The wood stork (Mycteria americana) is a large American wading bird in the family Ciconiidae (storks), the only member of the family to breed in North America. It was formerly called the "wood ibis", although it is not an ibis. It is found in subtropical and tropical habitats in the Americas, including the Caribbean. In South America, it is resident, but in North America, it may disperse as far as Florida. Originally described by Carl Linnaeus in 1758, this stork likely evolved in tropical regions. The head and neck are bare of feathers, and dark grey in colour. The plumage is mostly white, with the exception of the tail and some of the wing feathers, which are black with a greenish-purplish sheen. The juvenile differs from the adult, with the former having a feathered head and a yellow bill, compared to the black adult bill. There is very little sexual dimorphism.
The wood stork's habitat can vary, but it must have a tropical or subtropical climate with fluctuating water levels. The one-metre-diameter (3.3-foot) nest is found in trees, especially mangroves and those of the genus Taxodium, usually surrounded by water or over water. The wood stork nests colonially. The nest itself is made from sticks and greenery. During the breeding season, which is initiated when the water levels decline and can occur anytime between November and August, a single clutch of three to five eggs is laid. These are incubated for around 30 days, and the chicks hatch underdeveloped, or altricial, requiring support from their parents. They fledge 60 to 65 days after hatching, although only about 31% of nests fledge a chick in any given year, with most chicks dying during their first two weeks, despite being watched by an adult during that time. The chicks are fed fish of increasing size as they age. The diet of the adult changes throughout the year. During the dry season, fish and insects are eaten, compared to the addition of frogs and crabs during the wet season. Because it forages by touch, it needs shallow water to effectively catch food. This is also the reason why the wood stork breeds when water levels start to fall.
Globally, the wood stork is considered to be of least concern by the International Union for Conservation of Nature. This is due to its large range. In the United States, on the other hand, it is considered to be threatened. Predators of the wood stork include raccoons (which predate on chicks), crested caracaras, which prey on eggs, and other birds of prey, which feed on eggs and chicks. Hunting and egg-collecting by humans has been implicated as a factor in the decline of South American wood storks. Humans also cause nest failures through ecotourism, although observation through binoculars about 75 metres (246 ft) away does not have a large effect on nesting success. Habitat alteration has caused the wood stork to decline, with levee and drainage systems in the Everglades causing a shift in the timing of breeding and thus a decrease in breeding success.
Taxonomy and etymology
The wood stork was first formally given its binomial name Mycteria americana by Linnaeus in 1758. Linnaeus based his name on a misplaced account and illustration in Historia Naturalis Brasiliae (1648) of the jabiru-guacu. Linnaeus also described Tantalus loculator, which was proven to also apply to the jabiru-guacu, after M. americana based on a 1731 illustration of the wood stork by Mark Catesby under the name of wood pelican. Since these binomials referred to the same species, M. americana and T. loculator are synonymous but M. americana takes priority as it occurs before T. loculator.
The accepted genus name Mycteria derives from the Greek μυκτήρ : myktēr, meaning snout or trunk, and the species name americana references the distribution of this stork.
|Relationships of extant Mycteria|
This species seems to have evolved in tropical regions; its North American presence probably postdates the last ice age. A fossil fragment from the Touro Passo Formation found at Arroio Touro Passo (Rio Grande do Sul, Brazil) might be of the living species; it is at most from the Late Pleistocene age, a few 10,000s of years ago. North American fossils from that time are of an extinct larger relative, M. wetmorei, which would be distinguished from the wood on the basis of size and on the basis of M. wetmorei's less curved mandible. This was probably a sister species; both occurred sympatrically on Cuba at the end of the Pleistocene. Of the extant members of the genus Mycteria, this bird is basal to the clade yellow-billed stork, which is itself basal to the milky stork and the painted stork. This phylogeny is based on a 1996 study that sequenced the B chromosome and then utilized DNA–DNA hybridization to find the relations between the storks.
Likely because of its decurved bill, the wood stork has formerly been called the "wood ibis", although it is not an ibis. It also has been given the name of the "American wood stork", because it is found in the Americas. Regional names include "flinthead", "stonehead", "ironhead", "gourdhead", and "preacher".
The adult wood stork is a large bird which stands 83 to 115 cm (33–45 in) tall with a wingspan of 140 to 180 cm (55–71 in). The male typically weighs 2.5 to 3.3 kg (5.5–7.3 lb), with a mean weight of 2.7 kg (6.0 lb); the female weighs 2.0 to 2.8 kg (4.4–6.2 lb), with a mean weight of 2.42 kg (5.3 lb). Another estimate puts the mean weight at 2.64 kg (5.8 lb). The head and neck of the adult are bare, and the scaly skin is a dark grey. The black downward-curved bill is long and very wide at the base. The plumage is mostly white, with the , , and tail being black and having a greenish and purplish iridescence. The legs and feet are dark, and the flesh-coloured toes are pink during the breeding season. The sexes are similar.
Newly hatched chicks have a sparse coat of grey down () that is replaced by a dense, wooly, and white down () in about 10 days. Chicks grow fast, being about half the height of adults in three to four weeks. By the sixth and seventh weeks, the plumage on the head and neck turns smokey grey. When fledged, they resemble the adult, differing only in that they have a feathered head and a yellow bill.
Distribution and habitat
This is a subtropical and tropical species which breeds in much of South America, Central America and the Caribbean. The wood stork is the only stork that breeds in North America. In the United States there are small breeding populations in Florida, Georgia, and the Carolinas. In South America, it is found south to northern Argentina. Some populations in North America disperse after breeding, frequently to South America.
This stork is able to adapt to a variety of tropical and subtropical wetland habitats having fluctuating water levels (as that initiates breeding). It nests in trees that are over water or surrounded by water. In freshwater habitats, it primarily nests in forests dominated by trees of the genus Taxodium (in the USA), while in estuaries, it generally nests on trees in the mangrove forests. To feed, the wood stork uses freshwater marshes in habitats with an abundance of Taxodium trees, while in areas with mangrove forests, it uses brackish water. Areas with more lakes attract feeding on lake, stream, and river edges.
A resident breeder in lowland wetlands with trees, the wood stork builds a large stick nest in a tree. In freshwater habitats, it prefers to nest in trees that are larger in diameter. It nests colonially, with up to 25 nests in one tree. The height of these nests is variable, with some nests located in shorter mangrove trees being at heights of about 2.5 metres (8.2 ft), compared to a height of about 6.5 metres (21 ft) for taller mangrove trees. For Taxodium trees, it generally nests near the top branches, frequently between 18 and 24 metres (59 and 79 ft) above the ground. On the tree itself, forks of large limbs or places where multiple branches cross are usually chosen.
The nest itself is built by the male from sticks and green twigs collected from the colony and the surrounding area. The greenery usually starts to be added before the eggs are laid but after the main structure of twigs is completed. The frequency at which it is added decreases after the eggs hatch. This greenery functions to help insulate the nest. When complete, the nest is about one metre (3.3 ft) in diameter, with a central green area having an average diameter of about 28 centimetres (11 in). The thickness of the edge of the nest usually measures from 12 to 20 centimetres (4.7 to 7.9 in).
Wood storks without a nest occasionally try to take over others' nests. Such nest take-overs are performed by more than one bird. The young and eggs are thrown out of the nest within about 15 minutes. If only one stork is attending the nest when it is forced out, then it usually waits for its mate to try to take the nest back over.
Breeding is initiated by a drop in the water level combined with an increased density of fish (with the former likely triggering the latter). This is because a decrease in the water level and an increased density of fish allows for an adequate amount of food for the nestlings. This can occur anytime between November and August. After it starts, breeding takes about four months to complete. This bird lays one clutch of three to five cream coloured eggs that are about 68 by 46 millimetres (2.7 by 1.8 in) in size. These eggs are usually laid one to two days apart and incubated for 27 to 32 days by both sexes. This incubation period starts when the first egg is laid. During the first week of incubation, the parents do not go far from the colony, with the exception of the short trips to forage, drink, and collect nesting material carried out by the non-incubating bird. After the first week, the non-incubating bird spends less time in the colony, although the eggs are never left unattended. After a few hours of incubation, this bird sometimes takes a break to stretch, preen itself, rearrange nest material, or turn the eggs. The eggs hatch in the order in which they were laid, with an interval of a few days between when each egg hatches.
The chicks hatch altricial, unable to move, and weigh an average of 62 grams (2.2 oz). They are brooded for the first week after hatching, and after that when it is raining and at night. The chicks are not left alone until at least three weeks of age, with one parent foraging while the other guards the nest and chicks. When the chicks are at least three weeks old, they are large enough to stay and protect the nest. This coincides with the chicks getting more aggressive when presented with foreign objects or organisms. They fledge 60 to 65 days after hatching, and reach sexual maturity at four years of age, although they usually do not successfully fledge chicks until their fifth year of age.
The hatching success, the percentage of birds that had at least one egg that hatched in a year, of the wood stork is around 62%. This can vary widely, though, with colonies ranging from about 26% to 89% hatching success. The period when chicks are most vulnerable to death is from hatching to when they are two weeks old. Overall, about 31% of nests produce at least one fledged bird. Raccoons and caracaras, especially crested caracaras, are prominent predators of eggs and chicks. Other causes of nesting failure is the falling of nests, thus breaking the eggs inside. This can be caused by many events, the most prominent being poor nest construction and fights between adults.
During the dry season, the wood stork eats mostly fish, supplemented by insects. During the wet season, on the other hand, fish make up about half the diet, crabs make up about 30%, and insects and frogs make up the rest. The wood stork eats larger fish more often than smaller fish, even in some cases where the latter is more abundant. It is estimated that an adult wood stork needs about 520 grams (1.15 lb) per day to sustain itself. For a whole family, it is estimated that about 200 kilograms (440 lb) are needed per breeding season.
The wood stork usually forages in flocks when not breeding, and alone and in small groups when it is breeding. In the dry season, the stork generally forages by slowly walking forward with its bill submerged in water while groping for food. During the wet season, this method is used about 40% of the time to catch food. During this period, foot stirring, where the stork walks very slowly with its bill in the water while pumping its foot up and down before every step, is used about 35% of the time. Both these hunting methods are non-visual.
Because of its non-visual foraging methods, the wood stork requires shallow water and a high density of fish to forage successfully. The water that it forages in during the dry season averages about 17 centimetres (6.7 in) in depth, while during the wet season, the water usually is about 10 centimetres (3.9 in) deep. In the dry season, this stork prefers to forage in waters with no emergent vegetation, whereas in the wet season, it prefers areas with vegetation emerging between 10 and 20 centimetres (3.9 and 7.9 in) above the surface on average. This bird can travel over 80 kilometres (50 mi) to reach foraging sites, lending it access to a wide variety of habitats.
Both parents feed the chicks by regurgitating food onto the nest floor. The chicks are mainly fed fish that are between 2 and 25 centimetres (0.79 and 9.84 in) in length, with the length of the fish, usually increasing as the chicks get older. The amount of food that the chicks get changes over time, with more being fed daily from hatching to about 22 days, when food intake levels off. This continues until about 45 days, when food consumption starts to decrease. Overall, a chick eats about 16.5 kilograms (36 lb) before it fledges.
When flying, this bird utilizes two different techniques. When it is not sufficiently warm and clear, such as in the late afternoon or on cloudy days, this stork alternates between flapping its wings and gliding for short periods of time. When it is warm and clear, this bird glides after it gains an altitude of at least 610 metres (2,000 ft) through continuously flapping its wings. It can then glide for distances ranging from 16 to 24 kilometres (9.9 to 14.9 mi). It does not have to flap its wings during this time because the warm thermals are strong enough to support its weight. Because of the energy that is conserved by soaring, this stork usually uses this method to fly to more distant areas. It flies with its neck outstretched and its legs and feet trailing behind it.
When flying to foraging areas, the wood stork averages a speed of about 24.5 kilometres per hour (15.2 mph). In flapping flight it does 34.5 kilometres per hour (21.4 mph), and about 20 kilometres per hour (12 mph) by gliding.
Excretion and thermoregulation
During the breeding season, the wood stork commonly defecates over the edge of its nest, while the chicks usually defecate inside. The method of defecation of the adult differs based on temperature. Normally, it excretes by leaning forward and slightly raising its tail, with the waste either going straight down or slightly backward. When it is hot, though, the adult takes a different position, quickly moving its tail downwards and forwards while twisting its body around to aim at a leg that is bent backward (this is called urohidrosis). Which leg is aimed at is alternated. The excrement aimed at the legs is fluid and watery. It generally hits the legs around the middle of the unfeathered tibia, and runs down the leg as it is being directed by the scales. This results in evaporation, making this a method of thermoregulation. The temperature at which this starts is slightly above the threshold for panting, the latter of which takes place at temperatures of about 41.7 °C (107.1 °F) and above, compared to the normal body temperature of about 40.7 °C (105.3 °F). In hot weather, breeding adults will also shade their chicks with their wings.
Predators and parasites
Raccoons are predators of wood stork chicks, especially during dry periods where the water beneath nesting trees dries up. Where it occurs, the crested caracara is a significant predator of eggs. Other caracaras, and hawks and vultures, also prey on both eggs and chicks.
In the United States, Haemoproteus crumenium, a blood protozoan, can be found in subadult and adult wood storks. Other species of Haemoproteus also infect wood storks in Costa Rica, in addition to Syncuaria mycteriae, a nematode found in the gizzard of the wood stork.
Globally, the wood stork is considered least concern by the International Union for Conservation of Nature due to its large range. In the United States, this bird is considered to be threatened. This is a recovery from its former status as endangered, which it held from 1984 to 2014 because of a decline in its population caused by habitat loss and drought. Similarly, in the state of Santa Catarina, Brazil, its decline seems to have been reversed: after an absence between the late 1960s and the mid-1990s, the species is now again regularly encountered there, in particular in the Tubarão River region. It is likely that the Paraná River region's wetlands served as a stronghold of the species, from where it is now re-colonizing some of its former haunts.
Disturbance by tourists can have an effect on nesting success, with a study finding that nests that had boats passing by them within about 20 metres (66 ft) had an average of 0.1 chicks fledging, compared to the normal rate for that area of about 0.9 chicks fledging per nest. Pedestrians watching from a distance of at least 75 metres (246 ft) did not significantly affect nesting success. In the Everglades, levee and drainage systems have caused the timing of water fluctuations to change, thus shifting the timing of nesting and consequently a decrease in population.
- BirdLife International (2016). "Mycteria americana". IUCN Red List of Threatened Species. 2016: e.T22697648A93627312. doi:10.2305/IUCN.UK.2016-3.RLTS.T22697648A93627312.en. Retrieved 12 November 2021.
- "Wood Stork | National Geographic". Animals. 2010-11-11. Archived from the original on May 11, 2017. Retrieved 2020-12-24.
- Linnaeus, Carl (1758). Systema Naturae (in Latin). Vol. 1 (10th ed.). Holmia (Stockholm): Lars Salvius. p. 140.
- Piso, Willem; Marcgraf, Georg (1648). Historia Naturalis Brasiliae (in Latin). pp. 200–202.
- Catesby, Mark (1731). The Natural History of Carolina, Florida and the Bahama Islands. Vol. 1. London: Printed at the expence of the author, and sold by W. Innys and R. Manby, at the West End of St. Paul's, by Mr. Hauksbee, at the Royal Society House, and by the author, at Mr. Bacon's in Hoxton. p. 80.
- Allen, J.A. (1908). "The generic names Mycteria and Tantalus of Linnaeus, 1758" (PDF). The Auk. 25 (1): 37–38. doi:10.2307/4070247. hdl:2027/hvd.32044107327066. JSTOR 4070247.
- Nellis, David W. (March 2001). Common Coastal Birds of Florida and the Caribbean. Sarasota: Pineapple Press. p. 150. ISBN 978-1-56164-191-8.
- Sheldon, Frederick H.; Slikas, Beth (1997). "Advances in Ciconiiform systematics 1976–1996". Colonial Waterbirds. 20 (1): 106–114. doi:10.2307/1521772. JSTOR 1521772.
- Schmaltz Hsou, Annie (2007). "O estado atual do registro fóssil de répteis e aves no Pleistoceno do Estado do Rio Grande do Sul, Brasil" [The current state of the fossil record of Pleistocene reptiles and birds of Rio Grande do Sul]. Quaternário do RS: Integrando Conhecimento (in Portuguese): 23–24.
- Suárez, William; Olson, Storrs L. (2003). "New records of storks (Ciconiidae) from Quaternary asphalt deposits in Cuba". The Condor. 105 (1): 150–154. doi:10.1650/0010-5422(2003)105[150:NROSCF]2.0.CO;2. hdl:10088/1553. S2CID 86512215.
- Yow, John (1 May 2012). The Armchair Birder Goes Coastal: The Secret Lives of Birds of the Southeastern Shore. Chapel Hill: University of North Carolina Press. p. 75. ISBN 978-0-8078-8260-3.
- Elliott, Andrew; Garcia, E.F.J.; Kirwan, G.M.; Boesman, P. (2020). del Hoyo, Josep; Elliott, Andrew; Sargatal, Jordi; Christie, David A.; de Juana, Eduardo (eds.). "Wood Stork (Mycteria americana)". Handbook of the Birds of the World Alive. Barcelona, Spain: Lynx Edicions. doi:10.2173/bow.woosto.01. S2CID 216445615. Retrieved 26 August 2017.
- Brant, Heather A; Jagoe, Charles H; Snodgrass, Joel W.; Bryan, A. Lawrence; Gariboldi, Joan C (2002). "Potential risk to wood storks (Mycteria americana) from mercury in Carolina Bay fish". Environmental Pollution. 120 (2): 405–413. doi:10.1016/S0269-7491(02)00112-4. PMID 12395855.
- CRC Handbook of Avian Body Masses, 2nd Edition by John B. Dunning Jr. (Editor). CRC Press (2008). ISBN 978-1-4200-6444-5.
- Palmer, R. S. (1962). Handbook of North American birds, Volume 1, Loons through Flamingos. Yale Univ. Press, New Haven, CT.
- Coulter, M. C.; Rodgers, J. A.; Ogden, J. C.; Depkin, F. C.; Poole, A.; Gill, F. (1999). "Wood Stork (Mycteria americana)". The Birds of North America Online. doi:10.2173/bna.409. Retrieved 24 November 2017.
- Kahl, M. Philip (1962). "Bioenergetics of growth in nestling wood storks" (PDF). The Condor. 64 (3): 169–183. doi:10.2307/1365200. JSTOR 1365200.
- "Wood stork off endangered list after recovery in U.S. Southeast". Reuters. 26 June 2014. Archived from the original on 22 August 2018. Retrieved 1 July 2014.
- Rodgers, James A.; Schwikert, Stephen T.; Shapiro-Wenner, Anne (1996). "Nesting habitat of wood storks in north and central Florida, USA". Colonial Waterbirds. 19 (1): 1. doi:10.2307/1521802. JSTOR 1521802.
- Kahl, M. Philip (1964). "Food ecology of the wood stork (Mycteria americana) in Florida" (PDF). Ecological Monographs. 34 (2): 97–117. doi:10.2307/1948449. JSTOR 1948449. Archived from the original (PDF) on 2018-01-14. Retrieved 2018-01-14.
- Ehrlich, Paul R.; Dobkin, David S.; Wheye, Darryl (1992). Birds in Jeopardy. Stanford, CA: Stanford University Press. p. 18. ISBN 978-0-8047-1967-4.
- Llanes-Quevedo, Alexander; Rodríguez-Ochoa, Alejandro; Rodríguez, Carlos Frankel (2015). "Reproducción y hábitat de cría de Mycteria americana (Aves: Ciconiidae) en Cuba" [Reproduction and nesting habitat of Mycteria americana (Aves: Ciconiidae) in Cuba]. Revista Cubana de Ciencias Biológicas (in Spanish). 4 (1): 96–101.
- González, José A. (1999). "Nesting success in two wood stork colonies in Venezuela" (PDF). Journal of Field Ornithology. 70 (1): 18–27.
- Clark, E. Scott (1980). "The attentiveness and time budget of a pair of nesting wood storks". Proceedings of the Colonial Waterbird Group. 3: 204–215. JSTOR 4626715.
- Hauber, Mark E. (1 August 2014). The Book of Eggs: A Life-Size Guide to the Eggs of Six Hundred of the World's Bird Species. Chicago: University of Chicago Press. p. 106. ISBN 978-0-226-05781-1.
- Rodgers, James A.; Wenner, Anne S.; Schwikert, Stephen T. (1988). "The use and function of green nest material by wood storks" (PDF). The Wilson Bulletin. 100 (3): 411–423. JSTOR 4162606.
- Bryan, A. Lawrence; Coulter, Malcolm C. (1991). "Conspecific aggression in a wood stork colony in Georgia" (PDF). The Wilson Bulletin. 103 (4): 693–697.
- Rodgers, James A.; Schwikert, Stephen T. (1997). "Breeding success and chronology of wood storks Mycteria americana in northern and central Florida, U.S.A.". Ibis. 139 (1): 76–91. doi:10.1111/j.1474-919X.1997.tb04506.x.
- González, José A. (1997). "Seasonal variation in the foraging ecology of the wood stork in the southern Llanos of Venezuela" (PDF). The Condor. 99 (3): 671–680. doi:10.2307/1370479. JSTOR 1370479.
- Ogden, John C.; Kushlan, James A.; Tilmant, James T. (1976). "Prey selectivity by the wood stork" (PDF). The Condor. 78 (3): 324. doi:10.2307/1367691. JSTOR 1367691.
- Kushlan, James A. (1986). "Responses of wading birds to seasonally fluctuating water levels: Strategies and their limits". Colonial Waterbirds. 9 (2): 155–162. doi:10.2307/1521208. JSTOR 1521208.
- Bryan, A. Lawrence; Coulter, Malcolm C. (1987). "Foraging flight characteristics of wood storks in east-central Georgia, U.S.A.". Colonial Waterbirds. 10 (2): 157. doi:10.2307/1521254. JSTOR 1521254.
- Kahl, M. Philip (1963). "Thermoregulation in the wood stork, with special reference to the role of the legs". Physiological Zoology. 36 (2): 141–151. doi:10.1086/physzool.36.2.30155437. S2CID 88435010.
- Coulter, Malcolm C.; Bryan, A. Lawrence (1995). "Factors affecting reproductive success of wood storks (Mycteria americana) in east-central Georgia" (PDF). The Auk. 112 (1): 237–243. doi:10.2307/4088782. JSTOR 4088782.
- Zabransky, Cody J.; Webb, Stephen L.; Fedynich, Alan M.; Bryan, A. Lawrence (2008). "Blood parasites in wood storks (Mycteria americana) from the southeastern United States". Journal of Parasitology. 94 (5): 1178–1179. doi:10.1645/GE-1480.1. PMID 18576809. S2CID 207249942.
- Valkiūnas, Gediminas; Iezhova, Tatjana A.; Brooks, Daniel R.; Hanelt, Ben; Brant, Sara V.; Sutherlin, Marie E.; Causey, Douglas (2004). "Additional observations on blood parasites of birds in Costa Rica". Journal of Wildlife Diseases. 40 (3): 555–561. doi:10.7589/0090-3558-40.3.555. PMID 15465725. S2CID 21996487.
- Zhang, Luping; Brooks, Daniel R.; Causey, Douglas (2003). "A new species of Syncuaria Gilbert, 1927 (Nematoda: Acuarioidea: Acuariidae) in the wood stork, Mycteria americana L. (Aves: Ciconiiformes: Ciconiidae) from the Area de Conservacion Guanacaste, Costa Rica". Journal of Parasitology. 89 (5): 1034–1038. doi:10.1645/GE-3127. PMID 14627152. S2CID 45792749.
- Allen, Greg (3 February 2013). "All Things Considered". Wood Stork's Endangered Status Is Up In The Air (radio broadcast). NPR. Broadcast at 15:13 Eastern Time.
- Amorim, James Faraco; Piacentini, Vítor de Queiroz (2006). "Novos registros de aves raras em Santa Catarina, Sul do Brasil, incluindo os primeiros registros documentados de algumas espécies para o Estado" [New records of rare birds, and first reports of some species, in the state of Santa Catarina, southern Brazil]. Revista Brasileira de Ornitologia (in Portuguese). 14 (2): 145–149.]
- Bencke, Glayson Ariel (2007). "Avifauna atual do Rio Grande do Sul, Brasil: aspectos biogeográficos e distribucionais" [The recent avifauna of Rio Grande do Sul: Biogeographical and distributional aspects]. Quaternário do RS: Integrando Conhecimento (in Portuguese): 65–67.
- Bouton, Shannon N.; Frederick, Peter C.; Rocha, Cristiano Dosualdo; Barbosa Dos Santos, Alexandre T.; Bouton, Tara C. (2005). "Effects of tourist disturbance on wood stork nesting success and breeding behavior in the Brazilian Pantanal". Waterbirds. 28 (4): 487–497. doi:10.1675/1524-4695(2005)28[487:EOTDOW]2.0.CO;2. S2CID 85832770.
- Explore Species: Wood Stork at eBird (Cornell Lab of Ornithology)