BackgroundBitter taste perception is essential for species with selective food intake, enabling them to avoid unpalatable or toxic items. Previous studies noted a marked variation in the number of TAS2R genes among various vertebrate species, but the underlying causes are not well understood. Laurasiatherian mammals have highly diversified dietary niche, showing repeated evolution of specialized feeding preferences in multiple lineages and offering a unique chance to investigate how various feeding niches are associated with copy number variation for bitter taste receptor genes.ResultsHere we investigated the evolutionary trajectories of TAS2Rs and their implications on bitter taste perception in whole-genome assemblies of 41 Laurasiatherian species. The number of intact TAS2Rs copies varied considerably, ranging from 0 to 52. As an extreme example of a narrow dietary niche, the Chinese pangolin possessed the lowest number of intact TAS2Rs (n = 2) among studied terrestrial vertebrates. Marine mammals (cetacea and pinnipedia), which swallow prey whole, presented a reduced copy number of TAS2Rs (n = 0-5). In contrast, independent insectivorous lineages, such as the shrew and insectivorous bats possessed a higher TAS2R diversity (n = 52 and n = 20-32, respectively), exceeding that in herbivores (n = 9-22) and omnivores (n = 18-22).ConclusionsBesides herbivores, insectivores in Laurasiatheria tend to have more functional TAS2Rs in comparison to carnivores and omnivores. Furthermore, animals swallowing food whole (cetacean, pinnipedia and pangolin) have lost most functional TAS2Rs. These findings provide the most comprehensive view of the bitter taste gene repertoire in Laurasiatherian mammals to date, casting new light on the relationship between losses and gains of TAS2Rs and dietary specialization in mammals.Electronic supplementary materialThe online version of this article (doi:10.1186/s12983-016-0161-1) contains supplementary material, which is available to authorized users.
Summary 1.Comparative studies of captive primates and carnivores have shown a positive correlation between total white blood cell (WBC) counts and the level of inferred mating promiscuity (e.g. using testes mass). This correlation has been interpreted to support the 'sexually transmitted diseases (STDs)' hypothesis, which states that differential spread of STDs is caused by variation in mating behaviour which shapes baseline aspects of the immune system in mammals. 2. In the present study, we tested the STDs hypothesis in rodents using 28 species from freeranging and 9 species from captive populations. We compiled data set for the 9 studies of captive rodent populations from the International Species Information System (ISIS) and gathered 136 studies of wild populations from the literature. 3. Using phylogenetic generalized least-squares statistical models considering non-independence resulting from shared ancestry, we confirmed that species with greater adult body mass averaged across sexes had elevated total WBC and differential WBC (neutrophils and lymphocytes) counts and that captive animals presented higher lymphocyte counts than free-ranging ones. 4. However, we found that the total and differential WBC counts did not covary with the residual testes mass -a correlate of mating promiscuity. The results suggest that selection pressures caused by STDs may strongly vary among taxonomic groups. In order to determine the drivers of immunological variation among mammals, further comparative immunological studies including a wide range of taxonomic groups and socio-ecological variables should be performed and we recommend doing so by primarily focusing on free-ranging animals.
The remaining population of Macaca mulatta tcheliensis, approximately 3,000 individuals, is currently confined to the southern region of Mount Taihangshan, northern China. Using data collected from February 2003 to November 2012, we examined female reproductive characteristics in a seasonally food supplemented free-ranging group of M. m. tcheliensis (Wangwu 1, WW-1), inhabiting the Taishangshan Macaque National Nature Reserve (TMNNR), Jiyuan, China. We tested a series of predictions regarding the degree to which M. m. tcheliensis is best considered as a "strict income breeder," a "relaxed income breeder" or a "capital breeder." This group was comprised 18 adult females who produced 64 infants over the 10-year study period. In our study group (WW-1) adult female macaques gave birth to an average of 0.71 ± 0.26 infants per year. Infant mortality was 13.4 ± 19.3%. The age at first birth for mothers was 4.9 ± 0.5 years old. The mean inter-birth interval (IBI) was 15.4 ± 4.9 months. Based on the fact M. m. tcheliensis is a strictly seasonal breeder (76.6% of births occurred between April and May) with infants born during a time of the year when food availability appears to be high, and that their IBI is intermediate in length compared with other macaque populations, our results suggest that M. m. tcheliensis follows a birth pattern most consistent with a "relaxed income breeder" strategy.
Placentophagia or the consumption of the afterbirth is reported in many primate species, whereas cannibalism is a relatively rare event. Based on our field observations over the course of 3 years, we present evidence of placentophagia and mother-infant cannibalism in a free-ranging population of the Taihangshan macaque, Macaca mulatta tcheliensis, in the Mt. Taihangshan area, Jiyuan, Henan, China. We documented 1 case in which a mother consumed the afterbirth of her infant. In a second instance, we observed a fresh placenta discarded on the ground by an unknown individual. We also present a description of the first documented instance of mother-infant cannibalism in the same group of free-ranging rhesus macaques.
Lateralized behavior is considered an observable phenotype of cerebral functional asymmetry and has been documented in many mammalian species. In the present study, we examined evidence of lateralization in neonatal nipple contact, maternal cradling, and the relationship between these two behaviors during the first 12 weeks of life in wild Taihangshan macaques (Macaca mulatta tcheliensis). The results showed that across our sample of nine mother-infant dyads: (1) Seven of nine neonates
Sex allocation theory predicts the optimal investment to male and female offspring. However, a biased sex ratio requires explanations as to why the deviation occurs. Rhesus macaque (Macaca mulatta) is the most widely distributed nonhuman primate species and the Taihangshan macaque (Macaca mulatta tcheliensis) occupies the northern limit of all rhesus macaque natural populations worldwide. We observed one macaque troop (Wangwu-1 [WW-1]) inhabiting Taihangshan Macaque National Nature Reserve and recorded all birth events and the sex of newborn macaques from 2004 to 2013. Our aim was to apply the Trivers-Willard hypothesis to this free-ranging rhesus macaque troop, and to understand the relationship between climatic parameters (precipitation and temperature) and birth sex ratio. We found that the total newborn macaques showed a female-biased sex ratio at birth in the WW-1 troop, but there were no significant biased birth sex ratios in all matriarchs and in high-ranking and middle-ranking matrilineal units. However, the low-ranking macaque matrilineal unit was significantly female-biased. Moreover, we found that the annual precipitation of the previous year was positively associated with the birth sex ratio, and there was an interactive effect of troop size and current winter temperature on the birth sex ratio. The underlying mechanisms for the effects of social and climatic factors on birth sex ratio could be complex, and we discuss several plausible explanations.
Background: Within multi-male and multi-female mammalian societies, paternity assignment is crucial for evaluating male reproductive success, dominance hierarchy, and inbreeding avoidance. It is, however, difficult to determine paternity because of female promiscuity during reproduction. Noninvasive molecular techniques (e.g., fecal DNA) make it possible to match the genetic father to his offspring. In the current study, a troop of free-ranging Taihangshan macaques (Macaca mulatta tcheliensis) in Mt. Taihangshan area, Jiyuan, China, was selected for studying the paternity. We successfully screened a set of microsatellite loci from fecal DNA and evaluated the efficiency of these loci for paternity testing using clearly recorded data of maternity. Results:The results showed that: 1) ten loci out of 18 candidate microsatellite loci were amplified successfully in the fecal samples of Taihangshan macaques. The error probability in maternity assignments and paternity testing was very low as indicated by their power of discrimination (0.70 to 0.95), power of exclusion (0.43 to 0.84), and the values of polymorphic information content ranging from 0.52 to 0.82; 2) the combined probability of exclusion in paternity testing for ten qualified loci was as high as 99.999%, and the combined probability of exclusion reached 99.99% when the seven most polymorphic loci were adopted; 3) the offspring were assigned to their biological mother correctly and also matched with their genetic father. Conclusions:We concluded that the ten polymorphic microsatellite loci, especially a core set of seven most polymorphic loci, provided an effective and reliable tool for noninvasive paternity testing in free-ranging rhesus macaques.
The general development of immune response in the short and long term is a product of the antigenic environment in which a species resides. Colonization of a novel antigenic environment by a species would be expected to alter the immune system. Animals that successfully adapt their immune responses will successfully colonize new locations. However, founder events associated with colonization by limited numbers of individuals from a source population will constrain adaptability. How these contradicting forces shape immunity in widely distributed species is unknown. The western house mouse (Mus musculus domesticus) spread globally from the Indo-Pakistani cradle, often in association with human migration and settlement. In the present study, we tested the hypothesis that wild-derived outbred laboratory populations of house mice from their original range (Iran) and historically recent European invasive populations (from France and Germany) present differences in immune functional diversity corresponding to recent historical founder events in Europe and movement to novel antigenic environments. We found that (1) European mice had lower total white blood cell (WBC) counts but higher immunoglobulin E concentrations than their Iranian counterparts, and (2) there were no significant differences in the measured immunological parameters among European populations. The results indicate that founder events in European mice and selection pressure exerted by the composition of local parasitic helminth communities underlie the observed patterns.
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