agriculture | AAR - Association of American Railroads
    Rail plays a critical role in national food security, safely transporting essential products like wheat, soybeans, corn, animal feed, corn syrup, frozen ...
  45. [45]
    What happened to U.S. passenger rail? - Transportation For America
    May 22, 2024 · In most of the country, passenger service decreased from 7 days per week to only 3 days per week and some routes were permanently eliminated.
  46. [46]
    6.4 – Rail Terminals | The Geography of Transport Systems
    Their capacity is a function of the number of track spurs available, which is a characteristic difficult to change once the terminal has been built.
  47. [47]
    [PDF] Minnesota Statewide Historic Railroads Study Final MPDF - Section ...
    Spurs served industries in the Park Junction industrial district south of Como ... in tracts near the industrial zones centered on railroad lines; for example,.
  48. [48]
    Railroads and Rural Industrialization: evidence from a Historical ...
    These findings suggest that investments in transportation networks can spur industrial development and that the railroad is an important factor to account ...Missing: definition examples
  49. [49]
    Industrial Sprawl - Home Signal
    Dec 25, 2020 · Before 1920, about seventy percent of industrial properties in northern New Jersey were built with rail spurs. These plants were those of an ...
  50. [50]
    Chapter 3 - Detailed Case Studies - The National Academies Press
    Direct benefits include employment opportunities in rail and rail-related industries ... rail spurs or other rail infrastructure, and passenger rail facilities.
  51. [51]
    Freight Rail Operations 101 | AAR - Association of American Railroads
    Centerbeam Cars: Specialized flatcars used for lumber, drywall, and other building materials. Freight Rail Wheelsets & Couplers. A freight train truck (also ...
  52. [52]
    EV railway spur could create jobs, snarl traffic - Queen Creek Tribune
    Jun 20, 2023 · The rail spur, paid for by Union Pacific, would run through what is mostly agricultural land now but soon to become home to several large ...
  53. [53]
    Rail-Served Industrial Sites: Challenges and Solutions
    Sep 14, 2023 · Rail spurs provide the flexibility for businesses to receive raw materials and ship finished products directly by rail, streamlining operations ...
  54. [54]
    [PDF] POB Industrial Rail Spur Rail Maintenance Cost Study C2024-12
    Sep 13, 2021 · Based upon observations made, measurement data, research studies, and interviews, it is evident that the POB's rail infrastructure is in a state ...
  55. [55]
    Beeching report - New Civil Engineer
    Nov 11, 1999 · Beeching argued that increasing the fares to a more economic level would simply drive traffic away from the railway. Similarly, halving the ...
  56. [56]
    What is the primary cause of RR abandonment in America? - Trainz
    Apr 23, 2018 · Primary causes of RR abandonment include high maintenance costs, the need for someone to pay for the line, and management favoring through ...
  57. [57]
    [PDF] Reversing the Beeching Closures: Full Steam Ahead? - UK Parliament
    Feb 6, 2020 · This report, entitled The · Reshaping of British Railways, earmarked 2,363 stations and 5,000 miles of track for closure. •. The name of the ...
  58. [58]
    Beeching: Railway vandal or visionary? - BBC News
    Jun 7, 2013 · Scores of branch lines closed during the rest of the 1960s and afterwards. Interviewed for a night of programmes to commemorate the report's ...
  59. [59]
    End of the Line: British railway closures from 1948 to Beeching
    Sep 8, 2022 · End of the Line chronologically traces the history of 467 long forgotten railway lines, region by region, from their opening to closure and in a few cases to ...
  60. [60]
    The spatial impacts of a massive rail disinvestment program
    A 10% loss in rail access caused a 3% population decline, reduced jobs, and primarily affected rural communities with station closures.
  61. [61]
    Abandoned Railroads: Industrial Decline (1960s-1970s)
    Statistics ; Market Share (Passenger Travel). 7.5% (1970) ; Excess Trackage. 15,575 Miles Between Washington, D.C. - St. Louis (per Orange Line Report, 1974) ...Missing: branch | Show results with:branch
  62. [62]
    [PDF] Abandoned Railroad Inventory and Policy Plan
    This plan includes an inventory of abandoned railroad rights-of-way, recommendations for notification, goals for preservation, and reuse alternatives.
  63. [63]
    [PDF] Deferred Maintenance and Delayed Capital Improvements on Class ...
    Passage of the Staggers Act in 1980 created new options for communities and shippers to purchase or support rail lines identified as candidates for abandonment ...
  64. [64]
    Heritage Railways Throughout the UK - ACP Rail
    Heritage railways are abandoned rail lines that have been brought back to life by dedicated cadres of volunteers and professional staff as tourist railroads.
  65. [65]
    Minor and heritage railways | Office of Rail and Road - ORR
    Minor and heritage railways are 'lines of local interest', museum railways or tourist railways that preserve, recreate or simulate railways of the past.
  66. [66]
    The Guardian view on heritage railways: where the British ...
    Aug 27, 2024 · Up to 95% of the 18.5m journeys on heritage railways each year are taken by domestic tourists. They owe their popularity to a combination of ...
  67. [67]
    Tourist Railroading is Real Railroading - Railfan & Railroad Magazine
    Jul 15, 2024 · Numerous other branch lines around the country have been revived as tourist haulers, including East Troy Railroad Museum in Wisconsin, North ...
  68. [68]
    How Heritage Railways Preserve History - Strasburg Rail Road
    Dec 7, 2022 · A heritage railway is a historic railroad that has been preserved to recreate railway scenes of the past. Unlike commercial railways which exist ...Missing: branch | Show results with:branch
  69. [69]
    The Short Line and Regional Railroad Industry - ASLRRA
    The nation's 603 short lines provide service for one in five cars moving each year. Operating 47,500 route miles, or 29% of freight rail in the U.S., these ...
  70. [70]
    The Modern Short Line Industry - ASLRRA
    Together, the industry is tied to 478,000 jobs nationwide, $26.1 billion in labor income and $56.2 billion in economic value-add. Approximately 10,000 ...
  71. [71]
    File:NS Mt Holly Branch Line at Mt Laurel.jpg - Wikimedia Commons
    Dec 7, 2017 · DescriptionNS Mt Holly Branch Line at Mt Laurel.jpg. English: A Norfolk Southern GP40-2 3026 (ex Conrail Blue) pulls a short freight train ...
  72. [72]
    Why is freight rail mode share so low in large western European ...
    May 8, 2024 · Latvia Estonia, Austria, Sweden and Lithuania topped the list within the EU, while Switzerland fell just under Estonia in terms of modal share.Map of current and future high-speed rail in Europe - Redditr/MapPorn - Europe Freight Railway vs. United States ... - RedditMore results from www.reddit.com
  73. [73]
    Bold moves to boost European rail freight - McKinsey
    Jan 21, 2022 · For example, the new Gotthard Tunnel allows for longer and heavier trains thereby reducing costs. Swiss Railways expects this intervention to ...Missing: branch modern<|separator|>
  74. [74]
    Ukraine opens its first railway line with European track width ...
    Sep 6, 2025 · The new 22 km, 1 435 mm gauge line connects the western Ukrainian cities of Uzhhorod and Chop, facilitating freight and passenger rail ...
  75. [75]
    Branch line - Wikipedia
    A branch line is a secondary railway line which branches off a more important through route, usually a main line. A very short branch line may be called a ...Industrial spur · Around the world · North America · Asia
  76. [76]
    More on American Incuriosity, New York Regional Rail Edition, Part 1
    Aug 7, 2024 · The RER and Transilien are, together, the largest commuter rail network in Europe by ridership, with around 1.1 billion annual riders.
  77. [77]
    [PDF] COMMUTER RAIL (SUBURBAN RAIL, REGIONAL RAIL) IN THE ...
    Commuter rail, which uses conventional trains on regional freight rail lines is being proposed in a number of areas as a strategy for diverting travel demand ...
  78. [78]
    Northumberland Line to reopen to passengers on 15 December - BBC
    Dec 2, 2024 · Passenger trains will begin running on a railway for the first time in 60 years on the 15 December, it has been confirmed.<|control11|><|separator|>
  79. [79]
    https://www.newcivilengineer.com/latest/treherbert-railway-upgrade-scheme-heads-for-february-opening-21-12-2023/
  80. [80]
    Upgraded Treherbert railway scheduled for February reopening
    Dec 21, 2023 · The Treherbert railway line will reopen to passengers in February 2024, following its overhaul as part of the South Wales Metro project.
  81. [81]
    Norfolk Southern revives Alabama coal branch - Trains Magazine
    May 8, 2025 · The 3-B Corridor improvements involve building 21 miles of new track, including passing siding projects and expansion of the yard in Wilton, Ala ...
  82. [82]
    Railway Age's 2023 Short Line and Regional Railroads of the Year
    Feb 10, 2023 · Railway Age is pleased to announce the Napoleon, Defiance & Western Railroad (NDW) as its Short Line Railroad of the Year, and ArcelorMittal Infrastructure ...
  83. [83]
    The Unlikely Revival Of A Great Middle Eastern Railroad - NOEMA
    Mar 12, 2025 · The main line from Damascus to Saudi Arabia was completed in 1908. By 1914, a side branch connected Damascus to Haifa via Daraa, bypassing the ...
  84. [84]
    Projects A-Z - Railway Technology
    The Awash Woldia/Hara Gebeya Railway Project is a new railway line being constructed between Awash and Woldia, Ethiopia. B. Bahn 2000. In the 1980s, rail ...
  85. [85]
    Railways and Stations - Sembleue – Memories of France
    From 1830 to 1832, the line from Saint-Étienne to Lyon was opened, for goods and passengers, becoming the first passengers line of continental Europe. In ...
  86. [86]
    Off track: New life for abandoned railways - Hidden Europe
    The wholesale closure of railway lines in some parts of Europe in the 1960s and 1970s has created an unexpected legacy: a network of green corridors.
  87. [87]
    Branch line revival in SW France - RailwayWorld.net
    Sep 4, 2025 · Alstom Régiolis bi-mode unit 83523 approaches the former Saléchan station on 2 September 2025 with the 09.36 Luchon-Montréjeau service.Missing: examples | Show results with:examples
  88. [88]
    Abandoned Canfranc station in Europe is set for a major revival
    Apr 15, 2020 · Work is underway on breathing new life into the abandoned Canfranc International Station with plans to open a new line.
  89. [89]
    Death of a French branch line - RailwayWorld.net
    Mar 28, 2025 · 31 August 2025 will see closure of a scenic 33km (21-mile) branch line in the Nouvelle-Aquitaine region of Central France that runs from a junction station at ...<|separator|>
  90. [90]
    Railways in early nineteenth century Britain - UK Parliament
    The first purpose built passenger railway, the Liverpool and Manchester Railway, was authorised by Act of Parliament in 1826.
  91. [91]
    Our history - Network Rail
    The railway was invented in Britain. From sleepers to stations, every part of our infrastructure has a story to tell. Today's railway represents 200 years ...Missing: United | Show results with:United
  92. [92]
    Did Dr Beeching get it wrong with his railway cuts 50 years ago? - BBC
    Mar 27, 2013 · The Beeching report recommended taking an axe to about a third of the network - 5,000 miles of track, including hundreds of branch lines, 2,363 ...
  93. [93]
    Heritage railways: five of my favourite preserved railway lines
    May 29, 2020 · The Sóller railway is operated as a heritage line, and still uses the historic wooden locomotives and carriages. The section between Sóller ...
  94. [94]
    The rise of railway preservation in Britain | The Heritage Portal
    Sep 25, 2024 · Perhaps it is only a pipe dream but stranger things have happened and the preservation movement is full of examples of disused lines being re- ...
  95. [95]
    Our routes - Network Rail
    The five Network Rail regions are Eastern, North West & Central, Scotland's Railway, Southern and Wales & Western. These five regions were formed in June 2019 ...Missing: branch | Show results with:branch
  96. [96]
    http://frenchrailwayssociety.org/history/1000
  97. [97]
    History » French Railways Society
    Two government decisions, the Loi Migneret of 1865 and the Plan Freycinet of 1879, opened up the way for a network of secondary railways – both standard and ...
  98. [98]
    The Rise & Fall of National Rail Networks - Maps Mania
    Nov 16, 2023 · The result is that the German rail network now has around 39,900 km of lines, down from the 52,900 km of rail-lines it had from 1940-1970. ...
  99. [99]
    A nation of railway enthusiasts: a history of the Swiss railways
    Jul 13, 2025 · With around 5,300 kilometres of railway lines, Switzerland has one of the most extensive railway networks in Europe. But why does this small, ...Missing: branch | Show results with:branch
  100. [100]
    The Rise & Fall Of French Railways 1837 - 2025 - Brilliant Maps
    Sep 2, 2025 · Thousands of secondary lines closed (particularly the chemins de fer d'intérêt local). From the peak (~63,000 km), the network fell to ...Missing: secondaires history
  101. [101]
    Delayed trains, obsolete N-network: Germany's rail crisis - Hourrail
    Jul 3, 2025 · Since 1994, over 5,400 km of railway lines have been removed, nearly one-sixth of the network, falling from approximately 44,600 km in 1994 to ...Missing: branch preservation
  102. [102]
    Rail travel in the Netherlands – Travel guide at Wikivoyage
    Practically everywhere is reachable by train, having a network consisting of 3,434 kilometres (2,134 miles) of lines.
  103. [103]
    Chemin de fer de la Baie de Somme - Wikipedia
    Local opposition to the closure of the line to Le Crotoy was strong, and a preservation group was formed on 13 November 1969, initially under the name of ...
  104. [104]
    [PDF] Preservation in Switzerland. Part 2, The Schinznacher ... - E-Periodica
    Swiss express : the Swiss Railways Society journal. Herausgeber: Swiss Railways Society. Band: 6 (2000-2002). Heft: 1. Artikel: Preservation in Switzerland ...
  105. [105]
    The Future of Heritage Railways and Rail Conservation in Germany
    But the future of the Wolsztyn experience is far from secure. The Saxon narrow-gauge lines in eastern Germany remain more or less unchanged since before WWII.Missing: decline | Show results with:decline
  106. [106]
    The State of the EU's Rail Infrastructure - Transport & Environment
    Jun 24, 2025 · This report identifies six priority areas for investment that can unlock a more reliable, connected, and competitive EU rail system. They are ...Missing: decline branch<|control11|><|separator|>
  107. [107]
    [PDF] Canadian Rail - Exporail
    Almost everyone lived on the farm or in small towns, with railway branch lines radiating out of the few cities like spokes in a wheel, linking the farms and ...
  108. [108]
    Great Northern History - GNRHS
    Great Northern and the Northern Pacific in 1905 formed the Spokane, Portland & Seattle Railway Company, which built a line between Spokane and Portland. ...
  109. [109]
    Abandoned Railroad Coming Back To Life! RJ Corman ... - YouTube
    Sep 14, 2018 · RJ Corman Railroad is reactivating an historic Myrtle Beach, South Carolina abandoned railway branch line! South Carolina trains will return ...
  110. [110]
    Rumford Branch Revival - Railfan & Railroad Magazine
    Jul 19, 2019 · The portion west of Leeds Junction to Crowleys Junction in Lewiston was abandoned in 1938. The line from Livermore Falls to Farmington fared ...
  111. [111]
    brief history - Connecting Canada
    On October 21, 1880 a group of Scottish Canadian businessmen finally formed a viable syndicate to build a transcontinental railway. The Canadian Pacific Railway ...
  112. [112]
    Canadian National Railway - Toronto Railway Historical Association
    The Hudson Bay Railway was formed by the Canadian government in 1910 to finish an uncompleted section of the Canadian Northern Railway. The latter built a line ...
  113. [113]
    Railway History | The Canadian Encyclopedia
    The St Lawrence and Atlantic Railroad was chartered to build a line between Montréal and Portland, Maine, giving Montréal year-round access to the Atlantic.
  114. [114]
    Canada's Connection to the Railway - Railfan & Railroad Magazine
    examples such as Pacific Great Eastern ( ...
  115. [115]
    [PDF] A Short History of U.S. Freight Railroads
    Since their birth nearly 190 years ago, railroads have played a crucial role in America's development. They grew rapidly in the decades up to World War I.Missing: branch statistics
  116. [116]
    Rail Line Abandonment - The Encyclopedia of Saskatchewan
    The federal government set up the Robson Committee, which gave permission to the railways to abandon all 525 miles (845 km) of high-cost branch lines. The ...<|separator|>
  117. [117]
    Exhibit 4: CN grain dependent branch lines
    Aug 11, 2021 · Exhibit 4: CN grain dependent branch lines - Schedule 1 of the Canada Transportation Act ; Miami, Morris (M 0.0), Morris (M 2.0) ; Neepawa, End of ...Missing: notable | Show results with:notable
  118. [118]
    Grain Dependent Branch Lines | Canadian Transportation Agency
    Mar 11, 2016 · The following description of the process used in determining whether a branch line was classified as a Grain Dependent Branch Line provides an ...Missing: notable | Show results with:notable<|separator|>
  119. [119]
    CN Considers Abandoning BC Rail Main
    Jul 23, 2025 · Canadian National is considering discontinuing service on portions of the former British Columbia Railway.
  120. [120]
    CN continues to combat open access on its western Canadian grain ...
    Apr 2, 2024 · Canadian National Railway Co. on March 29 re-instituted an abandonment moratorium on western Canada grain-dependent branch lines.
  121. [121]
    Indian Railways Portal
    Trunk lines were to be supported by feeders or branch lines to develop the railway network and were to be laid in areas where they could tap the most ...
  122. [122]
    [PDF] 1. Name of the Branch Line - East Central Railway
    The area served by the branch is essentially agricultural and lacks in industrial activity. Due to presence of roadways traffic gets diverted to road making.
  123. [123]
    Operating - Eastern Railway
    The territorial jurisdiction of the division also extends over branch lines such as Andal - Sainthia, Madhupur - Giridih, Jasidih- Baidyanathdham, Jasidih ...
  124. [124]
    [PDF] (i) WESTERN RAILWAY BROAD GAUGE (1 676 METRES)
    Branch Lines-. Sawai Madhopur-Loharu Section-. Sawai Madhopur to Nawai. 17-10 ... Branch Lines-. Ahmedabad-Khed Brahma Section-. Ahmedabad to Talod. 1-5-1897.
  125. [125]
    JR Hakodate Main Line (Sunahara Branch Line)
    The JR Hakodate Main Line (Sunahara Branch Line) is a railroad line in the Hokkaido, Japan. You can check the list of all 8 stations on the JR Hakodate Main ...
  126. [126]
    JR Chuo Main Line (Tatsuno Branch Line) | Japan Travel by ...
    The JR Chuo Main Line (Tatsuno Branch Line) is a railroad line in the Nagano, Japan. You can check the list of all 6 stations on the JR Chuo Main Line ...
  127. [127]
    Fascinating branch line railway trip into the rural heartland of Japan
    Rating 5.0 · Review by 636gilbertmWakasa Railway: Fascinating branch line railway trip into the rural heartland of Japan - See 23 traveler reviews, 97 candid photos, and great deals for ...
  128. [128]
    NZ Railway Network - KiwiRail
    NZ Railway Network ; Port Chalmers Branch, 61 ; Marton - New Plymouth Line, 41 ; Gracefield Branch, 73 ; Kapuni Branch, 44 ...
  129. [129]
    [PDF] Railway Infrastructure Information - Shield - KiwiRail
    Sep 11, 2025 · Branch Lines. Code. From. To. Length km. Castlecliff Branch. CIL. Wanganui ... Marton – New Plymouth Line. 0.0. Marton Junction Pts. 20.90.
  130. [130]
    Our network | KiwiRail
    We maintain the national rail network to create stronger connections for a better New Zealand. It's a 24/7 operation to keep the network running smoothly.Digital engineering · Rail operating rules · Funding our network · Our regions
  131. [131]
    Coleraine and Casterton Railway Lines - YouTube
    Dec 16, 2024 · ... Line, a 51-kilometre single-track branch from the Portland Main Line in Victoria, Australia, opened in 1884. It ran from Branxholme to ...
  132. [132]
    Historic Railway Stations of Rockhampton, Queensland
    Apr 15, 2021 · A 47 kilometres-long branch line of the North Coast railway line, it gave Rockhampton residents easy access to the seaside and rural districts.<|control11|><|separator|>
  133. [133]
    The Royal National Park Line - The Dictionary of Sydney
    Railways. Royal National Park railway line. Short 1.9km branch line between Loftus railway station and the Royal National Park railway station that opened in ...
  134. [134]
    Railway Lines | Digital Atlas of Australia
    Jun 7, 2021 · Foundation Rail Infrastructure contains line features for railways, sidings and tramline features, maintained by Geoscience Australia.
  135. [135]
    Mountain Railways of India - UNESCO World Heritage Centre
    This site includes three railways. The Darjeeling Himalayan Railway was the first, and is still the most outstanding, example of a hill passenger railway.
  136. [136]
    About Brisbane Valley Rail Trail - Transport and Main Roads
    The Brisbane Valley railway line was a branch line from the Brisbane-Toowoomba railway line designed to access timber resources from the Brisbane River Valley.
  137. [137]
    Amiens Branch Line - Monument Australia
    The plaque commemorates the Amiens railway branch line which went from Cottonvale to the Amiens soldier settlement area. It was opened in 1920 by Prince ...
  138. [138]
    Railways - NZ History
    New Zealand Railways promoted rail. Page 2 - Day excursions. From the ... The Ngakawau-Seddonville branch line was built solely for the transport of ...<|separator|>
  139. [139]
    Southbridge Branch Railway - Selwyn Stories
    After the war the timetable returned to normal. Around 1900 13,446 passengers per year carried on the branch line. Passenger numbers peaked at 34,000 in 1926, ...
  140. [140]
    Railways | Te Ara Encyclopedia of New Zealand
    The main line between Christchurch and Dunedin, for example, had 74 stations, as well as nine rural branch lines serving inland districts. By 2004 New Zealand' ...
  141. [141]
    Main Lines of Brazil - Railway Wonders of the World
    The Leopoldina Railway, the headquarters of which are in Rio de Janeiro, is one of the most interesting lines in South America. It operates 1,918 miles of ...
  142. [142]
    Train to Machu Picchu - Ollantaytambo - Cusco | PeruRail
    Book your train tickets to Machu Picchu, Cusco, Puno and Arequipa with PeruRail. Several departure times, deals and more, click here!Hiram Bingham Train · History, Maps, Tickets | PeruRail · Cusco City · Train ServicesMissing: branch | Show results with:branch
  143. [143]
    South American railroads and intermodal: Business models in battle
    Oct 9, 2023 · A perfect but grotesque example occurred in this millennium with a two-kilometer-long tram from nowhere to nowhere in Puerto Madero, city of ...
  144. [144]
    An Unusual 1954 Railway Map of South Africa | The Heritage Portal
    May 9, 2022 · It comprises 12 801km of national network, 7 278km of branch lines and 2 228km of narrow gauge urban network, as well as 80km of standard gauge ...
  145. [145]
    [PDF] REVITALISATION OF BRANCH LINES IN SOUTH AFRICA
    South Africa's national railway management is considering the further closing of a number of branch lines due to profitability pressures from stakeholders.
  146. [146]
    [PDF] Modern Infrastructure, Agriculture and Development in Ghana
    Two railway lines were built between 1901 and 1923 to connect the coast to mining areas and the large hinterland city of Kumasi. This unintendedly opened vast.Missing: branch examples
  147. [147]
    How colonial railroads defined Africa's economic geography - CEPR
    Mar 2, 2017 · The rural population increased along the railway lines because cocoa cultivation required more labour, thus creating villages. In turn ...
  148. [148]
    The landscape of the railway sector in Africa - Alg Global
    Oct 2, 2023 · As shown in the following image, the majority of railway lines in Sub-Saharan Africa are in fair to poor condition, with notable exceptions ...Missing: branch | Show results with:branch
  149. [149]
    Railroads of Central and Southern Africa - UtahRails.net
    Most of the colonial rail lines were built in Africa during the "scramble for Africa" that took place after the Berlin Conference of 1885.
  150. [150]
    Soul of A Railway - Part 8: Richmond Branch and the Cape-Natal
    We'll journey down the tortuous Cape-Natal from Maritzburg to Franklin including the branches to Kokstad, Matatiele and Donnybrook-Underberg.
  151. [151]
    https://rogerfarnworth.com/2023/04/15/british-east-africa/
  152. [152]
    [PDF] Railway Country 150 Years of Rail in South Africa
    Rail was essential for South Africa's interior development, starting with the Natal Line in 1860. The Cape gauge was adopted in 1873, and the Cape Government  ...<|control11|><|separator|>
  153. [153]
    Railways in Colonial Times in what was known as 'British East Africa ...
    Apr 15, 2023 · “In 1926, the name of the railway was changed from the Uganda Railway to the Kenya and Uganda Railway, and at the end of that year 1,128 miles ...<|separator|>