Institution
University of Antananarivo
Education•Antananarivo, Madagascar•
About: University of Antananarivo is a education organization based out in Antananarivo, Madagascar. It is known for research contribution in the topics: Population & Lemur. The organization has 1561 authors who have published 1703 publications receiving 30922 citations. The organization is also known as: Tananarive University & Antananarivo University.
Topics: Population, Lemur, Biodiversity, Animal ecology, Species richness
Papers published on a yearly basis
Papers
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TL;DR: It is indicated that species diversity of Malagasy forest-dwelling birds may be greater than currently recognized, suggesting an urgent need for further studies to quantify biodiversity in Madagascar's rapidly disappearing native forests.
19 citations
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TL;DR: Assessing the potential of NIRS for determining the abundance and diversity of soil nematodes in a set of 103 clayey topsoil samples collected in 2005 and 2006 from agricultural soils in the highlands of Madagascar suggested that NirS predictions regarding nematofauna depended on constituents of both nematode and preys’ food.
Abstract: Studying soil nematofauna provides useful information on soil status and functioning but requires high taxonomic expertise Near infrared reflectance (NIR) spectroscopy (NIRS) has been reported to allow fast and inexpensive determination of numerous soil attributes Thus the present study aimed at assessing the potential of NIRS for determining the abundance and diversity of soil nematodes in a set of 103 clayey topsoil samples collected in 2005 and 2006 from agricultural soils in the highlands of Madagascar The morphological characterization of soil nematofauna involved extraction through elutriation then counting under binoculars and identification at family or genus level using microscopy, on ca 150-g fresh soil samples Taxa were assigned to five trophic groups, namely bacterial feeders, fungal feeders, obligate plant feeders, facultative plant feeders, and omnivores and predators (together) In addition, four ecological indexes were calculated: the Enrichment index, Structure index, Maturity index, and Plant parasitic index Oven-dried (40 °C) Examining wavelengths that contributed most to NIRS predictions, and chemical groups they have been assigned to, suggested that NIRS predictions regarding nematofauna depended on constituents of both nematodes and preys’ food Predictions were thus based on both nematofauna and soil organic properties reflected by nematofauna
19 citations
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TL;DR: Results demonstrate that rickettsiae should be considered as potential agents of undifferentiated fever in Madagascar, and two flea-associated Rickettsia pathogens, R. typhi and R. felis, are present near or in homes.
Abstract: Rickettsiae are obligate intracellular bacteria responsible for many febrile syndromes around the world, including in sub-Saharan Africa. Vectors of these pathogens include ticks, lice, mites and fleas. In order to assess exposure to flea-associated Rickettsia species in Madagascar, human and small mammal samples from an urban and a rural area, and their associated fleas were tested. Anti-typhus group (TGR)- and anti-spotted fever group rickettsiae (SFGR)-specific IgG were detected in 24 (39%) and 21 (34%) of 62 human serum samples, respectively, using indirect ELISAs, with six individuals seropositive for both. Only two (2%) Rattus rattus out of 86 small mammals presented antibodies against TGR. Out of 117 fleas collected from small mammals, Rickettsia typhi, a TGR, was detected in 26 Xenopsylla cheopis (24%) collected from rodents of an urban area (n = 107), while two of these urban X. cheopis (2%) were positive for Rickettsia felis, a SFGR. R. felis DNA was also detected in eight (31%) out of 26 Pulex irritans fleas. The general population in Madagascar are exposed to rickettsiae, and two flea-associated Rickettsia pathogens, R. typhi and R. felis, are present near or in homes. Although our results are from a single district, they demonstrate that rickettsiae should be considered as potential agents of undifferentiated fever in Madagascar.
19 citations
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TL;DR: Tephritid species were generally more abundant during the hot and rainy seasons than during the cold and dry seasons, suggesting the occurrence of climatic niche partitioning between the two species.
Abstract: Ten economically important species belonging to the Tephritidae have been recorded in Union of the Comoros (an island nation off the coast of East Africa). Little is known about the distribution of these species and how they are affected by climatic factors in the Comoros archipelago. The main objectives of this study were to characterize: (i) the population dynamics of tephritid fruit flies in relation to season and host fruit availability and (ii) the geographic distribution of tephritids in relation to temperature and rainfall. The study was conducted during 2 years at 11 sites on three islands (Grande Comore, Anjouan, and Moheli) in the archipelago. The site elevations ranged from 55 to 885 m a.s.l. At each site, flies were collected weekly in eight traps (four different lures, each replicated twice). Fruit phenology was also recorded weekly. The dominant tephritid species detected was the invasive Bactrocera dorsalis Hendel followed by Ceratitis capitata Wiedemann. Tephritid species were generally more abundant during the hot and rainy seasons than during the cold and dry seasons. Bactrocera dorsalis numbers were higher on Grande Comore than on the two other islands. On Anjouan and Moheli, B. dorsalis numbers were very low in 2014 but sharply increased in 2015, suggesting a recent invasion of these islands. Abundances were significantly related to the fruiting of mango, strawberry guava, and guava for B. dorsalis and to the fruiting of mango, guava, and mandarin for C. capitata. Bactrocera dorsalis was more abundant in hot and humid low-altitude areas, while C. capitata was more abundant in dry medium-altitude areas, suggesting the occurrence of climatic niche partitioning between the two species.
19 citations
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TL;DR: The ploughshare tortoise has been estimated to have a population of c. 500 adults and subadults in 2014 and 2015 as mentioned in this paper, respectively, and the number of trafficked tortoises has increased sharply since 2010.
Abstract: The illegal wildlife trade is driving declines in populations of a number of large, charismatic animal species but also many lesser known and restricted-range species, some of which are now facing extinction as a result. The ploughshare tortoise Astrochelys yniphora, endemic to the Baly Bay National Park of north-western Madagascar, is affected by poaching for the international illegal pet trade. To quantify this, we estimated population trends during 2006–2015, using distance sampling surveys along line transects, and recorded national and international confiscations of trafficked tortoises for 2002–2016. The results suggest the ploughshare tortoise population declined > 50% during this period, to c. 500 adults and subadults in 2014–2015. Prior to 2006 very few tortoises were seized either in Madagascar or internationally but confiscations increased sharply from 2010. Since 2015 poaching has intensified, with field reports suggesting that two of the four subpopulations are extinct, leaving an unknown but almost certainly perilously low number of adult tortoises in the wild. This study has produced the first reliable population estimate of the ploughshare tortoise and shows that the species has declined rapidly because of poaching for the international pet trade. There is an urgent need for increased action both in Madagascar and along international trade routes if the extinction of the ploughshare tortoise in the wild is to be prevented.
19 citations
Authors
Showing all 1572 results
Name | H-index | Papers | Citations |
---|---|---|---|
Patricia C. Wright | 49 | 156 | 7970 |
Marc Lemaire | 48 | 399 | 9317 |
Steven M. Goodman | 39 | 249 | 7256 |
Patrick Mavingui | 37 | 114 | 4914 |
Elise Buisson | 31 | 130 | 3394 |
Jean-Michel Heraud | 29 | 124 | 3535 |
Steven M. Goodman | 28 | 77 | 4414 |
Florian Marks | 27 | 123 | 2844 |
L. Rakotondravohitra | 25 | 41 | 2490 |
Jonah Ratsimbazafy | 23 | 74 | 2174 |
Jérôme Ballet | 22 | 143 | 1741 |
Carine E. Chan-Thaw | 22 | 49 | 1809 |
Lydie Chapuis-Lardy | 22 | 46 | 2408 |
Arsène Ratsimbasoa | 21 | 58 | 1767 |
R. Raboanary | 20 | 29 | 2032 |