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The Heron

Herons are long-legged, long-necked wading in the Ardeidae, encompassing approximately 73 across 18 genera, some of which are commonly known as egrets or bitterns. These are characterized by their slender bodies, sharp, dagger-like bills adapted for spearing prey, and S-shaped necks that enable precise strikes, with sizes ranging from the diminutive (about 25 cm tall) to the massive (up to 140 cm). Distributed on every continent except , herons inhabit a variety of aquatic environments, including freshwater wetlands, marshes, rivers, estuaries, and coastal areas, where they often forage solitarily or in loose groups. Primarily carnivorous, they hunt using a "stand-and-wait" strategy or active stalking, consuming mainly , amphibians, , and small mammals grasped by their serrated bills, with some exhibiting specialized behaviors like bait-fishing or nocturnal activity. typically occurs in colonies called heronries, often in or reeds near water, where elaborate displays feature plumes, calls, and aerial performances, and most are monogamous for a single season, laying clutches of 2–7 eggs. While many heron are classified as Least Concern by assessments, habitat loss and threaten several, including the with fewer than 250 individuals remaining.

Taxonomy and Evolution

Etymology and Naming

The word "heron" entered the English language around 1300, derived from hairon or eron (), which traces back to Frankish haigirō or Proto-Germanic hraigrô, likely an onomatopoeic imitation of the bird's harsh, croaking call. In , the bird was known as hrāga, a term that did not persist into but reflects early Germanic roots possibly linked to Proto-Indo-European gérh₂n-o-s, from gerh₂- meaning "to cry hoarsely," akin to words for crane calls in related languages. The scientific family name Ardeidae originates from the Latin ardea, denoting a or tall wading , a term used in classical texts to describe these long-legged avians. Similarly, the erōdios (ἐρῳδιός) referred to the , emphasizing its distinctive stature and appearance in Mediterranean . These classical names influenced , such as Ardea herodias for the , where both and terms reinforce the "" designation from Latin and Greek sources. Common names for specific species evolved descriptively to differentiate them from similar waders; for instance, "" highlights the bird's large size (up to 1.5 meters tall) and slate-blue plumage, setting it apart from smaller relatives like the or in shared habitats. Linguistic variations appear in indigenous languages, such as aztatl for or in Mesoamerican cultures, where the bird often symbolized grace and vigilance. In many Native American traditions, particularly among Northwest Coast tribes, embody patience, good luck, and wisdom, with sightings considered omens for successful fishing or decision-making, reflecting their cultural role as patient hunters.

Classification and Phylogeny

Herons belong to the family Ardeidae within the order Pelecaniformes, a classification established through molecular phylogenies that restructured traditional groupings previously placed under Ciconiiformes. This family encompasses approximately 72 species across 18 genera, encompassing a diverse array of wading birds adapted to aquatic environments worldwide. Recent phylogenomic analyses using ultraconserved elements (UCEs) and mitochondrial DNA have resolved the internal relationships of Ardeidae, confirming five monophyletic subfamilies: Tigriornithinae (tiger herons, including genera Tigriornis and Tigrisoma), Cochleariinae (boat-billed herons, Cochlearius), Agamiinae (Agamia and related forms), Botaurinae (bitterns, such as Botaurus and Ixobrychus), and Ardeinae (typical day herons, egrets, and night herons, including Nycticorax). These studies reveal non-monophyly in several genera; for instance, Bubulcus (cattle egret) is embedded within Ardea, while parts of Ixobrychus ally with Botaurus, prompting calls for taxonomic revisions. DNA-based phylogenies indicate that Ardeidae's closest relatives are the (ibises and spoonbills), forming a sister clade within , with their divergence estimated at around 40–50 million years ago during the Eocene. Key genera exemplifying this diversity include Ardea (great and allies, ~12 species), Egretta (egrets, ~12 species, often grouped with ), and Butorides (green and striped , 4 species), which highlight the family's morphological and ecological breadth.

Fossil Record

The fossil record of (family Ardeidae) is notably sparse, primarily due to the fragility of bones, which are and lightweight, making them less likely to preserve in sedimentary deposits compared to more robust vertebrate skeletons. This incompleteness creates significant gaps, with many early specimens initially attributed to Ardeidae later reclassified to other bird families upon closer examination. Despite these challenges, the record indicates that herons originated and began diversifying in the period, adapting to expanding and coastal environments that proliferated following the approximately 66 million years ago, which eliminated non-avian dinosaurs and opened ecological niches for modern bird lineages. The earliest known fossils of Ardeidae date to the late Eocene, around 37–34 million years ago, with Proardea amissa represented by fragmentary remains from deposits in . These specimens, including limb elements, reveal a bird similar in size and proportions to modern small , suggesting the family had already achieved a suited to wading lifestyles by this time. Further evidence from the early , approximately 33–32 million years ago, comes from , where a partial described as Proardea? deschutteri provides the temporally most precise early record, indicating had colonized amid the climatic cooling and faunal turnover known as the "Grande Coupure" at the Eocene–Oligocene boundary. This period marks initial diversification within Ardeidae, with fossils showing early specializations for aquatic habitats, such as elongated legs for wading in shallow waters. By the epoch (23–5.3 million years ago), heron fossils become more abundant across , reflecting further and the of key anatomical features like the dagger-like bill, a spear-shaped structure optimized for impaling fish and amphibians in settings. Notable examples include Proardeola walkeri from early sites in , a small species comparable in size to the modern (Egretta garzetta), whose skeletal elements demonstrate the persistence of these predatory adaptations from ancestors. Additional finds, such as isolated bones from various European localities, document the presence of larger forms akin to extant Ardea species, underscoring a pattern of size and ecological diversification. Although the fossil record remains patchy, analyses of extant heron DNA corroborate these ancient splits, estimating crown-group divergences in the late Eocene to early , consistent with the sparse paleontological evidence despite preservation biases.

Physical Description

Body Structure and Size

Herons possess a distinctive body structure adapted for wading in environments, featuring exceptionally long legs and that enable them to in shallow waters without submerging their bodies. The is particularly notable for its S-shaped curve, facilitated by a modification in the sixth , which allows the to retract and extend it rapidly during prey strikes. This anatomical feature supports precise, lightning-fast movements essential for capturing and other prey. Their bills are long, straight, and sharply pointed for spearing prey, with lengths reaching up to approximately 20 cm in larger species such as the (Ardea goliath). Body size among heron species varies considerably, reflecting diverse ecological niches; for instance, the little blue heron (Egretta caerulea) stands 56–74 cm tall and weighs 296–412 g, representing a smaller end of the spectrum, while the , the largest species, measures 120–152 cm in height and 4–5 kg in mass. These size differences influence foraging efficiency and habitat use across the family Ardeidae. Skeletal adaptations further enhance their wading capabilities, including elongated tarsus bones that provide stability and elevation in water, with relative lengths varying by species—longer in deep-wading forms like the (Ardea alba) and shorter in marsh-dwellers for better balance on uneven substrates. The hind toe (hallux) is often reduced in length relative to the tarsus, showing an inverse proportional relationship that optimizes foot grip and propulsion without compromising wading posture. Sexual dimorphism in herons is generally minimal, though males tend to be slightly larger than females in body size and bill length, particularly during seasons when such differences may aid in territorial displays or attraction.

and Coloration

Herons of the family Ardeidae typically display in shades of gray, white, or , which serves as effective against the muted tones of marshy and environments. For example, the Great Blue Heron's (Ardea herodias) powdery feathers blend seamlessly with reflective water surfaces and beds, reducing visibility to prey and predators during . Similarly, the Green Heron's (Butorides virescens) dark green back and gray wings mimic the foliage and shadows of dense marshes, enhancing its cryptic appearance. This subdued coloration is primarily produced by pigments, which deposit as granules in the feathers to create dark, non-iridescent hues that aid in concealment. Certain species exhibit more vibrant or structural elements in their plumage. The Purple Heron (Ardea purpurea), for instance, features darker rufous-brown and slate-gray feathers with iridescent purple and blue sheens visible in optimal light, resulting from light-scattering nanostructures in the barbs alongside . White-plumaged herons, such as egrets in the genera Egretta and Ardea, achieve their bright appearance through the absence of and the presence of powder down—fine, talc-like feathers that break into white particles for and cosmetic enhancement. These pigments and structures not only contribute to visual signaling but also support ; absorbs solar radiation to help maintain body temperature in cooler conditions. Breeding plumage in herons often includes seasonal modifications for display. Many develop elongated nuptial plumes, known as aigrettes, particularly among egrets; the (Ardea alba), for example, grows long, lacy plumes from its lower back and scapulars during the breeding season. Accompanying these are brighter colors in bare parts, such as vivid blue lores and bills in the (Egretta tricolor), driven by deposition for enhanced visibility. , obtained from dietary sources like crustaceans and fish, produce these yellow-to-red tones and function in signaling individual health and quality, as their expression reflects efficiency and physiological condition. Juvenile herons differ markedly from adults in , typically featuring streaked, spotted, or duller patterns that provide additional during vulnerable early stages. Young Little Blue Herons (Egretta caerulea) are entirely white with only subtle dusky wing tips, gradually molting to the adult's dark blue-gray form over the first year through sequential feather replacement. In contrast, juvenile Green Herons show browner overall tones with pale neck streaking, which fades as they acquire the adult's richer green and chestnut hues by the end of their first breeding season. These ontogenetic changes involve progressive buildup and integration, transitioning from juvenile crypticity to adult signaling capabilities.

Adaptations for Wading

Herons possess specialized foot structures that enable effective in both arboreal and settings. The feet feature a backward-facing hallux (inner ) that, along with the other elongated toes, facilitates secure perching on branches and reeds during rest or nesting. This adaptability is crucial for that in near wetlands. Additionally, the toes are elongated and partially webbed between the anterior digits, providing a broad surface area for weight distribution on unstable substrates like or , while the aids in propulsion through shallow water when the needs to pursue prey or cross small streams. The bill of herons is a key adaptation for precision in aquatic foraging, characterized by its long, straight, and sharply pointed shape, resembling a dagger designed for spearing elusive prey. This structure allows for quick, penetrating strikes from a stationary position. Complementing this, the eyes are positioned toward the front of the head, enabling a narrow but vertically extensive binocular field of view that extends beneath the bill, which supports accurate depth perception and targeting during wading. Herons' necks exhibit remarkable musculature suited for explosive movements, folding into an S-shape at rest to store and unfolding rapidly for strikes that occur in a fraction of a second. This ensures the can lunge forward while maintaining body stability in water. For in the warm, humid conditions of wetlands, herons perform gular fluttering, rapidly vibrating the thin membranes of the with the bill agape to promote evaporative cooling without excessive water loss. These features collectively enhance survival in shallow aquatic habitats across species ranging from the diminutive to the large .

Distribution and Habitat

Global Range

Herons, belonging to the family Ardeidae, exhibit a predominantly distribution, with the highest concentrated in the Old World tropics of and . In these regions, diverse habitats such as wetlands, rivers, and coastal areas support a rich array of species, including the in and various pond-herons in . India alone hosts at least nine heron species, such as the black-crowned night-heron, , and , contributing significantly to the family's diversity in . This concentration underscores the Old World tropics as a key center of heron endemism and abundance. In the Nearctic and Neotropical realms, herons are well-represented, with the (Ardea herodias) occurring widely across , from to and the . The (Bubulcus ibis), originally from and , has undergone rapid global expansion since the 19th century, colonizing , , , and beyond through natural dispersal aided by human-altered landscapes. Introduced or established populations highlight herons' adaptability, as seen with the black-crowned night-heron (Nycticorax nycticorax) in , where it occupies coastal wetlands. Climate-driven range shifts are evident in species like the (Egretta thula), which has expanded northward in , with breeding records now farther north due to warming temperatures. Endemic hotspots further define heron distributions, with supporting at least three species, including the Madagascar heron (Ardea humbloti) and Malagasy pond-heron (Ardeola idae), restricted to the island's western wetlands. In , the (Egretta novaehollandiae) is widespread, breeding across , , , and nearby islands. These patterns reflect herons' affinity for aquatic habitats that influence their global spread.

Habitat Preferences

Herons of the family Ardeidae primarily inhabit shallow aquatic environments where they can wade to forage, favoring freshwater wetlands such as marshes, rivers, lakes, and floodplains, as well as coastal saltwater areas including estuaries and mangroves. While most species are tied to wetland ecosystems, some, like the (Bubulcus ibis), prefer drier open habitats such as seasonally flooded grasslands, savannas, pastures, and farmlands, often associating with grazing livestock to exploit disturbed soils for prey. Nesting preferences exhibit vertical stratification within colonies, with smaller species such as the (Ixobrychus exilis) constructing low platforms from bent reeds and emergent vegetation in dense marshy areas, while larger species like the (Ardea herodias) build elevated stick platforms in trees or shrubs, often in mixed heronries where body size influences height selection. Many species demonstrate high tolerance for human-modified landscapes, thriving in agricultural areas like rice paddies that mimic shallow wetlands and even utilizing lagoons and reservoirs for , which can support elevated densities due to reliable prey availability. Altitudinally, herons range from sea level to high elevations, with species like the (Butorides striatus) occurring up to 4,000 m in the , adapting to montane streams and .

Environmental Influences

Herons exhibit nomadic movements in response to seasonal fluctuations in wetland availability, particularly in regions where water levels rise and fall dramatically with rainfall patterns. For instance, species like the Pacific heron (Ardea pacifica) exploit the seasonality of Australian , breeding inland during flood periods from June to August before dispersing to coastal areas as waters recede between January and May. Similarly, the (Ardea goliath) undertakes local dispersive movements tied to seasonal habitat changes, allowing it to track ephemeral water sources across African savannas and floodplains. These patterns enable herons to opportunistically access foraging grounds, but prolonged dry spells can disrupt such mobility, as seen in tracking studies of nomadic waterbirds that highlight responsiveness to multi-scale environmental cues. Drought conditions in significantly reduce heron breeding success by limiting prey abundance and nesting site viability during critical periods. In the , reduced winter rainfall has been linked to lower breeding effort in European herons like the (Ardea cinerea), with dry conditions curtailing the pulsed breeding typical of long-legged waders that rely on post-rain booms. Early spring droughts further diminish nestling survival rates for species such as the (Egretta garzetta), as diminished aquatic habitats in African wintering grounds carry over to affect reproductive output in Eurasian breeding populations. These impacts underscore the vulnerability of trans-Saharan migrants to trends that alter the timing and extent of inundation. Climate change exacerbates habitat pressures on herons through sea-level rise, which erodes coastal breeding and foraging sites essential for many species. In the Chesapeake Bay region, rising waters have led to the loss of islands due to increased erosion and inundation, forcing colony relocations and reducing site fidelity for wading birds. Tidal marsh degradation from such rise further threatens feeding grounds, as projected submergence interacts with subsidence to shrink available habitats for wading birds. Conversely, warmer temperatures have facilitated northward range expansions, exemplified by the little egret's colonization of the since the 1990s, where milder winters and extended breeding seasons have enabled establishment from . This shift reflects broader responses to climatic warming, with the species now breeding widely across . Pollution and in lacustrine systems disrupt heron prey dynamics by promoting algal blooms that reduce visibility and availability. In the basin, in bays like Missisquoi has led to proliferation, degrading water quality and indirectly limiting foraging success for great blue s (Ardea herodias) through altered aquatic food webs. Such nutrient overloads favor hypoxic conditions that concentrate prey but increase predation risks from diminished oxygen levels. further intensify competition in wetlands, as seen in where non-native plants and animals degrade wet meadows critical for the Madagascar pond- (Ardeola idae), crowding out native foraging niches. Post-Ice Age warming prompted historical range contractions for as glacial retreat reshaped distributions, confining many populations to refugia before subsequent expansions. Ancient lineages, diverging millions of years ago, adapted to Pleistocene fluctuations, with post-glacial recolonization tied to the formation of temperate and tropical marshes. Today, demonstrate adaptability to , utilizing water bodies like ponds and reservoirs for and nesting amid . Grey herons, for example, select colony sites near edges, tolerating human proximity while benefiting from enhanced prey in managed green spaces. This flexibility supports in cityscapes, where serve as refuges amid broader alterations.

Behavior and Ecology

Foraging and Diet

Herons predominantly employ a stand-and-wait foraging strategy, remaining motionless for extended periods—often nearly 80% of their active foraging time—before rapidly striking at prey with their specialized bills. This ambush tactic is particularly prevalent among larger species like the great blue heron (Ardea herodias) and grey heron (Ardea cinerea), allowing them to conserve energy while waiting for fish or other aquatic prey to come within striking distance. In contrast, some herons, including bitterns such as the American bittern (Botaurus lentiginosus), incorporate more active pursuit behaviors, such as slow stalking or quick walking to flush prey from cover. The diet of herons is primarily piscivorous, with fish comprising the majority—often 50-90% depending on species and habitat—of their intake, including small species like minnows and eels in shallow waters. Supplementary prey includes amphibians (e.g., frogs and salamanders), insects, crustaceans such as and , and occasionally small reptiles or mammals; herons are opportunistic and may scavenge carrion when live prey is scarce. Night herons show higher proportions of crustaceans and insects due to their nocturnal habits. Adult herons typically consume 200-500 grams of food daily, varying by body size and reproductive demands, with larger species like the requiring around 300 grams to meet metabolic needs. Nocturnal foraging is common in night herons (e.g., , Nycticorax nycticorax), which hunt primarily at or night to exploit crepuscular prey activity, achieving intake rates of 130-160 grams per day in temperate regions. Rare but documented behaviors include tool use, such as great blue herons dropping bread as bait to lure into striking range, demonstrating cognitive flexibility in .

Breeding and Reproduction

Herons in the family Ardeidae typically breed in large colonies known as heronries, which can range from a few pairs to several thousand pairs depending on the and location. These colonies provide safety in numbers against predators and facilitate mate selection through synchronized displays. In some mixed- heronries, up to 5,000 or more pairs of Ardeidae may nest together, often in trees or shrubs near water bodies. Courtship rituals among herons are elaborate and species-specific, often involving vocalizations and physical displays to attract mates and establish territories. Males typically arrive first at the colony site and perform advertising displays, such as the Stretch display, where the neck is extended vertically with the bill pointed upward, accompanied by calls like moans or claps. Twig presentations follow, with males offering nesting material to females as part of pair-bonding ceremonies, which may include mutual and bill-clappering. During , many exhibit nuptial changes, such as elongated crests or plumes, to enhance visual signaling. Nesting occurs in for temperate-zone and year-round or during rainy s in tropical regions, allowing with availability. Pairs, usually monogamous for the season, construct platform nests of sticks, with both sexes participating but females often arranging the materials. Clutch sizes generally range from 2 to 5 eggs, laid at intervals of 1–3 days, which leads to asynchronous hatching. Both parents incubate the eggs for 25–30 days, with the male often taking daytime shifts and the female nighttime duties; eggs are pale blue-green and unmarked. Hatchlings are semialtricial, covered in down but helpless and reliant on parents for brooding and feeding. Adults regurgitate partially digested food, such as or , directly into the chicks' mouths, with feeding frequency decreasing as nestlings grow. Chicks after 40–60 days, depending on —for instance, around 42–49 days in green herons and up to 60 days in great blue herons—but remain dependent on parents for several weeks post-fledging. Chick mortality is high, often around 50%, primarily due to predation by raptors or corvids and from food shortages or sibling competition, where weaker chicks may be outcompeted or even killed by siblings. In some tropical , such as the boat-billed heron, breeding may involve flexible mating systems, though most Ardeidae pairs remain monogamous during the nesting period.

Social Structure and Migration

Herons exhibit a mix of solitary and behaviors, typically alone or in loose groups to minimize for prey, while in dense colonies that can include hundreds or thousands of nests shared with other wading birds. Outside of the breeding season, individuals maintain loose affiliations in feeding areas where resources are abundant, but they enforce spacing through agonistic interactions. In feeding flocks, establish dominance hierarchies primarily through visual threat displays, such as the —where the neck extends forward with feathers raised and a accompanying call—or the Spread-Wing display, which intensifies during resource defense on foraging grounds. These displays help maintain individual distances and reduce overt , allowing subordinate birds to access peripheral feeding spots while dominants claim prime locations. For instance, in mixed-species flocks, larger like the often displace smaller ones via these signals. Herons display varied migration strategies depending on species and region, with many acting as partial migrants that relocate only from northern breeding grounds during winter. The , for example, sees northern European populations move southward from September to November, wintering across the , central and , or occasionally , before returning in February to April. In contrast, several Australian heron species, such as the and Pacific Heron, exhibit nomadic movements, dispersing widely in response to rainfall patterns that create temporary wetlands, often traveling inland after wet seasons and returning to coastal areas post-breeding. Vagrant occurrences highlight the potential for long-distance wanderings beyond typical ranges, as seen with sightings in the Americas, including records from in 2018 and in 2002, likely resulting from overshoots during . Post-breeding dispersal further contributes to range expansion, with juveniles often traveling up to 1,000 km or more from natal colonies; the , for instance, shows a mean dispersal distance exceeding this threshold, aiding across populations. Communication among herons relies on both vocal and visual cues to coordinate social interactions and alert group members. The characteristic "frawnk" or "frank" call serves as a primary alarm signal, emitted during disturbances, aggression, or takeoff, as observed in species like the and . In juvenile creches within breeding colonies, visual signals predominate, including bill-jabbing and Forward displays to deter intruders or siblings, helping fledglings maintain space and access food deliveries from parents.

Conservation and Human Interactions

Population Status

The majority of heron species within the family Ardeidae are classified as Least Concern on the , reflecting large and generally stable or growing global populations for most. For instance, the (Ardea herodias) has an estimated 500,000–4,999,999 mature individuals worldwide, with an increasing population trend driven by adaptive in varied wetlands. Similarly, the (Bubulcus ibis) maintains a robust global population of 3,900,000–18,800,000 mature individuals, which has expanded significantly in recent decades due to synergies with human agriculture, such as livestock grazing providing foraging opportunities. In contrast, a smaller number of heron species face heightened risks, with four listed as Vulnerable, four as Endangered, and one as on the . The (Egretta eulophotes), for example, is Vulnerable with a global population of approximately 2,600–3,400 individuals, exhibiting a decreasing trend primarily from ongoing pressures. The (Ardea insignis) has an even more precarious status, with an estimated 50–60 mature individuals remaining as of 2025, recent surveys in showing a slight increase from 25 to 29 individuals, and a continued decline observed across its limited range in South and . Heron populations are monitored globally through standardized methods, including aerial surveys of colonies to estimate nesting densities and color-banding programs that track individual movements, , and rates. These approaches have documented annual population fluctuations of 5–10% in many , often linked to variations in prey availability and weather patterns. Regionally, heron trends differ markedly: populations in remain largely stable for common like egrets and , as evidenced by consistent counts in annual waterbird censuses. In , however, some have declined, with the (Botaurus stellaris) experiencing an approximate 20% drop since the 1990s in parts of its range due to wetland habitat loss, though overall European trends for the species are now stable following conservation interventions.

Threats and Conservation Efforts

Herons face significant anthropogenic threats that have contributed to population declines across many . The primary driver is habitat loss through drainage and conversion for , , and , with scientific estimates indicating that % of the world's wetlands have disappeared since 1900. This directly impacts foraging and breeding grounds, as like the rely on intact marshes and riversides. Additionally, pesticides such as bioaccumulate in the , leading to eggshell thinning and reproductive failures; in the 1970s, elevated levels in colonies correlated with reduced nest attendance and chick survival. Hunting and human disturbance exacerbate these risks, particularly in where egg collection and nest poaching target species like the , contributing to its status. Collisions with power lines pose a widespread hazard, as ' low-flight foraging behavior increases and risks in wetland-adjacent areas, affecting large wading birds globally. induces further breeding failures through altered , , and shifted prey availability; for instance, warmer temperatures and droughts have led to nest abandonment in populations. Conservation efforts focus on mitigating these threats through international frameworks and targeted interventions. The on Wetlands designates sites of international importance that protect key heron habitats, such as the in , which supports over 20,000 herons during migration and includes breeding colonies of purple herons and little egrets. Reintroduction programs, often modeled on successful wetland bird initiatives like those for in , have bolstered heron populations; for example, the was reintroduced in to control invasive crabs, establishing a self-sustaining colony. Notable success stories highlight the efficacy of protective measures. The ban on the plume trade in the early 1910s, driven by advocacy against the decimation of populations for fashion, allowed snowy egrets to recover rapidly, with numbers rebounding across by the mid-20th century. programs have also proven vital for , such as the , where Bhutan's dedicated center achieved the first successful hatching in 2011 and hand-reared chicks in 2025 through international collaboration, providing a genetic safeguard against .

Cultural and Economic Significance

Herons have held profound symbolic meaning across cultures, often embodying themes of rebirth and vigilance. In ancient , the bird, depicted as a heron-like creature, represented creation, renewal, and the soul of the sun god , symbolizing and the cyclical nature of life. In , (sagi) are portrayed as elegant figures traversing land, water, and air, evoking grace, seasonal change, and poetic melancholy in woodblock prints and paintings. In , appear as omens and figures of wisdom. Among many Native American tribes, particularly on the , sightings of herons foretold good luck and successful , while symbolizing and in stories that highlight their deliberate hunting style. Conversely, in 19th-century , herons were viewed as pests for preying on fish in ponds and flooded fields, leading to widespread culling alongside that decimated populations for the millinery trade. Economically, herons contribute to ecotourism through birdwatching at key sites. At Florida's Rookery Bay Reserve, visitors engage in guided boat and kayak tours to observe heron rookeries, supporting local economies via fees and related activities in this 110,000-acre protected area. They also exert minor competitive pressure on fisheries; studies show herons may consume up to 8% of stocked fish yields in high-density aquaculture settings, prompting management strategies without major overall impact. In modern media, herons feature as metaphors for introspection and isolation. Giorgio Bassani's 1968 novel The Heron portrays a middle-aged landowner's during a solitary hunt, using the bird to symbolize quiet reckoning and societal alienation. Conservation campaigns often employ heron imagery as icons of health, such as in Audubon Society initiatives highlighting their role in monitoring and public outreach for habitat protection.

References

  1. [1]
    HeronConservation
    - **Number of Heron Species**: 73 species listed according to the IOC World Bird List, Version 15.1 (2025).
  2. [2]
    Heron facts - Birds - BBC Earth
    A large grey heron stands on grass looking out to a lake. “Heron” refers to any bird in the family Ardeidae. © Shutterstock. Are egrets herons? “Egret” is a ...<|control11|><|separator|>
  3. [3]
    Heron - Etymology, Origin & Meaning
    Heron, from Old French and Frankish origins, means a long-necked, long-legged wading bird; its name likely imitates the bird's cry, linking to Germanic and ...
  4. [4]
    Herons – Celtiadur - Omniglot
    Jul 19, 2020 · Etymology: from Proto-Indo-European *gérh₂n-o-s, from *gerh₂- (crane, to cry hoarsely) [source]. Words from the same roots include crack, croon, ...
  5. [5]
    ARDEA Definition & Meaning - Merriam-Webster
    Word History. Etymology. New Latin, from Latin, heron; akin to Old Norse arta garganey, Greek erōdios heron. The Ultimate Dictionary Awaits. Expand your ...
  6. [6]
    Great Blue Heron - American Bird Conservancy
    Its large size, blue-gray coloration, and black-striped head distinguish it from other large North American herons, including the Great Egret and the Reddish ...
  7. [7]
    Submitted Names with "heron" in Meaning - Behind the Name
    Derived from Nahuatl aztatl "heron, snowy egret" and mitl "arrow". Aztatl m Nahuatl Means "heron, snowy egret" in Nahuatl.
  8. [8]
    Native American Heron Mythology
    Herons are symbols of good luck and patience in many Native American tribes. Especially on the Northwest Coast, if Native American fishermen see a heron, it is ...
  9. [9]
    Ardeidae - Herons, Egrets, and Bitterns - Birds of the World
    Mar 4, 2020 · Lithe wetland predators, herons are adapted to throwing their dagger-like skull at prey with lightning quickness and fatal accuracy.Diet and Foraging · Breeding
  10. [10]
    Ultraconserved elements resolve the phylogeny and corroborate ...
    We sample genome-wide ultraconserved elements (UCEs) and mitochondrial DNA sequences (mtDNA) of >90% of extant species to estimate heron phylogeny.Abstract · INTRODUCTION · METHODS · DISCUSSION
  11. [11]
    http://www.isez.pan.krakow.pl/journals/azc/pdf/azc_v/38(3)/38(3)_02.pdf
  12. [12]
    A fossil heron from the early Oligocene of Belgium: the earliest ...
    Mar 24, 2018 · We describe the earliest temporally well-constrained fossil that can be assigned to the Ardeidae (herons), from the lowermost Oligocene ...
  13. [13]
    A primitive heron (Aves: Ardeidae) from the Miocene of Central Asia
    Feb 11, 2015 · The oldest unquestionable ardeid fossils come from the early Oligocene (Mayr 2009), including remnants of two unnamed species from the Jebel ...
  14. [14]
    Great Blue Heron | Online Learning Center - Aquarium of the Pacific
    Jul 12, 2007 · While preening its feathers with its serrated bill, the heron extends its neck and tilts its head so that its eyes can alternately look upward ...<|control11|><|separator|>
  15. [15]
    Little Blue Heron Identification - All About Birds
    Length: 22.1-29.1 in (56-74 cm) · Weight: 10.4-14.5 oz (296-412 g) · Wingspan: 39.4-41.3 in (100-105 cm).Little Blue Heron Range Map · Photo Gallery · Similar Species
  16. [16]
    Ardea goliath (goliath heron) | INFORMATION - Animal Diversity Web
    At 1.5 m in length and 4.5 kg in mass, goliath herons are the largest of all living herons. They have a wingspan of 2 m. Females are slightly smaller than males ...Missing: height weight
  17. [17]
    Goliath Heron - eBird
    This enormous heron stands 1.5 meters tall and has a robust, dagger-like bill. The immature has rustier upperwings than the adult. Its flight is ponderous and ...Missing: height weight
  18. [18]
    Morphometrical characteristics of the adaptations of herons (Aves ...
    Aug 7, 2025 · There is a reverse relation between the relative length of the first toe and that of the tarsus. Species which wade deeper and have maximum ...
  19. [19]
    Ardea herodias (great blue heron) - Animal Diversity Web
    Sexual Dimorphism; sexes alike; male larger. Range mass: 2.1 to 2.5 kg: 4.63 to 5.51 lb. Range length: 97 to 137 cm: 38.19 to 53.94 in. Reproduction. Great blue ...
  20. [20]
    Exploratory Analyses of Sexual Size Dimorphism (SSD ... - BioOne
    Jun 27, 2023 · We found significant sexual size dimorphism in the beak, which resulted longer in males, but not in weight, wing, tarsus or sternum length.
  21. [21]
    Great Blue Heron Identification - All About Birds
    Grayish-blue overall with long orangish-yellow bill and black crown and head plumes. ... Length: 38.2-53.9 in (97-137 cm); Weight: 74.1-88.2 oz (2100-2500 g) ...
  22. [22]
    Green Heron Identification, All About Birds, Cornell Lab of Ornithology
    Measurements. Both Sexes. Length: 16.1-18.1 in (41-46 cm); Weight: 8.5 oz (240 g); Wingspan: 25.2-26.8 in (64-68 cm) ... From a distance Green Herons look all ...Green Heron · Range Map · Photo Gallery · Similar SpeciesLeast BitternMissing: smallest | Show results with:smallest
  23. [23]
    Canalised and plastic components of melanin-based colouration
    Nov 2, 2022 · They fulfil many crucial functions in a bird's life cycle, from camouflage, through thermoregulation to species recognition. By far the most ...
  24. [24]
    Purple Heron - HeronConservation
    The Purple Heron is a dark grey, narrow-bodied heron with an orange chestnut head and neck, long bill and neck, and a chestnut breast. It has a black plumed ...Missing: iridescent | Show results with:iridescent
  25. [25]
    Cosmetic Coloration in Birds: Occurrence, Function, and Evolution
    Cosmetic coloration occurs when the substances used for plumage maintenance change the color of the feathers, thereby becoming a signal themselves. Our review ...Missing: differences | Show results with:differences
  26. [26]
    Great Egret Overview, All About Birds, Cornell Lab of Ornithology
    A patch of skin on its face turns neon green, and long plumes grow from its back. Called aigrettes, those plumes were the bane of egrets in the late ...Great Egret Range Map · Identification · Life HistoryMissing: nuptial | Show results with:nuptial<|control11|><|separator|>
  27. [27]
    Tricolored Heron Identification - All About Birds
    Breeding birds have small white plumes extending from the back of the head, a bright blue patch of skin around the bill, and pink legs. Nonbreeding birds lack ...
  28. [28]
    The evolution of carotenoid‐based plumage colours in passerine birds
    Jul 28, 2022 · Many birds use carotenoids to colour their plumage yellow to red. Because birds cannot synthesise carotenoids, they need to obtain these ...
  29. [29]
    (PDF) The evolution of bird plumage coloration: A role for feather ...
    Aug 6, 2025 · ... Ardeidae) have powder down tracts liberally coated in yellow pigments that are hidden from view underneath contour feathers. We show using ...
  30. [30]
    The Remarkable Adaptations of Birds to Their Environment
    Oct 10, 2025 · Wading birds, such as egrets and herons, have long toes to help with weight distribution as they make their way over reeds and lily pads. Ducks ...
  31. [31]
    Visual Fields and Eye Movements in Herons (Ardeidae)
    Aug 7, 2025 · The comprehensive nature of vision beneath the bill is probably closely associated with the herons' visually guided, stealthy, foraging ...
  32. [32]
    Striking Speed - Union Bay Watch
    Sep 20, 2014 · (10:24:13 a.m.) In approximately one quarter of a second the heron pulls its neck out of the water. The water appears to reach the peak of the ...Missing: musculature rapid 100 km/
  33. [33]
    How Herons Handle the Heat | IFW Blogs - Maine.gov
    Jul 26, 2012 · ... herons, do so by “gular flutter”. Gular flutter is a rapid vibration of the upper throat and thin floor of the mouth. By opening their ...
  34. [34]
    List of the Herons of the World - HeronConservation
    Subfamily ARDEINAE ; Tribe ARDEINI ; Ardea cinerea, Grey Heron, Recognized Population. cinerea, Sub-Saharan Africa (bre); cinerea, W Europe, NW Africa (bre) ...
  35. [35]
    The Herons Of India | Nature inFocus
    Dec 23, 2021 · India is home to nine heron species, including the Black-crowned Night-Heron, Grey Heron, and Purple Heron.
  36. [36]
    Great Blue Heron - HeronConservation
    It is distinguished from the Cocoi Heron by having a white crown with a black crest (not black crown), grey (not white) neck with complex vertical neck ...
  37. [37]
    How Cattle Egrets Took Over the World - Cool Green Science
    Apr 26, 2021 · In the past 150 years, cattle egrets have self-populated nearly every continent on earth. Just how, and why, remains somewhat of a mystery.
  38. [38]
    Distribution - Western Cattle-Egret - Ardea ibis - Birds of the World
    Oct 22, 2024 · In general, the Western Cattle-Egret is native to Africa, southern Portugal, and southern Spain. · The egret's range expansion was dynamic, ...
  39. [39]
    Division of Forestry and Wildlife: Wildlife Program | ʻAukuʻu
    'Auku'u (black-crowned night heron) are sociable and unlike continental birds, those in Hawai'i are diurnal. The species uses a variety of shallow wetlands for ...
  40. [40]
    Ecology and Vulnerability Snowy Egret | Massachusetts Wildlife ...
    Projected increases in temperature have already shifted bird distributions northward in coastal Massachusetts 12, and this trend will likely continue for snowy ...
  41. [41]
    Madagascar Heron Ardea Humbloti Species Factsheet
    Ardea humbloti breeds almost exclusively in Madagascar, with one confirmed breeding record on Mayotte (to France), where it is also recorded as a regular ...
  42. [42]
    White-faced Heron Egretta Novaehollandiae Species Factsheet
    Country/territory distribution ; New Caledonia (to France), Extant, Native ; New Zealand, Extant, Native ; Norfolk Island (to Australia), Extant, Native ; Papua New ...
  43. [43]
    Grey Heron Ardea Cinerea Species Factsheet | BirdLife DataZone
    The species is found inland on broad rivers, narrow streams, lake shores, ornamental ponds, fish-ponds, marshes, flood-plains, reeds swamps, rice-fields and ...
  44. [44]
    Goliath Heron Ardea Goliath Species Factsheet | BirdLife DataZone
    Habitat The species inhabits both coastal and inland (Kushlan and Hancock 2005) freshwater and saline waters (del Hoyo et al. 1992, Kushlan and Hancock 2005), ...
  45. [45]
    Conserving Herons - HeronConservation
    The most threatened of the habitats on which herons depend are wetlands, tropical forests, tropical coastal lagoons, islands, reedbeds, and rice fields. Overall ...Missing: paddies sewage
  46. [46]
    Cattle Egret - Heron Conservation
    It has expanded across the world, responding to human habitat change and is becoming an integral part of the human landscape nearly worldwide. © 2010-2025 ...Missing: history | Show results with:history<|separator|>
  47. [47]
    Bubulcus ibis (cattle egret) | INFORMATION | Animal Diversity Web
    Habitat. The cattle egret is the most terrestrial heron, being well-adapted to many diverse terrestrial and aquatic habitats. Though it does not depend on ...Geographic Range · Reproduction · Behavior
  48. [48]
    Least Bittern Life History, All About Birds, Cornell Lab of Ornithology
    They nest in freshwater and brackish marshes with tall aquatic vegetation such as cattails and other reeds and rushes, preferentially in places interspersed ...Habitat · Food · Nesting · Behavior
  49. [49]
    Great Blue Heron Life History - All About Birds
    Nest Placement​​ Great Blue Herons nest mainly in trees, but will also nest on the ground, on bushes, in mangroves, and on structures such as duck blinds, ...
  50. [50]
    Sky High or Grounded: Nest Site Selection of Herons and Egrets in a ...
    Jan 1, 2025 · This study underscores the complex interplay between nest site selection, biotic interactions and abiotic factors in heron colonies.
  51. [51]
    Squacco Heron Ardeola Ralloides Species Factsheet
    Habitats frequented include swampy plains, river valleys, deltas, lakes, ponds, canals and ditches (del Hoyo et al. 1992) although rice paddyfields (del Hoyo et ...
  52. [52]
    (PDF) Rice Fields Support a Large Portion of Herons Breeding in the ...
    Aug 7, 2025 · We conclude that rice fields are the main foraging habitat for herons breeding in Mediterranean Europe, and we urge authorities to consider the ...Missing: paddies sewage
  53. [53]
    black-crowned night-heron - Illinois Department of Natural Resources
    It lives in marshes, swamps, ponds, lakes and sewage lagoons. Its “quok” call may be heard at night or at twilight, when the bird is active. Migrating at ...
  54. [54]
    Striated Heron - HeronConservation
    It occurs from sea level to considerable altitude, up to 4,000 m in the Andes (Fjeldsa and Krabbe 1990). Foraging. The Striated Heron is a skulking predator ...
  55. [55]
    Pacific Heron - Ardea pacifica - Birds of the World
    Nomadic, moves about exploiting seasonality of Australian wetlands, eg inland of Darwin breeds Jun–Aug, then mostly vacates area between Jan and May.<|separator|>
  56. [56]
    Extensive Tracking of Nomadic Waterbird Movements Reveals an ...
    Dec 6, 2024 · Waterbirds are highly mobile and have the ability to respond to environmental conditions opportunistically at multiple scales.
  57. [57]
    Population changes in European herons in relation to African climate
    Mar 1, 2025 · Early spring rainfall was also shown to positively affect breeding success and breeding numbers of little egrets in natural coastal wetlands ( ...
  58. [58]
    Heron Heyday - The Center for Conservation Biology
    Oct 9, 2024 · One factor that has played a role is the loss of colony sites due to erosion and ongoing sea-level rise. We have lost several nesting sites to ...
  59. [59]
    [PDF] Rainfall Effects on Heron and Egret Nest Abundance in the San ...
    Jun 5, 2014 · Im- portant concerns include the modification and loss of tidal marsh feeding areas as a consequence of sea level rise, includ- ing interactions ...
  60. [60]
    Hello exotic egrets, farewell mountain butterflies as fauna revolution ...
    Jun 29, 2019 · Colourful creatures are moving north from Europe into a warming Britain but indigenous rivals risk being lost for ever.
  61. [61]
    Bird of the Month February 2025: Little Egret
    Feb 2, 2025 · From the 1950s, similar bans on the Continent allowed the return of little egrets to much of their former range. A warming climate and increased ...
  62. [62]
    Contamination and Biomarkers in the Great Blue Heron, an Indicator ...
    Aug 6, 2025 · The Missisquoi bay and the Saint-Augustin Lake are prone to eutrophication and cyanobacteria proliferation which affect dramatically both ...
  63. [63]
    Restoring wet meadows to protect the Madagascar pond-heron in ...
    Dec 22, 2020 · Wet meadows are critical reservoirs of biodiversity, but they have declined in Mayotte due to pollution, urbanization and invasive species, ...
  64. [64]
    Heron Taxonomy and Evolution - HeronConservation
    Ardea includes the largest modern heron, Ardea goliath, and other 'giant' herons, all of which are of conservation concern. The White-bellied Heron is among ...Missing: lignorum | Show results with:lignorum<|control11|><|separator|>
  65. [65]
    Colony Site Selection of Gray Heron (Ardea cinerea) During the ...
    Feb 12, 2025 · This study utilizes geographic information systems (GIS) and random forest (RM) models to examine the colony site selection during the breeding period of gray ...Missing: physical | Show results with:physical
  66. [66]
    Drivers of taxonomic, phylogenetic, and functional diversity of ...
    May 20, 2025 · Abstract. Urban wetlands are considered as “habitat islands” within the urban matrix that contribute to species conservation.
  67. [67]
    [PDF] The foraging behaviour of herons and egrets on the Magela Creek ...
    Like the Great Egret, the White-necked Heron uses mostly 'stand and wait' or 'walk slowly' methods when foraging. When hunting slowly through tall grass ...
  68. [68]
    [PDF] Feeding Behavior of North American Herons
    Sep 9, 2024 · Green Heron as persistently returning bait to a position under its feeding perch. In standing flycatching, a heron using stand and wait behavior.
  69. [69]
    https://www.allaboutbirds.org/guide/Gray_Heron/lifehistory
  70. [70]
    Grey Heron - HeronConservation
    Depending on location, fish or crustaceans tend to dominate a diet; amphibians, small mammals, reptiles, crustaceans, worms, insects, and small birds are ...<|control11|><|separator|>
  71. [71]
    Seasonal Diet of the Grey Heron Ardea cinerea on an Oceanic ...
    Data on diet are presented in four ways: num- ber of prey items (NP), prey item percentage (%P, the number of items of a particular prey taxon recorded in the ...
  72. [72]
    Diet and Foraging - Black-crowned Night Heron - Birds of the World
    Florida: 45 stomachs of night-herons contained the following percentage of organisms: fish 54%, crustaceans (mostly crawfish) 21%, insects 16%, frogs 7%, and ...
  73. [73]
    Gray Heron Life History, All About Birds, Cornell Lab of Ornithology
    Food. Fish. Gray Herons eat mostly fish, but with adults needing 330–500 g (0.7–1.1 pounds) of food per day, they also prey opportunistically on amphibians ...Missing: general percentage
  74. [74]
    [PDF] Great Blue Herons in Puget Sound
    The long legs give it the ability to wade in deeper water than any other North American wading bird.Missing: features | Show results with:features
  75. [75]
    [PDF] Bait-fishing by Birds: A Fascinating Example of Tool Use
    The Great Blue Heron's protectiveness of its bait suggests recognition of the bread as a fish attractant. Sisson (1974) reported that a Green Heron at the Miami ...
  76. [76]
    [PDF] Heron Behavior Terminology
    In the Aerial Stretch display, a heron launches into flight while bringing its head and neck into the Stretch display position. It may sway its head from ...
  77. [77]
    Colonization and Growth of a Mixed-Species Heronry in South Dakota
    An estimated 5,949 breeding ardeid pairs comprised of 95% Cattle Egrets (Bubulcus ibis), 2% Black-crowned Night-Herons (Nycticorax nycticorax), 2% Great Egrets ...
  78. [78]
    Behavior - Great Blue Heron - Ardea herodias - Birds of the World
    Folds its neck in an S-shape and extends its legs along the body axis on long flights. Neck is extended and legs are dangled when preparing to land, when ...Missing: musculature strike
  79. [79]
    Great Blue Heron - Hinterland Who's Who
    In the spring, males and females reach the nesting grounds at about the same time, as soon as local water courses have thawed, in late February in western ...<|separator|>
  80. [80]
    Green Heron Life History, All About Birds, Cornell Lab of Ornithology
    Nest Placement​​ The male selects a secluded site within his territory, usually in a large fork of a tree or bush, with overhanging branches to conceal the nest. ...
  81. [81]
    [PDF] Heronries Census Species Guide | BTO
    Apr 12, 2018 · The incubation period is 25–28 days and chicks will hatch from mid ... The normal clutch size is 3–4. Grey heron chicks look quite ...
  82. [82]
    [PDF] Great Blue Heron FAQ - Stanley Park Ecology Society
    The FAQ covers where the colony is located, when herons return, how they pick a mate, nest size, how nests are made, and when they lay eggs.
  83. [83]
    Species Survey Strategy - Colonial Waterbirds Pt. I - eBird
    Apr 19, 2017 · Clutch size: 3 to 5 eggs; sometimes as few as 1 or 2. Incubation: 24-26d; Fledging: 42-49 d. Parents continue to feed young apparently for ...
  84. [84]
    Great Blue Herons - Mass Audubon
    In a typical brood, only two young survive. Nestling and fledgling mortality is attributed to a number of causes including starvation, falling out of a nest, ...
  85. [85]
    Boat-billed Heron - HeronConservation
    They are nesting in April–August in Mexico, June–June in Honduras, June in Honduras, February–April in coastal east Mexico and Panama, August in Surinam, June– ...Missing: temperate polygyny
  86. [86]
    Behavior - Tricolored Heron - Birds of the World
    Mar 4, 2020 · Young in nest threaten intruding adults and nestlings by jabbing with bill, and by performing Upright and Forward display after about 3 wk of ...
  87. [87]
    [PDF] Predation as a Selective Force on Foraging Herons
    Sep 6, 2024 · This was an unusual year because the normal up- welling in the Bay of Panama did not occur, presum- ably due to the effects of E1 Nifio.Missing: eutrophication | Show results with:eutrophication
  88. [88]
    Ardea cinerea - Bird Migration Atlas
    N European Grey Herons overwinter mostly from the British Isles to C and W Europe, with some birds found in N and W Africa. Wintering in Iceland has also been ...
  89. [89]
    White-faced Heron - HeronConservation
    Breeding range: The White-faced Heron breeding range includes Lesser Sundas and Moluccas Islands, south New Guinea, Australia except the inland deserts, the ...
  90. [90]
    Pacific Heron (Ardea pacifica) | Wingmate Birds Australia
    Its ability to appear suddenly in new areas after rain highlights its nomadic nature. Fun Facts. After major rains, they can appear in large numbers in places ...
  91. [91]
    Transatlantic vagrancy in northern South America: eight Old World ...
    Jun 3, 2024 · PURPLE HERON Ardea purpurea​​ One was seen three times in May 2018 along the Kaw River in Kaw-Roura Nature Reserve (at Régina; 04°26′19″N, 52°03′ ...
  92. [92]
    Trans-Atlantic vagrancy of Palearctic birds in Trinidad and Tobago
    We report details for three species new to Trinidad and Tobago: Purple Heron ... vagrants, South America, trans-Atlantic vagrancy, Trinidad and Tobago.
  93. [93]
    Little Blue Heron - HeronConservation
    The Little Blue Heron is the one of the most dispersive of North American herons, with a mean dispersal distance of over 1,000 km (Melvin et al. 1999) ...
  94. [94]
    Great Blue Heron Ardea Herodias Species Factsheet | BirdLife ...
    The species is widespread across North and Central America as well as the Caribbean. Number of locations. Unknown.
  95. [95]
    Cattle Egret Bubulcus Ibis Species Factsheet | BirdLife DataZone
    The global population size is estimated at 3,900,000-18,800,000 individuals (Wetlands International 2023), which equates to 2,600,000-12,600,000 mature ...
  96. [96]
    [PDF] Heron count protocols: inventory, census, and monitoring of herons
    The following count bands are the standards for herons: 1, 2-9, 10-49, 50-249, 250-999, 1,000-2,499, 2,500-4,999, 5,000-9,999,. 10,001-39,000, 40,00-100,000.
  97. [97]
    Asian Waterbird Census (AWC) 2024 - IAS Mentoring
    Waterbird Population Trends (2024). Stable populations: Egrets, herons, and storks show stable numbers. Declining species: Northern Pintail, Eurasian Curlew ...
  98. [98]
    Eurasian Bittern Botaurus Stellaris Species Factsheet
    In Europe, the species' population is considered to have remained relatively stable over three generations (11.8 years) (BirdLife International 2021). The ...Missing: 1990s | Show results with:1990s
  99. [99]
    [PDF] Wetlands: a global disappearing act - Ramsar.org
    Scientific estimates show that 64 % of the world's wetlands have disappeared since 1900. In some regions, notably Asia, the loss is even higher. Inland wetlands ...
  100. [100]
    Conservation and Management - Great Blue Heron - Ardea herodias
    In addition, Thomas and Anthony (2003) found that nest attendance and visitation rates were lower for colonies with elevated PCB and DDT concentrations, though ...
  101. [101]
    [PDF] WHITE-BELLIED - Heron Conservation
    The WBH's presumed range is covered by three biodiversity hotspots: Eastern Himalayas, Indo-Burma, and South-West China (Myers et al., 2000); two Global. 200 ...
  102. [102]
    Avoidance and Minimization Measures: Power Lines
    Power line infrastructure kills millions of birds every year. Birds can be injured or killed from collisions with both distribution and transmission power lines ...
  103. [103]
    [PDF] Great Blue Heron - Washington Department of Fish and Wildlife
    Mar 9, 2012 · The Great Blue Heron's North American breeding range runs from southeast Alaska east to Nova Scotia and south to northwestern Mexico, the ...
  104. [104]
    [PDF] Wetlands, Biodiversity and the Ramsar Convention
    The Ramsar Convention promotes conservation and wise use of wetlands, especially as waterfowl habitat, and provides technical support for their management.
  105. [105]
    The Snowy Egret Survived The Plume Trade But Is Still Imperiled
    Nov 23, 2020 · With the prohibition of the plume trade by 1910-1913, the snowy egret managed to recover its population in most regions, reaching peak numbers ...
  106. [106]
    First captive breeding of White Bellied Heron. | WWF - Panda.org
    May 30, 2011 · On 7th May, 2011 at around 5:50 am, a 54.9 grams chick was hatched successfully in its hatchery house in Phochu in Punakha district.
  107. [107]
    the Mythology - Phoenix - Ancient Egypt
    Dec 11, 2019 · The Bennu bird was a large imaginary bird resembling a heron. The bird may be modeled on the gray heron (Ardea cinera) or the larger Goliath heron (Ardea ...
  108. [108]
    Representations of Herons in Ohara Shōson and Hashimoto Koei's ...
    Herons in Japanese art symbolize divine creatures moving across three elements, often alluding to changing seasons, sadness, or love, and are used to depict ...
  109. [109]
    (PDF) Heron Conservation - A History - ResearchGate
    Through the millennia, hunting herons for sport, food, or feathers has been one of the more enduring conservation issues for the group. Killing egrets for their ...
  110. [110]
    Explore the Rookery Bay Reserve | National Estuarine Research ...
    Rookery Bay Reserve offers 110,000 acres of protected land, boat tours, birding, camping, trails, and various tours for an up close experience.
  111. [111]
    Effects of fish-eating birds on freshwater fish stocks: An evaluation
    The herons consumed a maximum of 8% of the total fish yield, depending on stocking density and fish availability.
  112. [112]
    The Heron: Bassani, Giorgio - Books - Amazon.com
    30-day returnsThe fifth book in Bassani's Romanzo di Ferrara sequence, and his final novel, The Heron is a taut, poignant portrait of a middle-aged man's reckoning with his ...
  113. [113]
    [PDF] Conserving-Herons.pdf
    The most threatened of the habitats on which herons depend are wetlands, tropical forests, tropical coastal lagoons, islands, reedbeds, and rice fields. Overall ...Missing: paddies sewage