Your search keyword '"Kaur, Taranjit"' showing total 3 results

1. Molecular diversity of entodiniomorphid ciliate Troglodytella abrassarti and its coevolution with chimpanzees.

Author

Vallo, Peter, Petrželková, Klára J., Profousová, Ilona, Petrášová, Jana, Pomajbíková, Katerina, Leendertz, Fabian, Hashimoto, Chie, Simmons, Nicol, Babweteera, Fred, Machanda, Zarin, Piel, Alexander, Robbins, Martha M., Boesch, Christophe, Sanz, Crickette, Morgan, David, Sommer, Volker, Furuichi, Takeshi, Fujita, Shiho, Matsuzawa, Tetsuro, and Kaur, Taranjit

Subjects

ENTODINIOMORPHIDA, COEVOLUTION, CHIMPANZEES, PHYLOGENY, APES, ZOOGEOGRAPHY, BIODIVERSITY

Abstract

The entodiniomorphid ciliate Troglodytella abrassarti is a colonic mutualist of great apes. Its host specificity makes it a suitable model for studies of primate evolution. We explored molecular diversity of T. abrassarti with regard to large geographical distribution and taxonomic diversity of its most common host, the chimpanzee. We found a very low diversification of T. abrassarti in chimpanzees across Africa. Distribution of two types of T. abrassarti supports evolutionary separation of the Western chimpanzee, P. t. verus, from populations in Central and East Africa. Type I T. abrassarti is probably a derived form, which corresponds with the Central African origin of chimpanzees and a founder event leading to P. t. verus. Exclusivity of the respective types of T. abrassarti to Western and Central/Eastern chimpanzees corroborates the difference found between an introduced population of presumed Western chimpanzees on Rubondo Island and an autochthonous population in mainland Tanzania. The identity of T. abrassarti from Nigerian P. t. ellioti and Central African chimpanzees suggests their close evolutionary relationship. Although this contrasts with published mtDNA data, it corroborates current opinion on the exclusive position of P. t. verus within the chimpanzee phylogeny. The type of T. abrassarti occurring in Central and East African common chimpanzee was confirmed also in bonobos. This may point to the presence of an ancestral Type II found throughout the Lower Guinean rainforest dating back to the common Pan ancestor. Alternatively, the molecular uniformity of T. abrassarti may imply a historical overlap of the species' distribution ranges. Am J Phys Anthropol, 2012. © 2012 Wiley Periodicals, Inc. [ABSTRACT FROM AUTHOR]

Published

2012

2. Up close and personal with Mahale chimpanzees—a path forward.

Author

Kaur, Taranjit and Singh, Jatinder

Subjects

*APES, *DISEASE outbreaks, *ECOTOURISM, *VIRUSES, *LABORATORIES, *INFECTIOUS disease transmission, *VIRUS diseases, *DISEASES

Abstract

The article discusses the disastrous respiratory diseases occurring on chimpanzees in Western Tanzania. As noted in the article, facts from the 2003, 2005 and 2006 outbreaks show that a virus circulating in chimpanzees is believe to be a human-related chimpanzee metapneumovirus (hrcMPV). Laboratories using the latest technologies such as the EpiCenters were built within the vicinity of the wild apes to monitor the infectious disease affecting ecotourism in the countries harboring wildlife.

Published

2008

3. Descriptive urological record of chimpanzees ( Pan troglodytes) in the wild and limitations associated with using multi-reagent dipstick test strips.

Author

Kaur, Taranjit and Huffman, Michael A.

Subjects

*CHIMPANZEES, *URINALYSIS, *PAN (Mammals), *APES, *VETERINARY medicine

Abstract

Ten urine chemistry parameters were measured on 74 voided urine samples from 34 wild chimpanzees ( Pan troglodytes). Multi-reagent urine dipstick tests were performed and results determined using colorimetric scales. Urine pH measured between 8 and 9 units in 91% of the chimpanzees. Test pads detected protein, erythrocytes, leukocyte esterase activity, and nitrites, ketones and bilirubin in 47, 32, 29, and <10% of the chimpanzees, respectively. No apparent association between positive test results for blood in adult females and reproductive status was found. Overall, 17 of the 34 chimpanzees had positive urine test results for protein, hemoglobin, erythrocytes, leukocytes, nitrites, ketones, and/or bilirubin. Dipstick urinalysis alone is an unreliable method for assessing health and physiological status of wild chimpanzees. However, if combined with other diagnostics it could prove to be a valuable health-monitoring tool. Limitations associated with this methodology need to be considered when interpreting urinary dipstick test results. [ABSTRACT FROM AUTHOR]

Published

2004