Your search keyword '"Black rat"' showing total 10 results

1. Food web of Mocha Island (Chile) reveals the interaction between the invasive Rattus rattus and the endemic anuran Eupsophus insularis.

Author

Lobos, Gabriel, Tapia, Gianina, Sagredo, Catalina, and Vidal, Marcela

Abstract

Most oceanic islands in the world have been invaded by rats, which have negative effects on the local biota. A number of studies have reported rat predation on amphibians, but there is scarce information on the relations of trophic interactions present in these cases (competition, origin of energy production sources, trophic levels). Using diet data and stable isotopes, we explored the trophic interactions of the Isla Mocha in southern Chile, in particular between Rattus rattus (Black rat, invasive) and Eupsophus insularis (Mocha Island ground frog, endemic). The results show an important overlap in the prey used by both species, in the trophic positions they occupy, in their isotope niches and the presence of isotopic signals attributable to the anurans in tissue samples of rats. Understanding the trophic relations between invaders and native species is an important challenge for the implementation of conservation plans. [ABSTRACT FROM AUTHOR]

Published

2023

2. Seasonal demography of different black rat (Rattus rattus) populations under contrasting natural habitats in Guadeloupe (Lesser Antilles, Caribbean).

Author

Goedert, Jean, Cochard, David, Lenoble, Arnaud, Lorvelec, Olivier, Pisanu, Benoît, and Royer, Aurélien

Abstract

The black rat (Rattus rattus) is one of the most widespread rodents on islands worldwide, introduced over the last five centuries. However, reliable information concerning how biotic or abiotic factors influence key parameters of black rat population biology in insular contexts is currently unavailable. Here we aim to document the relative abundance of rat populations and evaluate how the age structure and the body mass of adult individual vary seasonally in different forest environments under contrasting climatic conditions. Rats were captured during wet and dry seasons in 2017–2018 at one or two sites in each of the four natural forested environments of Guadeloupe, all of which experience widely different annual rainfall (semi-deciduous dry forest, seasonal evergreen forest, mountain rainforest and Pterocarpus officinalis swamp forest). A total of 171 black rats were captured during a 1018 trap-night effort. Overall capture results confirm this species to thrive in all the natural forested environments we investigated. With the exception of the P. officinalis swamp forest, black rat populations reach higher relative abundances during the wet season due to juvenile and sub-adult recruitment at the end of the dry season. In contrast, in the P. officinalis swamp forest, breeding activity continues during both seasons and relative rat abundance appears to fluctuate less seasonally. The relative abundance of adult black rats is also higher in the seasonal semi-evergreen and rainforests that experience little or no water stress. These contexts therefore appear the most favourable for sustaining black rat populations, a pattern that is most likely connected to a combination of climatic and/or edaphic parameters that condition the year-round availability and abundance of food resources. [ABSTRACT FROM AUTHOR]

Published

2020

3. Morphological and molecular description of Sarcocystis ratti n. sp. from the black rat (Rattus rattus) in Latvia.

Author

Prakas, Petras, Kirillova, Viktorija, Gavarāne, Inese, Grāvele, Evita, Butkauskas, Dalius, Rudaitytė-Lukošienė, Eglė, and Kirjušina, Muza

Subjects

*RATTUS rattus, *SARCOCYSTIS, *RATTUS norvegicus, *TRANSMISSION electron microscopes, *MICROSCOPES, *MURIDAE

Abstract

Rodents have been widely studied as intermediate hosts of Sarcocystis; however, only a few reports on these parasites in the black rat (Rattus rattus) are known. Having examined 13 black rats captured in Latvia, sarcocysts were found in skeletal muscles of two mammals and were described as Sarcocystis ratti n. sp. Under a light microscope, sarcocysts were ribbon-shaped, 0.9–1.3 × 0.09–0.14 mm in size and had a thin (0.8–1.3 μm) and smooth cyst wall. The lancet-shaped bradyzoites were 8.3 × 4.3 (7.5–9.3 × 3.9–4.8) μm. Under a transmission electron microscope, the cyst wall was up to 1.3 μm thick, wavy, the ground substance appeared smooth, type 1a-like. Morphologically, sarcocysts of S. ratti were somewhat similar to those of S. cymruensis, S. rodentifelis, and S. dispersa-like previously identified in the brown rat (Rattus norvegicus). On the basis of 18S rDNA, 28S rDNA, and cox1, significant genetic differences (at least 2.3, 4.5, and 5.8%, respectively) were observed when comparing S. ratti with other Sarcocystis species using rodents as intermediate hosts. While ITS1 sequences of S. ratti were highly distinct from other Sarcocystis species available in GenBank. Phylogenetic and ecological data suggest that predatory mammals living near households are definitive hosts of S. ratti. [ABSTRACT FROM AUTHOR]

Published

2019

4. Phylogeography of the black rat Rattus rattus in India and the implications for its dispersal history in Eurasia.

Author

Khan, Shiba, Atkulwar, Ashwin, Baig, Mumtaz, Eager, Heidi, and Searle, Jeremy B.

Abstract

India is the origin to the world's most notorious invasive mammal, the black rat Rattus rattus. All previous empirical phylogeographic studies were based on very few samples originating from India-creating a paucity of data to extrapolate from. In this first specific phylogeographic study of R. rattus attempted in India, samples were obtained from 18 localities within peninsular India with a focus on the East and West coasts, regions that spread commensal R. rattus globally. The displacement loop (D-loop) and the cytochrome b (Cytb) gene were sequenced in 45 R. rattus individuals. Maximum likelihood analysis was used to assign individuals to lineages. Coalescence and Bayesian methods were employed to estimate population genetic parameters, phylogeny and divergence respectively. The phylogeography of R. rattus was elucidated by constructing median joining networks by combining newly generated D-loop and Cytb gene sequences in the current study with available sequences in the database. Our findings provide key insights into the origin, expansion and migration patterns of the black rat in India, Eurasia and in the Indian Ocean region. The study reconfirms India as the centre of origin to the global R. rattus population and identifies the Gangetic region and East coast as focal points of ancestral R. rattus populations in India. Our newly generated data provide genetic evidence in support of the origin of commensalism in R. rattus in the ancient Indus Valley region and the further spread of these commensal house rats by medieval Arab sailors in the Indian Ocean and the Mediterranean. [ABSTRACT FROM AUTHOR]

Published

2019

5. Sexual-size dimorphism in two synanthropic rat species: Comparison and eco-evolutionary perspectives.

Author

Mori, Emiliano, Iacucci, Angela, Castiglia, Riccardo, and Santini, Luca

Subjects

*DIMORPHISM in animals, *ANIMAL species, *BODY mass index, *TESTIS physiology, *HABITATS, RAT anatomy

Abstract

Sexual dimorphism is a common trait in many mammal species and sexual-size dimorphism (SSD) represents its commonest form. Rattus rattus and Rattus norvegicus are two cosmopolitan, polygynous species, for which a male-biased SSD has been anecdotally reported, but never quantified. In this work, we assessed the occurrence of SSD in both species and we tested the hypothesis that R. norvegicus has a more evident SSD than R. rattus , in agreement with their body mass-testes size ratio, intra-male aggressive behaviour and mating system. We collected weight data of 40 (20 males and 20 females) adult R. rattus and 27 (13 males and 14 females) adult R. norvegicus from 4 localities in Italy characterized by different habitat typologies. We used a t -test based on Bayesian inference to compare the SSD in both species. The results were in line with our expectation supporting a higher SSD in R. norvegicus than in R. rattus. This study aimed to identify the eco-evolutionary drivers of SSD, and provides further support to well established life history theories on two widely distributed rodent species. [ABSTRACT FROM AUTHOR]

Published

2017

6. Reinvasion by ship rats ( Rattus rattus) of forest fragments after eradication.

Author

King, Carolyn, Innes, John, Gleeson, Dianne, Fitzgerald, Neil, Winstanley, Tom, O'Brien, Barry, Bridgman, Lucy, and Cox, Neil

Abstract

Reinvasions provide prime examples of source-sink population dynamics, and are a major reason for failure of eradications of invasive rats from protected areas. Yet little is known about the origins and population structure of the replacement population compared with the original one. We eradicated eight populations of ship rats from separate podocarp-broadleaved forest fragments surrounded by open grassland (averaging 5.3 ha, scattered across 20,000 ha) in rural landscapes of Waikato, New Zealand, and monitored the- re-establishment of new populations. Rats were kill-trapped to extinction during January to April 2008, and then again after reinvasion in April-May (total n = 517). Rats carrying Rhodamine B dye (n = 94), available only in baits placed 1-2 months in advance in adjacent source areas located 170-380 m (average 228 m edge to edge) away, appeared in 7 of the 8 fragments from the first day of the first eradication. The distribution of age groups, genders and proportions of reproductively mature adults (more immature juvenile males and fewer fully mature old females) was different among marked rats compared with all other rats ( P = 0.001, n = 509); in all rats caught on days 7+ of the first eradication compared with on days 1-6 ( P = 0.000); and in the total sample collected in fragments by trapping to and after local extinction compared with in brief, fixed-schedule sampling of populations in continuous forests ( P = 0.000). Genotyping of 493 carcases found no significant population-level differentiation among the 8 fragments, confirming that the rats in all fragments belonged to a single dynamic metapopulation. Marked rats of both genders travelled up to 600 m in a few days. Conservation of forest fragments is compromised by the problem that ship rats cannot be prevented from rapidly reinvading any cleared area after eradication. [ABSTRACT FROM AUTHOR]

Published

2011

7. Are introduced rats ( Rattus rattus) both seed predators and dispersers in Hawaii?

Author

Shiels, Aaron B. and Drake, Donald R.

Abstract

Invasive rodents are among the most ubiquitous and problematic species introduced to islands; more than 80% of the world's island groups have been invaded. Introduced rats (black rat, Rattus rattus; Norway rat, R. norvegicus; Pacific rat, R. exulans) are well known as seed predators but are often overlooked as potential seed dispersers despite their common habit of transporting fruits and seeds prior to consumption. The relative likelihood of seed predation and dispersal by the black rat, which is the most common rat in Hawaiian forest, was tested with field and laboratory experiments. In the field, fruits of eight native and four non-native common woody plant species were arranged individually on the forest floor in four treatments that excluded vertebrates of different sizes. Eleven species had a portion (3-100%) of their fruits removed from vertebrate-accessible treatments, and automated cameras photographed only black rats removing fruit. In the laboratory, black rats were offered fruits of all 12 species to assess consumption and seed fate. Seeds of two species (non-native Clidemia hirta and native Kadua affinis) passed intact through the digestive tracts of rats. Most of the remaining larger-seeded species had their seeds chewed and destroyed, but for several of these, some partly damaged or undamaged seeds survived rat exposure. The combined field and laboratory findings indicate that many interactions between black rats and seeds of native and non-native plants may result in dispersal. Rats are likely to be affecting plant communities through both seed predation and dispersal. [ABSTRACT FROM AUTHOR]

Published

2011

8. Rickettsial pathogens in the tropical rat mite Ornithonyssus bacoti (Acari: Macronyssidae) from Egyptian rats (Rattus spp.).

Author

Reeves, Will K., Loftis, Amanda D., Szumlas, Daniel E., Abbassy, Magda M., Helmy, Ibrahim M., Hanafi, Hanafi A., and Dasch, Gregory A.

Subjects

MITES, RICKETTSIALES, RATTUS norvegicus, RATTUS rattus, BARTONELLA, COXIELLA burnetii, RICKETTSIA, POLYMERASE chain reaction

Abstract

We collected and tested 616 tropical rat mites (Ornithonyssus bacoti (Hirst)) from rats (Rattus norvegicus (Berkenhout) and R. rattus (Linnaeus)) throughout 14 governorates in Egypt and tested DNA extracts from pools of these mites for Bartonella spp., Coxiella burnetii, and Rickettsia spp. by PCR amplification and sequencing. Three different mite-associated bacterial agents, including one Bartonella and two Rickettsia spp., were detected in eight pools of mites. Further research could demonstrate the vector potential of mites and pathogenicity of these agents to humans or animals. [ABSTRACT FROM AUTHOR]

Published

2007

9. Inactive ribosomal cistrons are spread throughout the B chromosomes of Rattus rattus (Rodentia, Muridae). Implications for their origin and evolution.

Author

Stitou, S., Díaz de la Guardia, R., Jiménez, R., and Burgos, M.

Abstract

In-situ hybridization with a rDNA probe has demonstrated the presence of non-transcribed ribosomal genes in the B chromosomes of the black rat Rattus rattus. To test whether methylation of ribosomal DNA present in the B chromosomes could account for their inactivation, we performed in-situ digestions and Southern analyses of DNA digested with the isoschizomers MspI and HpaII. Our results suggest that the accessory chromosomes of this species have originated from one of the smaller NOR-carrying chromosome pairs. In the course of evolution, repetitive sequences invaded this supernumerary element and its ribosomal DNA content was dispersed throughout the chromosome and inactivated by heterochromatinization and methylation. [ABSTRACT FROM AUTHOR]

Published

2000

10. Illegal waste sites as potential micro foci of Mediterranean Leishmaniasis

Author

Katja Kalan, Vladimir Ivović, S Zupan, and VE Buzan

Subjects

Apodemus agrarius, Veterinary medicine, Rodent, biology, Vermin, Leishmaniasis, biology.organism_classification, medicine.disease, Leishmania, Mediterranean Basin, Infectious Diseases, Parasitology, Black rat, biology.animal, medicine, Oral Presentation

Abstract

Apart from being against the law, illegal waste dumping also poses a threat to human health and to the environment. Solid and decomposing waste is an ideal breeding ground for a number of rodents, insects, and other vermin that pose a health risk through the spread of infectious diseases. The main objective of this study was to survey disease vectors and rodents for the presence of Leishmania sp. from illegal waste sites along the Istrian Peninsula in Slovenia and Croatia. The entomological and rodent survey was carried out between April 2011 and May 2013, at 12 locations, considering only illegal waste sites which consist of at least 2 m3 of garbage. A total of 119 specimens of Phlebotomine sandflies were collected. Five species were identified as follow: Sergentomyia minuta (48.7%), Phlebotomus perniciosus (30.3%), P. papatasi (13.4%), P. neglectus (5%) and P. mascitii (2.6%). Additionally, 173 small rodents were trapped at the same sites including following species: Rattus rattus (3.5%), Mus musculus (44%), Apodemus agrarius (27%), A. flavicollis (15%) and A. sylvaticus (10.5%). A geospatial analysis software ArcView was used to map the distribution of both vectors and rodents. Sandflies and rodents were screened using a molecular probe to amplify an approximately 120 bp fragment of the kinetoplast DNA (kDNA) minicircle for the detection of Leishmania spp. parasites. While not recorded in the tested sandflies, L. infantum DNA was detected in the spleen of one juvenile black rat (R. rattus). Despite few published records on Leishmania spp. infection in black rats, the addition of our record highlights the importance for further investigation into the frequency and distribution of such occurrences so that we may better classify the role of rodents as potential reservoirs of leishmaniasis in the Mediterranean basin.