fbpx
Wikipedia

Sora (bird)

January 01, 1970

The sora (Porzana carolina) is a small waterbird of the rail family Rallidae, sometimes also referred to as the sora rail or sora crake, that occurs throughout much of North America. The genus name Porzana is derived from Venetian terms for small rails, and the specific carolina refers to the Carolina Colony. The common name "Sora" is probably taken from a Native American language.

Sora
Whinny call recorded in Minnesota
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Chordata
Class: Aves
Order: Gruiformes
Family: Rallidae
Genus: Porzana
Species:
P. carolina
Binomial name
Porzana carolina
  Breeding
  Migration
  Resident
  Nonbreeding
Synonyms

Rallus carolinus Linnaeus, 1758

Adult soras are 19–30 cm (7.5–11.8 in) long, with dark-marked brown upperparts, a blue-grey face and underparts, and black and white barring on the flanks. They have a short thick yellow bill, with black markings on the face at the base of the bill and on the throat. Sexes are similar, but young soras lack the black facial markings and have a whitish face and buff breast. They weigh about 49–112 g (1.7–4.0 oz).

The sora's breeding habitat is marshes throughout much of North America. They nest in a well-concealed location in dense vegetation. The female usually lays 10 to 12 eggs, sometimes as many as 18, in a cup built from marsh vegetation. The eggs do not all hatch together. Both parents incubate and feed the young, who leave the nest soon after they hatch and are able to fly within a month.

They migrate to the southern United States and northern South America. Sora is a very rare vagrant to western Europe, where it can be confused with spotted crake. However, the latter species always has spotting on the breast. a streaked crown stripe, and a different wing pattern.

Soras forage while walking or swimming. They are omnivores, eating seeds, insects and snails. Although soras are more often heard than seen, they are sometimes seen walking near open water. They are fairly common, despite a decrease in suitable habitat in recent times. The call is a slow whistled ker-whee, or a descending whinny.

Taxonomy edit

The sora was formally described by the Swedish naturalist Carl Linnaeus in 1758 in the tenth edition of his Systema Naturae. He placed it with the rails in the genus Rallus and coined the binomial name Rallus carolinus.[2] Linnaeus based his description on the "little American water hen" that George Edwards had described and illustrated in 1750 from a specimen collected near the Hudson Bay.[3] Linnaeus also cited Mark Catesby who had described the "soree" in his The Natural History of Carolina, Florida and the Bahama Islands.[4] The sora is now placed in the genus Porzana that was erected in 1816 by the French ornithologist Louis-Pierre Vieillot.[5][6] The genus name is derived from Venetian terms for small rails, the specific epithet refers to the Carolina Colony.[7] The common name "Sora" is probably taken from a Native American language.[8] The species in monotypic: no subspecies are recognised.[6]

Description edit

Adult soras are 19–30 cm (7.5–11.8 in)[9][10][11] long, with dark-marked brown upperparts, a blue-grey face and underparts, and black and white barring on the flanks. They have a short thick yellow bill, with black markings on the face at the base of the bill and on the throat. Sexes are similar, but young soras lack the black facial markings and have a whitish face and buff breast. They weigh about 49–112 g (1.7–4.0 oz)[9] and have a wingspan of 35–40 cm.[12] Soras have two common calls: a loud, squeaking "whinny" that decelerates and descends in pitch, often used to advertise territories; and a softer, ascending "ker-wee" or "sor-ah".[13] The latter call is sometimes presented as a possible origin for the species' common name.

Distribution and habitat edit

The sora is common across North America, naturally occurring in 49 US states (the exception being Hawaii), all 10 Canadian provinces and 2 Canadian territories. Outside of US/Canada, the species is found throughout Central America, the Caribbean, and northern South America. The species has been recorded as a vagrant in Iceland, Great Britain, Portugal, and at Lake Titicaca.

Soras occur throughout most of North America.[14] Soras breed from Nova Scotia northwest to southern Yukon and Northwest Territories, south to California, Arizona, and New Mexico and northeast to Pennsylvania and New England. Sora wintering grounds include the Caribbean, northern portions of South America, including Ecuador, Colombia, and Venezuela, north through Central America and Mexico to southern California in the West and coastal regions of the Southeast. From southern Kansas south to northern and eastern Texas and east through the inland areas of the southeastern United States, soras are typically only observed during migration in the spring and fall. In a few areas of the western United States, including central California and areas of Arizona and New Mexico, soras may occur year-round.[14]

The size of an individual Sora's home range varies. Sora brood-rearing home ranges in northwestern Iowa averaged 0.5 acres (0.20 ha).[15] In Arizona, sora home range size varied from 1.5 acres (0.61 ha) in the early breeding season to over 2 acres (0.81 ha) in the postbreeding season. These seasonal differences in sora home range size were not significant (p>0.05).[16]

Densities vary from to 12 soras/acre in Colorado [17] to 0.47 pair/ha in Indiana.[18] An average of 1.3 soras/ha responded to calls across sites in Colorado.[19] A similar density of soras was found in southeastern Wisconsin.[20] In Iowa, average density over 2 years and several marsh habitats was 1.3 pairs/ha.[21] ≥Landscape factors, such as marsh area, habitat edges within marshes, and the number of marshes in a region may influence soras.

Although soras occur in marshes of all sizes, they may occur at higher densities in intermediate-sized marshes. Soras were significantly (p≤0.01) positively related with total wetland area and perimeter area of surface water in east and central Maine [22] and were significantly (p<0.05) positively related to area of wetlands in Saskatchewan.[23] In Maine, soras used 10% of 2.5 acres (1.0 ha) wetlands, 40% to 50% of wetlands from 2.5–5 acres (1.0–2.0 ha) in size, and 20% of wetlands larger than 50 acres (20 ha).[22] In western New York, soras were significantly (p=0.007) more abundant in marshes from 100 to 250 acres (40 to 101 ha) in size than in smaller (< 100 acres (40 ha)) or larger (250–380 acres (100–150 ha)) marshes. In addition, sora nests were detected more often in the 100–200 acres (40–81 ha) marshes.[24]

Soras are commonly reported in plant communities dominated by cattails (Typha spp.),[16][19][25][24][26][20] sedges (Carex spp.),[19][26][20][21][27] bulrushes (Scirpus spp.),[16][19][20][21] smartweeds (Polygonum spp.),[26][27] rushes (Juncus spp.),[26][27] rice cutgrass (Leersia oryzoides),[28] and barnyard grasses (Echinochloa spp.).[27][28]

Soras also seem to prefer edge habitats. Breeding sora density was significantly (p<0.001) correlated (r=0.62) with the perimeter:area ratio of northwestern Iowa marshes. The distance from the center of sora territories to a habitat edge was also significantly (p<0.005) less than from the center of Virginia rail territories.[21] In Arizona, habitat edges were closer to sora heavy use areas than random sites.[16]

Wetland dynamics at a large scale can affect soras. Indices of sora population at 3 "levels of response" were significantly (p<0.01) correlated (r≥0.70) with the number of ponds present in the prairie pothole region of North Dakota in May.[29]

Outside of wetlands, soras are most often reported in cultivated areas during migration or in the postbreeding period. For instance, a sora was observed 3 mi (4.8 km) from marshland in a cultivated field in Iowa in the middle of August. A male sora was observed less than 1,000 ft (300 m) from a large wetland in a soybean (Glycine max) field in northwestern Iowa during the postbreeding period.[15] From early June to mid-July, soras were observed on farms in Saskatchewan sown mainly with wheat (Triticum aestivum).[23]

Soras have also been reported in flooded wooded areas.[24][22] In western New York, soras occurred during the breeding season on a study site where 26% of the area was categorized as "flooded timber," and 5% was classed as "scrub/shrub marsh".[24] In eastern and central Maine, an average of 2.1 soras was observed in wooded swamps per 100 hours of observation during the breeding season.[22] On a nonbreeding (August–April) site in southwestern Arizona, soras were found to use a "mixed shrub community" more than expected based on its availability.[16] Soras were observed at low abundances on a site with douglas-fir (Pseudotsuga menziesii), ponderosa pine (Pinus ponderosa), and trembling aspen (Populus tremuloides) in British Columbia.[30]

Soras use areas with a wide range of water depths. They are often observed in water less than 1 ft (30 cm) deep,[19][20][27][28] although the average water depth of sora heavy-use areas in Arizona was 20 in (51 cm) .[16] In northwestern Iowa, average water depth in sora territories was 15 in (38 cm), which was significantly (p<0.025) more shallow than water depths at random locations in the marsh.[21] Sora nesting sites occurred in shallower water than random sites in western New York.[24] Average water depths reported at nest sites range from 4 in (10 cm) for 4 sora nests in Colorado to nearly 10 in (25 cm) for sora nests in western New York.[24] In areas of deep water, soras typically wade on mats of floating vegetation.[15]

Water level fluctuations may result in nest abandonment. For example, at a site in Colorado where water level increased more than 8 in (20 cm), a sora nest with 7 eggs was abandoned.[19] In Alberta, soras nested in more vegetation types during a drought year, most likely due to substantially reduced water levels in the vegetation used the previous year.[26]

Soras use areas with shallower water in fall than in spring.[16][27][28] Soras typically avoid open water. There is a significant (p≤0.05) negative relationship between area of open water and sora use of wetlands in Maine [22] and sora relative abundance in Saskatchewan.[23] In western New York, sora nesting sites had a lower percentage of open water than random sites,[24] and in Arizona soras used open water areas less than their availability.[16]

Sora nesting sites had larger percentage of emergent vegetation than random sites in marshes of western New York.[24] Sora numbers in wetlands of northeastern North Dakota were significantly (p<0.05) positively correlated (r=0.45) with hectares of live emergent vegetation. In east and central Maine, wetlands used by soras had significantly (p=0.01) greater area of emergent vegetation than unused wetlands.[22]

Density of emergent vegetation in sora habitat varies. Reported density of emergent vegetation ranges from an average of 121.9 stems/m2 in sora territories in northwestern Iowa [21] to 333 stems/m2 on sites in northeastern Missouri used during fall migration.[28] In western New York, cover was greater than 70% at 95% of sora nests. In addition, nesting sites had more horizontal cover at 20 inches (0.5 m) above water level than random sites.[24] However, average stem density on sora territories was not significantly (p>0.05) different from random sites in northwestern Iowa.[21]

Height of emergent vegetation in sora habitat also varies. It ranged from 8 to 11 in (20 to 28 cm) in the spring after a winter disturbance in northwestern Iowa [21] to 84 in (210 cm) in areas heavily used by soras in Arizona.[16] In marshes of western New York, average vegetation height at sora nesting sites was shorter than at random locations.[24] However, the average height of emergent vegetation in sora territories in northeastern Iowa was not significantly (p>0.05) different from the height of vegetation in random plots.[21]

In Arizona, both cover and height of vegetation used by soras varied with seasons. Conway suggested the differences likely reflected the varied diet of the sora.[16] The availability of habitat in different seasons is another possible source of seasonal differences in sora habitat.[27]

Extent of woody vegetation surrounding South Dakota wetlands was not significantly (p=0.6) associated with sora occurrence. However, in marshes of western New York, there was a significant (p=0.041) negative relationship between percent flooded timber on a site and sora relative abundance.[24]

Soras may prefer some cover types. In Arizona, 65.3% of sora use was in southern cattail (Typha domingensis), although it comprised only 16.5% of the vegetation. Bulrushes and a mixed-shrub community were also used more than their availability, while saltcedar (Tamarix chinensis) and arrowweed (Pluchea sericea) were avoided.[16] A literature review notes sora avoidance of purple loosestrife (Lythrum salicaria)-dominated sites. In east and central Maine, wetlands used by soras had significantly (p=0.05) more ericaceous vegetation, such as leatherleaves (Chamaedaphne spp.), sweetgales (Myrica spp.), and laurels (Kalmia spp.).[22] In marshes of northwestern Iowa, broadleaf arrowhead (Sagittaria latifolia) occurred in sora territories significantly (p<0.01) more often than at random sites. Johnson and Dinsmore [21] imply that this likely results from both species preferring similar site conditions. In May and June in Wisconsin, soras were detected significantly (p<0.025) more often in cattail (Typha spp.) survey areas than in sedge areas. However, in southeastern Wisconsin during the breeding season, there was no significant (p=0.943) difference in sora densities between habitats comprised predominantly of cattail, sedge, or bulrush.[20] In addition, soras' use of glaucous cattail (Typha × glauca), broadfruit bur-reed (Sparganium eurycarpum), sedge, river bulrush (Schoenoplectus fluviatilis), and hardstem bulrush (S. acutus var. acutus) habitats in marshes of northwestern Iowa generally reflected availability of these habitats.[21]

Seasonal differences in sora habitat use have been reported. In northeastern Missouri in spring, the likelihood of detecting sora in robust emergents, such as cattail (Typha spp.) and longroot smartweed (Polygonum amphibium var. emersum), was over 6 times that of detecting soras in these areas in fall. However, availability of habitats during various times of the year was not addressed.[28] In a study performed in southeastern Missouri, plant species used by sora during spring and fall migration differed significantly (p=0.005). However, the author qualifies this finding with his observation of major seasonal differences in vegetation availability.[27]

Temperature may also influence sora abundance. In Colorado, average April temperature was significantly (p<0.01) negatively correlated (r= -0.94) with sora abundance. On sites that had average April temperatures ≤ 42 °F (6 °C), soras were more abundant than the closely related Virginia rail (Rallus limicola), while on warmer sites the sora to Virginia rail ratio declined.[19]

Migration edit

They migrate to the southern United States, the Caribbean, and northern South America. Sora is a very rare vagrant to western Europe, where it can be confused with spotted crake. However, the latter species always has spotting on the breast. a streaked crown stripe, and a different wing pattern.

Soras forage while walking or swimming. They are omnivores, eating seeds, insects and snails. Although soras are more often heard than seen, they are sometimes seen walking near open water. They are fairly common, despite a decrease in suitable habitat in recent times. The call is a slow whistled ker-whee, or a descending whinny. The use of call broadcasts greatly increases the chances of hearing a sora. Call broadcasts can also increase the chances of seeing a sora, as they will often investigate the source of the call.

Sora's northern migration occurs in spring, primarily in April and May. For instance, in east-central Kansas significantly (p<0.05) more soras were detected from 24 April to 7 May than the 2-week periods before or after. In southeast Missouri, soras were observed from 25 March to 6 May.[27] Soras were first detected in April to early May in Colorado,[19] Iowa, and Minnesota.[25] In a summary of the first detections of soras in Minnesota, Manitoba, and Saskatchewan, all occurred in April.[31]

Soras depart their breeding grounds as early as July and as late as October. Soras were observed returning to wintering grounds in Arizona as early as late July.[16] Although local movements may obscure migration occurring in July, most migration occurred in August and September in Colorado. In northern Ohio, sora abundance was increased in late August and September by migrating individuals.[32] In southeastern Missouri, soras were observed from 5 September to 27 October.[27] Soras have been observed in Manitoba and Saskatchewan as late as October.[31]

Behavior and ecology edit

Breeding edit

Although sora nesting activities have been observed from late April through early August, the peak nesting period typically occurs from May to early July. In New York, nesting was initiated in late April.[24] A nest search and literature review study of soras in Colorado reports a clutch initiated in early August. However, mean clutch initiation dates occurred in May and June in regions across the state.[17] Studies from northern Ohio,[32] North Dakota, and Alberta [26] report nesting from May to July. In a review, sora nests with eggs were recorded from early May to early July in Indiana.[18]

The sora's breeding habitat is marshes throughout much of North America.[33] They nest in a well-concealed location in dense vegetation. The female usually lays 10 to 12 eggs, sometimes as many as 18, in a cup built from marsh vegetation. The eggs do not all hatch together. Both parents incubate and feed the young, who leave the nest soon after they hatch and are able to fly within a month.

Sora females begin construction of saucer-shaped nests on the ground or on a platform over shallow water at the start of egg laying.[24][17] Clutch sizes typically range from 8 to 13 eggs,[17][18] although clutch sizes of up to 16 have been reported.[25][26][17] Both parents incubate the eggs. Incubation lasts approximately 19 days, although a wide range of incubation periods has been reported in the literature.[26] Eggs hatch over a span of 2 to 13 days.[25] Nestlings are precocial and are capable of walking and swimming short distances (< 3 ft (0.91 m)) by the end of their first day. Young soras are independent by about 4 weeks of age.[15][17] Soras brood once per season.[17] Some late broods may be second nesting attempts, but there is only one report in the literature of a second brood attempt after a successful nest.[26] For information on breeding behavior of soras, see.[25] For information on conspecific nest parasitism and egg discrimination in soras see.[34]

Sora nest success rates vary across locations and years. In the literature addressing sora apparent nest success, the proportions of successful nests varied from 0.61 in Michigan to 0.833 in Minnesota.[32] In western New York, the nest success rate of 6 sora nests was 0.43, and the daily nest success rate was 0.97.[24] Using data from the Cornell Laboratory of Ornithology's nest record program, nesting success rate of soras in North America was estimated as 0.529 over a 28-day period (n=108).[35] On a site in Alberta, 80.6% of eggs successfully hatched, while the following year only 59.6% of eggs hatched. The authors conclude that diminished water level interacting with predators and trampling by cattle resulted in decreased hatching success.[26] During late summer, soras are flightless for a period during their post-nuptial molt.[32]

Food and feeding edit

 
Sora foraging in water

Soras eat a wide range of foods. Animals that are commonly reported as sora food items include snails (Gastropoda), crustaceans (Crustacea), spiders (Araneae), and insects (Insecta), mainly beetles (Coleoptera), grasshoppers (Orthoptera), flies (Diptera), and dragonflies (Odonata).[36][37] Soras often eat the seeds of plants, such as smartweeds, bulrushes, sedges, and barnyard grasses.[32][36][37] Seeds of annual wildrice (Zizania aquatica) and rice cutgrass are eaten by soras in the eastern United States.[36] A literature review lists crowngrass (Paspalum spp.) and rice (Oryza sativa) as relatively important food sources for soras in the Southeast. Plants comprising <5% of the sora's diet are also listed and include spikerushes (Eleocharis spp.), duckweeds (Lemnaceae), pondweeds (Potamogeton spp.), panicgrasses (Panicum spp.), cordgrasses (Spartina spp.), and saltgrass (Distichlis spicata).[36]

Soras eat more plant food in fall and winter (68%–69%) than in spring and summer (40%).[36] Plant material such as hairy crabgrass (Digitaria sanguinalis), fall panicgrass (Panicum dichotomiflorum), and bristlegrass (Setaria spp.) occurred at substantially higher frequencies and in much larger volumes in sora esophagi collected in southeastern Missouri during fall migration than those collected in spring. In addition, animals comprised a larger volume of the spring diet than the fall diet. The volume of animal material in esophagi collected in spring was predominantly composed of adult beetles and snails from the Physidae family.[37]

Survival edit

Few data are available on the survival of soras. Radio-marked soras in Arizona had a nonbreeding survival probability of 0.308. The authors suggest the low survival rate may be due to increased mortality of radio-marked birds.[35] Likely causes of mortality are predation and human-caused sources such as road kill.[32]

Sora eggs are eaten by several species including American minks (Neogale vison), skunks (Mephitidae), coyotes (Canis latrans), grackles (Quiscalus spp.), crows (Corvus spp.), and herons (Ardeidae).[26][32] Predation of adult soras by American minks, coyotes, and hawks and owls have been reported.[26][31]

References edit

  This article incorporates public domain material from Porzana carolina. United States Department of Agriculture.

  1. ^ BirdLife International (2016). "Porzana carolina". IUCN Red List of Threatened Species. 2016: e.T22692684A93364011. doi:10.2305/IUCN.UK.2016-3.RLTS.T22692684A93364011.en. Retrieved 13 November 2021.
  2. ^ Linnaeus, Carl (1758). Systema Naturae per regna tria naturae, secundum classes, ordines, genera, species, cum characteribus, differentiis, synonymis, locis (in Latin). Vol. 1 (10th ed.). Holmiae (Stockholm): Laurentii Salvii. p. 153.
  3. ^ Edwards, George (1750). A Natural History of Uncommon Birds. Vol. 3. London: Printed for the author at the College of Physicians. p. 144, Plate 144.
  4. ^ Catesby, Mark (1729–1732). The Natural History of Carolina, Florida and the Bahama Islands (in English and French). Vol. 1. London: W. Innys and R. Manby. p. 70.
  5. ^ Vieillot, Louis Pierre (1816). Analyse d'une Nouvelle Ornithologie Élémentaire (in French). Paris: Deterville/self. p. 61.
  6. ^ a b Gill, Frank; Donsker, David; Rasmussen, Pamela, eds. (August 2022). "Flufftails, finfoots, rails, trumpeters, cranes, limpkin". IOC World Bird List Version 12.2. International Ornithologists' Union. Retrieved 8 September 2022.
  7. ^ Jobling, James A. (2010). The Helm Dictionary of Scientific Bird Names. London: Christopher Helm. pp. 315, 92. ISBN 978-1-4081-2501-4.
  8. ^ "Sora". Oxford English Dictionary (Online ed.). Oxford University Press. (Subscription or participating institution membership required.)
  9. ^ a b Robbins, C.S.; Bruun, B.; Zim, H.S. (1966). Birds of North America. New York: Western Publishing Company, Inc. ISBN 0-7611-1397-5.
  10. ^ Sora (Porzana carolina) European birds online guide. Avibirds.com. Retrieved on 5 January 2013.
  11. ^ Swash, Andy; Still, Rob; Lewington, Ian (2005). Birds, Mammals, and Reptiles of the Galápagos Islands: An Identification Guide. Yale University Press. pp. 60–. ISBN 978-0-300-11532-1.
  12. ^ Oiseaux.net. "Marouette de Caroline – Porzana carolina – Sora". www.oiseaux.net. Retrieved 27 September 2020.
  13. ^ Cornell Lab of Ornithology. (2022). "Sora: Sounds". In: All about birds: Bird guide. Ithaca, NY: Cornell University, Cornell Lab of Ornithology
  14. ^ a b Cornell Lab of Ornithology. (2003). "Sora". In: All about birds: Bird guide. Ithaca, NY: Cornell University, Cornell Lab of Ornithology
  15. ^ a b c d Johnson, Rex R.; Dinsmore, James J. (1985). "Brood-rearing and postbreeding habitat use by Virginia rails and soras". The Wilson Bulletin. 97 (4): 551–554. JSTOR 4162153.
  16. ^ a b c d e f g h i j k l Conway, Courtney J.; Eddleman, William R.; Anderson, Stanley H.; Hanebury, Louis R. (1993). "Seasonal Changes in Yuma Clapper Rail Vocalization Rate and Habitat Use" (PDF). The Journal of Wildlife Management. 57 (2): 282. doi:10.2307/3809425. JSTOR 3809425.
  17. ^ a b c d e f g DeGraaf, Richard M.; Yamasaki, Mariko. 2001. New England wildlife: Habitat, natural history, and distribution. Hanover, NH: University Press of New England
  18. ^ a b c Mumford, Russell E.; Keller, Charles E. (1984). The birds of Indiana. Bloomington, IN: Indiana University Press ISBN 0253107369
  19. ^ a b c d e f g h Griese, Herman J.; Ryder, Ronald A.; Braun, Clait E. (1980). "Spatial and temporal distribution of rails in Colorado" (PDF). The Wilson Bulletin. 92 (1): 96–102. JSTOR 4161297.
  20. ^ a b c d e f Manci, Karen M.; Rusch, Donald H. (1988). "Indices to distribution and abundance of some inconspicuous waterbirds on Horicon Marsh" (PDF). Journal of Field Ornithology. 59 (1): 67–75.
  21. ^ a b c d e f g h i j k Johnson, Rex R.; Dinsmore, James J. (1986). "Habitat use by breeding Virginia rails and soras". Journal of Wildlife Management. 50 (3): 387–392. doi:10.2307/3801092. JSTOR 3801092.
  22. ^ a b c d e f g Gibbs, James P.; Longcore, Jerry G.; McAuley, Daniel G.; Ringelman, James K. (1991). Use of wetland habitats by selected non-game water birds in Maine. Fish and Wildlife Research No. 9. Washington, DC: U.S. Department of the Interior, Fish and Wildlife Service
  23. ^ a b c Shutler, Dave; Mullie, Adele; Clark, Robert G. (2000). "Bird communities of prairie uplands and wetlands in relation to farming practices in Saskatchewan". Conservation Biology. 14 (5): 1441–1451. doi:10.1046/j.1523-1739.2000.98246.x. JSTOR 2641797. S2CID 55555331.
  24. ^ a b c d e f g h i j k l m n Lor, Socheata Krystyne. 2000. Population status and breeding ecology of marsh birds in western New York. Ithaca, NY: Cornell University, Department of Natural Resources. Thesis
  25. ^ a b c d e Kaufman, Gerald W. (1989). "Breeding ecology of the sora, Porzana carolina, and the Virginia rail, Rallus limicola". The Canadian Field-Naturalist. 103 (2): 270–282. PDF[permanent dead link]
  26. ^ a b c d e f g h i j k l Lowther, James K. (1977). "Nesting biology of the sora at Vermilion, Alberta". The Canadian Field-Naturalist. 91 (1): 63–67.
  27. ^ a b c d e f g h i j Rundle, William Dean. (1980). Management, habitat selection, and feeding ecology of migrant rails and shorebirds. Columbia, MO: University of Missouri. Thesis
  28. ^ a b c d e f Reid, Frederic Arthur. (1989). Differential habitat use by waterbirds in a managed wetland complex. Columbia, MO: University of Missouri. Dissertation.
  29. ^ Niemuth, Neal D.; Solberg, John W. (2003). "Response of waterbirds to number of wetlands in the Prairie Pothole Region of North Dakota, U.S.A" (PDF). Waterbirds. 26 (2): 233–23. doi:10.1675/1524-4695(2003)026[0233:ROWTNO]2.0.CO;2. S2CID 84103298.
  30. ^ Morgan, K. H.; Wetmore, S. P.; Smith, G. E. J.; Keller, R. A. (1989). Relationships between logging methods, habitat structure, and bird communities of the dry interior Douglas-fir, ponderosa pine forests of British Columbia. Technical Report Series No. 71. Delta, BC: Canadian Wildlife Service, Pacific and Yukon Region
  31. ^ a b c Nero, Robert W. (2000). "The peregrine falcon and the sora". Blue Jay. 58 (3): 125–127. doi:10.29173/bluejay5947.
  32. ^ a b c d e f g Andrews, Douglas Alexander. (1973). Habitat utilization by sora, Virginia Rails, and King Rails near southwestern Lake Erie. Columbus, OH: Ohio State University. Thesis
  33. ^ Field Guide to the Birds of North America (4th ed.). Washington D.C.: National Geographic. 2002. ISBN 0792268776.
  34. ^ Sorenson, Michael D. (1995). "Evidence of conspecific nest parasitism and egg discrimination in the sora". The Condor. 97 (3): 819–821. doi:10.2307/1369192. JSTOR 1369192.
  35. ^ a b Conway, Courtney J.; Eddleman, William R.; Anderson, Stanley H. (1994). "Nesting success and survival of Virginia rails and soras" (PDF). The Wilson Bulletin. 106 (3): 466–473.
  36. ^ a b c d e Martin, Alexander C.; Zim, Herbert S.; Nelson, Arnold L. (1951). American wildlife and plants. New York: McGraw-Hill Book Company, Inc.
  37. ^ a b c Rundle, W. Dean; Sayre, Mark W. (1983). "Feeding Ecology of Migrant Soras in Southeastern Missouri". Journal of Wildlife Management. 47 (4): 1153–1159. doi:10.2307/3808182. JSTOR 3808182.

External links edit

 
Wikimedia Commons has media related to Sora.
 
Wikispecies has information related to Porzana carolina.
  • "Sora media". Internet Bird Collection.
  • Sora photo gallery at VIREO (Drexel University)
  • Sora Species Account – Cornell Lab of Ornithology
  • Sora – Porzana carolina – USGS Patuxent Bird Identification InfoCenter
  • Interactive range map of Porzana carolina at IUCN Red List maps

January 01, 1970
sora, bird, sora, porzana, carolina, small, waterbird, rail, family, rallidae, sometimes, also, referred, sora, rail, sora, crake, that, occurs, throughout, much, north, america, genus, name, porzana, derived, from, venetian, terms, small, rails, specific, car. The sora Porzana carolina is a small waterbird of the rail family Rallidae sometimes also referred to as the sora rail or sora crake that occurs throughout much of North America The genus name Porzana is derived from Venetian terms for small rails and the specific carolina refers to the Carolina Colony The common name Sora is probably taken from a Native American language Sora source source Whinny call recorded in Minnesota Conservation status Least Concern IUCN 3 1 1 Scientific classification Domain Eukaryota Kingdom Animalia Phylum Chordata Class Aves Order Gruiformes Family Rallidae Genus Porzana Species P carolina Binomial name Porzana carolina Linnaeus 1758 Breeding Migration Resident Nonbreeding Synonyms Rallus carolinus Linnaeus 1758 Adult soras are 19 30 cm 7 5 11 8 in long with dark marked brown upperparts a blue grey face and underparts and black and white barring on the flanks They have a short thick yellow bill with black markings on the face at the base of the bill and on the throat Sexes are similar but young soras lack the black facial markings and have a whitish face and buff breast They weigh about 49 112 g 1 7 4 0 oz The sora s breeding habitat is marshes throughout much of North America They nest in a well concealed location in dense vegetation The female usually lays 10 to 12 eggs sometimes as many as 18 in a cup built from marsh vegetation The eggs do not all hatch together Both parents incubate and feed the young who leave the nest soon after they hatch and are able to fly within a month They migrate to the southern United States and northern South America Sora is a very rare vagrant to western Europe where it can be confused with spotted crake However the latter species always has spotting on the breast a streaked crown stripe and a different wing pattern Soras forage while walking or swimming They are omnivores eating seeds insects and snails Although soras are more often heard than seen they are sometimes seen walking near open water They are fairly common despite a decrease in suitable habitat in recent times The call is a slow whistled ker whee or a descending whinny Contents 1 Taxonomy 2 Description 3 Distribution and habitat 3 1 Migration 4 Behavior and ecology 4 1 Breeding 4 2 Food and feeding 4 3 Survival 5 References 6 External linksTaxonomy editThe sora was formally described by the Swedish naturalist Carl Linnaeus in 1758 in the tenth edition of his Systema Naturae He placed it with the rails in the genus Rallus and coined the binomial name Rallus carolinus 2 Linnaeus based his description on the little American water hen that George Edwards had described and illustrated in 1750 from a specimen collected near the Hudson Bay 3 Linnaeus also cited Mark Catesby who had described the soree in his The Natural History of Carolina Florida and the Bahama Islands 4 The sora is now placed in the genus Porzana that was erected in 1816 by the French ornithologist Louis Pierre Vieillot 5 6 The genus name is derived from Venetian terms for small rails the specific epithet refers to the Carolina Colony 7 The common name Sora is probably taken from a Native American language 8 The species in monotypic no subspecies are recognised 6 Description editAdult soras are 19 30 cm 7 5 11 8 in 9 10 11 long with dark marked brown upperparts a blue grey face and underparts and black and white barring on the flanks They have a short thick yellow bill with black markings on the face at the base of the bill and on the throat Sexes are similar but young soras lack the black facial markings and have a whitish face and buff breast They weigh about 49 112 g 1 7 4 0 oz 9 and have a wingspan of 35 40 cm 12 Soras have two common calls a loud squeaking whinny that decelerates and descends in pitch often used to advertise territories and a softer ascending ker wee or sor ah 13 The latter call is sometimes presented as a possible origin for the species common name Distribution and habitat editThe sora is common across North America naturally occurring in 49 US states the exception being Hawaii all 10 Canadian provinces and 2 Canadian territories Outside of US Canada the species is found throughout Central America the Caribbean and northern South America The species has been recorded as a vagrant in Iceland Great Britain Portugal and at Lake Titicaca Soras occur throughout most of North America 14 Soras breed from Nova Scotia northwest to southern Yukon and Northwest Territories south to California Arizona and New Mexico and northeast to Pennsylvania and New England Sora wintering grounds include the Caribbean northern portions of South America including Ecuador Colombia and Venezuela north through Central America and Mexico to southern California in the West and coastal regions of the Southeast From southern Kansas south to northern and eastern Texas and east through the inland areas of the southeastern United States soras are typically only observed during migration in the spring and fall In a few areas of the western United States including central California and areas of Arizona and New Mexico soras may occur year round 14 The size of an individual Sora s home range varies Sora brood rearing home ranges in northwestern Iowa averaged 0 5 acres 0 20 ha 15 In Arizona sora home range size varied from 1 5 acres 0 61 ha in the early breeding season to over 2 acres 0 81 ha in the postbreeding season These seasonal differences in sora home range size were not significant p gt 0 05 16 Densities vary from to 12 soras acre in Colorado 17 to 0 47 pair ha in Indiana 18 An average of 1 3 soras ha responded to calls across sites in Colorado 19 A similar density of soras was found in southeastern Wisconsin 20 In Iowa average density over 2 years and several marsh habitats was 1 3 pairs ha 21 Landscape factors such as marsh area habitat edges within marshes and the number of marshes in a region may influence soras Although soras occur in marshes of all sizes they may occur at higher densities in intermediate sized marshes Soras were significantly p 0 01 positively related with total wetland area and perimeter area of surface water in east and central Maine 22 and were significantly p lt 0 05 positively related to area of wetlands in Saskatchewan 23 In Maine soras used 10 of 2 5 acres 1 0 ha wetlands 40 to 50 of wetlands from 2 5 5 acres 1 0 2 0 ha in size and 20 of wetlands larger than 50 acres 20 ha 22 In western New York soras were significantly p 0 007 more abundant in marshes from 100 to 250 acres 40 to 101 ha in size than in smaller lt 100 acres 40 ha or larger 250 380 acres 100 150 ha marshes In addition sora nests were detected more often in the 100 200 acres 40 81 ha marshes 24 Soras are commonly reported in plant communities dominated by cattails Typha spp 16 19 25 24 26 20 sedges Carex spp 19 26 20 21 27 bulrushes Scirpus spp 16 19 20 21 smartweeds Polygonum spp 26 27 rushes Juncus spp 26 27 rice cutgrass Leersia oryzoides 28 and barnyard grasses Echinochloa spp 27 28 Soras also seem to prefer edge habitats Breeding sora density was significantly p lt 0 001 correlated r 0 62 with the perimeter area ratio of northwestern Iowa marshes The distance from the center of sora territories to a habitat edge was also significantly p lt 0 005 less than from the center of Virginia rail territories 21 In Arizona habitat edges were closer to sora heavy use areas than random sites 16 Wetland dynamics at a large scale can affect soras Indices of sora population at 3 levels of response were significantly p lt 0 01 correlated r 0 70 with the number of ponds present in the prairie pothole region of North Dakota in May 29 Outside of wetlands soras are most often reported in cultivated areas during migration or in the postbreeding period For instance a sora was observed 3 mi 4 8 km from marshland in a cultivated field in Iowa in the middle of August A male sora was observed less than 1 000 ft 300 m from a large wetland in a soybean Glycine max field in northwestern Iowa during the postbreeding period 15 From early June to mid July soras were observed on farms in Saskatchewan sown mainly with wheat Triticum aestivum 23 Soras have also been reported in flooded wooded areas 24 22 In western New York soras occurred during the breeding season on a study site where 26 of the area was categorized as flooded timber and 5 was classed as scrub shrub marsh 24 In eastern and central Maine an average of 2 1 soras was observed in wooded swamps per 100 hours of observation during the breeding season 22 On a nonbreeding August April site in southwestern Arizona soras were found to use a mixed shrub community more than expected based on its availability 16 Soras were observed at low abundances on a site with douglas fir Pseudotsuga menziesii ponderosa pine Pinus ponderosa and trembling aspen Populus tremuloides in British Columbia 30 Soras use areas with a wide range of water depths They are often observed in water less than 1 ft 30 cm deep 19 20 27 28 although the average water depth of sora heavy use areas in Arizona was 20 in 51 cm 16 In northwestern Iowa average water depth in sora territories was 15 in 38 cm which was significantly p lt 0 025 more shallow than water depths at random locations in the marsh 21 Sora nesting sites occurred in shallower water than random sites in western New York 24 Average water depths reported at nest sites range from 4 in 10 cm for 4 sora nests in Colorado to nearly 10 in 25 cm for sora nests in western New York 24 In areas of deep water soras typically wade on mats of floating vegetation 15 Water level fluctuations may result in nest abandonment For example at a site in Colorado where water level increased more than 8 in 20 cm a sora nest with 7 eggs was abandoned 19 In Alberta soras nested in more vegetation types during a drought year most likely due to substantially reduced water levels in the vegetation used the previous year 26 Soras use areas with shallower water in fall than in spring 16 27 28 Soras typically avoid open water There is a significant p 0 05 negative relationship between area of open water and sora use of wetlands in Maine 22 and sora relative abundance in Saskatchewan 23 In western New York sora nesting sites had a lower percentage of open water than random sites 24 and in Arizona soras used open water areas less than their availability 16 Sora nesting sites had larger percentage of emergent vegetation than random sites in marshes of western New York 24 Sora numbers in wetlands of northeastern North Dakota were significantly p lt 0 05 positively correlated r 0 45 with hectares of live emergent vegetation In east and central Maine wetlands used by soras had significantly p 0 01 greater area of emergent vegetation than unused wetlands 22 Density of emergent vegetation in sora habitat varies Reported density of emergent vegetation ranges from an average of 121 9 stems m2 in sora territories in northwestern Iowa 21 to 333 stems m2 on sites in northeastern Missouri used during fall migration 28 In western New York cover was greater than 70 at 95 of sora nests In addition nesting sites had more horizontal cover at 20 inches 0 5 m above water level than random sites 24 However average stem density on sora territories was not significantly p gt 0 05 different from random sites in northwestern Iowa 21 Height of emergent vegetation in sora habitat also varies It ranged from 8 to 11 in 20 to 28 cm in the spring after a winter disturbance in northwestern Iowa 21 to 84 in 210 cm in areas heavily used by soras in Arizona 16 In marshes of western New York average vegetation height at sora nesting sites was shorter than at random locations 24 However the average height of emergent vegetation in sora territories in northeastern Iowa was not significantly p gt 0 05 different from the height of vegetation in random plots 21 In Arizona both cover and height of vegetation used by soras varied with seasons Conway suggested the differences likely reflected the varied diet of the sora 16 The availability of habitat in different seasons is another possible source of seasonal differences in sora habitat 27 Extent of woody vegetation surrounding South Dakota wetlands was not significantly p 0 6 associated with sora occurrence However in marshes of western New York there was a significant p 0 041 negative relationship between percent flooded timber on a site and sora relative abundance 24 Soras may prefer some cover types In Arizona 65 3 of sora use was in southern cattail Typha domingensis although it comprised only 16 5 of the vegetation Bulrushes and a mixed shrub community were also used more than their availability while saltcedar Tamarix chinensis and arrowweed Pluchea sericea were avoided 16 A literature review notes sora avoidance of purple loosestrife Lythrum salicaria dominated sites In east and central Maine wetlands used by soras had significantly p 0 05 more ericaceous vegetation such as leatherleaves Chamaedaphne spp sweetgales Myrica spp and laurels Kalmia spp 22 In marshes of northwestern Iowa broadleaf arrowhead Sagittaria latifolia occurred in sora territories significantly p lt 0 01 more often than at random sites Johnson and Dinsmore 21 imply that this likely results from both species preferring similar site conditions In May and June in Wisconsin soras were detected significantly p lt 0 025 more often in cattail Typha spp survey areas than in sedge areas However in southeastern Wisconsin during the breeding season there was no significant p 0 943 difference in sora densities between habitats comprised predominantly of cattail sedge or bulrush 20 In addition soras use of glaucous cattail Typha glauca broadfruit bur reed Sparganium eurycarpum sedge river bulrush Schoenoplectus fluviatilis and hardstem bulrush S acutus var acutus habitats in marshes of northwestern Iowa generally reflected availability of these habitats 21 Seasonal differences in sora habitat use have been reported In northeastern Missouri in spring the likelihood of detecting sora in robust emergents such as cattail Typha spp and longroot smartweed Polygonum amphibium var emersum was over 6 times that of detecting soras in these areas in fall However availability of habitats during various times of the year was not addressed 28 In a study performed in southeastern Missouri plant species used by sora during spring and fall migration differed significantly p 0 005 However the author qualifies this finding with his observation of major seasonal differences in vegetation availability 27 Temperature may also influence sora abundance In Colorado average April temperature was significantly p lt 0 01 negatively correlated r 0 94 with sora abundance On sites that had average April temperatures 42 F 6 C soras were more abundant than the closely related Virginia rail Rallus limicola while on warmer sites the sora to Virginia rail ratio declined 19 Migration edit They migrate to the southern United States the Caribbean and northern South America Sora is a very rare vagrant to western Europe where it can be confused with spotted crake However the latter species always has spotting on the breast a streaked crown stripe and a different wing pattern Soras forage while walking or swimming They are omnivores eating seeds insects and snails Although soras are more often heard than seen they are sometimes seen walking near open water They are fairly common despite a decrease in suitable habitat in recent times The call is a slow whistled ker whee or a descending whinny The use of call broadcasts greatly increases the chances of hearing a sora Call broadcasts can also increase the chances of seeing a sora as they will often investigate the source of the call Sora s northern migration occurs in spring primarily in April and May For instance in east central Kansas significantly p lt 0 05 more soras were detected from 24 April to 7 May than the 2 week periods before or after In southeast Missouri soras were observed from 25 March to 6 May 27 Soras were first detected in April to early May in Colorado 19 Iowa and Minnesota 25 In a summary of the first detections of soras in Minnesota Manitoba and Saskatchewan all occurred in April 31 Soras depart their breeding grounds as early as July and as late as October Soras were observed returning to wintering grounds in Arizona as early as late July 16 Although local movements may obscure migration occurring in July most migration occurred in August and September in Colorado In northern Ohio sora abundance was increased in late August and September by migrating individuals 32 In southeastern Missouri soras were observed from 5 September to 27 October 27 Soras have been observed in Manitoba and Saskatchewan as late as October 31 Behavior and ecology editBreeding edit Although sora nesting activities have been observed from late April through early August the peak nesting period typically occurs from May to early July In New York nesting was initiated in late April 24 A nest search and literature review study of soras in Colorado reports a clutch initiated in early August However mean clutch initiation dates occurred in May and June in regions across the state 17 Studies from northern Ohio 32 North Dakota and Alberta 26 report nesting from May to July In a review sora nests with eggs were recorded from early May to early July in Indiana 18 The sora s breeding habitat is marshes throughout much of North America 33 They nest in a well concealed location in dense vegetation The female usually lays 10 to 12 eggs sometimes as many as 18 in a cup built from marsh vegetation The eggs do not all hatch together Both parents incubate and feed the young who leave the nest soon after they hatch and are able to fly within a month Sora females begin construction of saucer shaped nests on the ground or on a platform over shallow water at the start of egg laying 24 17 Clutch sizes typically range from 8 to 13 eggs 17 18 although clutch sizes of up to 16 have been reported 25 26 17 Both parents incubate the eggs Incubation lasts approximately 19 days although a wide range of incubation periods has been reported in the literature 26 Eggs hatch over a span of 2 to 13 days 25 Nestlings are precocial and are capable of walking and swimming short distances lt 3 ft 0 91 m by the end of their first day Young soras are independent by about 4 weeks of age 15 17 Soras brood once per season 17 Some late broods may be second nesting attempts but there is only one report in the literature of a second brood attempt after a successful nest 26 For information on breeding behavior of soras see 25 For information on conspecific nest parasitism and egg discrimination in soras see 34 Sora nest success rates vary across locations and years In the literature addressing sora apparent nest success the proportions of successful nests varied from 0 61 in Michigan to 0 833 in Minnesota 32 In western New York the nest success rate of 6 sora nests was 0 43 and the daily nest success rate was 0 97 24 Using data from the Cornell Laboratory of Ornithology s nest record program nesting success rate of soras in North America was estimated as 0 529 over a 28 day period n 108 35 On a site in Alberta 80 6 of eggs successfully hatched while the following year only 59 6 of eggs hatched The authors conclude that diminished water level interacting with predators and trampling by cattle resulted in decreased hatching success 26 During late summer soras are flightless for a period during their post nuptial molt 32 Food and feeding edit nbsp Sora foraging in water Soras eat a wide range of foods Animals that are commonly reported as sora food items include snails Gastropoda crustaceans Crustacea spiders Araneae and insects Insecta mainly beetles Coleoptera grasshoppers Orthoptera flies Diptera and dragonflies Odonata 36 37 Soras often eat the seeds of plants such as smartweeds bulrushes sedges and barnyard grasses 32 36 37 Seeds of annual wildrice Zizania aquatica and rice cutgrass are eaten by soras in the eastern United States 36 A literature review lists crowngrass Paspalum spp and rice Oryza sativa as relatively important food sources for soras in the Southeast Plants comprising lt 5 of the sora s diet are also listed and include spikerushes Eleocharis spp duckweeds Lemnaceae pondweeds Potamogeton spp panicgrasses Panicum spp cordgrasses Spartina spp and saltgrass Distichlis spicata 36 Soras eat more plant food in fall and winter 68 69 than in spring and summer 40 36 Plant material such as hairy crabgrass Digitaria sanguinalis fall panicgrass Panicum dichotomiflorum and bristlegrass Setaria spp occurred at substantially higher frequencies and in much larger volumes in sora esophagi collected in southeastern Missouri during fall migration than those collected in spring In addition animals comprised a larger volume of the spring diet than the fall diet The volume of animal material in esophagi collected in spring was predominantly composed of adult beetles and snails from the Physidae family 37 Survival edit Few data are available on the survival of soras Radio marked soras in Arizona had a nonbreeding survival probability of 0 308 The authors suggest the low survival rate may be due to increased mortality of radio marked birds 35 Likely causes of mortality are predation and human caused sources such as road kill 32 Sora eggs are eaten by several species including American minks Neogale vison skunks Mephitidae coyotes Canis latrans grackles Quiscalus spp crows Corvus spp and herons Ardeidae 26 32 Predation of adult soras by American minks coyotes and hawks and owls have been reported 26 31 References edit nbsp This article incorporates public domain material from Porzana carolina United States Department of Agriculture BirdLife International 2016 Porzana carolina IUCN Red List of Threatened Species 2016 e T22692684A93364011 doi 10 2305 IUCN UK 2016 3 RLTS T22692684A93364011 en Retrieved 13 November 2021 Linnaeus Carl 1758 Systema Naturae per regna tria naturae secundum classes ordines genera species cum characteribus differentiis synonymis locis in Latin Vol 1 10th ed Holmiae Stockholm Laurentii Salvii p 153 Edwards George 1750 A Natural History of Uncommon Birds Vol 3 London Printed for the author at the College of Physicians p 144 Plate 144 Catesby Mark 1729 1732 The Natural History of Carolina Florida and the Bahama Islands in English and French Vol 1 London W Innys and R Manby p 70 Vieillot Louis Pierre 1816 Analyse d une Nouvelle Ornithologie Elementaire in French Paris Deterville self p 61 a b Gill Frank Donsker David Rasmussen Pamela eds August 2022 Flufftails finfoots rails trumpeters cranes limpkin IOC World Bird List Version 12 2 International Ornithologists Union Retrieved 8 September 2022 Jobling James A 2010 The Helm Dictionary of Scientific Bird Names London Christopher Helm pp 315 92 ISBN 978 1 4081 2501 4 Sora Oxford English Dictionary Online ed Oxford University Press Subscription or participating institution membership required a b Robbins C S Bruun B Zim H S 1966 Birds of North America New York Western Publishing Company Inc ISBN 0 7611 1397 5 Sora Porzana carolina European birds online guide Avibirds com Retrieved on 5 January 2013 Swash Andy Still Rob Lewington Ian 2005 Birds Mammals and Reptiles of the Galapagos Islands An Identification Guide Yale University Press pp 60 ISBN 978 0 300 11532 1 Oiseaux net Marouette de Caroline Porzana carolina Sora www oiseaux net Retrieved 27 September 2020 Cornell Lab of Ornithology 2022 Sora Sounds In All about birds Bird guide Ithaca NY Cornell University Cornell Lab of Ornithology a b Cornell Lab of Ornithology 2003 Sora In All about birds Bird guide Ithaca NY Cornell University Cornell Lab of Ornithology a b c d Johnson Rex R Dinsmore James J 1985 Brood rearing and postbreeding habitat use by Virginia rails and soras The Wilson Bulletin 97 4 551 554 JSTOR 4162153 a b c d e f g h i j k l Conway Courtney J Eddleman William R Anderson Stanley H Hanebury Louis R 1993 Seasonal Changes in Yuma Clapper Rail Vocalization Rate and Habitat Use PDF The Journal of Wildlife Management 57 2 282 doi 10 2307 3809425 JSTOR 3809425 a b c d e f g DeGraaf Richard M Yamasaki Mariko 2001 New England wildlife Habitat natural history and distribution Hanover NH University Press of New England a b c Mumford Russell E Keller Charles E 1984 The birds of Indiana Bloomington IN Indiana University Press ISBN 0253107369 a b c d e f g h Griese Herman J Ryder Ronald A Braun Clait E 1980 Spatial and temporal distribution of rails in Colorado PDF The Wilson Bulletin 92 1 96 102 JSTOR 4161297 a b c d e f Manci Karen M Rusch Donald H 1988 Indices to distribution and abundance of some inconspicuous waterbirds on Horicon Marsh PDF Journal of Field Ornithology 59 1 67 75 a b c d e f g h i j k Johnson Rex R Dinsmore James J 1986 Habitat use by breeding Virginia rails and soras Journal of Wildlife Management 50 3 387 392 doi 10 2307 3801092 JSTOR 3801092 a b c d e f g Gibbs James P Longcore Jerry G McAuley Daniel G Ringelman James K 1991 Use of wetland habitats by selected non game water birds in Maine Fish and Wildlife Research No 9 Washington DC U S Department of the Interior Fish and Wildlife Service a b c Shutler Dave Mullie Adele Clark Robert G 2000 Bird communities of prairie uplands and wetlands in relation to farming practices in Saskatchewan Conservation Biology 14 5 1441 1451 doi 10 1046 j 1523 1739 2000 98246 x JSTOR 2641797 S2CID 55555331 a b c d e f g h i j k l m n Lor Socheata Krystyne 2000 Population status and breeding ecology of marsh birds in western New York Ithaca NY Cornell University Department of Natural Resources Thesis a b c d e Kaufman Gerald W 1989 Breeding ecology of the sora Porzana carolina and the Virginia rail Rallus limicola The Canadian Field Naturalist 103 2 270 282 PDF permanent dead link a b c d e f g h i j k l Lowther James K 1977 Nesting biology of the sora at Vermilion Alberta The Canadian Field Naturalist 91 1 63 67 a b c d e f g h i j Rundle William Dean 1980 Management habitat selection and feeding ecology of migrant rails and shorebirds Columbia MO University of Missouri Thesis a b c d e f Reid Frederic Arthur 1989 Differential habitat use by waterbirds in a managed wetland complex Columbia MO University of Missouri Dissertation Niemuth Neal D Solberg John W 2003 Response of waterbirds to number of wetlands in the Prairie Pothole Region of North Dakota U S A PDF Waterbirds 26 2 233 23 doi 10 1675 1524 4695 2003 026 0233 ROWTNO 2 0 CO 2 S2CID 84103298 Morgan K H Wetmore S P Smith G E J Keller R A 1989 Relationships between logging methods habitat structure and bird communities of the dry interior Douglas fir ponderosa pine forests of British Columbia Technical Report Series No 71 Delta BC Canadian Wildlife Service Pacific and Yukon Region a b c Nero Robert W 2000 The peregrine falcon and the sora Blue Jay 58 3 125 127 doi 10 29173 bluejay5947 a b c d e f g Andrews Douglas Alexander 1973 Habitat utilization by sora Virginia Rails and King Rails near southwestern Lake Erie Columbus OH Ohio State University Thesis Field Guide to the Birds of North America 4th ed Washington D C National Geographic 2002 ISBN 0792268776 Sorenson Michael D 1995 Evidence of conspecific nest parasitism and egg discrimination in the sora The Condor 97 3 819 821 doi 10 2307 1369192 JSTOR 1369192 a b Conway Courtney J Eddleman William R Anderson Stanley H 1994 Nesting success and survival of Virginia rails and soras PDF The Wilson Bulletin 106 3 466 473 a b c d e Martin Alexander C Zim Herbert S Nelson Arnold L 1951 American wildlife and plants New York McGraw Hill Book Company Inc a b c Rundle W Dean Sayre Mark W 1983 Feeding Ecology of Migrant Soras in Southeastern Missouri Journal of Wildlife Management 47 4 1153 1159 doi 10 2307 3808182 JSTOR 3808182 External links edit nbsp Wikimedia Commons has media related to Sora nbsp Wikispecies has information related to Porzana carolina Sora media Internet Bird Collection Sora photo gallery at VIREO Drexel University Sora Species Account Cornell Lab of Ornithology Sora Porzana carolina USGS Patuxent Bird Identification InfoCenter Interactive range map of Porzana carolina at IUCN Red List maps Retrieved from https en wikipedia org w index php title Sora bird amp oldid 1199168531, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.