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1

Geldenhuys, G., L. C. Hoffman, and M. Muller. "Sensory profiling of Egyptian goose ( Alopochen aegyptiacus ) meat." Food Research International 64 (October 2014): 25–33. http://dx.doi.org/10.1016/j.foodres.2014.06.005.

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2

Becegato, Estella Zago, Elizabeth Visone Nunes Westphalen, Sansão da Rocha Westphalen, et al. "Valores normais da atividade da colinesterase plasmática em anseriformes, com destaque para Alopochen aegyptiacus." Revista do Instituto Adolfo Lutz 80 (December 30, 2021): 1–9. http://dx.doi.org/10.53393/rial.2021.v80.37277.

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A inibição da enzima colinesterase plasmática (BChE) pode ser utilizada como biomarcador para os efeitos da intoxicação por organofosforados e carbamatos. Nas aves, esta inibição ocorre de forma mais acentuada que nos mamíferos, porém poucos são os trabalhos publicados nestas espécies. O objetivo do estudo foi a dosagem da BChE em gansos-egípcios (Alopochen aegyptiacus) e nos anseriformes domésticos: gansos-domésticos (Anser anser domesticus) e marrecos (Anas platyrhynchos domesticus), para o estabelecimento de valores de referência normais. O trabalho possui ineditismo com relação à determina
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3

Becegato, Estella Zago, Elizabeth Visone Nunes Westphalen, Sansão da Rocha Westphalen, et al. "Valores normais da atividade da colinesterase plasmática em anseriformes, com destaque para Alopochen aegyptiacus." Revista do Instituto Adolfo Lutz 80 (December 30, 2021): 1–9. http://dx.doi.org/10.53393/rial.2021.v.80.37277.

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A inibição da enzima colinesterase plasmática (BChE) pode ser utilizada como biomarcador para os efeitos da intoxicação por organofosforados e carbamatos. Nas aves, esta inibição ocorre de forma mais acentuada que nos mamíferos, porém poucos são os trabalhos publicados nestas espécies. O objetivo do estudo foi a dosagem da BChE em gansos-egípcios (Alopochen aegyptiacus) e nos anseriformes domésticos: gansos-domésticos (Anser anser domesticus) e marrecos (Anas platyrhynchos domesticus), para o estabelecimento de valores de referência normais. O trabalho possui ineditismo com relação à determina
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4

Abdelsabour-Khalaf, Mohammed, and Yasser Ahmed. "Morphological features of pharyngeal roof of Egyptian geese (Alopochen aegyptiacus)." SVU-International Journal of Veterinary Sciences 3, no. 2 (2020): 96–105. http://dx.doi.org/10.21608/svu.2020.35503.1066.

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5

Abdel-Moneim, A. Ali, M.G.Mansour Shimaa, M. Fathy Ashraf, and A.M. Eid Amal. "Detection of Avian Poxvirus in an Egyptian goose (Alopochen aegyptiacus)." Global Animal Science Journal 1, no. 3 (2014): 64–68. https://doi.org/10.5281/zenodo.25587.

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Pathological and immunohistochemical findings in the skin of an Egyptian goose naturally infected with avian poxvirus are described in this paper. Cutaneous papules and nodules were observed on the unfeathered parts of the skin. Histopathological examination revealed hyperplasia of the epithelial cells of the <em>stratum spinosum</em>, with presence of eosinophilic intracytoplasmic inclusions. Avipoxvirus was detected in the formalin fixed paraffin embedded tissues of goose skin by immunoperoxidase and immunofluorescence. To our knowledge, this could be the first record of avian pox in geese i
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6

Geldenhuys, Greta, Nina Muller, and Louwrens C. Hoffman. "The influence of season on the sensory profile of Egyptian goose (Alopochen aegyptiacus) meat." Poultry Science 95, no. 9 (2016): 2174–85. http://dx.doi.org/10.3382/ps/pew135.

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7

Braun, Markus Santhosh, Erjia Wang, Stefan Zimmermann, and Michael Wink. "Corynebacterium heidelbergense sp. nov., isolated from the preen glands of Egyptian geese (Alopochen aegyptiacus)." Systematic and Applied Microbiology 41, no. 6 (2018): 564–69. http://dx.doi.org/10.1016/j.syapm.2018.06.002.

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8

Lensink, Rob. "Temporal and spatial expansion of the Egyptian goose Alopochen aegyptiacus in The Netherlands, 1967-94." Journal of Biogeography 25, no. 2 (1998): 251–63. http://dx.doi.org/10.1046/j.1365-2699.1998.252173.x.

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9

Abdel-Moneim, A. Ali, M.G.Mansour Shimaa, M. Fathy Ashraf, and A.M. Eid Amal. "Detection of Avian Poxvirus in an Egyptian goose." Global Animal Science Journal 2, no. 1 (2015): 1215–18. https://doi.org/10.5281/zenodo.19358.

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Pathological and immunohistochemical findings in the skin of an Egyptian goose naturally infected with avian pox virus are described in this paper. Cutaneous papules and nodules were observed on the unfeathered parts of the skin. Histopathological examination revealed hyperplasia of the epithelial cells of the <em>stratum spinosum</em>, with presence of eosinophilic intracytoplasmic inclusions. Avipoxvirus was detected in the formalin fixed paraffin embedded tissues of goose skin by immunoperoxidase and immunofluorescence. To our knowledge, this could be the first record of avian pox in geese
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10

Hassan, Sherif M., Eid A. Moussa, and Aubrey L. Cartwright. "Variations by Sex in Anatomical and Morphological Features of the Tongue of Egyptian Goose (Alopochen aegyptiacus)." Cells Tissues Organs 191, no. 2 (2010): 161–65. http://dx.doi.org/10.1159/000223231.

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11

Huysentruyt, Frank, Karel Van Moer, and Tim Adriaens. "Testing the efficacy of different Larson trap designs for trapping Egyptian geese (Alopochen aegyptiacus L.) in Flanders (northern Belgium)." Management of Biological Invasions 13, no. 2 (2022): 391–405. http://dx.doi.org/10.3391/mbi.2022.13.2.08.

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12

Geldenhuys, Greta, Louwrens C. Hoffman, and Nina Muller. "Aspects of the nutritional value of cooked Egyptian goose (Alopochen aegyptiacus) meat compared with other well-known fowl species." Poultry Science 92, no. 11 (2013): 3050–59. http://dx.doi.org/10.3382/ps.2013-03342.

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13

Geldenhuys, Greta, Nina Muller, Lorinda Frylinck, and Louwrens C. Hoffman. "Post mortem rigor development in the Egyptian goose (Alopochen aegyptiacus) breast muscle (pectoralis): factors which may affect the tenderness." Journal of the Science of Food and Agriculture 96, no. 1 (2015): 271–79. http://dx.doi.org/10.1002/jsfa.7090.

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14

Geldenhuys, Greta, Nina Muller, and Louwrens C. Hoffman. "The influence of post-mortem conditioning on the tenderness of Egyptian goose (Alopochen aegyptiacus ) breast meat (M. pectoralis major)." Journal of the Science of Food and Agriculture 96, no. 5 (2015): 1828–35. http://dx.doi.org/10.1002/jsfa.7344.

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15

Burger, Christina E., Celia Abolnik, and Geoffrey T. Fosgate. "Antibody Response and Viral Shedding Profile of Egyptian Geese (Alopochen aegyptiacus) Infected with Low Pathogenicity H7N1 and H6N8 Avian Influenza Viruses." Avian Diseases 56, no. 2 (2012): 341–46. http://dx.doi.org/10.1637/9920-090811-reg.1.

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16

Burger, Christina E., Celia Abolnik, and Geoffrey T. Fosgate. "Antibody Response and Viral Shedding Profile of Egyptian Geese (Alopochen aegyptiacus) Infected with Low Pathogenicity H7N1 and H6N8 Avian Influenza Viruses." Avian Diseases Digest 7, no. 2 (2012): e9-e11. http://dx.doi.org/10.1637/10121-992012-digest.1.

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17

Geldenhuys, Greta, Louwrens C. Hoffman, and Nina Muller. "The effect of season, sex, and portion on the carcass characteristics, pH, color, and proximate composition of Egyptian Goose (Alopochen aegyptiacus) meat." Poultry Science 92, no. 12 (2013): 3283–91. http://dx.doi.org/10.3382/ps.2013-03443.

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18

Mangnall, Michael J., and Timothy M. Crowe. "Population dynamics and the physical and financial impacts to cereal crops of the Egyptian Goose Alopochen aegyptiacus on the Agulhas Plain, Western Cape, South Africa." Agriculture, Ecosystems & Environment 90, no. 3 (2002): 231–46. http://dx.doi.org/10.1016/s0167-8809(01)00215-8.

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19

Gridley, Tess, and Courtney EC Gardiner. "To honk or to hiss: uncovering call complexity in the Egyptian Goose Alopochen aegyptiaca." Ostrich 92, no. 1 (2021): 58–69. http://dx.doi.org/10.2989/00306525.2021.1907470.

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20

Ndlovu, Mduduzi, Graeme S. Cumming, Philip A. R. Hockey, Mbongeni D. Nkosi, and Gregory L. Mutumi. "A Study of Moult-Site Fidelity in Egyptian Geese,Alopochen aegyptiaca, in South Africa." African Zoology 48, no. 2 (2013): 240–49. http://dx.doi.org/10.3377/004.048.0213.

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21

Ndlovu, Mduduzi, Graeme S. Cumming, Philip A. R. Hockey, Mbongeni D. Nkosi, and Gregory L. Mutumi. "A study of moult-site fidelity in Egyptian geese,Alopochen aegyptiaca, in South Africa." African Zoology 48, no. 2 (2013): 240–49. http://dx.doi.org/10.1080/15627020.2013.11407589.

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22

Mai, Sabrina, Jean-Louis Berthoud, Holger Haag, and Friederike Woog. "Factors limiting reproductive success in urban Greylag Geese (Anser anser)." PeerJ 10 (August 4, 2022): e13685. http://dx.doi.org/10.7717/peerj.13685.

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In the late eighties, Greylag Geese (Anser anser) started to colonise an urban area previously void of geese in southwestern Germany. Between 2004 and 2020, in a period of steady population increase with subsequent population stagnation, we analysed two measures of reproductive success: (1) the relation between freshly hatched to fledged young for each brood and (2) the probability of a hatchling to survive to fledging. We were able to show that the dispersal of pairs from the nesting site to a different brood rearing area resulted in higher reproductive success. However, the increasing popula
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23

Fischer, Ella F., Sabine Recht, Juan Vélez, Linda Rogge, Anja Taubert, and Carlos R. Hermosilla. "Occurrence of Gastrointestinal Parasites in Synanthropic Neozoan Egyptian Geese (Alopochen aegyptiaca, Linnaeus 1766) in Germany." Diversity 15, no. 3 (2023): 388. http://dx.doi.org/10.3390/d15030388.

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Various studies have shown that the transmission and passage of alien and native pathogens play a critical role in the establishment process of an invasive species and its further spread. Egyptian geese (Alopochen aegyptiaca) are neozotic birds on various continents. They live not only in the countryside near fresh water bodies but also in urban habitats in Central Europe with close contact to humans and their pets. Although their rapid distribution in Europe is widely debated, scientific studies on the anthropozoonotic risks of the population and studies on the present endoparasites in Egypti
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24

Callaghan, Corey T., and Daniel M. Brooks. "History, Current Distribution, and Status of the Egyptian Goose (Alopochen aegyptiaca) In the Contiguous United States." Southwestern Naturalist 62, no. 4 (2017): 296–300. http://dx.doi.org/10.1894/0038-4909-62.4.296.

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25

Ndlovu, Mduduzi, Graeme S. Cumming, Philip A. R. Hockey, and Leo W. Bruinzeel. "Phenotypic flexibility of a southern African duck Alopochen aegyptiaca during moult: do northern hemisphere paradigms apply?" Journal of Avian Biology 41, no. 5 (2010): 558–64. http://dx.doi.org/10.1111/j.1600-048x.2010.05034.x.

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26

CURTIS, ODETTE E., PHILIP A. R. HOCKEY, and ANN KOESLAG. "Competition with Egyptian Geese Alopochen aegyptiaca overrides environmental factors in determining productivity of Black Sparrowhawks Accipiter melanoleucus." Ibis 149, no. 3 (2007): 502–8. http://dx.doi.org/10.1111/j.1474-919x.2007.00675.x.

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27

Fischer, Ella F., Elfi K. Schlohsarczyk, Manuela Gröf, Ulrich Gärtner, Anja Taubert, and Carlos Hermosilla. "New Insights on the Neglected Avian Nematode Hystrichis tricolor: Hystrichiosis-Induced Proventriculitis in Synanthropic Egyptian Geese (Alopochen aegyptiaca Linnaeus, 1766) in Germany." Pathogens 12, no. 5 (2023): 663. http://dx.doi.org/10.3390/pathogens12050663.

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Hystrichis tricolor is a neglected avian enoplid nematode (superfamiliy Dioctophymatoidea) and known to parasitize various species of the Anatidae (Anas spp. and Mergus spp.) from the northern hemisphere, inducing mainly proventriculitis in domestic and wild waterfowl. Here, we focus on the pathological findings of naturally H. tricholor-infected Egyptian geese (Alopochen aegyptiaca) and a neozoan shelduck (Tandorninae) of Germany. Nowadays, this species is considered the fastest-spreading alien waterfowl species within Western Europe. Additionally, molecular sequencing coupled with phylogenet
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28

Fischer, Ella F., Romy Müller, Matthias Todte, Anja Taubert, and Carlos Hermosilla. "Role of Free-Ranging Synanthropic Egyptian Geese (Alopochen aegyptiaca) as Natural Host Reservoirs for Salmonella spp. in Germany." Animals 13, no. 21 (2023): 3403. http://dx.doi.org/10.3390/ani13213403.

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Salmonella is one of the most common and pathogenic bacteria worldwide, causing severe enteritis in humans and representing a relevant intestinal illness in One Health for young, old and immunosuppressed patients. Various Salmonella serovars have been described to be responsible for human Salmonellosis. Birds represent natural carriers of different zoonotic-relevant Salmonella serovars and Anseriformes can not only transmit Salmonella spp. to humans but also manifest clinical Salmonellosis. In this study, 138 scat samples (n = 138) of free-ranging Egyptian geese (EG; Alopochen aegyptiaca) were
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29

Liubchenko, S.S. "Review of observations of rare and poorly studied bird species in Kyiv region in 2016–2024." Berkut 33, no. 1-2 (2024): 11–57. https://doi.org/10.5281/zenodo.14979868.

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<strong>Review of observations of rare and poorly studied bird species in Kyiv region in 2016&ndash;2024. - S.S. Liubchenko. - Berkut. 33 (1-2). 2024. </strong>- I summarised and analysed data from online and printed sources and the author's observations of 1015 records of 102 species and 2 hybrid forms of birds within the Kyiv region during 2016&ndash;2024. The information was collected mainly by birdwatchers (a total of 132 observers). Two species were found for the first time in Ukraine and the region: Xema sabini and Larus delawarensis. Another 11 species noted during the study period are
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30

Lindner, Martin. "Influence of the Eagle Owl (Bubo bubo) on the Peregrine Falcon (Falco peregrinus) population in Germany." Ornis Hungarica 26, no. 2 (2018): 243–53. http://dx.doi.org/10.1515/orhu-2018-0032.

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Abstract In Germany, the Eagle Owl is the only animal species that has a massive impact on the distribution and breeding success of the Peregrine Falcon. Both species compete for the same breeding sites on rocks. In addition, the Peregrine Falcon belongs to the prey spectrum of the Eagle Owl. The Eagle Owl always dominates at places where the two species meet. Since the 1980s, the Eagle Owl has taken over many of the rock face breeding sites of the Peregrine Falcon in Germany. This trend towards the taking-over of Peregrine Falcon nesting sites is ongoing in areas with rocks, as not all region
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31

Groom, Quentin J., Tim Adriaens, Claire Colsoulle, Pauline Delhez, and Iris Van der Beeten. "Site selection by geese in a suburban landscape." PeerJ 8 (September 22, 2020): e9846. http://dx.doi.org/10.7717/peerj.9846.

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Background In European and North American cities geese are among the most common and most visible large herbivores. As such, their presence and behaviour often conflict with the desires of the human residents. Fouling, noise, aggression and health concerns are all cited as reasons that there are “too many”. Lethal control is often used for population management; however, this raises questions about whether this is a sustainable strategy to resolve the conflict between humans and geese when, paradoxically, it is humans that are responsible for creating the habitat and often providing the food a
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32

Faragó, Sándor. "A magyar vízivad monitoring eredményei a 2008/2009-es idényben." Magyar Vízivad Közlemények, no. 18-19 (May 22, 2010): 259–420. https://doi.org/10.17242/mvvk_18-19.05.

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The author presents results of the Hungarian Waterfowl Monitoring (HWM) referring to the season 2008/2009. This treatment does not cover geese, the latter being the subject of another publication. Basic data obtained at the 48 sites (Table 1. and Map 1.) are presented for each observed site in Table 3-25. The tables are followed by statements concerning each of the species in regard of population size (Hungary total), population dynamics (Hungary total), territorial dispersion of each species, dynamics characteristic for the certain sites of observations, and on the basis of maximum numbers of
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33

Faragó, Sándor. "A magyar vízivad monitoring eredményei a 2010/2011-es idényben." Magyar Vízivad Közlemények, no. 20-21 (May 22, 2011): 251–486. https://doi.org/10.17242/mvvk_20-21.04.

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The author presents results of the Hungarian Waterfowl Monitoring (HWM) referring to the season 2010/2011. This treatment does not cover geese, the latter being the subject of another publication. Basic data obtained at the 48 sites (Table 1. and Map 1.) are presented for each observed site in Table 3-25. The tables are followed by statements concerning each of the species in regard of population size (Hungary total), population dynamics (Hungary total), territorial dispersion of each species, dynamics characteristic for the certain sites of observations, and on the basis of maximum numbers of
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34

Faragó, Sándor. "A magyar vízivad monitoring eredményei a 2009/2010-es idényben." Magyar Vízivad Közlemények, no. 20-21 (May 22, 2011): 43–200. https://doi.org/10.17242/mvvk_20-21.02.

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The author presents results of the Hungarian Waterfowl Monitoring (HWM) referring to the season 2009/2010. This treatment does not cover geese, the latter being the subject of another publication. Basic data obtained at the 48 sites (Table 1. and Map 1.) are presented for each observed site in Table 3-25. The tables are followed by statements concerning each of the species in regard of population size (Hungary total), population dynamics (Hungary total), territorial dispersion of each species, dynamics characteristic for the certain sites of observations, and on the basis of maximum numbers of
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35

Underhill, L. G., J. Kemper, P. Whittington, and A. Wolfaardt. "Egyptian Geese Alopochen Aegyptiacus Moulting on Dassen Island, South Africa." Marine Ornithology 28, no. 2 (2000). https://doi.org/10.5038/2074-1235.28.2.474.

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36

Smith, K. G., and D. Fames. "History and Current Status of Egyptian Goose (Alopochen aegyptiacus) in Northwestern Arkansas." Journal of the Arkansas Academy of Science 66 (January 1, 2012). http://dx.doi.org/10.54119/jaas.2012.6629.

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37

Every, B., M. Ralfe, and L. Spearpoint. "Egyptian Goose Alopochen Aegyptiacus Breeding on an Offshore Wreck in South Africa." Marine Ornithology 17, no. 1 (1989). https://doi.org/10.5038/2074-1235.17.1.222.

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38

Underhill, L. G. "Egyptian Geese Alopochen Aegyptiacus with Young in Surf at Dassen Island, South Africa." Marine Ornithology 17, no. 1 (1989). https://doi.org/10.5038/2074-1235.17.1.219.

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39

Prüter, Hanna, Mathias Franz, Sönke Twietmeyer, et al. "Increased immune marker variance in a population of invasive birds." Scientific Reports 10, no. 1 (2020). http://dx.doi.org/10.1038/s41598-020-78427-7.

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AbstractImmunity and parasites have been linked to the success of invasive species. Especially lower parasite burden in invasive populations has been suggested to enable a general downregulation of immune investment (Enemy Release and Evolution of Increased Competitive Ability Hypotheses). Simultaneously, keeping high immune competence towards potentially newly acquired parasites in the invasive range is essential to allow population growth. To investigate the variation of immune effectors of invasive species, we compared the mean and variance of multiple immune effectors in the context of par
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40

Prüter, Hanna, Gábor Árpád Czirják, Sönke Twietmeyer, et al. "Sane and sound: a serologic and molecular survey for selected infectious agents in neozootic Egyptian geese (Alopochen aegyptiacus) in Germany." European Journal of Wildlife Research 64, no. 6 (2018). http://dx.doi.org/10.1007/s10344-018-1231-9.

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41

Nagy, Zeinab Mohamed, Mohamed Mohamed Talaat Emara, Nabil Abdelgaber Yessien, and Hamdy Mohamed Bakry Abdelhady Zaki. "Proximate Chemical Analysis and Deterioration Criteria of Goose Giblets." Journal of World's Poultry Research, September 25, 2022. http://dx.doi.org/10.36380/jwpr.2022.19.

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Goose meat is one of the most common types of meat consumed worldwide. Egyptian goose species, known as Alopochen aegyptiacus is one of the first reared poultry species. As meat consumption and the need for animal protein rise globally, edible giblets can serve as abundant protein and fat sources. Recently, edible giblets have become readily available, quick-to-prepare food on the market. This study aimed to reveal the proximate chemical composition (protein, fat, moisture, and ash) as well as the deterioration criteria (pH, Total volatile basic nitrogen [TVBN] value, and thiobarbituric acid r
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42

Callaghan, C. T., Daniel M. Brooks, and Peter Pyle. "Egyptian Goose (Alopochen aegyptiaca)." Birds of North America Online, September 6, 2017. http://dx.doi.org/10.2173/bna.egygoo.01.

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43

Marchant, John. "Alopochen aegyptiaca (Egyptian goose)." CABI Compendium CABI Compendium (January 7, 2022). http://dx.doi.org/10.1079/cabicompendium.94205.

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This datasheet on Alopochen aegyptiaca covers Identity, Overview, Distribution, Dispersal, Diagnosis, Biology &amp; Ecology, Environmental Requirements, Impacts, Uses, Prevention/Control, Further Information.
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44

Pačenovský, Samuel, and Andrea Lešová. "O výskyte a hniezdení húsky štíhlej (Alopochen aegyptiaca) na Slovensku." Tichodroma 32 (February 28, 2021). http://dx.doi.org/10.31577/tichodroma.2020.32.6.

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45

Little, Rob M. "Managing Nuisance Egyptian Geese (Alopochen aegyptiaca) on Golf Courses in Cape Town, South Africa." African Journal of Wildlife Research 50, no. 1 (2020). http://dx.doi.org/10.3957/056.050.0144.

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46

Ashour, Ahmed S. B., Ahmed H. Khalifa, and Mokhless A. M. Abd El Rahman. "Carcass Traits, Meat Quality and Nutritional Profiles of Wild Egyptian Geese (Alopochen aegyptiaca) and Wigeon (Anas penelope)." Egyptian Journal of Food Science, August 4, 2024, 0. http://dx.doi.org/10.21608/ejfs.2024.287579.1182.

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47

Atkins, Alex, Rob M. Little, Stephen M. Redpath, and Arjun Amar. "Impact of increased predation risk on vigilance behaviour in a gregarious waterfowl, the Egyptian goose Alopochen aegyptiaca." Journal of Avian Biology 50, no. 6 (2019). http://dx.doi.org/10.1111/jav.02121.

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48

Özkan, Ermiş, Ecenur Mücaviroğlu, Manuta Nicoleta, and Ebuderda Günay. "Exploring Shape Variance in Waterbirds' Pad Feet: A Geometric Morphometric Analysis." Harran Üniversitesi Veteriner Fakültesi Dergisi, November 6, 2024. http://dx.doi.org/10.31196/huvfd.1540571.

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Waterbirds usually have webbed feet, which help them move easily through water. These pad feet fall into four main categories: palmate, semipalmate, totipalmate, and lobate. In this study, morphological diversity among the pad feet of different waterbirds breeds such as the West Indian whistling duck (Anas bahamensis), mandarin duck (Aix galericulata), red-breasted goose (Branta ruficollis), wood duck (Aix sponsa), mute swan (Cygnus olor), greylag goose (Anser anser), mallard (Anas platyrhynchos), Pekin duck (Anas platyrhynchos domesticus), redhead duck (Aythya americana), Egyptian goose (Alop
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49

Jackson, Reilly T., Percival M. Marshall, Chris Burkhart, Julia Schneck, Grant Kelly, and Caleb P. Roberts. "Risk of invasive waterfowl interaction with poultry production: Understanding potential for avian pathogen transmission via species distribution models." Ecology and Evolution 14, no. 7 (2024). http://dx.doi.org/10.1002/ece3.11647.

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AbstractRecent outbreaks of highly pathogenic avian influenza have devastated poultry production across the United States, with more than 77 million birds culled in 2022–2024 alone. Wild waterfowl, including various invasive species, host numerous pathogens, including highly pathogenic avian influenza virus (HPAIV), and have been implicated as catalysts of disease outbreaks among native fauna and domestic birds. In major poultry‐producing states like Arkansas, USA, where the poultry sector is responsible for significant economic activity (&gt;$4 billion USD in 2022), understanding the risk of
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50

Russell, Ian A. "Waterbird community changes in the Wilderness Lakes, South Africa (Part 1 of 3): Herbivores and omnivores." Koedoe 65, no. 1 (2023). http://dx.doi.org/10.4102/koedoe.v65i1.1770.

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Global and regional degradation and loss of aquatic systems can negatively affect wetland-dependent waterbirds. The Wilderness Lakes Complex in South Africa, which incorporates the Wilderness Ramsar site, supports populations of 68 waterbird species including eight which periodically occur in globally significant (1% population) numbers. The study aimed to document long-term spatial and temporal (including seasonal) patterns of abundance of herbivorous waterbirds in the Wilderness Lakes Complex, and where possible identify potential causes for observed trends. The abundance of waterbirds on th
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