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Pacific Ranges

The Pacific Ranges are a prominent subrange of the in southwestern , , forming the southernmost section of this major cordilleran system and extending approximately 500 kilometers from the near in the south to the Bella Coola River and Burke Channel in the north. Characterized by high, irregular, steeply sloping terrain dissected by deep valleys, fjords, and inlets, the ranges rise from to elevations exceeding 4,000 meters, with Mount Waddington at 4,019 meters serving as the highest peak and a central feature of the remote Waddington Range. Geologically, the Pacific Ranges consist primarily of ancient crystalline gneisses and granitic intrusions, shaped by tectonic forces within the broader Pacific Mountain System that spans the North American Cordillera. Ecologically, they support three distinct vertical zones: coastal forests dominated by western hemlock and amabilis fir up to about 900 meters, subalpine forests of mountain hemlock and yellow-cedar between 900 and 1,800 meters, and alpine tundra above 1,800 meters, fostering high biodiversity including black-tailed deer, grizzly and black bears, mountain goats, wolves, and diverse bird species. The region's wet maritime climate, with annual precipitation ranging from 1,500 to 3,400 millimeters and mild temperatures averaging 6.5°C yearly, sustains extensive glaciers and icefields that feed major rivers like the Fraser and contribute to hydroelectric resources. Significant portions are protected within provincial parks such as Garibaldi, Tweedsmuir, and the South Chilcotin Mountains, supporting tourism, recreation, and conservation efforts amid ongoing forestry and energy development. Communities including Squamish, Whistler, Pemberton, and Bella Coola, with a regional population of approximately 49,000 as of 2025, rely on the ranges for economic and cultural sustenance, particularly among Indigenous groups like the St'át'imc and Nuxalk peoples.

Geography

Location and Boundaries

The Pacific Ranges form the southernmost subdivision of the within the , located entirely in , . This region encompasses a vast area of approximately 108,237 km², characterized by rugged terrain that serves as a along the . The ranges are positioned roughly between 50° and 52° N and 122° to 127° W , spanning from coastal fjords and islands in the west to high plateaus in the east. The northern boundary of the Pacific Ranges is defined by the divide with the Kitimat Ranges, generally following the Bella Coola River and Burke Channel, marking the transition from the more northern coastal segments of the Coast Mountains. To the south, the boundary aligns with the Canada-United States international border, near the Skagit River, where the ranges connect seamlessly with the North Cascades in Washington state. The eastern limit follows the principal divide of the Coast Mountains with the Interior Plateau, delineated by the Fraser Plateau from the Atnarko River northward and by the Yalakom River and Fraser River canyons southward, separating the granitic highlands from the more subdued volcanic plateaus. The western boundary traces the Pacific Ocean coastline, incorporating fjords, channels, and islands from Bella Coola southward through areas like the Strait of Georgia and Howe Sound, bounded by the Coastal Trough at approximately the 2,000-foot contour. These boundaries highlight the Pacific Ranges' role in bridging the broader , with the Kitimat Ranges adjoining to the north and the to the south, influencing regional climate patterns and ecological transitions without delving into underlying tectonic processes.

Physical Characteristics

The Pacific Ranges exhibit predominantly rugged, glaciated terrain shaped by Pleistocene ice ages, featuring steep-sided valleys, deep fjords, and intricate coastal inlets that extend inland from the . This landscape spans approximately 300 kilometers (186 miles) in length and 80 to 100 miles in width, forming a formidable barrier between the coastal lowlands and the of . Average elevations range from 1,500 to 2,500 meters across much of the region, with central areas rising sharply to over 4,000 meters, creating profound topographic relief from at the coast to jagged alpine summits. The highest peak, , reaches 4,016 meters (13,177 feet), dominating the skyline and serving as a focal point for the range's dramatic verticality. Key landforms include U-shaped valleys carved by ancient glaciers, hanging valleys, cirques, and extensive icefields that cap higher elevations, alongside structurally controlled fjords with steep walls rising directly from the sea to 1,800–2,400 meters. These features, such as the 97-kilometer-long Dean Channel and the 2,574-foot-deep Finlayson Channel, highlight the range's coastal integration, where mountains plunge abruptly into saltwater inlets, fostering a of drowned valleys and narrow passages. Volcanic elements add localized diversity to the otherwise granitic and metamorphic bedrock-dominated . The varied relief is further influenced by major subranges that contribute to the overall topographic complexity. Climatically, the Pacific Ranges are shaped by prevailing Pacific weather systems, resulting in a maritime temperate regime with heavy coastal exceeding 3,000 millimeters annually, which supports dense and persistent glaciation on windward slopes. This transitions eastward to cooler, drier subalpine conditions with reduced rainfall, influenced by orographic effects that amplify moisture on the western flanks while creating rain shadows inland. Annual snowfall accumulates deeply at higher elevations, sustaining icefields and contributing to the range's perennial glacial cover.

Geology

Tectonic Formation

The Pacific Ranges constitute a segment of the Coast Plutonic Complex, a major granitic assembly resulting from prolonged along the Cascadia margin, where oceanic plates have been descending beneath the North American continent. This complex spans much of the western Canadian and reflects convergent tectonics that initiated in the era. The foundational tectonic event was the accretion of the Insular Belt superterrane—a composite of oceanic and island-arc terranes—to the continental margin approximately 90 million years ago during the , marking the closure of an ancient ocean basin and the onset of significant crustal thickening. This accretion welded volcanic and sedimentary rocks of the Insular Belt to previously assembled terranes, setting the stage for subsequent magmatic intrusion and deformation. Following this, plutonism intensified, with to igneous activity, including Miocene-Pliocene episodes, as subduction-related migrated northeastward across the region at rates of about 2 km per million years, emplacing granodiorites and tonalites into the crust. Over the past 4 million years, the Pacific Ranges have undergone rapid uplift, exceeding 1 km in some areas, driven by crustal from continued convergence at the , where the subducts at 4 cm per year beneath . This has thickened the crust and elevated the range, with no prominent forming offshore due to the subduction of young, buoyant oceanic ; instead, the margin features a broad accretionary built from high sediment influx, primarily from ancestral Fraser, , and Klamath Rivers, which supplied voluminous terrigenous material to forearc basins during Pleistocene glaciation. Intense glacial and fluvial erosion, at rates often surpassing 1 mm per year in tectonically active sectors, has since dissected the uplifted terrain, progressively exposing the deep-seated granitic batholiths of the Coast Plutonic Complex and shaping the rugged topography observed today. Volcanic features within the ranges are directly tied to this subduction regime, though their eruptive history reflects episodic above the descending slab.

Volcanic Features

The Pacific Ranges form a key segment of the , the northern portion of the Cascade Volcanic Arc, where volcanism arises from the of the oceanic plate beneath the North American continental plate. This belt features several volcanic centers, including the Mount Meager volcanic complex, which experienced its most recent eruption approximately 2,350 years before present (BP), producing explosive activity from the Bridge River vent on its northeastern flank. , a dormant rising to 2,678 meters, dominates the southern part of the belt with its composite cone of overlapping lava flows and pyroclastic deposits, while the Mount Cayley volcanic field to the north consists of a cluster of eroded and domes formed over the past 4 million years. Unlike the more prominent of the southern , such as , the volcanism here is characterized by diffuse, polygenetic activity rather than singular towering peaks. Volcanic rocks in the Pacific Ranges predominantly consist of andesitic to dacitic lavas, domes, and deposits, reflecting the calc-alkaline typical of subduction-related in the belt. These materials form the bulk of the edifices at Mount Meager and , with intercalated layers of , , and from explosive events. Ongoing geothermal activity is evident at Mount Meager, where hot springs in Meager Creek and Pebble Creek discharge thermal waters up to about 60°C, signaling persistent magmatic heat at depth and potential for future hydrothermal eruptions. The volcanic features pose significant hazards, including explosive eruptions, pyroclastic flows, s, and widespread ash falls, exacerbated by the region's steep terrain and glacial cover. A notable historical event was the ~2,350 BP eruption at Mount Meager, which generated the Bridge River Ash—a Plinian deposit of fine and ash that blanketed southern and extended into over hundreds of kilometers, with thicknesses up to 20 meters near the source. This event, with a of approximately 5, underscores the potential for regional disruption from future activity, including downstream lahar inundation along the and valleys. Monitoring by highlights the need for hazard assessments given the belt's proximity to population centers like .

Subdivisions

Major Subranges

The Pacific Ranges, forming the southern segment of the in , are divided into several major named subranges that reflect variations in , glaciation, and . These subdivisions were initially delineated through physiographic efforts, highlighting distinct zones of rugged, ice-sculpted . Recognized major subranges include the central Waddington Range, the Niut Range, and the Range. The Waddington Range stands as the most prominent, encompassing the highest peaks and extensive icefields within the Pacific Ranges, with an approximate area influenced by its position amid the broader 80-100 mile wide mountain belt. Dominated by granitic batholiths of the Coast Plutonic Complex, this subrange features northwestward-trending folds and intrusive igneous rocks that contribute to its steep, dome-like profiles shaped by Pleistocene glaciation. Accessibility remains highly limited due to the absence of roads, relying primarily on aircraft or for entry into its remote valleys. The Niut Range, located in the eastern part of the Pacific Ranges, is characterized by volcanic features and rugged terrain, while the Pantheon Range features sharp peaks and glacial valleys in the southern section. To the north, areas around the Monarch Icefield represent key glacial zones, characterized by receding ice caps and eastward-flowing ice streams over an area integrated into the Pacific Ranges' northern extensions. Predominantly underlain by granitic and metamorphic rocks such as quartzites and schists, it exhibits serrate ridges from erosion, with access constrained by dense forest cover and steep terrain accessible mainly via aerial surveys or river approaches like the Klinaklini. The Ha-Iltzuk Icefield vicinity, centered around major accumulation zones like the Silverthrone Glacier, forms another critical glacial area with northeastward ice drainage patterns across a rugged expanse tied to the Pacific Ranges' icefield systems. It features a mix of granitic intrusions and pre-batholithic slaty rocks, fostering deeply eroded valleys; the area's isolation, marked by few trails and heavy , necessitates for exploration. Along the coastal margins, the Toba-Bute area comprises folded and faulted terrain drained by inlets like Toba and Bute, spanning an area of low-level valleys and fiords within the southeastern . Composed largely of non-granitic sedimentary and volcanic rocks aligned by structural joints, it presents moderately elevated ridges with accessibility improved by marine routes but still challenging inland due to thick vegetation and fault-controlled gorges. Numerous unnamed or minor ranges extend across the Pacific Ranges, particularly in transitional zones like the Chilcotin Ranges to the southeast, where non-granitic compositions yield additional serrate peaks and ridges sculpted by glaciation, contributing to the overall fragmented without formal boundaries. The mapping history of these subranges traces to early 20th-century reconnaissance by the Geological Survey of , with initial detailed surveys conducted by geologists such as G. M. Dawson in the late and expanded through H. S. Bostock's fieldwork in the –1940s, utilizing air photography to define physiographic divisions amid the region's inaccessibility.

Icefields and Glaciers

The Pacific Ranges host several extensive icefields that form a significant portion of the region's glacial cover, contributing to its rugged alpine landscape. The principal icefields include the Waddington Icefield, Monarch Icefield, Ha-Iltzuk Icefield, and Klinaklini Glacier (a major outflow of the Ha-Iltzuk Icefield). Together with nearby features like the Homathko and icefields, these cover a total glacial area of about 3,218 km², representing roughly 3% of the Pacific Ranges' overall 108,237 km² extent, though broader estimates suggest up to 5% when including smaller glaciers. These icefields are primarily situated in key areas, such as the Waddington Range for the Waddington Icefield. The glaciers in the Pacific Ranges are predominantly temperate, characterized by ice at the pressure-melting point throughout much of their thickness, which leads to relatively high rates driven by summer melt and basal sliding. This dynamic results in active flow and frequent , particularly in lower elevations where warm maritime air masses enhance surface melting. A notable example is the Tiedemann Glacier, which descends from the southwestern flanks of , featuring steep icefalls and extensive crevasse fields that pose significant challenges for mountaineers accessing the peak's routes. Prominent peaks emerging from these icefields include , the highest at 4,016 m, first ascended in 1936 by and William House via the southwestern ridge after earlier explorations. Nearby, Mount Tiedemann rises to 3,838 m, with its first ascent on July 9, 1939, by E.R. Gibson, Henry S. Hall Jr., Sterling Hendricks, and Hans Fuhrer. Several other summits exceeding 3,500 m, such as Mount Asperity (3,721 m) and Mount Combatant (3,766 m), were also first summited in this era by the Mundys and other early explorers, highlighting the exploratory golden age of mountaineering. Since the 1980s, these glaciers have exhibited notable thinning, with average surface elevation losses of about 0.5 m per year across the major icefields through the late 1990s. Retreat has continued, with British Columbia's glaciers losing approximately 2,525 km² of area from 1985 to 2005, reflecting broader climate-driven changes as of 2005.

Hydrology

Major Rivers

The Pacific Ranges, part of the in , , host several major river systems that originate from high-elevation glacial and sources, flowing westward to the and supporting critical hydrological and ecological functions. These rivers drain rugged, glaciated terrain, contributing to coastal delivery and serving as vital corridors for anadromous migrations. Their flows are influenced by seasonal melt from icefields, resulting in high variability and substantial loads from glacial , which shape downstream estuaries and fisheries habitats. The Dean River, the longest in the Pacific Ranges at approximately 250 km, originates near 1,200 m elevation in the northern section and flows westward into Dean Channel. It has an average annual discharge of about 136 m³/s near its mouth, driven largely by and rainfall, with peak flows in late summer. The river carries significant sediment loads from glacial sources, enhancing coastal deposition, and provides essential spawning and rearing for Pacific species, including , coho, and , supporting commercial and fisheries. The Bella Coola River, draining a 5,050 km² in the central Pacific Ranges, forms a prominent at its mouth in North Bentinck Arm, where freshwater mixes with marine waters to create biodiverse habitats. Its features high seasonal flows from and melt, with the acting as a key nursery for juvenile migrating to the . Sediment from upstream glacial erosion contributes to formation, bolstering coastal fisheries by providing nutrient-rich substrates for and . Further north, the Klinaklini River is glacier-fed primarily by the Klinaklini Glacier, one of the largest in southern , resulting in high discharge rates that exceed 300 m³/s during peak melt periods and contribute substantially to Knight Inlet's freshwater input. Its turbid waters transport heavy loads from ongoing glacial erosion, influencing downstream channel morphology and estuarine productivity. The river supports robust salmon runs, particularly sockeye and , integral to coastal ecosystems and fisheries. Most rivers in the Pacific Ranges remain largely unnavigable beyond their lower reaches due to deep canyons and rapids formed by tectonic uplift and glacial carving, limiting access for monitoring and development. Gauging stations are sparse, with only a few operated by provincial and federal agencies, such as those on the and Klinaklini, reflecting the remote terrain. For a comprehensive enumeration of all rivers, refer to hydrological surveys like those from the River Forecast Centre.

Lakes and Waterfalls

The Pacific Ranges host several significant lakes shaped by glacial processes, including Tatlayoko Lake, a large, shallow body of water in the Homathko River-Tatlayoko Protected Area, stretching 23 km long with striking aquamarine hues from glacial silt. This lake, nestled on a coastal plain amid high mountain backdrops, serves as an important bird sanctuary, supporting diverse avian species through the Tatlayoko Lake Bird Observatory's migration monitoring efforts. In the more remote Waddington area, glacial lakes such as Turner Lake predominate, formed in basins carved by ancient ice and fed by outlets from the surrounding icefields, contributing to the region's rugged hydrological mosaic. Notable waterfalls in the Pacific Ranges include Hunlen Falls, a plunging cascade of approximately 260 m at the outlet of Turner Lake in Tweedsmuir Provincial Park, recognized as one of the tallest single-drop waterfalls in . Nearby, Brandywine Falls drops 70 m over volcanic cliffs into a deep canyon within Brandywine Falls Provincial Park, showcasing the dramatic erosional features of the range. These waterfalls originate from glacial melt and , with flows exhibiting seasonal variations—peaking in late spring and summer due to and diminishing in drier periods, which influences their scenic intensity and ecological role. The formation of these lakes and waterfalls stems primarily from Pleistocene glacial carving, where advancing ice sheets eroded U-shaped valleys and cirques in the granitic bedrock of the , later filling with meltwater to create basins like those holding Tatlayoko and Turner Lakes. Post-glacial isostatic rebound, as the Earth's crust adjusted to the removal of ice load, further deepened and stabilized these depressions, enhancing their capacity in southern . Accessibility varies widely: Tatlayoko Lake offers road access along its eastern shore and boating opportunities for exploration, while Brandywine Falls features an easy 1 km trail from Highway 99 suitable for most visitors. In contrast, Hunlen Falls remains highly remote, typically reached via from Nimpo Lake or a strenuous 16.4 km hike requiring four-wheel-drive vehicle access to the trailhead, underscoring the wilderness character of the interior ranges. Some waterfalls, including those in protected areas, hold cultural significance for Indigenous communities, such as the and Tsilhqot'in, who view them as sacred sites integral to traditional territories.

Ecology

Flora and Fauna

The Pacific Ranges encompass diverse ecosystems shaped by elevation gradients, ranging from coastal temperate rainforests at to subalpine meadows and above the treeline at approximately 1,500–1,800 meters. Low-elevation zones feature productive coniferous forests dominated by western red cedar (), western hemlock (), Sitka spruce (), and Douglas-fir (Pseudotsuga menziesii), with understories rich in ferns, mosses, and epiphytes. Higher elevations transition to subalpine forests of mountain hemlock () and (), giving way to open meadows of herbaceous plants and shrubs, and finally barren characterized by low-growing sedges, lichens, and cushion plants adapted to harsh winds and short growing seasons. Flora in the Pacific Ranges is notable for its old-growth coniferous stands, which cover significant portions of the lowlands and provide complex habitats with multi-layered canopies supporting high diversity. Key species include the Alaskan yellow-cedar (), a slow-growing characteristic of wet, high-elevation sites in coastal mountains, valued for its decay-resistant wood and role in subalpine ecosystems. plants such as fireweed (Chamerion angustifolium) and () contribute to habitats in meadows and forest edges. Fauna thrives across these zones, with large mammals like grizzly bears (Ursus arctos), wolves (Canis lupus), and mountain goats (Oreamnos americanus) occupying forested and alpine terrains, where they forage on berries, ungulates, and lichens. Avian species include the marbled murrelet (Brachyramphus marmoratus), a seabird that nests in old-growth coastal forests, relying on mossy platforms in large trees for breeding. Pacific salmon (Oncorhynchus spp.) runs in rivers sustain food webs, supporting predators from bears to eagles and enriching nutrient cycles in riparian zones. Biodiversity hotspots occur at icefield margins and alpine areas, hosting unique assemblages of insects, pollinators like bumble bees (Bombus spp.), and rare plants adapted to glacial influences.

Environmental Challenges

The Pacific Ranges, as part of the , are experiencing significant retreat due to , with accelerated ice volume loss observed in recent decades. Studies indicate that glaciers in lost approximately 2.4 km³ of ice per year between 1985 and 1999. This loss has intensified in the 2020s; as of 2021–2024, glaciers in lost approximately 20 km³ of ice equivalent per year, roughly doubling rates from earlier periods. Rising temperatures are also shifting treelines upward, allowing coniferous trees to encroach into subalpine zones and altering high-elevation ecosystems. Projections suggest that retreat could create over 6,000 km of new stream habitat by 2100, potentially benefiting Pacific but disrupting cold-water-dependent species in the interim. Human activities have further compounded environmental pressures through resource extraction and infrastructure development. Selective in old-growth forests, which cover significant portions of the Pacific Ranges' lower slopes, has led to and reduced carbon storage capacity, with over 75% of accessible old-growth in coastal logged or developed since European settlement. operations, such as the historic Britannia copper mine near Squamish, have caused persistent , releasing heavy metals like and into and affecting aquatic life up to 2 km from the site. The Bridge River Hydroelectric Project, developed between the 1930s and 1960s, inundated valleys and altered river flows, reducing and impacting in the Bridge River . Other emerging threats include and from nearby urban centers. Disturbed areas from roads and have facilitated the spread of invasives like Scotch broom, which forms dense thickets in coastal lowlands and outcompetes native . Proximity to contributes to elevated levels of fine (PM2.5) and (NO2) in the lower Pacific Ranges, with annual NO2 concentrations in the region exceeding those in more remote areas due to emissions. While no major oil spills have occurred directly in the ranges, the coastal vulnerability to tanker heightens risks of in adjacent and estuarine environments. Post-2020 by BC Parks, through its Long-Term Ecological Monitoring Program, has documented declines in coastal protected areas, including reduced riparian and shifts in species composition linked to these cumulative stressors.

Protected Areas and Human Use

Provincial Parks and Reserves

The Pacific Ranges are home to several major provincial parks and reserves managed by BC Parks, which safeguard vast wilderness areas encompassing diverse terrain from coastal fjords to alpine peaks. Tweedsmuir Provincial Park, the largest in at 989,616 hectares, was established on May 21, 1938, and spans the central , protecting a mosaic of volcanic plateaus, glaciers, and old-growth forests. Garibaldi Provincial Park, covering 1,968 square kilometers, centers on the volcanic landscape of and its surrounding , preserving geothermal features, lava flows, and subalpine meadows. Coastal marine reserves like Princess Louisa Marine Provincial Park, an approximately 964-hectare inlet with towering granite cliffs and waterfalls, complement these by conserving marine and shoreline ecosystems accessible primarily by water. These protected areas cover approximately 22-25% of the Pacific Ranges, contributing to British Columbia's broader network of conserved lands that prioritize preservation, maintenance, and low-impact recreation such as , backcountry , and . The parks emphasize ecological integrity, with Garibaldi focusing on volcanic heritage and Tweedsmuir encompassing critical habitats for like bears and runs. Administered by BC Parks under the provincial Ministry of Environment and Climate Change Strategy, these reserves receive ongoing management to balance and public access, including recent land acquisitions for expansion—such as the 2021 addition of 80 hectares to Tweedsmuir near Bella Coola to enhance connectivity and protect caribou habitat in adjacent ranges. Efforts also include habitat restoration for southern mountain caribou, with targeted expansions in the region to mitigate threats like . Infrastructure within these parks remains minimal to preserve their remote character, featuring limited trails (e.g., the approximately 8-kilometer Rainbow Range Trail in Tweedsmuir), rustic shelters like the Elfin Lakes Shelter in Garibaldi, and no major roads penetrating the core zones; access often requires , , or multi-day hikes. This approach ensures the parks serve as enduring strongholds for the ecological features of the Pacific Ranges, including rare and adapted to coastal montane environments.

Indigenous Significance and Economic Activities

The Pacific Ranges encompass traditional territories of several , including the , Wuikinuxv, and Nations, who have maintained cultural, spiritual, and sustenance connections to the lands and waters for millennia. These communities regard the region's mountains, rivers, and forests as integral to their identity, with peaks such as holding spiritual significance as sacred places in oral traditions and ceremonies. Cultural sites, including ancient petroglyphs at Thorsen Creek near Bella Coola, serve as enduring markers of Nuxalk heritage, depicting ancestral stories, spiritual beings, and daily life. Prior to European contact, these Nations utilized river valleys within the Pacific Ranges as vital trade routes, facilitating exchange of goods like oil, furs, and cedar products between coastal and interior peoples. The Bella Coola River, in particular, formed the core of the -Carrier Grease Trail, a well-established path connecting the at the coast to Tsilhqot'in and communities inland. Following contact, ongoing assertions of rights have shaped interactions with the land; for instance, the initiated comprehensive land claims in the , leading to negotiations for recognition of title and co-management of resources amid broader treaty processes in . Economically, the Pacific Ranges support tourism through major attractions like the ski resort, located in the Fitzsimmons Range, which historically draws over 2 million visitors annually (pre-2024 seasons) and contributes significantly to British Columbia's economy via and summer activities. Heli-skiing operations in remote areas of the ranges, such as the Pantheon Range near , offer high-end adventure experiences while adhering to environmental guidelines. Forestry remains a key sector, with sustainable logging quotas under the agreement restricting harvest to about 15% of the forested area to balance economic needs with conservation. Hydroelectric developments, including dams on rivers like the Homathko and Klinaklini, harness the ranges' abundant water resources and contribute to British Columbia's electricity supply, where hydroelectricity accounts for approximately 90% of total generation as of 2024. Mining activities are constrained by the area's rugged terrain and remoteness, limiting large-scale operations to exploratory stages in most subranges. In recent years, has expanded post-2020, driven by increased demand for sustainable experiences like guided viewing and cultural tours in the portion of the ranges. Indigenous-led conservation initiatives, coordinated through organizations like the Central Coast Indigenous Resource Alliance, have advanced co-stewardship efforts, including marine protected areas and habitat restoration projects that integrate with modern management. As of 2024, no major new expansions to protected areas in the Pacific Ranges have been reported.