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Apodiformes

Apodiformes is an of small, highly aerial birds comprising the families Apodidae (swifts), Hemiprocnidae (), and Trochilidae (hummingbirds), renowned for their exceptional adaptations to flight, including elongated wings, reduced legs and feet, and the ability to remain airborne for extended periods. With approximately 470 in total—around 100 swifts, 4 treeswifts, and 366 hummingbirds—this represents one of the most specialized avian groups for aerial lifestyles, excluding from their global distribution. The swifts and treeswifts, primarily insectivores, exhibit cosmopolitan or tropical ranges, while hummingbirds are exclusive to the and primarily nectar-feeders supplemented by . Swifts (Apodidae) are sooty-plumaged with a wide gape for catching flying , often spending nearly their entire lives in the air, including and mating. Treeswifts (Hemiprocnidae), with their crested heads and perching habits, inhabit Southeast Asian forests and savannas. Hummingbirds (Trochilidae) display vibrant, iridescent and unique hovering flight enabled by rapid wingbeats, pollinating flowers in diverse habitats from deserts to cloud forests. Notable anatomical features across Apodiformes include a short , elongated hand bones supporting long primaries, and weak feet suited more for clinging than walking, reflecting their "footless" etymology (from a- "without" and pous "foot"). Many species enter —a state of reduced metabolic rate—to conserve energy during cold nights or food scarcity. Conservation concerns affect some island-endemic swiftlets and certain hummingbirds due to habitat loss and invasive , though the order as a whole remains diverse and resilient.

General Characteristics

Physical Description

Apodiformes encompass a diverse of characterized by small to medium body sizes and lightweight builds adapted for highly aerial lifestyles. Swifts and typically measure 9–30 cm in length and weigh 5–80 g, while hummingbirds are generally smaller, ranging from 5–22 cm in length and 1.6–24 g in weight. These compact forms contribute to their exceptional flight capabilities, with swifts and emphasizing sustained and hummingbirds excelling in agile hovering. A defining feature of Apodiformes is their reduced legs and feet, which appear almost vestigial and contribute to the order's name meaning "footless" in . Swifts and treeswifts exhibit a pamprodactyl arrangement, with all four toes directed forward, enabling a claw-like grip for clinging to vertical surfaces rather than perching or walking; hummingbirds possess small anisodactyl feet with three toes forward and one backward, suited primarily for brief perching. The tarsi are covered in bare skin lacking scutes, further emphasizing their minimal role in . This underscores their reliance on aerial existence, where feet are used primarily for nesting or roosting in confined spaces. The wings of Apodiformes are long and narrow, with a high suited for efficient sustained flight, featuring a short, humerus and elongated primaries that extend the wing's surface area. Tail shapes vary across the : many swifts have forked tails aiding maneuverability during pursuits, treeswifts often display deeply forked tails for stability in gliding, and tails range from forked to rounded or squared depending on species-specific . Hummingbirds possess distinctive bristly rictal feathers surrounding the mouth, which help guide or during nectar feeding, while many species exhibit iridescent produced by in feathers rather than pigments. features include large eyes for enhanced vision during rapid flight, with swifts having short, wide-gaped bills ideal for capturing aerial and hummingbirds featuring long, slender bills adapted for probing flowers.

Etymology

The name Apodiformes derives from New Latin, combining the stem Apod- (from the genus Apus, itself from the Greek ápous, meaning "without feet") with the suffix -iformes (from Latin, meaning "having the form of"). This reflects the characteristically small, reduced legs and feet of birds in this order, which appear almost footless due to their adaptation for aerial life. The term was coined by ornithologist Charles Lucien Bonaparte in 1854 as part of his systematic classification in Conspectus Generum Avium. Earlier nomenclature included Trochiliformes, proposed by Johann Georg Wagler in 1830 in Systema Avium, which prioritized the hummingbirds (Trochilidae) within the group. Historically, swifts were sometimes grouped under Cypseliformes, derived from the genus Cypselus (an older name for swifts, from kypsēlos meaning "swift" or "swallow-like bird"), before the broader Apodiformes unified the order. Within the order, family names follow similar and Latin roots tied to and . Apodidae (swifts) stems from apous ("footless"), emphasizing their tiny, weak feet suited only for clinging. Hemiprocnidae () combines hemi- ("half") with Procne ( mythological figure transformed into a swallow, denoting swallow-like), highlighting their intermediate traits between swifts and swallows, such as perching ability and crests. Trochilidae (hummingbirds) originates from trochilos ( for "small bird," possibly alluding to their diminutive size or the wheel-like (trochos) whir of their rapid wingbeats).

Taxonomy and Classification

Historical Development

The order Apodiformes was first established by in 1854, who grouped swifts and hummingbirds together based on their shared small, weak feet that give the appearance of being footless, a characteristic reflected in the order's name derived from roots meaning "without feet." This initial classification emphasized morphological similarities in their aerial adaptations, setting Apodiformes apart as a distinct group focused on highly specialized flight capabilities. During the 19th and early 20th centuries, Apodiformes were frequently allied with the goatsuckers (order Caprimulgiformes) due to superficial similarities in nocturnal or crepuscular habits and aerial foraging behaviors. However, in the 1930s, Alexander Wetmore separated Apodiformes as a distinct order from Caprimulgiformes, citing key anatomical differences such as variations in skeletal structure and foot morphology that better highlighted their unique evolutionary trajectory. In 1990, Charles G. Sibley and Jon E. Ahlquist's DNA-DNA hybridization studies elevated Apodiformes to the superorder Apodimorphae, linking it more closely with Caprimulgiformes and including owlet-nightjars (Aegothelidae) within the broader grouping based on data. This revision suggested deeper affinities among these lineages, challenging traditional boundaries. Subsequent molecular phylogenies, such as that by Hackett et al. in 2008 using multi-locus nuclear DNA sequences, refined these relationships by confirming strong support for Apodiformes as a monophyletic group while integrating it into larger clades. Pre-2020 taxonomic debates centered on whether to expand Apodiformes to include Aegothelidae, given consistent evidence from morphological and early molecular data placing owlet-nightjars as the to swifts and hummingbirds. Ultimately, this inclusion was rejected in favor of recognizing the , which encompasses Apodiformes alongside Caprimulgiformes and Aegothelidae without altering the core composition of Apodiformes itself. This historical progression has informed the current three-family structure of Apodiformes.

Current Families and Species

The order Apodiformes comprises three extant families, encompassing a total of 472 distributed across 132 genera. This classification reflects the unified global avian known as AviList (version 2025), which harmonizes taxonomic decisions from major authorities including the International Ornithological Congress (IOC) World Bird List and the Clements . The family Apodidae, commonly known as swifts, includes 105 in 19 genera and has a cosmopolitan distribution, excluding polar regions and some remote islands. Swifts are divided into two main subfamilies: Cypseloidinae ( swifts, such as spine-tailed swifts in genera like Cypseloides) and Apodinae ( swifts and swiftlets, including typical swifts in and cave-nesting swiftlets in Aerodramus). These subfamilies reflect phylogenetic groupings based on molecular and morphological , with Apodinae comprising the majority of species. The family Hemiprocnidae, or , is smaller, with 4 in a single genus (Hemiprocne), restricted to the tropical forests of the from through to and nearby islands. Unlike true swifts, treeswifts are crested and perch more frequently, but they share aerial foraging habits. No subfamilies are recognized within this . The Trochilidae, hummingbirds, is the most diverse, with 363 in 112 genera, all endemic to the from to . Hummingbirds are traditionally divided into two primary subfamilies: Phaethornithinae (hermits, about 34 in genera like Phaethornis, characterized by curved bills and lekking behavior) and Trochilinae (typical hummingbirds, the remaining species, including jewels like Amazilia and tiny bees like Mellisuga). Recent phylogenetic studies have proposed additional subfamilies within Trochilinae, such as Polytminae for mangoes and coquettes, but the two-subfamily division remains widely used in s. Taxonomic revisions continue to refine species counts, particularly in Trochilidae, driven by genetic analyses. For instance, the was split into two species based on 2024 research—northern giant hummingbird (Patagona peruviana) and southern giant hummingbird (Patagona gigas)—with stabilized in 2025, increasing the family total. Such splits, along with others like those in the woodstar complex, highlight ongoing discoveries in hummingbird diversity.

Evolutionary History

Fossil Record

The fossil record of Apodiformes begins in the Early Eocene, with the earliest known representative being Eocypselus rowei from the Formation in , , dating to approximately 50 million years ago (MYA). This small, feathered bird, measuring about 12 cm in length, displays primitive apodiform characteristics, including a short relative to the , elongated primaries, and a wing shape intermediate between modern swifts and hummingbirds, supporting its placement as a stem pan-Apodiformes . No pre-Paleogene s have been identified, consistent with a origin for the order. Eocene deposits reveal early diversification within the group. In , Primapus species from the early Eocene London Clay Formation in the (~53 MYA) represent some of the oldest swift-like apodiforms, characterized by robust humeri and skeletal features akin to basal Apodidae. Proto-hummingbird forms appear later in the Eocene, such as Jungornis from the Quercy Phosphorites in (~37 MYA), which exhibits trochilid-like traits including a derived and humerus indicative of hovering capabilities. By the late Eocene (~35 MYA), more advanced hummingbird-like fossils show skeletal specializations for nectarivory and aerial agility. Fossils indicate that hummingbirds originated in and dispersed to the around 22 million years ago during the . In the Oligocene and , the record expands with swift-like taxa such as Cypselavus from the Middle Eocene of in (~47 MYA), featuring short, rounded wings suited for sallying flights to catch prey from perches, and later Oligocene forms in European locales. Multiple Trochilidae fossils from this interval, including Eurotrochilus inexpectatus specimens in and an exceptionally preserved individual from the early Oligocene of southeastern (~30 MYA) with modern-type feathering, underscore the early radiation of hummingbirds in before their dominance in the . Quaternary subfossil remains of modern Apodiformes, primarily from North and South American cave deposits and tar pits, reflect established contemporary distributions with minimal morphological change since the .

Phylogenetic Position

Apodiformes belongs to the neoavian radiation within Aves, specifically as a member of the clade , commonly referred to as "yardstick birds" due to their nocturnal or crepuscular habits and aerial lifestyles. Within , Apodiformes forms the to Aegothelidae (owlet-nightjars), together comprising the Cypselomorphae. This positioning is consistently recovered in molecular phylogenies that integrate extensive genomic data, highlighting the deep divergence of from other neoavians early in avian evolution. Molecular evidence strongly supports the of Apodiformes, with key studies utilizing multi-gene datasets to resolve its relationships. For instance, Hackett et al. (2008) analyzed 19 nuclear genes across 169 species, placing Apodiformes as a monophyletic lineage sister to Aegothelidae and diverging from the broader Caprimulgiformes (nightjars and allies) approximately 60-70 million years ago during the late to early Eocene. This timeline is corroborated and refined by Prum et al. (2015), who employed targeted next-generation sequencing of 259 loci from 48 bird orders, estimating the crown radiation shortly after the Cretaceous-Paleogene boundary, with Apodiformes branching off around 65 million years ago. Fossil calibrations in these analyses, such as early Eocene cypselomorphs, further anchor these divergence estimates without altering the core topology. Internally, the phylogeny of Apodiformes reveals a basal position for Trochilidae (hummingbirds), which diverged first from the lineage leading to the swift-like birds, with Apodidae (swifts) and Hemiprocnidae (treeswifts) forming a derived sister clade. This arrangement is evident in phylogenomic reconstructions, where Trochilidae's unique hovering adaptations mark its early split, estimated at 50-60 million years ago. However, some analyses based on combined molecular and morphological data indicate potential paraphyly of Hemiprocnidae, with certain treeswifts nesting within Apodidae, though this remains debated and requires further resolution from expanded sampling. Synapomorphies uniting Apodiformes with its Aegothelidae include specialized syringeal , characterized by a complex, multi-syringeal structure enabling sophisticated vocalizations, and significant reductions in foot morphology, such as shortened toes and weakened tarsometatarsi adapted for aerial lifestyles over perching. These traits, observed through comparative anatomical studies, distinguish Cypselomorphae from other and underscore their shared evolutionary history of flight .

Distribution and Habitats

Global Range

The order Apodiformes exhibits a broad yet geographically partitioned global distribution, primarily shaped by its three extant families: Apodidae, Hemiprocnidae, and Trochilidae. Members of the Apodidae (swifts) are , occurring on all continents except and extending to numerous remote oceanic islands. This family spans diverse regions from and to the and , adapting to a wide array of terrestrial environments through their highly aerial lifestyle. In contrast, the Hemiprocnidae (treeswifts) are more restricted, confined to the Indo-Malayan tropical zone, ranging from the and through to and the . The Trochilidae (hummingbirds) are exclusively , distributed from and southern in the north to in southern , with their core range centered in the tropical and subtropical . Diversity within Apodiformes is unevenly distributed, with notable concentrations in certain biogeographic hotspots. The Apodidae boast over 100 species worldwide, reflecting their broad adaptability, while the Hemiprocnidae include only , all endemic to the Oriental and Australasian realms. The Trochilidae, comprising around 366 , achieve their highest in the Andean region, where elevational gradients and varied ecosystems support exceptional ; alone hosts 132 , representing nearly 40% of the global total. This Andean concentration underscores the role of montane in driving within the order. Migration patterns further define the effective ranges of Apodiformes, enabling seasonal exploitation of resources across latitudes and elevations. Temperate-breeding swifts, such as the Common Swift (Apus apus), undertake long-distance migrations, traveling from Eurasian breeding grounds to sub-Saharan Africa, covering thousands of kilometers annually. In the tropics, some swifts exhibit shorter or partial migrations tied to local insect availability. Hummingbirds generally show less extensive latitudinal migration, with many North American species like the Ruby-throated Hummingbird (Archilochus colubris) moving to Central America; however, Andean species often engage in altitudinal migrations, shifting elevations by thousands of meters seasonally to track floral resources and avoid harsh weather. Unlike swifts, hummingbirds do not routinely cross major oceanic barriers to reach distant continents.

Habitat Preferences

Apodiformes exhibit diverse habitat preferences shaped by their aerial lifestyles and ecological specializations across families. Members of this order primarily occupy open aerial spaces but select specific microhabitats for nesting and , ranging from tropical forests to human-modified landscapes. These preferences reflect adaptations to local , , and resource availability, enabling them to thrive in varied environmental niches. Swifts in the family Apodidae are predominantly aerial, and spending much of their lives over open skies, forests, and areas worldwide. They inhabit a broad spectrum of terrestrial environments but rely on vertical structures for nesting, such as crevices in cliffs, trees, or buildings, which provide protection from predators. Some species, like the African palm swift (Cypsiurus parvus), construct aerial nests attached to fronds using to form bracket-like structures or webs that hold eggs directly to vertical surfaces, allowing for minimal perching. adaptation is particularly pronounced in species like the (Apus apus), which readily nests in chimneys and rooftops, exploiting human structures as substitutes for natural crevices. Treeswifts of the family Hemiprocnidae prefer canopies and edges in humid tropical regions, particularly in . These perch on exposed branches 4 to 30 meters high, utilizing continuous stretches but tolerating canopy breaks such as roads or rivers for easier access to aerial prey. They occupy a range of wooded habitats, from dense rainforests to woodlands and mangroves, where they above the canopy while maintaining a semi-arboreal lifestyle. Hummingbirds in the family Trochilidae favor flower-rich environments that support their nectar-based , including tropical forests, gardens, and high-altitude páramos in the . They thrive in habitats with abundant tubular flowers, such as those of species, which they pollinate through specialized bill adaptations, fostering mutualistic relationships in Neotropical ecosystems. These preferences extend to edges of woodlands and disturbed areas where flowering plants proliferate. Notable adaptations allow Apodiformes to exploit extreme conditions within their ranges. Hummingbirds demonstrate remarkable high-elevation tolerance, inhabiting Andean páramos up to 5,000 meters above , where they use and roosting to endure cold nights and low oxygen levels. Swifts, meanwhile, have successfully adapted to urban extremes, with like the (Chaetura pelagica) shifting from hollow trees to city structures, enabling persistence amid .

Behavior and Ecology

Locomotion and Flight

Apodiformes are predominantly aerial , with flight serving as their essential mode of locomotion and minimizing reliance on terrestrial movement. Swifts in the Apodidae demonstrate extraordinary in powered flight, achieving high speeds, up to 111 km/h (69 mph) in level flight, and, in the case of the (Tachymarptis melba), remaining continuously airborne for periods exceeding 200 days during migration and foraging. This capability is supported by efficient wing morphology that allows for prolonged without rest, enabling like the (Apus apus) to cover vast distances while feeding exclusively in the air. Treeswifts of the family Hemiprocnidae exhibit a more varied flight style, incorporating intermittent gliding and soaring alongside flapping, which contrasts with the continuous powered flight of true swifts. Their deeper wing strokes and slower overall pace facilitate maneuvers in forested environments, where they glide over tree canopies to pursue prey. Hummingbirds in the family Trochilidae possess the most versatile aerial locomotion within the order, including the unique ability to hover stationary and fly backwards or sideways. This is achieved through exceptionally rapid wingbeats ranging from 50 to 80 Hz in hovering flight, powered primarily by the pectoralis major for downstrokes and the supracoracoideus muscle for upstrokes, allowing precise control in three dimensions. Terrestrial locomotion is severely limited in Apodiformes due to their reduced hindlimbs and tiny feet equipped with sharp claws suited for clinging rather than ambulation. Swifts cannot walk or hop effectively and instead use their feet to adhere to vertical surfaces like cliffs or nest walls, while hummingbirds similarly rely on perching or clinging, with legs too weak for sustained ground movement. To manage the high energetic costs of flight, Apodiformes employ specialized physiological strategies. Hummingbirds maintain among the highest mass-specific metabolic rates of any during activity but enter daily at rest, reducing metabolic expenditure by 60–90% to conserve overnight. Swifts achieve efficiency through aerial roosting, where individuals like the spend over 99% of non-breeding periods aloft, sleeping and preening in flight to avoid landing; they also enter on cold nights during breeding to further save .

Foraging Strategies

Swifts and within Apodiformes are predominantly insectivorous, relying on aerial hawking to capture flying while in continuous flight. This strategy involves coursing through the air at high speeds to intercept prey such as , , , and flies, which are snatched directly from the air using their wide-gaping mouths. Opportunistic ground feeding occurs rarely, typically only when are abundant on the surface during specific conditions like emergences. Their agile flight adaptations facilitate precise turns and glides that optimize energy use during these extended sessions, often lasting the majority of daylight hours. Hummingbirds, in contrast, exhibit primarily nectarivorous foraging, using their elongated bills and extensible tongues to probe deep into tubular flowers for sugary rewards. Bill lengths vary widely across species, reaching up to 10 cm in the (Ensifera ensifera), allowing access to hidden in long-corolla blooms. Tongues function via a dynamic licking mechanism, where forked tips trap and retract through elastic properties rather than alone. To meet protein needs, hummingbirds supplement with and s, which form an important part of the diet—with arthropod remains found in the stomachs of most individuals—especially during seasons or in resource-poor environments. Foraging behaviors also reflect : hummingbirds frequently employ territorial defense, aggressively chasing intruders from high-quality patches to monopolize resources. Larger or more dominant individuals secure these sites, while subordinates may adopt traplining routes to visit dispersed, undefended flowers. Swifts, however, in loose, non-territorial flocks that congregate over emergent swarms, enabling cooperative exploitation of transient aerial concentrations without intense . Seasonal variations influence these strategies, particularly for hummingbirds facing nectar scarcity during dry periods or . In such times, some shift to consuming for additional protein or small fruits and juices as alternative energy sources, maintaining nutritional balance amid fluctuating floral availability.

Reproduction

Breeding Systems

Apodiformes exhibit diverse breeding systems, with swifts (family Apodidae) predominantly forming seasonal monogamous pairs that share parental duties, while many hummingbirds (family Trochilidae) display promiscuous or lek-based mating strategies. In swifts, pairs typically bond for the breeding season and may remain together year-round in some tropical , facilitating biparental during . In contrast, hummingbirds often feature polygynous systems where males do not provide parental , and like the hummingbirds (genus ) engage in lekking, with males aggregating at display sites to attract females without offering resources. Courtship in swifts involves dynamic aerial displays, such as group or pair chases where individuals pursue each other at high speeds to establish bonds and deter rivals. Hummingbirds, however, employ more varied close-range behaviors, including shuttle displays where males rapidly fly back and forth in front of females while fanning iridescent gorgets and producing vocalizations to showcase and agility. These displays in both groups emphasize flight prowess, adapted to their aerial lifestyles. Clutch sizes in Apodiformes range from 1 to 6 eggs, with 2–3 being typical for swifts and invariably 2 for hummingbirds; eggs are white and unmarked to blend with nest sites. Incubation periods last 12–32 days, performed by both parents in swifts but solely by females in hummingbirds, reflecting the divergence in mating systems and . Sexual dimorphism is particularly pronounced in hummingbirds, where males possess brighter, iridescent —such as gorgets—for visual appeal during , contrasting with the more subdued colors of females that aid in during nesting. This dimorphism evolves under pressures in lekking and territorial species, enhancing male mating success.

Nesting and Development

Apodiformes exhibit diverse nesting strategies adapted to their aerial lifestyles, with nest construction primarily involving saliva as a binding agent across families. In swifts (Apodidae), nests are typically shallow cup or half-saucer structures made from twigs, feathers, and other airborne debris collected in flight, glued together and attached to vertical surfaces such as walls, cliffs, or chimneys using the birds' adhesive . Treeswifts (Hemiprocnidae) construct even smaller, delicate half-saucer nests from feathers, bark fragments, and plant material, secured to horizontal branches with hardened , often appearing as mere perches due to their minimal size. Hummingbirds (Trochilidae) build compact cup-shaped or occasionally dome-like nests using soft plant down, moss, lichen, and for binding and , placed on horizontal branches or forks and sometimes lined with finer materials for insulation. Eggs in Apodiformes are altricial, hatching into helpless, naked young after periods that vary by family. Swifts generally incubate clutches of 2–6 eggs for 18–21 days, with both parents sharing duties equally, often in shifts of about 2 hours. In treeswifts, a single egg is laid and incubated for approximately 20–26 days by both sexes, though females contribute more time, straddling the tiny nest to cover it. Hummingbirds lay 2 eggs incubated solely by the female for 12–22 days, depending on species and environmental conditions, during which she leaves briefly to . Parental care is biparental in swifts and , with males assisting in , brooding, and guarding the nest while females often focus more on feeding. In swifts, both parents collect and regurgitate mashed to provision the young, with males frequently defending the site from intruders. similarly share all tasks, including regurgitating arthropods to the single nestling, which quickly outgrows the nest and perches nearby under supervision. Hummingbirds show female-only brooding and , though males in some species provide occasional provisioning; the female regurgitates a slurry of , , and small directly into the chicks' throats multiple times per hour. Nestlings develop rapidly, fledging after 3–8 weeks and relying on high-protein diets for . Swift young remain in the nest or cling to walls for 14–57 days before initial flights, with times varying by species and food availability—prolonged by during scarcity—achieving independence soon after. Treeswift fledging occurs around 4 weeks, with parents continuing to feed the mobile chick. Hummingbird nestlings fledge in 18–25 days, exhibiting exceptionally fast rates that can double their body weight within the first few days through frequent feedings, enabling quick maturation despite their diminutive size.

Conservation Status

Major Threats

Habitat loss, primarily through in tropical regions, poses a severe threat to many Apodiformes , particularly that rely on forested areas for sources and sites. For instance, the destruction of habitats by and has endangered the mangrove hummingbird (Amazilia boucardi), reducing its available . Similarly, widespread tropical has contributed to declines in over 60% of hummingbird , with around 16% (over 50 ) now classified as threatened due to and loss. Urban expansion and modern construction practices further exacerbate habitat threats for swifts by eliminating traditional nesting sites in buildings and cliffs. Species like the (Chaetura pelagica) have experienced rapid population declines owing to the loss of suitable chimneys and cavities in aging structures, as renovations seal off access points. In , the (Apus apus) has seen moderate declines linked to reduced nesting opportunities in urban environments. Climate change disrupts Apodiformes ecology by altering phenological timing, such as advancing flower blooming periods that mismatch and availability. For broad-tailed hummingbirds (Selasphorus platycercus), warmer springs have led to earlier flowering without corresponding shifts in arrival dates, potentially reducing success. Migratory swifts face shifts and delayed arrivals due to changing patterns, with cold, wet springs hindering in species like the . Collisions with human structures, including windows and buildings, are a significant direct mortality factor for swifts, which fly at high speeds in urban areas. Mass collision events, such as the one at the where hundreds of chimney swifts perished, highlight the scale of this issue during . Additionally, pesticides reduce prey availability, contributing to declines in aerial insectivores like European swifts, with populations dropping by up to 50% in some regions since the due to agricultural intensification. Invasive species threaten island-endemic Apodiformes through nest predation and resource competition. Introduced rats and cats have devastated nesting success for the Juan Fernández firecrown (Sephanoides fernandensis), a , by preying on eggs and chicks. Similarly, the expansion of invasive Indian mynas (Acridotheres tristis) on correlates with sharp reductions in the Polynesian swiftlet (Aerodramus leucophaeus) population, likely via competition for nesting cavities.

Protection Efforts

Conservation efforts for Apodiformes focus on mitigating threats through legal protections, safeguards, and ongoing , with notable progress in stabilizing populations for some . According to the 2025 assessments by , which coordinates bird data for the , approximately 15% of the roughly 470 Apodiformes are threatened with extinction; this includes over 50 (family Trochilidae) classified as Vulnerable or Endangered, primarily due to loss in the Neotropics, while swifts (family Apodidae) are mostly Least Concern globally but face local population declines of up to 68% in regions like and from urban development impacting nesting sites. Protected areas play a critical role in conserving Apodiformes habitats, particularly in the Neotropics where hummingbird diversity is highest. The in , established in 1971 and spanning over 10,500 hectares, safeguards montane cloud forests essential for more than 25 hummingbird species, including endemics like the Green-crowned Brilliant, through and ecotourism-funded management that limits . In Europe, the EU Birds Directive (Directive 2009/147/EC) provides legal protection for all wild bird species, including swifts, by prohibiting the deliberate destruction or disturbance of nesting sites and requiring compensatory measures during urban renovations, such as installing artificial nest boxes to offset habitat loss. Research and monitoring initiatives are vital for informing Apodiformes conservation, with leading global programs to assess threats and prioritize actions for , including the identification of Important Bird and Biodiversity Areas (IBAs) that cover key Apodiformes habitats across the and tropics. Complementing this, platforms like eBird, managed by the Cornell Lab of Ornithology, enable large-scale tracking of and abundance trends; for instance, eBird data have revealed migration routes for species like the and shifts in breeding distributions, supporting in over 100 countries. Successes in protection efforts include population recoveries driven by habitat restoration, particularly in the Brazilian Atlantic Forest, where initiatives have restored thousands of hectares since 2010, leading to increases in local hummingbird abundances within protected zones through enhanced floral resources and reduced fragmentation. BirdLife's Preventing Extinctions program has further contributed by downlisting several Apodiformes species from Critically Endangered status since 2000, demonstrating the efficacy of targeted interventions like nest site protection for island-endemic swifts.

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