Fact-checked by Grok 2 weeks ago

Sandpiper

Sandpipers comprise the family Scolopacidae, a diverse group of approximately 97 of shorebirds within the order , known for their slender builds, long legs, and bills adapted for probing soft substrates in search of . These waders range in size from small like the (about 13–15 cm long) to larger curlews exceeding 60 cm, with plumage typically in cryptic browns and grays for , though some display vibrant breeding colors. The family encompasses subgroups such as true sandpipers (), curlews (Numenius), godwits (Limosa), snipes (), woodcocks (Scolopax), and phalaropes (Phalaropus), each with specialized and locomotion traits. Scolopacids exhibit a nearly global distribution, occurring across all continents except and the most arid deserts, with the majority breeding in northern temperate to regions. Preferred breeding habitats include wet, open areas such as , marshes, bogs, grasslands, and forest edges, where they nest in shallow scrapes on the ground. Many species are highly migratory, traveling thousands of kilometers from high-latitude nesting grounds to winter in tropical coastal mudflats, estuaries, lakeshores, and inland wetlands, often forming large flocks during and non-breeding seasons. These birds primarily feed on , crustaceans, mollusks, and detected by touch-sensitive bill tips, employing techniques like stitching (rapid pecking) or deeper probing depending on . Notable behaviors include in phalaropes, where females are more colorful and competitive while males incubate eggs, and elaborate aerial displays in woodcocks. While most remain common, some face threats from habitat degradation, hunting, and climate-driven changes to breeding and stopover sites, highlighting the importance of .

Taxonomy and Systematics

Classification and Genera

The family Scolopacidae, commonly known as the and allies, belongs to the order and comprises 98 extant across 15 genera, as recognized in the IOC World Bird List (version 15.1, 2025). This diverse group includes typical , shanks, godwits, curlews, snipes, woodcocks, and turnstones, characterized by their long bills adapted for probing soft substrates. The reflects ongoing refinements based on morphological and molecular data, emphasizing monophyletic groupings within the family. Key subfamilies within Scolopacidae include Calidrinae, which encompasses stints and typical ; Tringinae, comprising shanks and phalaropes; and Arenariinae, consisting of turnstones. These subfamilies highlight evolutionary distinctions in foraging behaviors and , with Calidrinae often featuring shorter bills for surface feeding, while Tringinae members have longer legs suited for shallow-water wading. Additional subfamilies, such as Scolopacinae for snipes and woodcocks, further delineate the family's internal structure. Recent phylogenetic analyses have revised the linear sequence of genera and within Scolopacidae. Among the major genera, is the most speciose, containing 24 species such as the dunlin (Calidris alpina), a widespread known for its compact form and seasonal changes. The genus includes 13 species, exemplified by the common redshank (Tringa totanus), which features bold white wing panels and a distinctive upturned call during flight. Godwits are represented by Limosa with 4 species, including the bar-tailed godwit (Limosa lapponica), renowned for its epic non-stop migrations across oceans. Curlews fall under Numenius, encompassing 9 species like the long-billed curlew (Numenius americanus), notable for its decurved bill used to extract prey from deep burrows. This increase reflects the 2025 split of the whimbrel (Numenius phaeopus) into Eurasian whimbrel and Hudsonian whimbrel. Recent taxonomic proposals have focused on refining subfamily boundaries, particularly within Arenariinae; for instance, SACC Proposal 665 (2014) revised this group by merging former genera such as Aphriza, Tryngites, , Eurynorhynchus, and into , based on phylogenetic evidence supporting their . The 2025 eBird taxonomy update included a major split in Numenius, increasing while maintaining overall stability in the family's classification.

Species Diversity

The family Scolopacidae encompasses 98 recognized extant species across 15 genera, representing a significant portion of global shorebird diversity. The genus exhibits the highest species richness with 24 members, primarily small to medium-sized migratory waders, while follows with 13 species, including various shanks and tattlers adapted to wetland and coastal environments. This distribution underscores the family's emphasis on genera specialized for probing and foraging in soft substrates. Diversity is concentrated in breeding hotspots of the , particularly and subarctic tundra, where the majority of species nest in wet, open habitats during summer months. Over 20 species undertake long-distance migrations, often crossing equatorial regions to winter in tropical and wetlands, facilitating but exposing them to varied ecological pressures. Regionally, more than 40 species have been recorded in , including breeders, migrants, and vagrants, while supports over 30 species, reflecting its role as a primary and . Notable examples highlight extremes in size and conservation concern within the family. The (Calidris minutilla), the smallest member at approximately 18–30 g, exemplifies the diminutive, agile foragers common in the genus . In contrast, the (Numenius arquata), the largest at up to 1.3 kg, represents the long-billed curlews adapted for deep-probing in mudflats. The (Calidris pygmaea) stands out as , with a global population under 1,000 individuals due to habitat loss along its East Asian . Patterns of diversity reveal regional endemism, particularly in Polynesia, where the genus Prosobonia includes several island specialists; for instance, the extinct Henderson sandpiper (Prosobonia sauli), described from fossils in 2020, underscores historical losses in isolated Pacific archipelagos. No new Scolopacidae species have been formally described between 2023 and 2025, though taxonomic splits such as the whimbrel have adjusted species counts amid ongoing refinements.

Evolutionary History

Fossil Record

The fossil record of sandpipers (Scolopacidae) is notably sparse, with fewer than 20 described taxa known worldwide, reflecting significant gaps particularly in the Eocene epoch where no unequivocal scolopacid remains have been identified, despite the family's likely divergence from other shorebirds following the Cretaceous-Paleogene extinction boundary. This paucity of early fossils underscores the challenges in tracing the group's origins, with the earliest records appearing in the late Eocene to early Oligocene. No new scolopacid fossil discoveries have been reported between 2021 and 2025, maintaining the current understanding of their paleontological history. The oldest known scolopacid fossil is Paractitis bardi from the late Eocene (approximately 37 million years ago) of , , represented by a partial that indicates early divergence of within the broader shorebird post-Cretaceous. In , fragmentary remains assigned to Scolopaci, the superfamily including , date to the early (around 33-28 million years ago) from deposits in , providing evidence of the group's presence in western shortly after its North American record. Additional late (approximately 28-23 million years ago) fossils from further document this initial phase of scolopacid evolution, though these are limited to isolated bones lacking diagnostic details for precise familial placement. Diversification of sandpipers accelerated during the (23-5.3 million years ago), with fossils exhibiting morphological traits akin to modern forms, such as specialized bills for probing. A key example is the genus Mirolia from middle (approximately 16-11 million years ago) lake deposits in , comprising multiple species (M. brevirostrata, M. dubia, M. parvula, and possibly others) that display calidridine-like skull features, including a shallow origin of the m. depressor mandibulae, suggesting adaptations for tactile foraging similar to extant small sandpipers. These European finds highlight a period of morphological innovation within the family, though North American records, such as early remains from , remain fragmentary and less diverse. In the (last 11,700 years), human impacts led to extinctions among insular sandpipers, as evidenced by fossils from Pacific islands. The Henderson sandpiper (Prosobonia sauli), described from multiple bones including humeri, femora, and tibiotarsi collected in the early 1990s from cave deposits on Henderson Island in the Pitcairn Group, represents a distinct Polynesian that persisted until after human around the 11th century but vanished thereafter due to introduced predators and alteration. This taxon extends the known diversity of extinct Prosobonia sandpipers to five , all but the surviving Tuamotu sandpiper having disappeared in the late . Key fossil sites contributing to this record include Oligocene deposits in Europe, such as those in Belgium and France yielding early scolopacid fragments, and North American localities like the late Eocene strata of Saskatchewan, with Miocene diversification best documented in central European lacustrine formations.

Phylogenetic Relationships

A comprehensive cladogram of the Scolopacidae family, derived from a total-evidence analysis incorporating genetic and morphological data, indicates a basal divergence between the woodcocks (subfamily Scolopacinae) and all other sandpipers. This 2022 study by Černý and Natale, published in Molecular Phylogenetics and Evolution, employed a dataset of 353 ingroup taxa, including sequences from 27 genetic loci (both mitochondrial and nuclear) and 69 skeletal characters, to resolve relationships across the shorebirds. The analysis highlights the monophyly of the genus Calidris, which includes the diverse group of small to medium-sized sandpipers, confirming their cohesive evolutionary lineage within the family. Molecular evidence from mtDNA and nuclear genes further supports the close relationship between Tringinae (shanks, curlews, and godwits) and Calidridinae (typical sandpipers), positioning Tringinae as the to Calidridinae. In contrast, Phalaropodinae (phalaropes) emerges as a highly divergent early-branching lineage, characterized by distinct morphological and behavioral traits that set it apart from the core sandpiper . The same study resolves longstanding uncertainties in curlew-shank relationships, placing curlews ( Numenius) within a well-supported Tringinae alongside shanks (Tringa spp.), based on shared genetic markers and morphological synapomorphies. Divergence time estimates from this phylogeny, calibrated with 14 vetted s, place the split between shorebirds (Charadrii) and gulls plus allies (Lari) at approximately 50 million years ago during the Eocene, with the subsequent radiation of (Scolopacidae) occurring around 35 million years ago in the late Eocene to . These timelines align with evidence of early charadriiform diversification, though molecular data emphasize rapid within Scolopacidae. No significant phylogenetic revisions to relationships have been proposed from 2023 to 2025, and the eBird 2025 continues to follow the 2022 IOC World Bird List, which incorporates the Černý and Natale findings without alteration.

Physical Characteristics

Morphology and Size

Sandpipers, members of the family Scolopacidae, exhibit a wide range of sizes, with lengths varying from 13 to 66 cm and weights from 19 g to 1.35 kg across species. The smallest species, the (Calidris minutilla), measures 13-15 cm in length and weighs 19-30 g, while the largest, the (Numenius madagascariensis), reaches 60-66 cm in length and up to 1.35 kg in weight. These variations reflect adaptations to diverse environments, from shallow intertidal zones to deeper mudflats. The body structure of sandpipers is typically elongated with long legs adapted for wading in water, short tails, and narrow, pointed wings suited for agile flight during . Long legs, often with extended tarsi, enable species to navigate varying water depths without submerging their bodies, enhancing stability on soft substrates. Bill morphology varies significantly among genera, influencing prey access in sediment. In the genus Calidris, bills are generally straight to slightly decurved, facilitating probing into soft mud for invertebrates. Curlews (Numenius spp.) possess long, downcurved bills that allow extraction of prey from deeper burrows in mud. Some species, such as the semipalmated sandpiper (Calidris pusilla), feature partially webbed toes between the middle and outer digits, aiding propulsion in shallow water. Many possess Herbst corpuscles, mechanoreceptors concentrated in the bill tip, enabling tactile detection of buried prey through vibrations in . A 2020 study revealed that this vibrotactile bill-tip organ, present in probe-foraging , originated in the period, possibly deriving from sensory specializations in theropod ancestors.

Plumage and Adaptations

Sandpipers in the family Scolopacidae display seasonal variations that serve reproductive and survival functions, with adults often acquiring more vibrant feathers while non- and juvenile emphasize cryptic patterns. In , some develop more vibrant colors to facilitate ; for instance, the ( canutus) exhibits distinctive underparts and a complex pattern of gold, buff, black, and above, enhancing visibility during mating displays. In exhibiting , such as the ( macularius), females possess more ornamented with fewer but larger, irregularly shaped dark spots covering a greater percentage of the breast compared to males, reflecting their role in mate attraction while males remain relatively cryptic to support duties. Non-breeding plumage in sandpipers shifts to mottled browns and grays, providing effective on mudflats and beaches; adults of species like the (Calidris pusilla) show a lighter gray-brown upper body with faint streaking on the white breast, blending seamlessly with sedimentary substrates. Juvenile sandpipers, particularly in the genus , feature distinctive scaly backs formed by pale-fringed feathers on a gray-brown ground color, which aids in predator avoidance by mimicking the textured appearance of their foraging environments. Sexual dimorphism in plumage is minimal in most sandpiper species, with males and females appearing similar outside of subtle variations in spot patterns or intensity. However, phalaropes represent a notable exception due to sex-role reversal, where females display brighter plumage—such as the chestnut neck and underparts in red-necked phalaropes (Phalaropus lobatus)—to compete for mates, while males adopt duller tones for during . These plumage adaptations prioritize cryptic patterning to reduce detection by predators, with mottled and scaled designs disrupting outlines against varied backgrounds; unlike some shorebirds such as plovers, sandpipers lack iridescent feathers, favoring matte tones that enhance concealment over visual signaling.

Distribution and Habitat

Global Distribution

The family Scolopacidae, encompassing sandpipers and their allies, displays a nearly across all continents except , where occurrences are limited to vagrants. The group is absent from extreme polar deserts and high-altitude interiors but is well-represented in coastal, , and habitats worldwide. Breeding is predominantly confined to the , spanning and subarctic , boreal forests, and temperate zones from and through to . In the non-breeding season, most species undertake long-distance migrations to wintering grounds along the coasts and wetlands of the tropics and , including , , southern Asia, , and . Species diversity is highest in , where over 50 species occur, reflecting the broad Palearctic breeding ranges. hosts more than 40 species, primarily as breeders or migrants, while supports around 20 species, mainly winter visitors and residents. Occurrences in the African interior remain rare, typically involving vagrant individuals rather than established populations. Notable regional endemics include the Tuamotu sandpiper (Prosobonia parvirostris), which is restricted to a handful of atolls in the Tuamotu of and is classified as endangered due to habitat loss and invasive predators. Vagrancy extends the family's reach beyond typical ranges, with records of species like the white-rumped sandpiper (Calidris fuscicollis) in remote areas such as . No major range shifts have been documented for between 2023 and 2025, though some Arctic-breeding have exhibited localized expansions potentially linked to climate-driven changes in northern latitudes.

Habitat Preferences

Sandpipers in the Scolopacidae primarily favor coastal habitats such as mudflats, estuaries, and beaches during non-breeding seasons, where they exploit open, wet substrates for their activities. Inland marshes and wetlands also serve as important year-round environments for many , providing sheltered and resource-rich areas. For , numerous , particularly in the genus , prefer and subarctic , often selecting sites with sparse vegetation and proximity to water bodies. Intertidal zones within these coastal settings are especially critical, offering dynamic environments that support essential needs; for instance, a modeling study found that 59% of suitable non-breeding habitats for the (Calidris pygmaea) occur in intertidal areas along the East Asian-Australasian . These zones feature fluctuating water levels that expose soft substrates periodically. Sandpipers occupy a broad elevational range from to 4,000 m, adapting to varied terrains including flat coastal plains and upland grasslands; the upland sandpiper (Bartramia longicauda), for example, thrives in open prairies and meadows at moderate elevations. Microhabitats typically include soft sediments like mud or for accessibility and vegetated edges, such as grassy borders or shrubby margins, which provide cover and stability. Species like Baird's sandpiper (Calidris bairdii) exemplify adaptability by using high-altitude plateaus in the up to 4,000 m during non-breeding periods. However, ongoing habitat loss from coastal development and land conversion threatens these specialized preferences across the family.

Migration and Movements

Migration Patterns

Sandpipers exhibit diverse migration patterns, with many species undertaking long-distance journeys between and breeding grounds and temperate or southern wintering areas. -breeding species, such as the (Limosa lapponica), perform some of the longest nonstop flights recorded among birds, covering up to 13,560 km from to or in as little as 11 days. These migrations highlight the family's capacity for extreme endurance, often spanning hemispheres to reach sub-Antarctic wintering sites. Migration timing varies by species and direction but generally follows seasonal patterns, with northward migrations occurring from to and southward fall migrations from July to October. These movements are highly stopover-dependent, as birds rely on key sites to refuel and rest. For instance, a 2025 study using VHF on western sandpipers (Calidris mauri) along the found that adults make shorter stopovers during southbound compared to northbound, reflecting time-minimizing strategies to optimize energy use. Juveniles, in contrast, often have longer stays to build fat reserves. Major routes include the East Asian-Australasian (EAAF), which supports over 50 species of migratory shorebirds, including numerous sandpipers like the spoon-billed sandpiper ( pygmaea) and curlew sandpiper ( ferruginea), connecting breeding areas in and to wintering grounds in and . In the Americas, species such as the pectoral sandpiper ( melanotos) and upland sandpiper (Bartramia longicauda) follow flyways along the Pacific and Atlantic coasts or through the interior, often crossing the or . Migration strategies emphasize efficient fueling at stopover sites to support long flights, with birds rapidly gaining weight before departure. Pectoral sandpipers, for example, use reservoirs like Lake Red Rock as critical pit stops during fall , where a 2025 tracking study revealed they depart after short stays for nonstop flights of up to 4,000 km to or . Some species exhibit partial , where not all individuals migrate fully; semipalmated sandpipers (Calidris pusilla) show oversummering , with juveniles and some adults remaining in South American wintering areas like instead of returning north to breed, prioritizing survival over reproduction. Recent 2025 research underscores how life-history constraints, such as body size and breeding priorities, influence timing and strategies across . These patterns reveal adaptive flexibility in response to environmental and physiological demands.

Navigation and Behavior

Sandpipers employ a combination of and geomagnetic cues for during . such as the ( alpina) and curlew sandpiper ( ferruginea) rely primarily on a magnetic , which dominates over cues like the sun's position, as demonstrated in cue-conflict experiments where birds did not recalibrate their magnetic based on shifted patterns at sunset. This hierarchy allows for reliable under varying conditions, with the magnetic providing a stable reference even when visual cues are obscured. In long-distance migrants like the sharp-tailed sandpiper, both sun-compensated and magnetic mechanisms facilitate route-following, adapting to latitudinal changes in the . Flock coordination during flight relies heavily on visual signals, enabling synchronized maneuvers among thousands of individuals. In species like the dunlin, birds monitor the movements of multiple neighbors—up to six or seven—allowing rapid, wave-like turns that propagate through the flock faster than simple nearest-neighbor interactions. Auditory signals, such as contact calls, may supplement visual cues in some contexts, though visual flashing of plumage during turns plays a key role in maintaining cohesion. Flocking behavior in sandpipers serves primarily as an anti-predator strategy, with large groups forming erratic, pulsating to confuse aerial predators like peregrine falcons. Calidrid , in particular, exhibit united display flights where the maneuvers as a single entity, enhancing survival by diluting individual risk across thousands of birds. This tactic is especially pronounced during migration, where predation pressure influences departure timing and route choices to minimize encounters with falcons. Many demonstrate strong site to wintering grounds, returning to the same locations year after year with high repeatability in spatial use. A 2025 study on long-billed dowitchers, a closely related shorebird, found 87% overlap in wintering home ranges between consecutive years, with birds maintaining centroids just 10 km apart on average, reflecting adaptive consistency in non- habitats. In contrast, some species engage in exploratory prospecting of sites, sampling multiple areas with low interannual ; dowitchers, for instance, dispersed an average of 159 km between seasons and occupied up to 11 residency sites per year. At stopover sites, sandpipers adopt tactics focused on rapid refueling and rest to optimize energy for continued . Western sandpipers (Calidris mauri) typically stay 2–8 days depending on the site, with heavier individuals departing sooner after quick fat deposition, while lighter birds extend stays for . influence these patterns, as juveniles often remain longer than adults—up to 7.9 days versus 4.4 days during southward at key estuaries—due to inexperience and lower . Sex differences also appear, with males stopping briefly during northward journeys. Vagrant occurrences in sandpipers arise from navigational disruptions, particularly storms that displace far from typical routes. Strong events can individuals off , leading to rare sightings in unexpected regions, as seen in pectoral sandpipers ( melanotos) during European influxes linked to atypical winds. Such anomalies highlight the vulnerability of migratory paths to environmental perturbations.

Foraging and Diet

Feeding Methods

Sandpipers utilize a diverse array of techniques tailored to their structures and habitats, primarily relying on visual and tactile cues to capture prey. Visual pecking involves spotting and rapidly snatching surface-dwelling organisms with quick thrusts, common among smaller on exposed mudflats. Tactile probing entails inserting the into soft substrates like or to detect buried items through sensory , a method prevalent in intertidal zones. Specialized variants include stitching, where birds make rapid, shallow jabs to sample layers, and scything, in which with curved sweep side-to-side to stir and intercept prey in shallow or loose . Bill morphology significantly influences these methods, with adaptations enhancing efficiency in specific niches. Long-billed species, such as curlews in the genus Numenius, employ deep probing to access invertebrates several centimeters below the surface, their straight or slightly decurved bills allowing precise extraction from dense mud. In contrast, short-billed taxa like stints (Calidris spp.) excel at surface-oriented pecking and shallow stitching, minimizing energy expenditure on accessible prey. These morphological variations correlate directly with foraging depth and success rates across scolopacid genera. Foraging behaviors also differ by locomotion and context. In the genus , birds often adopt a run-stop-peck mode, sprinting across flats to scan visually before pecking, which suits dynamic, prey-rich environments. shanks, meanwhile, prefer wading in shallow water, using deliberate, upright stabs to probe while standing stationary or moving slowly. Daily foraging intensity is high, with individuals capable of thousands of pecks or probes—up to approximately 3,600 in spotted sandpipers (Actitis macularius)—sustained over extended periods to meet energetic demands during migration. Tactile capabilities underpin probing efficiency, enabled by the bill-tip organ—a cluster of Herbst corpuscles and other mechanoreceptors that detect substrate vibrations from moving prey. This sensory system, documented in shorebirds, originated in the among early neornithine birds and persists as a key adaptation for non-visual . In group settings, form dense flocks where collective probing and foot movements stir sediments, flushing prey and allowing followers to capitalize on disturbances with reduced individual effort, thereby boosting overall intake rates amid competition.

Prey Items

Sandpipers primarily consume small such as polychaetes, amphipods, and , which form the bulk of their , often comprising 80-90% by in many . For instance, in the (Actitis hypoleucos), amphipods and polychaetes dominate, accounting for approximately 46.9% and 39.0% of the during winter, respectively. This invertebrate-focused composition provides essential proteins and fats necessary for their energetic demands. Dietary preferences exhibit clear seasonal shifts, with breeding periods emphasizing terrestrial and occasional berries to support and chick-rearing in upland or coastal habitats. In contrast, during non-breeding seasons, sandpipers rely more heavily on marine crustaceans and mollusks available in intertidal zones, reflecting adaptations to coastal sites. Recent studies (as of 2025) highlight the importance of intertidal biofilms, contributing 45-59% of the diet in species like western sandpipers during spring , and increased polychaete consumption in smaller species during winter. These variations ensure optimal nutrient intake aligned with environmental prey availability across migratory cycles. Prey size selection is influenced by bill morphology, where longer bills enable access to deeper-buried in sediments, allowing species like the Western Sandpiper to exploit buried polychaetes and amphipods beyond the reach of shorter-billed relatives. This correlation between bill length and maximum prey depth enhances resource partitioning among sandpiper in shared habitats. While largely invertebrate-dependent, sandpipers display opportunistic feeding, incorporating seeds or small when available, particularly in disturbed or varied environments. The Upland Sandpiper (Bartramia longicauda), for example, consumes predominantly such as grasshoppers and , with over 95% of its diet consisting of such prey, supplemented minimally by seeds. To fuel long-distance migrations, sandpipers preferentially select high-fat prey like certain polychaetes and , which supply essential fatty acids such as EPA and DHA for and membrane maintenance.

Reproduction

Breeding Systems

Sandpipers in the family Scolopacidae exhibit a range of mating systems, with most being socially monogamous, forming pair bonds that last for the breeding season. For instance, the (Calidris alpina) typically pairs monogamously, with both partners sharing territorial defense and reproductive duties. In contrast, phalaropes (Phalaropus spp.) display , where females are dominant, competing aggressively for mates and laying multiple clutches with different males while males assume all parental responsibilities. This reversal of traditional sex roles in phalaropes is an adaptation to the intense selective pressures of their breeding environments. Courtship in sandpipers often involves elaborate aerial displays and vocalizations to attract and establish territories. Males of like the ( melanotos) perform dramatic flights, producing hooting calls from inflated beneath their breast , which signals readiness and quality. In the ( ferruginea), pairs engage in swerving aerial chases followed by ground displays, with —such as tones in males—serving as visual cues for selection. These help synchronize pair formation and minimize conflicts in densely populated breeding grounds. Clutches typically consist of 3-4 eggs, laid in a simple ground scrape, with lasting 20-30 days depending on the and environmental conditions. In monogamous , biparental care is common, with both sexes sharing incubation duties; for example, western sandpipers (Calidris mauri) divide this task roughly equally. Polyandrous phalaropes, however, feature male-only incubation and brood care, allowing females to pursue additional matings. Breeding among sandpipers generally occurs from May to July, aligning with the short polar summer to maximize chick growth before . Multiple per season are rare across the , as the compressed timeline limits renesting opportunities. A 2025 on partial in shorebirds suggests that some individuals skip to conserve energy for future seasons, potentially enhancing long-term survival amid changing climates.

Nesting and Parental Care

Sandpipers in the Scolopacidae typically construct simple nests consisting of shallow ground scrapes, often lined with sparse such as grass, moss, lichens, or leaves to provide minimal and insulation. These nests are cryptically placed in a variety of habitats, including open , coastal marshes, or grassy edges near water bodies, where the surrounding or terrain helps conceal them from predators while allowing parents to maintain vigilance. In some , such as the upland sandpiper, nests may be situated in slightly more open areas to facilitate monitoring for threats, though this increases exposure risk. Incubation duties vary across species but are generally shared between both parents in monogamous pairs, with each taking shifts to relieve the other, often involving vocal exchanges to coordinate nest reliefs. In polyandrous species like the , however, males assume primary or sole responsibility for , lasting 21 to 28 days until hatching, during which they maintain consistent egg temperatures despite environmental fluctuations. For the , biparental is standard, with nests positioned close to water edges to enhance survival probabilities by reducing certain predation risks. Sandpiper chicks are precocial, emerging from eggs covered in downy plumage and capable of leaving the nest within hours of hatching to follow parents to safer areas. Initially, both parents, or the tending male in uniparental cases, provide protection by brooding the chicks and leading them to sources, occasionally assisting with feeding small prey items during the first few days. Fledging occurs after 15 to 30 days, depending on the , but chick mortality remains high due to predation, with estimates indicating up to 50% loss in some populations during this vulnerable period. Variations in nesting practices persist across the family; for instance, the uniquely reuses abandoned tree nests of passerines rather than scraping ground sites. Recent surveys in 2025 identified a previously unknown breeding site for the in remote Russian tundra, highlighting ongoing discoveries in nest site distribution but no substantial shifts in core behaviors.

Conservation Status

Threats and Population Trends

Many species of sandpipers, part of the broader group of migratory shorebirds, have experienced significant population declines globally, with approximately 40% of shorebird populations in lost since according to community science data. On average, sandpiper populations have declined by 20-30% since the , driven by multiple pressures, as evidenced by long-term monitoring in key breeding and wintering areas. The 2024 BirdLife International update to the highlights that 15% of shorebird species, including several sandpipers, are now globally threatened, with 16 species uplisted to higher risk categories due to ongoing declines. Key threats to sandpipers include habitat loss from coastal development and , which has reduced critical stopover sites along migration routes by over 65% in regions like the . exacerbates these issues by altering tundra breeding habitats through thaw and shifting patterns, leading to failed breeding seasons and reduced chick survival. Illegal and disturbance along flyways further contribute to mortality, particularly for long-distance migrants, while from agricultural runoff and oil spills contaminates foraging areas, affecting prey availability and bird health. The (Calidris pygmaea) is classified as on the , with a global population estimated at 240-580 mature individuals and an ongoing annual decline of approximately 5% as of 2024 estimates from breeding ground surveys. Similarly, the upland sandpiper (Bartramia longicauda) is listed as Threatened in 10 northeastern U.S. states, including , based on the 2025 Species Status Assessment, due to habitat fragmentation in grassland breeding areas. Notable trends include an estimated 15-29% over the past three generations (approximately 24 years) for the (Limosa lapponica), a close relative often studied alongside s, as per recent IUCN assessments, with ongoing declines reported in the 2025 State of the Birds and no signs of recovery observed between 2023 and 2025 across monitored . Flyway-wide counts along the East Asian-Australasian Flyway (EAAF) reveal substantial losses for populations, with species like the (Calidris ferruginea) showing rapid declines linked to stopover site degradation. Overall, these trends indicate persistent vulnerability without reversal in most populations as of 2025.

Conservation Measures

Conservation efforts for sandpipers emphasize international collaboration to safeguard migratory routes and habitats across the . The Task Force, coordinated under the East Asian-Australasian Flyway Partnership (EAAFP), updated its International Single Species Action Plan in 2024 to prioritize protection, , and recovery for this species, serving as a model for broader sandpiper conservation, and in November 2025 released a new 10-year plan for 2025-2035 noting that coordinated efforts have slowed the population decline, with stabilization possible through continued actions. The EAAFP itself fosters flyway-wide protection by uniting 42 partner countries and organizations to conserve over 50 million migratory waterbirds, including numerous sandpiper species, through policy advocacy and site management. Over 100 Ramsar wetland sites along the provide critical protected areas for sandpipers, supporting stopover, breeding, and wintering needs. For instance, the Quanzhou Bay conservation station in , established in 2025, monitors and protects key intertidal s vital for spoon-billed sandpipers and other shorebirds during migration. In the region, reserves such as the and the UNESCO-listed Migratory Bird Sanctuaries along the Coast of -Bohai Gulf serve as essential stopover sites, hosting millions of sandpipers annually and mitigating habitat loss through legal safeguards. Active interventions include and headstarting programs, particularly for the , where eggs are collected from wild nests, hatched in , and released as fledglings to significantly boost survival rates, with headstarted chicks showing apparent survival rates of 70-75% in early years. Habitat restoration efforts, such as replanting mangroves and controlling in coastal wetlands, enhance areas, while initiatives in wintering grounds like and involve community agreements to reduce trapping. Recent successes highlight progress, including the 2024 discovery of a new nesting area in northeastern , expanding known breeding grounds and informing targeted protections. In 2025, satellite transmitter tracking of individuals revealed novel migration routes and stopovers, enabling refined conservation strategies across the . Despite these advances, challenges persist, including funding shortages that limit program scalability and the need for enhanced international coordination to meet 2025-2030 recovery goals outlined in the EAAFP and plans.

References

  1. [1]
    Structure and Phylogenetic Relationships of Scolopacidae ... - NIH
    Jun 19, 2024 · The order Charadriiformes is a complex group with 390 extant species [1,2]. It has a wide distribution and occupies diverse habitats. The ...
  2. [2]
    Scolopacidae - Sandpipers and Allies - Birds of the World
    Mar 4, 2020 · Scolopacids generally prefer to breed in wet, open, grassy habitats, and a large number of species nest on Arctic or subarctic tundra.
  3. [3]
    Scolopacidae Browse by Family, All About Birds, Cornell Lab of ...
    Browse Birds by TaxonomyBrowse 700+ North American species by family ... Clements Checklist · State of the Birds · Annual Report · Scientific Citations ...
  4. [4]
    Master Lists – IOC World Bird List
    - **Task**: Extract total number of species and genera in the family Scolopacidae from the IOC World Bird List.
  5. [5]
    Reclassification of the Scolopacidae
    Livezey (2010) recognized four subfamilies (Arenariinae, Calidrinae, Tringinae, Scolopacinae) and maintained the phalaropes as a separate family. Genetic data ( ...
  6. [6]
    https://www.worldbirdnames.org/new/updates/taxonomy/
  7. [7]
    Limosa lapponica (Bar-tailed Godwit) - Avibase
    Avibase is an extensive database information system about all birds of the world, containing over &1 million records about 10000 species and 22000 ...
  8. [8]
    Details : Numenius - BirdGuides
    Numenius is a genus within the family Scolopacidae (Sandpipers, snipes). Taxonomy Version: IOC 10.2. Search by taxon.
  9. [9]
    Revise the classification of sandpipers and turnstones (Arenariinae)
    They concluded that these sandpipers constitute one of 8 monophyletic subfamilies in the shorebird family Scolopacidae. ... Arenariinae has priority over ...Missing: Tringinae | Show results with:Tringinae
  10. [10]
    2025 Taxonomy Update—COMPLETE - eBird
    Oct 28, 2025 · With this update, the eBird taxonomy and the AviList taxonomy are in nearly full alignment; we expect complete alignment by October 2026. For a ...
  11. [11]
    Scolopacidae – Woodcock, Snipe, Sandpipers & Allies - Fat Birder
    Scolopacids generally prefer to breed in wet, open, grassy habitats, and a large number of species nest on Arctic or subarctic tundra. ... species of wader in the ...
  12. [12]
    The Paradox of Shorebird Diversity and Abundance in the West ...
    Oct 20, 2022 · This study investigated the diversity, abundance, population dynamics and distribution patterns of shorebirds along the Indian coasts based on the available ...
  13. [13]
    Sandpipers - Species, America, Family, and Birds - JRank Articles
    Thirty-seven species in the sandpiper family breed regularly in North America. The smaller species of sandpipers and the closely related plovers (family ...
  14. [14]
    Curlew Bird Facts | Numenius Arquata - RSPB
    Eurasian Curlew walking across moorland. Curlew. Birds of the month. Head ... UK breeding birds 58,500 pairs; UK wintering 125,000 individuals; Weight 575-1,000g ...
  15. [15]
    2024 eBird Taxonomy Update
    The Clements Checklist 2024 updates & corrections provides details (including references) for all species splits and lumps, new species descriptions, revisions ...
  16. [16]
    An assessment of the diversity of early Miocene Scolopaci (Aves ...
    Aug 29, 2013 · Other Paleogene Scolopaci from Europe were reported from the early Oligocene of Belgium (Mayr and Smith 2001) and from the late Oligocene of ...
  17. [17]
    [PDF] Sixteen vetted fossil calibrations for divergence dating of ...
    The following apo- morphies that support referral of Mirolia brevi- rostrata to Calidridinae were cited by Ballmann. (2004:111): “the shallow and narrow origin ...
  18. [18]
    OLIGOCENE BIRDS FROM SASKATCHEWAN - jstor
    Weigel, ... This is the ear liest record of the New World quails. Family Scolopacidae Vigors. Sandpipers. Paractitis, new genus. Type of genus. Paractitis bardi, ...
  19. [19]
    [PDF] Fossil Calidridinae (Aves: Charadriiformes) from the Middle Miocene ...
    Abstract: A new genus of sandpiper, Mirolia. is described from middle Miocene lake deposits in southern Germany. It comprises four new species, one of them ...
  20. [20]
    Comprehensive taxon sampling and vetted fossils help clarify the ...
    We present the most comprehensive non-supertree phylogeny of shorebirds to date, based on a total-evidence dataset comprising 353 ingroup taxa.Missing: Černý Natale
  21. [21]
    Sandpipers, snipes, Crab-plover, coursers - IOC World Bird List
    ... 2025 | Updated February 20, 2025 with version 15.1. IOC World Bird List v15.1 by Frank Gill, David Donsker & Pamela Rasmussen (Eds) is licensed under a ...Missing: phylogeny 2023 2024
  22. [22]
    Least Sandpiper Identification - All About Birds
    Least Sandpipers are tiny sandpipers with round bodies and relatively short, pointed wings. They have thin-tipped, slightly decurved bills and slim, medium- ...Missing: structure rounded
  23. [23]
    https://www.allaboutbirds.org/guide/Least_Sandpiper/id
  24. [24]
    [PDF] Which is the world's biggest wader / shorebird?
    The heaviest recorded is a whopping 1360 grams. In second place weight- wise is the Far Eastern Curlew narrowly less at. 1350 grams. The second longest species, ...
  25. [25]
    Sandpipers (Scolopacidae) - Birds of The World
    Sandpipers include many species called sandpipers, as well as those called by names such as curlew and snipe. They have long bodies and legs, and narrow wings.
  26. [26]
    [PDF] Shorebirds Have Special Adaptations
    Shorebirds have long legs for wading. Their long toes give them the stability they need for their seemingly endless walking and running along the water's edge ...
  27. [27]
    Functional association of bill morphology and foraging behaviour in ...
    Aug 7, 2025 · Here, we used high resolution microscopy to study gross bill morphology of Western Sandpipers (Calidris mauri). We showed that bills of males ...
  28. [28]
    Long-billed Curlew Identification - All About Birds
    Relative Size · Measurements. Both Sexes. Length: 19.7-25.6 in (50-65 cm); Weight: 17.3-33.5 oz (490-950 g); Wingspan: 24.4-35.0 in (62-89 cm).Missing: eastern | Show results with:eastern
  29. [29]
    Semipalmated Sandpiper - American Bird Conservancy
    The dainty Semipalmated Sandpiper is named for the partial webbing between its toes; the word “palmate” means webbed. Often hard to see, this adaptation ...Missing: leg foot tarsi
  30. [30]
    Cretaceous origins of the vibrotactile bill-tip organ in birds - PMC - NIH
    Dec 2, 2020 · Some probe-foraging birds locate their buried prey by detecting mechanical vibrations in the substrate using a specialized tactile bill-tip organ.
  31. [31]
    [PDF] A Shorebird MAnAgeMent MAnuAl - Manomet
    Jan 20, 2021 · nests, eggs, and plumage patterns, especially on the back, are cryptic to blend in with the surrounding habitat, a necessary attribute for ...
  32. [32]
    Red Knot Overview, All About Birds, Cornell Lab of Ornithology
    Red Knots are plump, neatly proportioned sandpipers that in summer sport brilliant terracotta-orange underparts and intricate gold, buff, rufous, and black ...
  33. [33]
    Rufa Red Knot (Calidris canutus rufa) | U.S. Fish & Wildlife Service
    The red knot is easily recognized during the breeding season by its distinctive rufous (red) plumage. The face, prominent stripe above the eye, breast, and ...
  34. [34]
    https://www.fws.gov/species/rufa-red-knot-calidris-canutus-rufa
  35. [35]
    Calidris pusilla (semipalmated sandpiper) - Animal Diversity Web
    Plumage differs between juveniles, breeding and nonbreeding adults. During the breeding season semipalmated sandpipers have gray to brown upper body, with a ...
  36. [36]
    [PDF] Discover Shorebirds
    May 31, 2022 · • Pointed wings: Long primary feathers for fast flight. • Mottled plumage: Helps camouflage to hide from predators. Learning Resources: Lesson ...
  37. [37]
    Red Knot | Audubon Field Guide
    Dowitchers and Willet much longer-billed. In breeding plumage, face and underparts washed with robin red. Fall juveniles show scaly pattern on gray back.
  38. [38]
    Actitis hypoleucos (common sandpiper) - Animal Diversity Web
    During the spring and summer when it is breeding season, they are typically found in the northern hemisphere ranging from the Atlantic Ocean to Japan, usually ...Missing: hotspots | Show results with:hotspots
  39. [39]
    Sexing a sex-role-reversed species based on plumage - NIH
    May 2, 2016 · The breeding plumage of female red phalaropes is usually more brightly colored than male plumage, a reversed sexual dichromatism usually associated with sex- ...
  40. [40]
    https://pmc.ncbi.nlm.nih.gov/articles/PMC4860308/
  41. [41]
    Sandpipers (Scolopacidae) - Encyclopedia.com
    Curlews exploit many breeding habitat types, including taiga, woodland, tundra, moorland, bogs, wet grassland, farmland, prairies, and lakeshores. Most shanks, ...
  42. [42]
    [PDF] Peeps and Related Sandpipers
    The remaining nine species are less common, some breeding regularly in remote areas—white- rumped, stilt and buff-breasted sandpipers (C. fuscicollis, C.<|control11|><|separator|>
  43. [43]
    SCOLOPACIDAE Rafinesque, 1815 - Australian Faunal Directory
    Scolopacidae are the largest family group within the Charadriiformes with 92 species in 23 genera. In Australia, 31 of the species are represented by 14 genera.Missing: diversity | Show results with:diversity
  44. [44]
    Curlew Sandpiper Calidris Ferruginea Species Factsheet | BirdLife ...
    Populations breeding in Western Siberia and wintering in West Africa are estimated to total are estimated to number 300,000-400,000 birds, while those ...
  45. [45]
    Tuamotu Sandpiper Prosobonia Parvirostris Species Factsheet
    Prosobonia parvirostris is endemic to the Tuamotu Archipelago, French Polynesia, where breeding populations occur on Tenararo, Morane, Tahanea, Anuanuaro, ...
  46. [46]
    Pectoral Sandpiper – My Store - Bird Watching Academy
    ... vagrant populations in the Middle East, Africa, and Antarctica. Its preferred habitat includes grasslands, wetlands, marine, and coastal locations. About ...
  47. [47]
    Climate‐related range shifts in Arctic‐breeding shorebirds - Anderson
    Feb 7, 2023 · The inference of range shifts is stronger for the four species showing simultaneously increased occupancy in our region and overall population ...
  48. [48]
    Semipalmated Sandpiper | Audubon Field Guide
    Habitat. Beaches, mudflats; tundra in summer. During migration along coast found on mudflats in intertidal zone, shallow estuaries and inlets, beaches.
  49. [49]
    Western Sandpiper Life History - All About Birds
    Western Sandpipers nest only in relatively dry tundra habitats, from coastal lowlands to the lower parts of mountains.Missing: inland | Show results with:inland
  50. [50]
    Habitat - Pectoral Sandpiper - Calidris melanotos - Birds of the World
    Breeds on Arctic tundra, usually in wet and well-vegetated habitats, such as bog and tundra complexes with vegetation of moss or Eriophorum.
  51. [51]
    Identifying non-breeding habitat conservation gaps of the critically ...
    May 18, 2025 · Our results show that only 59 % of the suitable non-breeding habitats for Spoon-billed Sandpiper EAAF are located in the intertidal zone.Missing: 2024 | Show results with:2024
  52. [52]
    Common Sandpiper Actitis Hypoleucos Species Factsheet
    It occurs from sea level up to 4,000 m or more in the mountains, but generally avoid frozen, snow-clad or very hot areas (Snow and Perrins 1998). Non-breeding ...
  53. [53]
    Upland Sandpiper - All About Birds
    The elegant, enigmatic Upland Sandpiper paces across grassland habitats like a tiny, short-billed curlew throughout the year: prairies, pastures, and croplands ...Missing: elevation | Show results with:elevation
  54. [54]
    Baird's Sandpiper - BC Breeding Bird Atlas
    Wintering is mostly in southwest South America, both along the coast and up to 4,000 m in the Chilean Andes (Moskoff and Montgomerie 2002). Distribution, ...
  55. [55]
    Shallow water habitats provide high-quality foraging environments ...
    Observations of foraging Spoon-billed Sandpiper individuals indicated that shallow water habitats were their preferred foraging environments, where mobile ...
  56. [56]
    Upland Sandpiper Guide - New York Natural Heritage Program
    Mar 20, 2024 · Global Distribution. BREEDING: The contiguous portion of the breeding range extends from southern Alberta, east of the Rocky Mountains ...
  57. [57]
    Longest non-stop migration by a bird | Guinness World Records
    The longest recorded migration by a bird, without stopping for food or rest, is around 13,560 km (8,425 miles) by a satellite-tagged, juvenile bar-tailed ...
  58. [58]
    The Godwit's 7,000-Mile Journey: A Migration That Breaks Records
    Sep 20, 2022 · The known distance record for a godwit migration is 13,000 kilometers, or nearly 8,080 miles. It was set last year by an adult male bar-tailed ...
  59. [59]
    Lengths of Stay and Stopover Strategies of Western Sandpipers ...
    Jan 11, 2025 · Since time‐conserving strategies are often associated with longer lengths of stay, such that birds can acquire large fuel loads to increase ...
  60. [60]
    [PDF] Lengths of Stay and Stopover Strategies of Western Sandpipers ...
    Therefore, understanding how length of stay can vary in space and time is important in determining the ecological processes that underlie changes in shorebird.
  61. [61]
    EAST ASIAN-AUSTRALASIAN FLYWAY - BirdLife International
    Sep 7, 2023 · The Spoon-billed Sandpiper is a gorgeous wader, so named for its uniquely shaped beak specially designed for feeding on marine invertebrates!
  62. [62]
    New VCE Study Reveals Surprising Upland Sandpiper Migration ...
    Nov 4, 2019 · Upland Sandpipers fly 5-7 days nonstop, some over 3,785 km, and some over 6,166 km. They also use multiple nonbreeding areas, and some ...
  63. [63]
    Pit Stops in Iowa Precede Nonstop Flights to South America, Bird ...
    Feb 11, 2025 · A pectoral sandpiper can make Iowa its last stop before a continuous flight of around four days covering thousands of miles, research by Iowa State University ...Missing: stopover | Show results with:stopover
  64. [64]
    Oversummering juvenile and adult Semipalmated sandpipers in ...
    Oct 27, 2020 · Juveniles at more southerly non-breeding areas, further from arctic breeding grounds, neither molt into breeding plumage nor migrate northward, ...Missing: camouflage | Show results with:camouflage<|separator|>
  65. [65]
    Migration strategy and constraint in migration behavior vary among ...
    Jan 15, 2025 · We compared migration strategies among three migratory shorebird species with variable life history traits and short, medium, and long migration distances, ...
  66. [66]
    Partial Migration, Oversummering, and Intermittent Breeding by ...
    Adults have higher reproductive success and so oversummer less readily than do yearlings. If the oversummering survival gain is similar to the threshold level ...
  67. [67]
    https://movementecologyjournal.biomedcentral.com/articles/10.1186/s40462-018-0126-4
  68. [68]
    Feasibility of sun and magnetic compass mechanisms in avian long ...
    Jun 6, 2018 · Birds use a variety of different compass mechanisms for orientation during migration, based on celestial or geomagnetic cues. Celestial compass ...
  69. [69]
    https://www.audubon.org/magazine/how-flock-birds-can-fly-and-move-together
  70. [70]
    How a Flock of Birds Can Fly and Move Together | Audubon
    “What they do is not predator avoidance,” he says. “It's inviting predators.” He speculates that there may be some fundamental math-based behavior going on ...
  71. [71]
    Predator escape tactics in birds: linking ecology and aerodynamics
    Calidrid species (sandpipers) (Figure 1) are well-known for such united, erratic display flights to form flocks which appear to pulsate and maneuver as one ...
  72. [72]
    Danger, risk and anti‐predator behavior in the life history of long ...
    Apr 28, 2022 · ... semipalmated sandpipers span the threshold (partial over-summering). The values of s and s* both increase as migratory mortality rises (for ...
  73. [73]
    https://www.allaboutbirds.org/news/geomagnetic-disturbances-and-wrong-way-bird-migrations/
  74. [74]
    Geomagnetic Disturbances and Wrong-Way Bird Migrations
    Sep 27, 2023 · Vagrancy, as this phenomenon is called, adds zest and unpredictability to birdwatching. Weather events such as strong storms can blow a bird off ...
  75. [75]
    (PDF) Pectoral Sandpipers in Europe: vagrancy patterns and the ...
    This paper presents a review of the occurrence patterns and migratory behaviour of the species, both during the 2003 influx in Europe, and on a wider scale.
  76. [76]
    Shorebird Foraging Behavior – Maine Birds - Web – A Colby
    Sep 25, 2017 · Sandpipers are able to spread the tips of their bill while keeping the rest of the bill tightly shut, a neat little trick called rhynchokinesis.Missing: methods | Show results with:methods
  77. [77]
    [PDF] Functional association of bill morphology and foraging behaviour in ...
    Here, we used high resolution microscopy to study gross bill morphology of Western Sandpipers (Calidris mauri). We showed that bills of males and females ...
  78. [78]
    Thermal adaptation best explains Bergmann's and Allen's Rules ...
    Aug 11, 2022 · Probing species were described as using at least one of the following foraging behaviours: 'probe', 'scythe', 'sandpiper-style', 'stitch', 'sew' ...
  79. [79]
    Shorebird Foraging Strategies | Bird Academy • The Cornell Lab
    Piping Plovers and Semipalmated Plovers have a “run-stop-run” foraging method. They locate prey on the surface by sight, then run over and grab them. The ...
  80. [80]
    Diet and Foraging - Curlew Sandpiper - Calidris ferruginea
    May 19, 2023 · In South Africa, adults during March and April had a mean foraging rate of 43.15 ± 18.67 pecks and probes/minute, which was significantly (P ...
  81. [81]
    [PDF] Energetics of a Spotted Sandpiper Feeding on Brine Fly Larvae ...
    Dec 1, 1973 · 3067, and 3771 giving a mean number of 3638 pecks/day. ... Thus the sandpiper removes a maximum of 0.22 kcal X rn-' (13/58) or only 2 percent of ...
  82. [82]
    Science | AAAS
    Insufficient relevant content.
  83. [83]
    Competition in foraging flocks of migrating semipalmated sandpipers
    The increase in foraging rate is argued to be a response to increased competition for rapidly depleting prey at the temporal scale of exploitation by a flock.Missing: stir sediment
  84. [84]
    Diet and Foraging - Upland Sandpiper - Bartramia longicauda
    Sep 1, 2023 · Roughly 95% of its diet seems to be small invertebrates, such as grasshoppers (Orthoptera) and beetles (Coleoptera), with much of the remaining ...Missing: fish | Show results with:fish
  85. [85]
    What Do Sandpipers Eat? - A-Z Animals
    Aug 8, 2022 · Sandpipers eat a diet that consists mostly of smaller invertebrates, such as insects, worms, and small arthropods. They are typically carnivores, although some ...Missing: composition polychaetes
  86. [86]
    Diet and prey selection of Common Sandpiper Actitis hypoleucos ...
    Aug 6, 2025 · The Common Sandpiper is forage on amphipod (46.9%), the polychaetes (39.0%) and the decapod (6.3%) 84 , polychaetes, decapods algae, seeds ...
  87. [87]
    Food resources for Spoon-billed Sandpipers (Calidris pygmaea) in ...
    Sep 14, 2022 · Diet descriptions mention crustaceans, small fish, polychaetes, mollusks, and insects (Dixon, 1918; Portenko, 1957; Portenko, 1968; Voronov ...
  88. [88]
    Diet and Foraging - Spoon-billed Sandpiper - Calidris pygmaea
    May 5, 2025 · The bill shape is most likely used as a magnifying pressure sensor in muddy waters with a large congregation of Herbst corpuscles (20 ...Missing: tactile | Show results with:tactile
  89. [89]
    [PDF] Western Sandpiper - Alaska Center for Conservation Science
    During migration, their diet shifts to one that is more marine-based;clams, crustaceans, and polycheate worms are consumed (Franks et al. 2014). Biofilm also ...
  90. [90]
    Bill Length of Non‐breeding Shorebirds Influences the Water Depth ...
    Oct 22, 2024 · Shorebirds with shorter bill lengths preferred shallow waters and those with longer bills preferred deep waters for their foraging activities.
  91. [91]
    [PDF] Disproportionate bill length dimorphism and niche differentiation in ...
    Additional comparisons suggest a cline in bill length dimorphism that mirrors a latitudi- nal gradient in prey burial depth. While sexual size dimorphism in the ...
  92. [92]
    What Do Sandpipers Eat? (Full Diet, Habits & Behavior) | Birdfact
    May 14, 2022 · Sandpipers occasionally eat small fish or fish carrion. These food items are consumed more opportunistically. They are not sought out as ...
  93. [93]
    Upland Sandpiper | Audubon Field Guide
    Favored nesting habitat is native grassland, with mixture of tall grass and broad-leafed weeds. In the northeast, where natural grassland is now scarce, may be ...At a Glance · Range & Identification · BehaviorMissing: elevation | Show results with:elevation
  94. [94]
    Fatty acid composition and concentration of alternative food of ...
    Our results suggest that a diet rich in polychaetes will provide Semipalmated Sandpipers foraging in the Bay of Fundy with essential FAs needed for migration, ...Missing: fueling | Show results with:fueling
  95. [95]
    Performance-enhancing role of dietary fatty acids in a long-distance ...
    Jul 15, 2006 · Before long-distance migration, semipalmated sandpipers modify their muscle membranes and load large fat reserves by feeding on marine ...Missing: fueling | Show results with:fueling
  96. [96]
    Behavior - Dunlin - Calidris alpina - Birds of the World
    Oct 24, 2023 · Mating System And Sex Ratio. Generally monogamous. Few cases of simultaneous polygamy known (M. Soikkeli in 3.
  97. [97]
    Behavior - Wilson's Phalarope - Phalaropus tricolor - Birds of the World
    Mar 4, 2020 · Within a breeding season females may obtain multiple mates sequentially. Annual incidence of polyandry varies from 0% to11% of marked females, ...
  98. [98]
    Red Phalarope - American Bird Conservancy
    In a polyandrous system, most commonly seen among shorebirds, customary gender roles are reversed: During the nesting season, a female phalarope claims ...Missing: dominant | Show results with:dominant<|separator|>
  99. [99]
    Breeding - Pectoral Sandpiper - Calidris melanotos - Birds of the World
    At Barrow, AK, egg-laying begins as early as 5–6 Jun, but most clutches are started 15–25 Jun; some as late as 5–10 Jul (Pitelka 1959 Pitelka, F. A. (1959).Missing: multiple | Show results with:multiple
  100. [100]
    Behavior - Curlew Sandpiper - Calidris ferruginea - Birds of the World
    May 19, 2023 · The aerial courtship often swerves back and forth across the territory; when the pair lands, one of several ground displays typically follows.
  101. [101]
    Spotted Sandpiper Life History - All About Birds
    Clutch Size: 3-5 eggs ; Number of Broods: 1-5 broods ; Egg Length: 1.1-1.4 in (2.9-3.5 cm) ; Egg Width: 0.9-1.0 in (2.2-2.6 cm) ; Incubation Period: 19-22 days.
  102. [102]
    Phalaropus tricolor (Wilson's phalarope) - Animal Diversity Web
    Wilson's phalaropes have lightly colored feathers on their stomachs and the ventral side of their wings that camouflages them from predators on the ground while ...
  103. [103]
    https://animaldiversity.org/accounts/Phalaropus_tricolor/
  104. [104]
    To breed or not to breed: explaining partial migration in shorebirds
    May 12, 2025 · Read about “Partial Migration, Oversummering, and Intermittent Breeding by Shorebirds” by Ronald C. Ydenberg (Apr 2025)Missing: studies | Show results with:studies
  105. [105]
    Spotted sandpiper ( Actitis macularius ) - Animal Diversity Web
    Spotted sandpipers (Actitis macularius) are found throughout North and Central America, including the western Caribbean islands.Missing: Paractitis | Show results with:Paractitis
  106. [106]
    Breeding - Upland Sandpiper - Bartramia longicauda
    The incubation period is typically three to four weeks. The freshly hatched chicks are precocious, and within a week, they are usually active and largely ...
  107. [107]
    Flexible parental care: Uniparental incubation in biparentally ...
    Oct 16, 2017 · Here, we focus on a specific form of avian parental care, namely incubation of eggs. In some species parents can switch flexibly between ...
  108. [108]
    Factors Affecting Survival of Common Sandpiper (Actitis hypoleucos ...
    Our study aimed to elucidate the influence of nest location and incubation timing on the survival of common sandpiper nests in a large, semi-natural, lowland ...
  109. [109]
    [PDF] Population Studies of the Polyandrous Spotted Sandpiper
    19% of the breeding males in the final 2 yr. Males mated with 1.0-1.4 females per year. Experienced males had more mates and received more replacement eggs than ...
  110. [110]
    Parental care in Semipalmated Sandpipers Calidris pusilla: Brood ...
    Aug 9, 2025 · Although Semipalmated Sandpipers Calidris pusilla are monogamous, with biparental incubation, most females (86–97%) deserted their broods to ...
  111. [111]
    Factors Affecting Survival of Common Sandpiper (Actitis hypoleucos ...
    Jul 13, 2024 · 5. Conclusions. Our study suggests that common sandpipers can maximize nest survival probability by nesting close to the water and placing the ...
  112. [112]
    Solitary Sandpiper Life History - All About Birds
    Solitary Sandpipers are monogamous. Males establish territories on the breeding grounds as soon as they arrive in spring. These can be large (as large as 124 ...<|control11|><|separator|>
  113. [113]
    Spoon-billed Sandpipers observed at previously unknown breeding ...
    Aug 2, 2025 · In July 2025, Russian members of the Spoon-billed Sandpiper Task Force visited the remote area, which has never previously been surveyed. Using ...Missing: 2023-2025 | Show results with:2023-2025
  114. [114]
    Hemisphere-wide collaboration to further understanding of migratory ...
    Nov 23, 2020 · The State of Canada's Birds 2019 estimated the loss of 40% of shorebirds from Canada since 1970. Understanding why that is remains a huge ...
  115. [115]
    2024 Red List update reveals migratory shorebirds are declining ...
    Aug 5, 2025 · In 2024, BirdLife International's annual update to the IUCN Red List revealed a worrying decline in populations of migratory shorebirds ...
  116. [116]
    Rapid population decline in migratory shorebirds relying on Yellow ...
    Apr 13, 2017 · We assess population trends of ten shorebird taxa that refuel on Yellow Sea tidal mudflats, a threatened ecosystem that has shrunk by >65% in recent decades.
  117. [117]
    Shorebirds Experience Dismal Breeding Season Due to a Quirk of ...
    Sep 27, 2018 · Across the Arctic, late snowmelt wrecked the breeding season for many shorebird species already experiencing major declines.
  118. [118]
    Press Release: New report reveals plummeting migratory shorebird ...
    Oct 28, 2024 · 'The perilous declines of migratory birds are a sign that the integrity of flyways is deteriorating. Losing the network of habitats that ...
  119. [119]
    5 Things You Probably Don't Know about Shorebirds - BirdsCaribbean
    Aug 1, 2025 · Heads up though: shorebirds and their habitats are under threat from habitat loss, hunting, pollution, and climate change, making it tough ...
  120. [120]
    Spoon-billed Sandpiper Calidris Pygmaea Species Factsheet
    This species is listed as Critically Endangered because it has an extremely small population, with a lower bound that is thought to now fall below 250 mature ...
  121. [121]
    New estimate of the trend in world population size of the Spoon ...
    Aug 1, 2024 · The Spoon-billed Sandpiper population is estimated to decline at an average rate of 5% per year, with a mean population of 443 mature ...Missing: annual | Show results with:annual
  122. [122]
    Bar-tailed Godwit Life History - All About Birds
    The 2025 State of the Birds report lists Bar-tailed Godwit as a Yellow Alert Tipping Point species, meaning that it has lost more than 50% of its population in ...
  123. [123]
    Rapid population decline in migratory shorebirds relying on Yellow ...
    Apr 13, 2017 · We assess population trends of ten shorebird taxa that refuel on Yellow Sea tidal mudflats, a threatened ecosystem that has shrunk by >65% in recent decades.
  124. [124]
    State of the World's Birds 2025 Annual Update - BirdLife DataZone
    Aug 5, 2025 · In 2024, BirdLife International's annual update to the IUCN Red List revealed a worrying decline in populations of migratory shorebirds around ...
  125. [125]
    [PDF] Spoon-billed Sandpiper Task Force News Bulletin No 31 · Nov 2024
    Nov 10, 2024 · There are now coordinated surveys to better understand the non-breeding populations at key sites. And there has been an explosion in birding ...
  126. [126]
    Spoon-billed Sandpiper Task Force - Eaaflyway
    The main aim is to coordinate the conservation activities that have been identified in the CMS Single Species Action Plan for the species commissioned by ...
  127. [127]
    East Asian-Australasian Flyway Partnership
    It aims to protect migratory waterbirds, their habitats and the livelihoods of people dependent upon them. There are currently 42 Partners including 18 national ...The Flyway · The Partnership · Partnership Documents · Partnership News
  128. [128]
    [PDF] EAST ASIAN– AUSTRALASIAN FLYWAY PARTNERSHIP (EAAFP)
    The EAAF encompasses 22 countries, and is home to over 50 million migratory waterbirds of more than 210 species. The Nine Major Flyways. CONTENTS. Introduction ...
  129. [129]
    [PDF] Spoon-billed Sandpiper Task Force News Bulletin No 32 · May 2025
    May 22, 2025 · The study exposed severe habitat threats, par- ticularly in non ... gered Spoon-billed Sandpiper, forage and roost on Korea's tidal flats.
  130. [130]
    Migratory Bird Sanctuaries along the Coast of Yellow Sea-Bohai ...
    In addition to providing stopover habitat for migratory birds, the component parts also include wintering areas and breeding areas for at least 45 threatened ...
  131. [131]
    How fake daylight and lots of sand and patience helped save the ...
    Dec 29, 2019 · This technique, known as headstarting, has boosted the number of young spoon-billed sandpipers bred each year in the wild by a quarter.
  132. [132]
    Evaluating the Impact of Headstarting on the Critically Endangered ...
    The spoon-billed sandpiper (SbS) (Calidris pygmaea) (L., 1758) is a small wader species using the EAAF, with a breeding range restricted to the coast of the ...
  133. [133]
    Spoonie update - autumn 2024 - WWT
    We're focusing on restoring habitats along the spoon-billed sandpiper's flyways and migration landing sites, which we believe will bring lasting benefits to ...Missing: study | Show results with:study
  134. [134]
    The Spoony of Peace - ICF - The International Conservation Fund
    Oct 29, 2024 · > Headstarting​​ A headstarting program for spoon-billed sandpipers has been underway since 2012, involving specialists collecting eggs from ...
  135. [135]
    Saving the Critically Endangered Spoon-Billed Sandpiper from ...
    The project aims to achieve a 75% reduction in the number of hunters and a similar reduction in the numbers of spoon-billed sandpipers trapped.
  136. [136]
    New Nesting Area Found for the Spoon-billed Sandpiper | ICFC
    IMPORTANT DISCOVERY: New Nesting Area Found for World's Rarest Migratory Shorebird—the Spoon-billed Sandpiper ... On April 4th, 2024, a critically endangered ...<|control11|><|separator|>
  137. [137]
    World's tiniest transmitter finds nesting area of rarest migratory ...
    Jan 24, 2025 · Using the world's smallest known satellite transmitter, conservationists were able to track a spoon-billed sandpiper, thought to be the world's ...
  138. [138]
    Transmitter reveals new Spoon-billed Sandpiper breeding grounds
    Dec 24, 2024 · The world's smallest transmitter has helped discover a previously unknown breeding ground of the Critically Endangered Spoon-billed Sandpiper.<|control11|><|separator|>
  139. [139]
    [PDF] Spoon-billed Sandpiper Task Force News Bulletin No 30 · May 2024
    May 5, 2024 · A total of 32 birds were counted of which 6 were flagged with colour flags, including 11 birds in the newly in 2023 discovered site Wuchuan. It ...Missing: discoveries | Show results with:discoveries
  140. [140]
    Spoon-billed Sandpiper New Action Plan and Conservation Meeting
    Objective 5 – Develop, especially for priority species and habitats, flyway wide approaches to enhance the conservation status of migratory waterbirds.Missing: 2024 | Show results with:2024