Breeding ecology of the northern shoveller (Spatula clypeata) in Tiffech Lake (Souk Ahras, Northeastern Algeria)

Ankney C.D. & Afton A.D. (1988): Bioenergetics of breeding Northern Shovelers: diet, nutrient reserves, clutch size, and incubation. – Condor 90: 459-472.10.2307/1368574 Search in Google Scholar

Anthony J.R. & Conover M.R. (2015): Breeding origins of Northern Shovelers (Anas clypeata) wintering on the Great Salt Lake, Utah. – The Wilson Journal of Ornithology 127(2): 233-238. Search in Google Scholar

Bancroft G.T., Gawlik D.E. & Rutchey K. (2002): Distribution of wading birds relative to vegetation and water depths in the northern Everglades of Florida, USA. – Waterbirds 25: 265-277.10.1675/1524-4695(2002)025[0265:DOWBRT]2.0.CO;2 Search in Google Scholar

Bears H., Martin K. & White G.C. (2009): Breeding in high-elevation habitat results in shift to slower life-history strategy within a single species. – Journal of Animal Ecology 78: 365-375.10.1111/j.1365-2656.2008.01491.x Search in Google Scholar

Beerens J.M. (2008): Hierarchical resource selection and movements of two wading bird species with divergent strategies in the Florida Everglades. M.S. thesis, depon in: Florida Atlantic University, Boca Raton. Search in Google Scholar

Beerens J.M., Gawlik D.E., Herring G. & Coo k M. (2011): Dynamic habitat selection by two wading bird species with divergent foraging strategies in strategies in a seasonally fluctuating wetland. – The Auk 128(4): 651-662.10.1525/auk.2011.10165 Search in Google Scholar

Bialas J.T., Dylewski L. & Tobolka M. (2019): Determination of nest occupation and breeding effect of the white stork by human-mediated landscape in Western Poland. – Environmental Science and Pollution Research 27: 4148-4158.10.1007/s11356-019-06639-0 Search in Google Scholar

Boukrouma N., Khedir H. & Zemouli S. (2018): Water Bird Diversity of Madjen Djedj Marsh, Northeastern Algeria. – Indian Journal of Ecology 45(1): 117-121. Search in Google Scholar

Deceuninck B. & Maillet N. (1998): Dénombrements des canards et foulques hivernant en France. – Ornithos 5: 2-11. Search in Google Scholar

Figuerola J., Jimenez-Clavero M.A., Rojo G., Gomez- Tejedor C. & Soriguer R. (2007) : Prevalence of West Nile virus neutralizing antibodies in colonial aquatic birds in southern Spain. – Avian Pathology 36: 209-212.10.1080/03079450701332329 Search in Google Scholar

Frederick P. C. & Spalding M. G. (1994): Factors affecting reproductive success of wading birds (Ciconiiformes) in the Everglades ecosystem. Pp. 659-692. In: Davis S.M. & Ogden J.C. (Eds): The Ecosystem and Its Restoration. St. Lucie Press, Delray Beach, Florida. Search in Google Scholar

Gawlik, D. E., 2002. The effects of prey availability on the numerical response of wading birds. Ecological Monographs, 72:329–346.10.1890/0012-9615(2002)072[0329:TEOPAO]2.0.CO;2 Search in Google Scholar

Gil-Delgado J.A., Catala M.C. (1989): El verderoncomún (Carduelis chloris): población nidificante, tamaño de la puesta y éxitore productor. Un ejemplode estudios a largo plazo The European Greenfinch (Carduelis chloris): breeding population, size of the set and reproductive success. One example of long-term studies. – Mediterránea Seriel Biology 11: 121-132.10.14198/MDTRRA1989.11.07 Search in Google Scholar

Gounter V. (1992): Habitat use in yellow-legged gull (Larus cachinnans michahellis) coastal wetland colonies of north-east Greece. – Avocetta 16: 81-85. Search in Google Scholar

Hebert C.E. & Wassennar L.I. (2001): Stable nitrogen isotopes in waterfowl feathers reflect agricultural land use in western Canada. – Environmental Science and Technology 35: 3482-3487.10.1021/es001970p Search in Google Scholar

Herring G. (2008): Constraints of landscape level prey availability on physiological condition and productivity of Great Egrets and White Ibises in the Florida Everglades. Ph.D. dissertation, depon in: Florida Atlantic University, Boca Raton. Search in Google Scholar

Hobaugh W.C. & Teer J.G. (1981): Waterfowl use characteristics of flood-prevention lakes in northcentral Texas. – Journal of Wildlife Management 45: 16-26.10.2307/3807869 Search in Google Scholar

Holopainen S., Arzel C., Dessborn L., Elmberg J., Gunnarsson G., Nummi P. & Sjöberg K. (2015): Habitat use in ducks breeding in boreal freshwater wetlands: a review. – European Journal of Wildlife Research 61(3) : 339-363.10.1007/s10344-015-0921-9 Search in Google Scholar

Janiszewski T., Minias P. & Wojciechowski Z. (2013): Occupancy reliably reflects territory quality in a longlived migratory bird, the white stork. – Journal of Zoology 291: 178-184.10.1111/jzo.12059 Search in Google Scholar

Lack D. (1950): The breeding seasons of European birds. – Ibis 92: 288-316.10.1111/j.1474-919X.1950.tb01753.x Search in Google Scholar

Loucif K., Cherif M.M., Houhamdi M., Chenchouni (2021): Nest site selection and breeding ecology of the Ferruginous Duck (Aythya nyroca) in Algeria. – Global Ecology and Conservation 26: 1-21.10.1016/j.gecco.2021.e01524 Search in Google Scholar

Norris D.R., Marra P.P., Kyser T.K., Sherry T.W. & Ratcliffe L.M. (2004): Tropical winter habitat limits reproductive success on the temperate breeding grounds in a migratory bird. – Proceedings of the Royal Society of London, Series B 271: 59-6410.1098/rspb.2003.2569169155915002772 Search in Google Scholar

Olson S.M. & Trost R.E. (2012): Pacific Flyway data book. USDI, Fish and Wildlife Service, Division of Migratory Bird Management, Portland, Oregon, USA. Search in Google Scholar

Po well G.V.N. (1987): Habitat use by wading birds in a subtropical estuary: Implications of hydrography. – The Auk 104: 740-749.10.1093/auk/104.4.740 Search in Google Scholar

R Development Core Team. (2016): R. A language and environment for statistical computing. R Foundation for Statistical Computing. Vienna, Austria. https://www.gbif.org/tool/81287/r-a-language-and-environment-for-statistical-computing. Search in Google Scholar

Ross K.E., Balmer D.E., Humphreys E., Austin G., Goddard B. & Rehfisch M. (2016): Urban breeding gull surveys: a review of methods and options for survey design. The British Trust for Ornithology, pp. 3-57. Search in Google Scholar

Russell G.J., Bass O.L. jr. & Pimm S.L. (2002): The effect of hydrological patterns and breeding-season flooding on the numbers and distribution of wading birds in Everglades National Park. – Animal Conservation 5: 185-199.10.1017/S136794300200224X Search in Google Scholar

Safine D.E. & Lindberg M.S. (2008): Nest habitat selection of white-winged scoters on Yukon Flats, Alaska. – Wilson Journal of Ornithology 120(3): 582-593.10.1676/06-157.1 Search in Google Scholar

Skutch A.F. (1949): Do tropical birds rear as many young as they can nourish? – Ibis 91: 430-455.10.1111/j.1474-919X.1949.tb02293.x Search in Google Scholar

Smith J.P. (1997): Nesting season food habits of four species of herons and egrets at Lake Okeechobee, Florida. – Colonial Waterbirds 20: 198-220.10.2307/1521686 Search in Google Scholar

Tobolka M., Dylewski L., Wozna J.T. & Zolnierowicz K.M. (2018): How weather conditions in non-breeding and breeding grounds affect the phenology and breeding abilities of white storks. – Science Total Environnement 636: 512-518.10.1016/j.scitotenv.2018.04.253 Search in Google Scholar

Tryjanowski P., Kuźniak S. & Diehl B. (2000): Does breeding performance of red-backed Shikellamy’s collurio depend on nest site selection? – Ornis Fennici 77: 137-141. Search in Google Scholar

Varela J.M. & Juana E. (1986): The Larus cachinnans michahellis colony of chafarinas islands. Springer Verlag, Berlin, pp. 231-244. Search in Google Scholar

Webster M.S., Marra P.P., Haig S., Bensch S. & Holmes R.T. (2002): Links between worlds: unraveling migratory connectivity. – Trends in Ecology and Evolution 17: 76-83.10.1016/S0169-5347(01)02380-1 Search in Google Scholar

Yerkes T., Hobson K., Assennar W., Macleod R. & Coluccy M. (2008): Stable isotopes (dD, d13C, d15N) reveal associations among geographic location and condition of Alaskan Northern Pintails. – Journal of Wildlife Management 72: 715-725.10.2193/2007-115 Search in Google Scholar