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Artykuły w czasopismach na temat „Haliaeetus leucogaster”

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Autor: Grafiati
Data publikacji: 4 czerwca 2021
Data aktualizacji: 20 lutego 2023

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Sprawdź 19 najlepszych artykułów w czasopismach naukowych na temat „Haliaeetus leucogaster”.

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1

Retnaningtyas, Riri Wiyanti, Windri Hermadhiyanti i Dwi Listyorini. "The Phylogenetic Study of the White-Bellied Sea Eagle [Haliaeetus leucogaster (Gmelin, 1788)] Based on DNA Barcoding Cytochrome-c Oxidase Subunit I (COI)". KnE Life Sciences 3, nr 4 (27.03.2017): 208. http://dx.doi.org/10.18502/kls.v3i4.706.

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<p class="Els-Abstract-text">Even though not yet considered as endangered, White-bellied Sea Eagle’s global population is decreasing due to illegal hunting, bird trading, and deforestation. So far, there hasn’t been any report regarding the phylogenetic study of the White-bellied Sea Eagle inhabiting the coastal regions of Java. Moreover, there hasn’t been any report on the genetic data, especially COI gene, of the White-bellied Sea Eagle living in coastal area of Java. Thus, in this research, two individuals of <em>Heliaeetus leucogaster</em><em> </em>(<a title="Johann Friedrich Gmelin" href="https://en.wikipedia.org/wiki/Johann_Friedrich_Gmelin">Gmelin</a>, 1788); <em> </em>are compared based on its COI gene sequence to the member of genus <em>Haliaeetu</em>s to determine their position in the phylogenetic tree of genus Haliaeetus. COI gene amplification is performed using <em>Forward</em> primer BirdF1 5’- TTC TCC AAC CAC AAA GAC ATT GGC AC-3’ and <em>Reverse </em>primer BirdR2 5’ ACT ACA TGT GAG ATG ATT CCG AAT-3’. The phylogenetic analysis using MEGA6 with <em>Maximum Likelihood </em>method shows that <em>Haliaeetus leucogaster</em> in this study is related to <em>Haliaeetus leucocephalus</em> (Linnaeus, 1766), <em>Haliaeetus pelagicus</em> (Pallas, 1811), and <em>Haliaeetus albicilla</em> (Linnaeus, 1758).</p><p> </p><div><p class="Els-keywords"><strong>Keywords:</strong> phylogenetic study; <em>Heliaeetus leucogaster</em><em> </em>(<a title="Johann Friedrich Gmelin" href="https://en.wikipedia.org/wiki/Johann_Friedrich_Gmelin">Gmelin</a>, 1788); DNA barcoding, <em>C</em><em>ytochrome-c </em><em>O</em><em>xidase </em><em>S</em><em>ubunit</em> I (COI).</p></div>
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2

Retnaningtyas, Riri Wiyanti, Windri Hermadhiyanti, Dwi Anggorowati Rahayu i Dwi Listyorini. "THE IDENTIFICATION OF THE WHITE-BELLIED SEA EAGLE (Haliaeetus leucogaster) BASED ON MORPHOLOGICAL CHARACTERISTICS". KnE Life Sciences 2, nr 1 (20.09.2015): 588. http://dx.doi.org/10.18502/kls.v2i1.223.

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<p>The white-bellied sea eagle, Haliaeetus leucogaster, is one of the top predators living in the coastal area of Indonesia. This species has the range of distribution in all across Indonesian archipelago. However, this raptor population decreases particularly in the Java southern seas due to illegal hunts and the decreasing quality of their natural habitat. Meanwhile, this species is still poorly studied in Indonesia. This research focuses on the identification of Haliaeetus leucogaster by means of morphometrical analysis in regards to the conservation of this species. The method used in this research is by measuring morphometrical characteristics according to Rahmat (2009) including wing span, body weight, total length, total wing length, wing width, patagial width tail length, tarsus length and depth, talons with claws and without claws, claws, culmen with cere and without cere, culmen height and width, inter-pupil distance, iris color, primairy wing feather number, secondary wing feather number and the number of tail feathers.</p><p><br /><strong>Keywords</strong>: Haliaeetus leucogaster, morphological characteristics</p>
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3

Loindong, Andrew, H. J. Kiroh, I. Wahyuni i J. L. P. Saerang. "TINGKAH LAKU MAKAN ELANG LAUT PERUT PUTIH (Haliaeetus leucogaster) DI PUSAT PENYELAMATAN SATWA TASIK OKI SULAWESI UTARA". ZOOTEC 35, nr 2 (20.12.2015): 147. http://dx.doi.org/10.35792/zot.36.1.2016.10463.

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INGESTING BEHAVIOUR OF WHITE BELLIED SEA EAGLE (Haliaeetus leucogaster) IN TASIKOKI CENTRAL WILD ANIMAL RESCUE IN MINAHASA UTARA. This study aimed to describe the ingesting of white bellied sea eagle (Halliaetus leucogaster) in Tasikoki Central Wild Animal Rescue on safeguarding cage as one of the conservation strategy for translocation purpose. The expected benefits was to provide information about ingesting behavior of white bellied sea eagle and the reference knowledge information in the field of wild life conservation measures. This research was conducted using observational methods and instantaneous animal sampling technique of 14 animal samples. Study began at 07.00 am until 17.00 pm. The variables observed is observing prey, catching prey and ingesting prey of white bellied sea eagle as the variables of this study. The observing result is showed that white bellied sea eagle was ingesting fish and other eagle (cannibal animal). The ingesting behavior was affected by the kind of prey, which one of the favorite prey of white bellied sea eagle. The other eagle and the agonistic behavior mostly happened when they prey the other eagle. White bellied sea eagle observed the prey and other thing around the cage with the percentage of 3%. White bellied sea eagle only catches fish with a percentage of 1%. White bellied sea eagle was ingesting prey with a percentage of 96%. The animal was very sensitive in ingesting fish more than ingesting other eagle. Keywords : White bellied sea eagle (Halliaetus leucogaster), Ingesting Behavior, Tasikoki Central Wild Animal Rescue Tasikoki.
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4

Narkkong, N. A., W. Aengwanich i A. Tanomthong. "Morphological observations of the thrombocyte of white-bellied sea eagle Haliaeetus leucogaster". Comparative Clinical Pathology 19, nr 3 (26.05.2009): 263–67. http://dx.doi.org/10.1007/s00580-009-0861-4.

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5

Falkenberg, ID, TE Dennis i BD Williams. "Organochlorine Pesticide Contamination in Three Species of Raptor and Their Prey in South Australia." Wildlife Research 21, nr 2 (1994): 163. http://dx.doi.org/10.1071/wr9940163.

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The extent of organochlorine pesticide contamination in 3 species of predatory birds from the central regions of South Australia was investigated. Residues in both eggs and tissue, as well as measurements of shell thickness, were obtained for Falco peregrinus (peregrine falcon), Pandion haliaetus (osprey) and Haliaeetus leucogaster (white-bellied sea eagle). Organochlorine residues in some prey species were also measured. Residues of DDE and DDT in the predatory birds were found to be low to moderate. Concn of total DDT were greatest in F. peregrinus (mean 1.82 mg/kg), followed by the H. leucogaster and P.haliaetus (mean 1.07 and 0.11 mg/kg, resp.). A comparison of F. peregrinus eggs collected before and after 1947 showed significant eggshell thinning (mean 16%). DDT residue levels of concern were recorded for several prey species commonly found in the diet of H. leucogaster and F. peregrinus, particularly in Columbia livia (feral pigeons) (37.46 mg/kg) and Larus novaehollandiae (silver gulls) (3.06 mg/kg). These concn were well above those known to cause reproductive failure in falcons. DDT was also found at high concn in eggs of Pelecanus conspicillatus (pelican) (mean 2.04 mg/kg). Dieldrin was present in most samples, but at low concn. The degree of pesticide contamination detected was considered sufficient to interfere with the reproduction of F. peregrinus in South Australia.
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6

Dennis, Terry E., Rebecca R. Mcintosh i Peter D. Shaughnessy. "Effects of human disturbance on productivity of White-bellied Sea-Eagles (Haliaeetus leucogaster)". Emu - Austral Ornithology 111, nr 2 (czerwiec 2011): 179–85. http://dx.doi.org/10.1071/mu10044.

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7

Rohman, Fathur, I. Ketut Ginantra i Anak Agung Gde Raka Dalem. "Penggunaan Habitat oleh Elang Brontok, Elang Ular Bido dan Elang Laut Perut Putih di Taman Wisata Alam Danau Buyan-Danau Tamblingan dan Sekitarnya". Metamorfosa: Journal of Biological Sciences 6, nr 1 (14.04.2019): 25. http://dx.doi.org/10.24843/metamorfosa.2019.v06.i01.p05.

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Research on the habitat preferrence by Changeable hawk-eagle (Nisaetus cirrhatus) (CHE), Crested serpent-eagle (Spilornis cheela) (CSE), and White bellied sea-eagle (Haliaeetus leucogaster) (WSE) was conducted at Nature Recreation Park of Lake Buyan and Lake Tamblingan and Surrounding area between February and July, 2016. Data collection was conducted through field observation using the “look down method” and the “look up method” combined with placement of observation points. Data collection was analysed by principle component analisys (PCA) method. Research results related to preferenced habitat were as follows: (1) the CHE prefered fragmented forest, secondary forest, and cultivated forest types habitat. (2) The CSE prefered habitat types of farming land, residence, and sosial forest. (3) The WSE prefered just one habitat type, that was the wet land habitat type. Keywords: eagle, raptor, forest, habitat, habitat preference, bali
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8

Shephard, Jill M., Carla P. Catterall i Jane M. Hughes. "Discrimination of sex in the White-bellied Sea-Eagle, Haliaeetus leucogaster, using genetic and morphometric techniques". Emu - Austral Ornithology 104, nr 1 (marzec 2004): 83–87. http://dx.doi.org/10.1071/mu03043.

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9

SHEPHARD, JILL M., CARLA P. CATTERALL i JANE M. HUGHES. "Long-term variation in the distribution of the White-bellied Sea-Eagle (Haliaeetus leucogaster) across Australia". Austral Ecology 30, nr 2 (kwiecień 2005): 131–45. http://dx.doi.org/10.1111/j.1442-9993.2005.01428.x.

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Spencer, Jennifer A., i Tim P. Lynch. "Patterns in the abundance of White-bellied Sea-Eagles (Haliaeetus leucogaster) in Jervis Bay, south-eastern Australia". Emu - Austral Ornithology 105, nr 3 (wrzesień 2005): 211–16. http://dx.doi.org/10.1071/mu04030.

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Heinsohn, Tom. "Predation by the White-breasted Sea Eagle Haliaeetus leucogaster on Phalangerid Possums in New Ireland, Papua New Guinea". Emu - Austral Ornithology 100, nr 3 (sierpień 2000): 245–46. http://dx.doi.org/10.1071/mu00913.

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12

Naim, D. M., S. A. M. Nor i M. H. Baharuddin. "Short Communication Non-invasive sex identification of the white-bellied sea eagle (Haliaeetus leucogaster) through genetic analysis of feathers". Genetics and Molecular Research 10, nr 4 (2011): 2505–10. http://dx.doi.org/10.4238/2011.october.13.7.

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13

Shephard, Jill M., Jane M. Hughes, Carla P. Catterall i Penny D. Olsen. "Conservation status of the White-Bellied Sea-Eagle Haliaeetus leucogaster in Australia determined using mtDNA control region sequence data". Conservation Genetics 6, nr 3 (maj 2005): 413–29. http://dx.doi.org/10.1007/s10592-005-4987-x.

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YIN, HUI NG, MOHD SANUSI MOHAMED, MD-ZAIRI ZAINAL, MUHAMMAD ABU BAKAR ABDUL-LATIFF i NOR ATIQAH NORAZLIMI. "FIRST RECORD OF NICOBAR PIGEON (Caloenas nicobarica) IN PULAU TINGGI, JOHOR, MALAYSIA". JOURNAL OF SUSTAINABILITY SCIENCE AND MANAGEMENT 17, nr 11 (30.11.2022): 91–98. http://dx.doi.org/10.46754/jssm.2022.11.010.

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Being surrounded by many islands, Malaysia is blessed as it may own an endemic, endangered and migratory species in its islands. Pulau Tinggi is one of the islands located in Southeast Peninsular Malaysia. It is one of the biggest islands in Johor, Malaysia. However, the avifauna has not yet been documented in Pulau Tinggi. This paper discusses the first record of the Nicobar Pigeon (Caloenas nicobarica) in Pulau Tinggi, Johor, Malaysia. Nicobar pigeons were recorded in camera traps installed around the island from June to October 2019. Besides the Nicobar pigeon, our camera traps also recorded another five avian species, which are the Emerald dove (Chalcophaps indica), White-rumped shama (Copsychus malabaricus), Changeable hawk-eagle (Nisaetus cirrhatus), White-bellied sea eagle (Haliaeetus leucogaster) and Grey-headed fish-eagle (Ichthyophaga ichthyaetus). The record of the Nicobar pigeon is exceptional as this species is restricted to small islands and absent from the mainland. It has unique behaviour and enticing morphology. This species is globally threatened and has recently been declared an endangered species. Nicobar pigeon’s discovery proved a high potential to develop ecotourism or a key site for avian conservation in Pulau Tinggi.
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15

Palei, Nimain Charan, Bhakta Padarbinda Rath i Bimal Prasanna Acharya. "An observation of the White-bellied Sea Eagle Haliaeetus leucogaster preying on Saltwater Crocodile hatchlings Crocodylus porosus in Bhitarkanika Wildlife Sanctuary, India". Journal of Threatened Taxa 11, nr 13 (26.10.2019): 14767–69. http://dx.doi.org/10.11609/jott.4916.11.13.14767-14769.

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During our regular monitoring of Salt Water Crocodile in Bhitarakanika National Park in Odisha, eastern India, we for the first time photographed the predation of a hatchling Salt Water Crocodile by a White-bellied Sea Eagle. This information is very crucial as it aid in understanding the natural history of the species.
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Olsen, Jerry, Esteban Fuentes i A. B. Rose. "Trophic relationships between neighbouring White-bellied Sea-Eagles (Haliaeetus leucogaster) and Wedge-tailed Eagles (Aquila audax) breeding on rivers and dams near Canberra". Emu - Austral Ornithology 106, nr 3 (wrzesień 2006): 193–201. http://dx.doi.org/10.1071/mu05046.

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Bhattacharjya, B. K., B. J. Saud, S. Borah, P. K. Saikia i B. K. Das. "Status of biodiversity and limno-chemistry of Deepor Beel, a Ramsar site of international importance: Conservation needs and the way forward". Aquatic Ecosystem Health & Management 24, nr 4 (1.10.2021): 64–74. http://dx.doi.org/10.14321/aehm.024.04.09.

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Abstract Deepor Beel is a prominent floodplain wetland and a Ramsar site of northeastern (NE) India (Ramsar site no. 1207) covering a 40.14 km2 area and connected to River Brahmaputra. It provides numerous economic (e.g., livelihood and nutritional security) and ecological benefits (e.g. moderation of floods, groundwater recharge, repository of biodiversity) to the locality and its people. Deepor Beel was declared a Wildlife Sanctuary in 1989 and the area covered by the perennial water spread (10.1 km2) was subsequently designated as a Bird Sanctuary by the Government of Assam in 2009. The present paper provides an overview of the rich floral and faunal diversity of the wetland, including aquatic macrophytes (58 species), diatoms (65), zooplankton (171), bryozoans (5), molluscs (15), aquatic insects (55), prawns (3), crabs (2), finfish (68), amphibians (11), reptiles (33), birds (234) and mammals (24), in addition to the beel's limno-chemistry as well its conservation threats and suggested strategies. The wetland supports 18 globally threatened vertebrate species. Eleven bird species occurring in the wetland (Aythya baeri, A. nyroca, Leptoptilos dubius, L. javanicus, Ephippiorhynchus asiaticus, Gyps bengalensis, G. tenuirostris, Haliaeetus leucogaster, Pelecanus philippensis, Sarcogyps calvus, Threskiornis melanocephalus) have been included in the IUCN Red List of Threatened Species. Finfishes reported from the wetland declined from 67 species in 1999 to 64 between 2016 and 2018, which is a matter of concern. According to available information on limno-chemistry, the waters of the wetland have remained within the favorable range of water quality for fish production. Major threats faced by the wetland (e.g. pollution, encroachment, natural processes, etc.) and possible conservation strategies (e.g. control of aquatic pollution, prevention/ control of siltation, enacting and enforcing appropriate legislation, and other strategies) are outlined.
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Zein, Moch Syamsul Arifin. "BARKODING DNA BURUNG ELANG (FAMILI ACCIPITRIDAE) DI INDONESIA". BERITA BIOLOGI 17, nr 2 (1.11.2018). http://dx.doi.org/10.14203/beritabiologi.v17i2.3108.

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The cytochrome c oxidase subunit I (COI) gene is a reprensentative of all the protein-coding genes of the mitochondrial DNA genome that has been widely used as an animal species identification tool. In this study, 86 sequences of DNA barcodes of members of the family Accipitridae in Indonesia including Nisaetus bartelsi, Nisaetus cirrhatus, Haliaeetus leucogaster, Spilornis cheela, Haliastur indus, and 11 sequences from Genbank were examined. Each species was confirmed through the Basic Local Alignment Search Tool (BLAST). The construction of phylogeny trees based on COI gene sequences was performed by the Neighbors-joining method where the calculation of the genetic distance matrix with the Kimura 2-parameter model was implemented in pairwise distance calculation in the Mega version 6.05 programe. The results of the analysis showed that the divergence within species ranged from 0 to 0.3% (0.13 ± 0.12%), between species ranged from 1.6 to 18.5% (12.8 ± 3.73%), between genera ranged from 13 to 18.6%, and the average in the Accipitridae Family was 11.8%. Therefore, it could form clusters in each species cohesively and clearly separated between the taxa analyzed.
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Nugraha, Memo Dinda, Agus Setiawan, Dian Iswandaru i Yulia Rahma Fitriana. "KEANEKARAGAMAN SPESIES BURUNG DI HUTAN MANGROVE PULAU KELAGIAN BESAR PROVINSI LAMPUNG". Jurnal Belantara 4, nr 1 (1.03.2021). http://dx.doi.org/10.29303/jbl.v4i1.570.

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The existence of mangrove forests is very important in an area because as a habitat for various types of wildlife, especially birds. This study aims to determine the diversity of bird species in the Kelagian Besar Mangrove Forest, Lampung Province. Data on bird species diversity was obtained by the IPA (Indices Ponctual Abundance) method. Data collection of bird species by recording the type and number of individual birds found. Species identification also uses the method of bird recognition directly by people who know the birds in the area such as the local community or an expert on birds. Data obtained in the field are then analyzed using the Shanon-Winner diversity index formula. The results found 27 species of birds from 21 families with a total of 741 individual birds in the Kelagian Besar Mangrove Forest. While the diversity index value is 2.26 with medium index criteria. There are 8 protected bird species, namely the black-necked darautaut (Sterna sumatrana), the white-wing daralaut (Chlidonias leucopterus), the oyster daralaut (Gelochelidon nilotica), the white belly eagle (Haliaeetus leucogaste), the brontok eagle (Spizaetus cirrhatus), oyster belly Rhipidura javanica), sabine seagulls (Xema sabini), and large fissures (Fregata minor).
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