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4. Differences in on-ground and aloft conditions explain seasonally different migration paths in Demoiselle crane

Author

Galtbalt, Batbayar, Batbayar, N, Sukhbaatar, T, Vorneweg, B, Heine, G, Müller, U, Wikelski, M, Klaassen, Marcel, Galtbalt, Batbayar, Batbayar, N, Sukhbaatar, T, Vorneweg, B, Heine, G, Müller, U, Wikelski, M, and Klaassen, Marcel

Abstract

Background: Although some migratory birds may take different routes during their outbound and inbound migration, the factors causing these differential migrations to and from the breeding grounds, have rarely been investigated.In Northeast Asia, Demoiselle crane (Anthropoides virgo) performs one of the most extreme “loop” migrations known to date. During outbound migration, they cross the Himalayas to non-breeding sites in northwest India. Contrastingly, during inbound migration to the breeding grounds, they fly around the western end of the Himalayas. We hypothesise that differences in prevailing environmental conditions aloft and/or on-ground during both seasonal migrations are at the core of this phenomenon. Methods: Based on the tracking data of 16 individuals of tagged Demoiselle crane, we compared conditions during actual migration with those of simulated “reverse” migration (i.e. by adding 180 degrees to the flight direction and adding and subtracting half a year to the timestamps of outbound and inbound migration, respectively). Results: The comparison of actual and simulated “reverse” migration indicated that cranes would have encountered poorer aloft (wind support and thermal uplift) and on-ground conditions (temperature) if they had migrated in a reverse outbound migration and poorer on-ground conditions (Normalised Difference Vegetation Indexes [NDVI]) if they had migrated in a reverse inbound direction. Conclusions: Our analyses suggest that both on-ground and aloft conditions play a key role in explaining Demoiselle cranes’ loop migration, during the periods that they chose to use these alternative routes. Knowledge on the determinants of (differential) migration routes allow predicting migration decisions and may be critical in mitigating global change effects on animal migrations.

Published
2022

6. Variation in Electrocution Rate and Demographic Composition of Saker Falcons Electrocuted at Power Lines in Mongolia

Author

Dixon, A, Batbayar, N, Bold, B, Davaasuren, B, Erdenechimeg, T, Galtbalt, Batbayar, Tsolmonjav, P, Ichinkhorloo, S, Gunga, A, Purevochir, G, Rahman, ML, Dixon, A, Batbayar, N, Bold, B, Davaasuren, B, Erdenechimeg, T, Galtbalt, Batbayar, Tsolmonjav, P, Ichinkhorloo, S, Gunga, A, Purevochir, G, and Rahman, ML

Abstract

We examined variation in the number and demographic composition of electrocuted Saker Falcons (Falco cherrug) in Mongolia. We found 1721 electrocuted Saker Falcons during our surveys of multiple power lines in 2013-2015 and 2018. At a single power line surveyed over a 16-mo period in 2013-2014, the lowest electrocution rates occurred from December to March, with a rise in April coinciding with the return of migrant juveniles from their wintering areas. Electrocution rates rose sharply during juvenile post-fledging dispersal, and then declined in October as migrants departed. Monthly changes in electrocution rate and age profile reflected predicted variation in abundance and age structure of the local Saker Falcon population. We found that 88% of electrocuted Saker Falcons were juveniles, mostly killed during their first calendar year. The sex ratio of electrocuted juveniles fledged in the 2013 cohort (hatch-year birds) was significantly female-biased, in contrast to the equal sex ratio of the 2012 juvenile cohort (second calendar-year birds) killed in the same year (2013). Sex ratio of the 2013 juvenile cohort did not differ significantly from parity at other power lines across Mongolia, indicating that sex ratio of electrocuted juveniles can vary in time and space. The sex of electrocuted adults, predominantly males, and an age profile of breeding Saker Falcons that includes younger females suggests a possible male-biased sex ratio among adult Saker Falcons in Mongolia. Given that large numbers of endangered Saker Falcons are electrocuted annually in Mongolia, our study suggests electrocution may be an important driver of demographic trends that can potentially result in population declines.

Published
2020

8. Alkaloids of Oxytropis. I

Author

Batsuren, D., Tsetsegmaa, S., Batbayar, N., Dungerdorzh, D., Akhmedzhanova, V. I., Mil'grom, Yu. M., Tashkes, Ya. V., and Ibragimov, A. A.

Published
1992
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10. F1 Swan Goose Anser cygnoides

Author

Cao, Lei, Batbayar, N., Goroshko, O.A., Choi, C.-Y., Lee, H., Fox, Anthony David, Fox, A.D., and Leafloor, J.O.

Published
2018

13. The status of goose populations in East Asia

Author

Cao, Lei, Fox, Anthony David, Koyama, K, Kim, H.J., Kondratyev, A, Batbayar, N, Syroechkovskiy, E.E., Rozenfeld, S, Kurechi, M, Lee, H, Goroshko, O, and Choi, C.Y.

Abstract

East Asian goose populations are amongst the least studied in the Northern Hemisphere but available evidence suggests they have shown the most rapid declines of any in the world. Based on various sources of information, we present an overview of the status of seven goose populations in East Asia. Wintering numbers of the White-fronted Goose (Anser albifrons) have decreased in China, while those in Japan and Korea have increased since the early 2000s, resulting in a current population of approximately 275,000. The Lesser White-fronted Goose (A. erythropus) has declined greatly in numbers and the contraction of its wintering range has continued, making it extremely vulnerable. The almost exclusively Chinese wintering range of the Swan Goose (A. cygnoides) has been constricted to fewer and fewer sites, but counts suggest more than the previously estimated 75,000 individuals. The Taiga Bean Goose (A. fabalis middendorffi ) remains poorly counted in China, but we estimate 50,000–70,000, based on coverage in Japan and Korea. The Tundra Bean Goose (A. serrirostris) population overwintering in Japan, Korea and China is estimated at 81,200–156,800, but the precise number remains unknown, especially in China, owing to the lack of racial defi nition. The Greylag Goose (A. anser) is estimated to number 50,000–100,000, but has shown dramatic declines in the last 50 years; its wintering area is largely confi ned to Eastern China. The Brent goose (Branta bernicla) population is estimated at 2,500–3,000, if individuals wintering in China are of the same provenance as in Japan and Korea, but true population size and trends remain unknown, owing to the lack of winter surveys in China. In summary, the true population size and trends of all seven species remain unknown; all of them, especially the ones in decline, would benefit from improved monitoring and flyway research. Only through improved systematic collaboration can we better understand the population dynamics of these species, and thus support more effective management and policy-making.

Published
2015

16. Geographic variation in bar-headed geese Anser Indicus : connectivity of wintering areas and breeding grounds across a broad front

Author

Takekawa, J. Y., Heath, S. R., Douglas, D. C., Perry, W. M., Javed, S., Newman, S. H., Suwal, R. N., Rahmani, A. R., Choudhury, B. C., Diann Prosser, Yan, B., Hou, Y., Batbayar, N., Natsagdorj, T., Bishop, C. M., Butler, P. J., Frappell, P. B., Milsom, W. K., Scott, G. R., Hawkes, L. A., and Wikelski, M.

Subjects
Central Asian Flyway, ddc:570, Anserini, Himalaya, Satellite telemetry, Himalaya [gnd], Migration
Abstract

The connectivity and frequency of exchange between sub-populations of migratory birds is integral to understanding population dynamics over the entire species range. True geese are highly philopatric and acquire lifetime mates during the winter, suggesting that the number of distinct sub-populations may be related to the number of distinct wintering areas. In the Bar-headed Goose Anser Indicus, a species found exclusively in Central Asia, the connectivity between breeding and wintering areas is not well known. Their migration includes crossing a broad front of the Himalaya Cordillera, a significant barrier to migration for most birds. Many Bar-headed Geese fly to breeding areas on the Tibetan-Qinghai Plateau (TQP), the highest plateau in the world. From 2005 2008, 60 Bar-headed Geese were captured and marked with satellite transmitters in Nepal (n = 2), India (n = 6), China (n = 29), and Mongolia (n = 23) to examine their migration and distribution. Distinct differences were observed in their migration corridors and timing of movements, including an apparent leap-frog migration pattern for geese from Mongolia. Measurements of geese from Mongolia were larger than their counterparts from China, providing some evidence of morphological differences. Alteration of habitats in China, including the warming effects of climate change on glaciers increasing runoff to TQP wetlands, may be changing goose migration patterns and timing. With the exception of one individual, all geese from Qinghai Lake, China wintered in the southern TQP near Lhasa, and their increasing numbers in that region may be related to the effects of climate change and agricultural development. Thus, our findings document both morphological and geographical variation in sub-populations of Bar-headed Geese, but their resilience to environmental change may be lost if migratory short-stopping results in larger congregations restricted to a smaller number of wintering areas.

Published
2009

19. Exonic versus intronic SNPs: contrasting roles in revealing the population genetic differentiation of a widespread bird species

Author

Zhan, X, primary, Dixon, A, additional, Batbayar, N, additional, Bragin, E, additional, Ayas, Z, additional, Deutschova, L, additional, Chavko, J, additional, Domashevsky, S, additional, Dorosencu, A, additional, Bagyura, J, additional, Gombobaatar, S, additional, Grlica, I D, additional, Levin, A, additional, Milobog, Y, additional, Ming, M, additional, Prommer, M, additional, Purev-Ochir, G, additional, Ragyov, D, additional, Tsurkanu, V, additional, Vetrov, V, additional, Zubkov, N, additional, and Bruford, M W, additional

Published
2014
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20. The paradox of extreme high-altitude migration in bar-headed geeseAnser indicus

Author

Hawkes, L. A., primary, Balachandran, S., additional, Batbayar, N., additional, Butler, P. J., additional, Chua, B., additional, Douglas, D. C., additional, Frappell, P. B., additional, Hou, Y., additional, Milsom, W. K., additional, Newman, S. H., additional, Prosser, D. J., additional, Sathiyaselvam, P., additional, Scott, G. R., additional, Takekawa, J. Y., additional, Natsagdorj, T., additional, Wikelski, M., additional, Witt, M. J., additional, Yan, B., additional, and Bishop, C. M., additional

Published
2013
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21. Averting the extinction of bustards in Asia.

Author

COLLAR, N. J., BARAL, H. S., BATBAYAR, N., BHARDWAJ, G. S., BRAHMA, N., BURNSIDE, R. J., CHOUDHURY, A. U., COMBREAU, O., DOLMAN, P. M., DONALD, P. F., DUTTA, S., GADHAVI, D., GORE, K., GOROSHKO, O. A., HONG, C., JATHAR, G. A., JHA, R. R. S., JHALA, Y. V., KOSHKIN, M. A., and LAHKAR, B. P.

Subjects
GREAT bustard, WILDLIFE conservation, LESSER florican, SYPHEOTIDES, AGRICULTURAL intensification
Abstract

The inherent defencelessness against natural predators of bustards, which have relatively small bills and can neither perch in trees nor take refuge in water at night, renders them warier than other large-bodied birds. They are therefore dependent on large areas of little-disturbed, little-developed open country within which they can see and keep danger at a good distance. In Asia (here including Central Asia and Asian Russia), six species-Little Bustard Tefraxfefrax(IUCN global category Near Threatened), Great Bustard Otis tarda (Vulnerable), Asian Houbara Chlamydotis macqueenii (Vulnerable), Great Indian Bustard Ardeotis nigriceps (Critically Endangered), Bengal Florican Houbaropsis bengalensis (Critically Endangered) and Lesser Florican Sypheotides indicus (Endangered)-are already at serious risk of extinction. Great Bustard (of the nominate race) is struggling to survive in Asian Russia (<200 individuals), Kazakhstan (100-1,000) and China (maximum 52 seen in extensive surveys, 2014-2016), while in Asian Russia the eastern race dybowskii numbers just 380-430 (with only 5% in protected areas), fewer than 1,000 in Mongolia and 600 in China. Little Bustard is now largely restricted to Kazakhstan and westernmost Asian Russia and, although its status evidently improved in the 1990s with the post-Soviet abandonment of agriculture in Central Asia, re-intensification of farming is poised to cause new declines. Asian Houbara has a population claimed to be between 50,000-100,000 individuals, but is certainly declining despite largescale captive breeding programmes, with one study suggesting an offtake of 27.1% in the years 1994-2008 when the maximum sustainable level was 7.2%, and another indicating a current annual population decline in Uzbekistan of 9.4%. Great Indian Bustard (<200 birds in the most recent assessments, some in unviable habitat fragments), Bengal Florican (225-249 males estimated for South Asia; several hundred in Cambodia) and Lesser Florican (270 males estimated in 2017 compared with 1,103-1,765 in 1994-1999) are all in extreme trouble. Habitat change, chiefly in the form of rapid and widespread agricultural intensification (mechanisation, chemical applications, overgrazing, increased fencing and new choices of crop), but also involving infrastructure developments and disturbance, is probably the single biggest threat; only the semi-desert-dwelling Asian Houbara remains relatively unaffected. Hunting and poaching is a particularly serious threat to Great and Little Bustards and Asian Houbara, as well as Great Indian Bustard. Powerlines are known to have killed and injured birds of five of the six species and currently are the most serious cause of mortality to Great Indian Bustards, and problems caused by powerlines are anticipated to intensify for all species. Predation, most seriously by uncontrolled dogs, has been registered as a strong negative influence on Great Bustard and seems likely also to affect Little Bustard, Great Indian Bustard and both floricans.The long-term prospects of all six species are extremely bleak unless their conservation is prioritised and significantly strengthened. Adult survival and productivity are key to the health and recovery of bustard populations and both need to be improved through well-managed nature reserves (organised along flyways for long-distance migrants), plus: special protection of areas where males display and around which females are known or expected to breed; continuous unfragmented landscapes subsidised for low-impact farming with reduced grazing pressure within which the birds' social dynamics are unconstrained; the strategic planting of crops favoured by all species; strict and strong regulation of both powerlines and fencing within and beyond those landscapes; equally strict and strong control of hunting, poaching, dog predation and inappropriate grass-fires; and sustained campaigns of public awareness and engagement. The model of Castro Verde Special Protection Area in Portugal, where Great and Little Bustard numbers have multiplied and the livelihoods of communities have been supported through subsidy, provides evidence that practical solutions are possible. Detailed cataloguing of records and intensive biological research programmes are also needed for all species, together with support for local conservation groups and scrupulous review of all landscape-related plans to prevent adverse developments. Hunting of Asian Houbara must come under national systems of control based on an internationally agreed strategy. Governments must now prioritise the conservation of bustards as the burden of responsibilities is too great for NGOs to bear alone. International coordination and collaboration will, with high levels of communication, be crucial to success. The setting of time-bound targets is required to spur key staff into rapid action. [ABSTRACT FROM AUTHOR]

Published
2017

23. Exonic versus intronic SNPs: contrasting roles in revealing the population genetic differentiation of a widespread bird species.

Author

Zhan, X, Dixon, A, Batbayar, N, Bragin, E, Ayas, Z, Deutschova, L, Chavko, J, Domashevsky, S, Dorosencu, A, Bagyura, J, Gombobaatar, S, Grlica, I D, Levin, A, Milobog, Y, Ming, M, Prommer, M, Purev-Ochir, G, Ragyov, D, Tsurkanu, V, and Vetrov, V

Subjects
ANIMAL population genetics, SINGLE nucleotide polymorphisms, BIRD populations, GENOMES
Abstract

Recent years have seen considerable progress in applying single nucleotide polymorphisms (SNPs) to population genetics studies. However, relatively few have attempted to use them to study the genetic differentiation of wild bird populations and none have examined possible differences of exonic and intronic SNPs in these studies. Here, using 144 SNPs, we examined population genetic differentiation in the saker falcon (Falco cherrug) across Eurasia. The position of each SNP was verified using the recently sequenced saker genome with 108 SNPs positioned within the introns of 10 fragments and 36 SNPs in the exons of six genes, comprising MHC, MC1R and four others. In contrast to intronic SNPs, both Bayesian clustering and principal component analyses using exonic SNPs consistently revealed two genetic clusters, within which the least admixed individuals were found in Europe/central Asia and Qinghai (China), respectively. Pairwise D analysis for exonic SNPs showed that the two populations were significantly differentiated and between the two clusters the frequencies of five SNP markers were inferred to be influenced by selection. Central Eurasian populations clustered in as intermediate between the two main groups, consistent with their geographic position. But the westernmost populations of central Europe showed evidence of demographic isolation. Our work highlights the importance of functional exonic SNPs for studying population genetic pattern in a widespread avian species. [ABSTRACT FROM AUTHOR]

Published
2015
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28. The tonoplast-localized sucrose transporter in Populus (PtaSUT4) regulates whole-plant water relations, responses to water stress, and photosynthesis.

Author

Christopher J Frost, Batbayar Nyamdari, Chung-Jui Tsai, and Scott A Harding

Subjects
Medicine, Science
Abstract

The Populus sucrose (Suc) transporter 4 (PtaSUT4), like its orthologs in other plant taxa, is tonoplast localized and thought to mediate Suc export from the vacuole into the cytosol. In source leaves of Populus, SUT4 is the predominantly expressed gene family member, with transcript levels several times higher than those of plasma membrane SUTs. A hypothesis is advanced that SUT4-mediated tonoplast sucrose fluxes contribute to the regulation of osmotic gradients between cellular compartments, with the potential to mediate both sink provisioning and drought tolerance in Populus. Here, we describe the effects of PtaSUT4-RNA interference (RNAi) on sucrose levels and raffinose family oligosaccharides (RFO) induction, photosynthesis, and water uptake, retention and loss during acute and chronic drought stresses. Under normal water-replete growing conditions, SUT4-RNAi plants had generally higher shoot water contents than wild-type plants. In response to soil drying during a short-term, acute drought, RNAi plants exhibited reduced rates of water uptake and delayed wilting relative to wild-type plants. SUT4-RNAi plants had larger leaf areas and lower photosynthesis rates than wild-type plants under well-watered, but not under chronic water-limiting conditions. Moreover, the magnitude of shoot water content, height growth, and photosynthesis responses to contrasting soil moisture regimes was greater in RNAi than wild-type plants. The concentrations of stress-responsive RFOs increased in wild-type plants but were unaffected in SUT4-RNAi plants under chronically dry conditions. We discuss a model in which the subcellular compartmentalization of sucrose mediated by PtaSUT4 is regulated in response to both sink demand and plant water status in Populus.

Published
2012
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29. Migratory birds modulate niche tradeoffs in rhythm with seasons and life history.

Author

Yanco SW, Oliver RY, Iannarilli F, Carlson BS, Heine G, Mueller U, Richter N, Vorneweg B, Andryushchenko Y, Batbayar N, Dagys M, Desholm M, Galtbalt B, Gavrilov AE, Goroshko OA, Ilyashenko EI, Ilyashenko VY, Månsson J, Mudrik EA, Natsagdorj T, Nilsson L, Sherub S, Skov H, Sukhbaatar T, Zydelis R, Wikelski M, Jetz W, and Pokrovsky I

Subjects
Animals, Seasons, Animal Migration physiology, Birds physiology, Ecosystem
Abstract

Movement is a key means by which animals cope with variable environments. As they move, animals construct individual niches composed of the environmental conditions they experience. Niche axes may vary over time and covary with one another as animals make tradeoffs between competing needs. Seasonal migration is expected to produce substantial niche variation as animals move to keep pace with major life history phases and fluctuations in environmental conditions. Here, we apply a time-ordered principal component analysis to examine dynamic niche variance and covariance across the annual cycle for four species of migratory crane: common crane ( Grus grus , n = 20), demoiselle crane ( Anthropoides virgo , n = 66), black-necked crane ( Grus nigricollis , n = 9), and white-naped crane ( Grus vipio , n = 9). We consider four key niche components known to be important to aspects of crane natural history: enhanced vegetation index (resources availability), temperature (thermoregulation), crop proportion (preferred foraging habitat), and proximity to water (predator avoidance). All species showed a primary seasonal niche "rhythm" that dominated variance in niche components across the annual cycle. Secondary rhythms were linked to major species-specific life history phases (migration, breeding, and nonbreeding) as well as seasonal environmental patterns. Furthermore, we found that cranes' experiences of the environment emerge from time-dynamic tradeoffs among niche components. We suggest that our approach to estimating the environmental niche as a multidimensional and time-dynamical system of tradeoffs improves mechanistic understanding of organism-environment interactions., Competing Interests: Competing interests statement:The authors declare no competing interest.

Published
2024
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30. Ixodid ticks from wild and domestic animals in East and Central Asian flyways.

Author

Byun HR, Rieu MS, Han SW, Ji SR, Nam HY, Seo S, Choi CY, Linh BK, Thanh HL, Kaewthamasorn M, Sahara A, Galay RL, Wang SL, Erdenechimeg T, Batbayar N, Matsui S, Kawaji N, Moulin A, Yu YT, Avais M, and Chae JS

Subjects
Animals, Humans, Animals, Domestic, Birds, Pakistan, Tick Infestations epidemiology, Tick Infestations veterinary, Ixodidae, Ixodes, Tick-Borne Diseases epidemiology, Tick-Borne Diseases veterinary
Abstract

Tick-borne diseases have a significant impact on human and animal populations, posing an increasing threat to public health, particularly in the context of climate change. Along with the various natural hosts of ticks, birds play a notable role in transmitting ticks and tick-borne pathogens, indicating the importance of monitoring flyways and establishing a cooperative network for comprehensive surveillance and to collect diverse tick samples across various regions. This study aimed to develop an international network for surveillance of disease, collection of sufficient tick samples, and overall identification of the geographical distribution of host and ticks in Asian regions, especially in 11 countries on East Asian and Central Asian flyways. Ticks were collected from wild animals, domestic animals, and vegetation to identify the differences between Ixodid ticks and understand tick distribution. We collected a total 6,624 of ticks from 11 collaborating Asian countries, the Republic of Korea (ROK), Japan, Thailand, Philippines, Indonesia, Cambodia, Vietnam, Taiwan, Hong Kong, Mongolia and Pakistan. We identified 17 host animals and 47 species of both residential and migratory birds. Ticks from birds collected from four countries (ROK, Japan, Hong Kong and Mongolia) belonged to two genera, Haemaphysalis and Ixodes, including Haemaphysalis (H.) longicornis, H. flava, H. concinna, H. hystricis, H. formosensis, Ixodes (I.) nipponensis and I. persulcatus. The potential of migratory birds to cross ecological barriers with ticks and tick-borne diseases indicated the need for further investigations to understand the migration of birds as potential vectors and the new influx of zoonotic diseases along migratory bird flyways. This study suggests the potential risk of spreading tick-borne diseases through birds, thus highlighting the importance of international cooperative networking., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier B.V. All rights reserved.)

Published
2024
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31. Relationship between index of orthodontic treatment need dental health component (IOTN-DHC) and caries prevalence in school-age children.

Author

Hasegawa Y, Batbayar N, Sukhbaatar N, Bazar A, and Kageyama I

Subjects
Male, Female, Humans, Child, Index of Orthodontic Treatment Need, Orthodontics, Corrective, Prevalence, Dental Caries Susceptibility, Esthetics, Dental, Dental Caries epidemiology, Malocclusion epidemiology, Malocclusion therapy
Abstract

Objectives: The objectives of the study were to investigate the relationship between caries prevalence and the Index of Orthodontic Treatment Need Dental Health Component (IOTN-DHC) in school-age children who live in the dentistless area and to consider the effective way to reduce the potential progression of malocclusion with the growth through the dental survey in Arbulag district, Khövsgöl province, Mongolia., Materials and Methods: The 95 school-age children (49 males, 46 females) who participated in the study were born in and were residents of Arbulag district, Khövsgöl province, Mongolia. The mean ages of the participants were 8.3 years (y) ± 1.7 y for males and 8.8 y ± 1.7 y for females. The Mann-Whitney U test was performed to determine the sex difference for the dmf/DMF index. The relationship between the IOTON-DHC and the dmf/DMF index was statistically examined using Spearman's rank correlation coefficient., Results: Regarding the dmf/DMF index, no sex difference was observed. There were significant, fair positive correlations between the IOTON-DHC grade and F; between the IOTON-DHC grade and DMF index in males. There were significant, fair positive correlations between the IOTON-DHC grade and M; between the IOTON-DHC grade and DMF index in females., Conclusions: Significant, fair positive correlations were found between the caries prevalence and the grade of malocclusion. Thus, prevention and early treatment of dental caries in a mixed dentition may be effective to reduce the potential progression of malocclusions in dentistless area., (© 2022 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.)

Published
2023
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33. Breeding and migration performance metrics highlight challenges for White-naped Cranes.

Author

Galtbalt B, Natsagdorj T, Sukhbaatar T, Mirande C, Archibald G, Batbayar N, and Klaassen M

Subjects
Animals, Humans, Ecosystem, Breeding, Water, Animal Migration, Benchmarking, Birds
Abstract

Globally, habitat loss has been deemed a major threat to wetland bird populations. However, the underlying mechanism of population declines and variations in the birds' vulnerability throughout their annual cycle is challenging to determine, yet critical for development of targeted conservation strategies. Over seven years, landscape water availability explained occupancy of breeding territories best when breeding performance, migratory performance, and annual survival of the White-naped Crane (Grus vipio) population in eastern Mongolia were studied. Also, the hatching success of eggs was positively correlated with water availability in addition to plant productivity. High ambient temperatures and large numbers of herder families (and hence more livestock) negatively affected hatching success. High water availability at Luan, a major stopover site increased migration speed during the cranes' northbound migration to their breeding grounds. In contrast, when water conditions were favorable, the birds stayed longer at the stopover site during southbound migration. Increased human density reduced the use of the stopover site during northbound migration. Finally, cranes arrived early at the breeding grounds when ambient temperature was high in northeast Mongolia. Combining these findings with historical trends in key environmental factors on their breeding grounds explains the general decline observed in this population of cranes in recent decades. Extrapolating our findings with future climate predictions, the outlook seems poor unless urgent action is taken. Knowledge of the mechanisms underlying White-naped Crane population decline in eastern Mongolia identified in this paper should improve the effectiveness of these actions., (© 2022. The Author(s).)

Published
2022
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34. Arctic introgression and chromatin regulation facilitated rapid Qinghai-Tibet Plateau colonization by an avian predator.

Author

Hu L, Long J, Lin Y, Gu Z, Su H, Dong X, Lin Z, Xiao Q, Batbayar N, Bold B, Deutschová L, Ganusevich S, Sokolov V, Sokolov A, Patel HR, Waters PD, Graves JAM, Dixon A, Pan S, and Zhan X

Subjects
Female, Animals, Tibet, Acclimatization genetics, Hypoxia genetics, Chromatin, Hybridization, Genetic
Abstract

The Qinghai-Tibet Plateau (QTP), possesses a climate as cold as that of the Arctic, and also presents uniquely low oxygen concentrations and intense ultraviolet (UV) radiation. QTP animals have adapted to these extreme conditions, but whether they obtained genetic variations from the Arctic during cold adaptation, and how genomic mutations in non-coding regions regulate gene expression under hypoxia and intense UV environment, remain largely unknown. Here, we assemble a high-quality saker falcon genome and resequence populations across Eurasia. We identify female-biased hybridization with Arctic gyrfalcons in the last glacial maximum, that endowed eastern sakers with alleles conveying larger body size and changes in fat metabolism, predisposing their QTP cold adaptation. We discover that QTP hypoxia and UV adaptations mainly involve independent changes in non-coding genomic variants. Our study highlights key roles of gene flow from Arctic relatives during QTP hypothermia adaptation, and cis-regulatory elements during hypoxic response and UV protection., (© 2022. The Author(s).)

Published
2022
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35. Differences in on-ground and aloft conditions explain seasonally different migration paths in Demoiselle crane.

Author

Galtbalt B, Batbayar N, Sukhbaatar T, Vorneweg B, Heine G, Müller U, Wikelski M, and Klaassen M

Abstract

Background: Although some migratory birds may take different routes during their outbound and inbound migration, the factors causing these differential migrations to and from the breeding grounds, have rarely been investigated. In Northeast Asia, Demoiselle crane (Anthropoides virgo) performs one of the most extreme "loop" migrations known to date. During outbound migration, they cross the Himalayas to non-breeding sites in northwest India. Contrastingly, during inbound migration to the breeding grounds, they fly around the western end of the Himalayas. We hypothesise that differences in prevailing environmental conditions aloft and/or on-ground during both seasonal migrations are at the core of this phenomenon., Methods: Based on the tracking data of 16 individuals of tagged Demoiselle crane, we compared conditions during actual migration with those of simulated "reverse" migration (i.e. by adding 180 degrees to the flight direction and adding and subtracting half a year to the timestamps of outbound and inbound migration, respectively)., Results: The comparison of actual and simulated "reverse" migration indicated that cranes would have encountered poorer aloft (wind support and thermal uplift) and on-ground conditions (temperature) if they had migrated in a reverse outbound migration and poorer on-ground conditions (Normalised Difference Vegetation Indexes [NDVI]) if they had migrated in a reverse inbound direction., Conclusions: Our analyses suggest that both on-ground and aloft conditions play a key role in explaining Demoiselle cranes' loop migration, during the periods that they chose to use these alternative routes. Knowledge on the determinants of (differential) migration routes allow predicting migration decisions and may be critical in mitigating global change effects on animal migrations., (© 2022. The Author(s).)

Published
2022
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36. Range-wide breeding habitat use of the critically endangered Yellow-breasted Bunting Emberiza aureola after population collapse.

Author

Beermann I, Thomas A, Anisimov Y, Bastardot M, Batbayar N, Davaasuren B, Gerasimov Y, Hasebe M, Nakul G, Nergui J, Ktitorov P, Kulikova O, and Heim W

Abstract

The population of the Yellow-breasted Bunting Emberiza aureola , a formerly widely distributed and abundant songbird of northern Eurasia, suffered a catastrophic decline and a strong range contraction between 1980 and 2013. There is evidence that the decline was driven by illegal trapping during migration, but potential contributions of other factors to the decline, such as land-use change, have not yet been evaluated. Before the effects of land-use change can be evaluated, a basic understanding of the ecological requirements of the species is needed. We therefore compared habitat use in ten remaining breeding regions across the range, from European Russia to Japan and the Russian Far East. We also assessed large-scale variation in habitat parameters across the breeding range. We found large variation in habitat use, within and between populations. Differences were related to the cover and height of trees and shrubs at Yellow-breasted Bunting territories. In many regions, Yellow-breasted Buntings occupied early successional stages, including anthropogenic habitats characterized by mowing, grazing, or fire regimes. We found that the probability of presence can be best predicted with the cover of shrubs, herbs, and grasses. Highest probabilities were found at shrub cover values of 40%-70%. Differences in habitat use along a longitudinal gradient were small, but we found strong differences across latitudes, possibly related to habitat availability. We conclude that the remaining Yellow-breasted Bunting populations are not limited to specific habitat types. Our results provide important baseline information to model the range-wide distribution of this critically endangered species and to guide targeted conservation measures., Competing Interests: None declared., (© 2021 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published
2021
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37. Do contrasting patterns of migration movements and disease outbreaks between congeneric waterfowl species reflect differing immunity?

Author

Yin S, Xu Y, Batbayar N, Takekawa JY, Si Y, Prosser DJ, Newman SH, Prins HHT, and De Boer WF

Subjects
Animals, Disease Outbreaks, Geese, Influenza A Virus, H5N1 Subtype, Influenza in Birds epidemiology
Abstract

Long-distance migrations influence the dynamics of hostpathogen interactions and understanding the role of migratory waterfowl in the spread of the highly pathogenic avian influenza viruses (HPAIV) is important. While wild geese have been associated with outbreak events, disease ecology of closely related species has not been studied to the same extent. The swan goose (Anser cygnoides) and the bar-headed goose (Anser indicus) are congeneric species with distinctly different HPAIV infection records; the former with few and the latter with numerous records. We compared movements of these species, as well as the more distantly related whooper swan (Cygnus cygnus) through their annual migratory cycle to better understand exposure to HPAIV events and how this compares within and between congeneric and noncongeneric species. In spite of their record of fewer infections, swan geese were more likely to come in contact with disease outbreaks than bar-headed geese. We propose two possible explanations: i) frequent prolonged contact with domestic ducks increases innate immunity in swan geese, and/or ii) the stress of high-elevation migration reduces immunity of bar-headed geese. Continued efforts to improve our understanding of species-level pathogen response is critical to assessing disease transmission risk.

Published
2021
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39. Consistent habitat preference underpins the geographically divergent autumn migration of individual Mongolian common shelducks.

Author

Meng F, Wang X, Batbayar N, Natsagdorj T, Davaasuren B, Damba I, Cao L, and Fox AD

Abstract

While many avian populations follow narrow, well-defined "migratory corridors," individuals from other populations undertake highly divergent individual migration routes, using widely dispersed stopover sites en route between breeding and wintering areas, although the reasons for these differences are rarely investigated. We combined individual GPS-tracked migration data from Mongolian-breeding common shelduck Tadorna tadorna and remote sensing datasets, to investigate habitat selection at inland stopover sites used by these birds during dispersed autumn migration, to explain their divergent migration patterns. We used generalized linear mixed models to investigate population-level resource selection, and generalized linear models to investigate stopover-site-level resource selection. The population-level model showed that water recurrence had the strongest positive effect on determining birds' occupancy at staging sites, while cultivated land and grassland land cover type had strongest negative effects; effects of other land cover types were negative but weaker, particularly effects of water seasonality and presence of a human footprint, which were positive but weak or non-significant, respectively. Although stopover-site-level models showed variable resource selection patterns, the variance partitioning and cross-prediction AUC scores corroborated high inter-individual consistency in habitat selection at inland stopover sites during the dispersed autumn migration. These results suggest that the geographically widespread distribution (and generally rarity) of suitable habitats explained the spatially divergent autumn migrations of Mongolian breeding common shelduck, rather than the species showing flexible autumn staging habitat occupancy., (© The Author(s) (2019). Published by Oxford University Press on behalf of Editorial Office, Current Zoology.)

Published
2020
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40. Lack of conspicuous sex-biased dispersal patterns at different spatial scales in an Asian endemic goose species breeding in unpredictable steppe wetlands.

Author

Zhu Q, Damba I, Zhao Q, Yi K, Batbayar N, Natsagdorj T, Davaasuren B, Wang X, Rozenfeld S, Moriguchi S, Zhan A, Cao L, and Fox AD

Abstract

Dispersal affects the spatial distribution and population structure of species. Dispersal is often male-biased in mammals while female-biased in birds, with the notable exception of the Anatidae. In this study, we tested genetic evidence for sex-biased dispersal (SBD) in the Swan Goose Anser cygnoides , an Asian endemic and IUCN vulnerable species, which has been increasingly restricted to breeding on Mongolian steppe wetlands. We analyzed the genotypes of 278 Swan Geese samples from 14 locations at 14 microsatellite loci. Results from assignment indices, analysis of molecular variance, and five other population descriptors all failed to support significant SBD signals for the Swan Goose at the landscape level. Although overall results showed significantly high relatedness within colonies (suggesting high levels of philopatry in both sexes), local male genetic structure at the 1,050 km distance indicated greater dispersal distance for females from the eastern sector of the breeding range. Hence, local dispersal is likely scale-dependent and female-biased within the eastern breeding range. These findings are intriguing considering the prevailing expectation for there to be female fidelity in most goose species. We suggest that while behavior-related traits may have facilitated the local genetic structure for the Swan Goose, several extrinsic factors, including the decreasing availability of the nesting sites and the severe fragmentation of breeding habitats, could have contributed to the absence of SBD at the landscape level. The long-distance molt migration that is typical of goose species such as the Swan Goose may also have hampered our ability to detect SBD. Hence, we urge further genetic sampling from other areas in summer to extend our results, complemented by field observations to confirm our DNA analysis conclusions about sex-specific dispersal patterns at different spatial scales in this species., Competing Interests: We declare no conflicts of interest., (© 2020 The Authors. Ecology and Evolution published by John Wiley & Sons Ltd.)

Published
2020
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41. Annual migratory patterns of Far East Greylag Geese (Anser anser rubrirostris) revealed by GPS tracking.

Author

Li X, Wang X, Fang L, Batbayar N, Natsagdorj T, Davaasuren B, Damba I, Xu Z, Cao L, and Fox AD

Subjects
Animals, China, Geographic Information Systems, Mongolia, Seasons, Animal Migration, Geese physiology, Telemetry veterinary
Abstract

Twenty Far East Greylag Geese, Anser anser rubrirostris, were captured and fitted with Global Positioning System/Global System for Mobile Communications (GPS/GSM) loggers to identify breeding and wintering areas, migration routes and stopover sites. Telemetry data for the first time showed linkages between their Yangtze River wintering areas, stopover sites in northeastern China, and breeding/molting grounds in eastern Mongolia and northeast China. 10 of the 20 tagged individuals provided sufficient data. They stopped on migration at the Yellow River Estuary, Beidagang Reservoir and Xar Moron River, confirming these areas as being important stopover sites for this population. The median spring migration duration was 33.7 days (individuals started migrating between 25 February and 16 March and completed migrating from 1 to 9 April) compared to 52.7 days in autumn (26 September-13 October until 4 November-11 December). The median stopover duration was 31.1 and 51.3 days and the median speed of travel was 62.6 and 47.9 km/day for spring and autumn migration, respectively. The significant differences between spring and autumn migration on the migration duration, the stopover duration and the migration speed confirmed that tagged adult Greylag Geese traveled faster in spring than autumn, supporting the hypothesis that they should be more time-limited during spring migration., (© 2019 International Society of Zoological Sciences, Institute of Zoology/Chinese Academy of Sciences and John Wiley & Sons Australia, Ltd.)

Published
2020
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42. Environmental reservoir dynamics predict global infection patterns and population impacts for the fungal disease white-nose syndrome.

Author

Hoyt JR, Langwig KE, Sun K, Parise KL, Li A, Wang Y, Huang X, Worledge L, Miller H, White JP, Kaarakka HM, Redell JA, Görföl T, Boldogh SA, Fukui D, Sakuyama M, Yachimori S, Sato A, Dalannast M, Jargalsaikhan A, Batbayar N, Yovel Y, Amichai E, Natradze I, Frick WF, Foster JT, Feng J, and Kilpatrick AM

Subjects
Animals, Ascomycota pathogenicity, Epidemics, Hibernation, Mycoses microbiology, Nose microbiology, Nose Diseases epidemiology, Nose Diseases microbiology, Population Dynamics, Seasons, Chiroptera microbiology, Disease Reservoirs microbiology, Mycoses epidemiology
Abstract

Disease outbreaks and pathogen introductions can have significant effects on host populations, and the ability of pathogens to persist in the environment can exacerbate disease impacts by fueling sustained transmission, seasonal epidemics, and repeated spillover events. While theory suggests that the presence of an environmental reservoir increases the risk of host declines and threat of extinction, the influence of reservoir dynamics on transmission and population impacts remains poorly described. Here we show that the extent of the environmental reservoir explains broad patterns of host infection and the severity of disease impacts of a virulent pathogen. We examined reservoir and host infection dynamics and the resulting impacts of Pseudogymnoascus destructans , the fungal pathogen that causes white-nose syndrome, in 39 species of bats at 101 sites across the globe. Lower levels of pathogen in the environment consistently corresponded to delayed infection of hosts, fewer and less severe infections, and reduced population impacts. In contrast, an extensive and persistent environmental reservoir led to early and widespread infections and severe population declines. These results suggest that continental differences in the persistence or decay of P. destructans in the environment altered infection patterns in bats and influenced whether host populations were stable or experienced severe declines from this disease. Quantifying the impact of the environmental reservoir on disease dynamics can provide specific targets for reducing pathogen levels in the environment to prevent or control future epidemics., Competing Interests: The authors declare no competing interest., (Copyright © 2020 the Author(s). Published by PNAS.)

Published
2020
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43. Tackling the Tibetan Plateau in a down suit: insights into thermoregulation by bar-headed geese during migration.

Author

Parr N, Bishop CM, Batbayar N, Butler PJ, Chua B, Milsom WK, Scott GR, and Hawkes LA

Subjects
Altitude, Animals, Circadian Rhythm physiology, Flight, Animal physiology, Heart Rate physiology, Seasons, Tibet, Animal Migration physiology, Body Temperature Regulation physiology, Geese physiology
Abstract

Birds migrating through extreme environments can experience a range of challenges while meeting the demands of flight, including highly variable ambient temperatures, humidity and oxygen levels. However, there has been limited research into avian thermoregulation during migration in extreme environments. This study aimed to investigate the effect of flight performance and high altitude on body temperature ( T b ) of free-flying bar-headed geese ( Anser indicus ), a species that completes a high-altitude trans-Himalayan migration through very cold, hypoxic environments. We measured abdominal T b , along with altitude (via changes in barometric pressure), heart rate and body acceleration of bar-headed geese during their migration across the Tibetan Plateau. Bar-headed geese vary the circadian rhythm of T b in response to migration, with peak daily T b during daytime hours outside of migration but early in the morning or overnight during migration, reflecting changes in body acceleration. However, during flight, changes in T b were not consistent with changes in flight performance (as measured by heart rate or rate of ascent) or altitude. Overall, our results suggest that bar-headed geese are able to thermoregulate during high-altitude migration, maintaining T b within a relatively narrow range despite appreciable variation in flight intensity and environmental conditions ., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published
2019
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45. Stochastic simulations reveal few green wave surfing populations among spring migrating herbivorous waterfowl.

Author

Wang X, Cao L, Fox AD, Fuller R, Griffin L, Mitchell C, Zhao Y, Moon OK, Cabot D, Xu Z, Batbayar N, Kölzsch A, van der Jeugd HP, Madsen J, Chen L, and Nathan R

Subjects
Animals, Europe, Asia, Eastern, North America, Seasons, Stochastic Processes, Animal Migration physiology, Ducks physiology, Geese physiology, Herbivory physiology, Models, Biological
Abstract

Tracking seasonally changing resources is regarded as a widespread proximate mechanism underpinning animal migration. Migrating herbivores, for example, are hypothesized to track seasonal foliage dynamics over large spatial scales. Previous investigations of this green wave hypothesis involved few species and limited geographical extent, and used conventional correlation that cannot disentangle alternative correlated effects. Here, we introduce stochastic simulations to test this hypothesis using 222 individual spring migration episodes of 14 populations of ten species of geese, swans and dabbling ducks throughout Europe, East Asia, and North America. We find that the green wave cannot be considered a ubiquitous driver of herbivorous waterfowl spring migration, as it explains observed migration patterns of only a few grazing populations in specific regions. We suggest that ecological barriers and particularly human disturbance likely constrain the capacity of herbivorous waterfowl to track the green wave in some regions, highlighting key challenges in conserving migratory birds.

Published
2019
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46. Mitochondrial Divergence between Western and Eastern Great Bustards: Implications for Conservation and Species Status.

Author

Kessler AE, Santos MA, Flatz R, Batbayar N, Natsagdorj T, Batsuuri D, Bidashko FG, Galbadrakh N, Goroshko O, Khrokov VV, Unenbat T, Vagner II, Wang M, and Smith CI

Subjects
Animals, Cytochromes b genetics, Feathers, Female, Gene Flow, Genetic Variation, Male, Phylogeny, Phylogeography, Species Specificity, Birds genetics, Conservation of Natural Resources, DNA, Mitochondrial
Abstract

The great bustard is the heaviest bird capable of flight and an iconic species of the Eurasian steppe. Populations of both currently recognized subspecies are highly fragmented and critically small in Asia. We used DNA sequence data from the mitochondrial cytochrome b gene and the mitochondrial control region to estimate the degree of mitochondrial differentiation and rates of female gene flow between the subspecies. We obtained genetic samples from 51 individuals of Otis tarda dybowskii representing multiple populations, including the first samples from Kazakhstan and Mongolia and samples from near the Altai Mountains, the proposed geographic divide between the subspecies, allowing for better characterization of the boundary between the 2 subspecies. We compared these with existing sequence data (n = 66) from Otis tarda tarda. Our results suggest, though do not conclusively prove, that O. t. dybowskii and O. t. tarda may be distinct species. The geographic distribution of haplotypes, phylogenetic analysis, analyses of molecular variance, and coalescent estimation of divergence time and female migration rates indicate that O. t. tarda and O. t. dybowskii are highly differentiated in the mitochondrial genome, have been isolated for approximately 1.4 million years, and exchange much less than 1 female migrant per generation. Our findings indicate that the 2 forms should at least be recognized and managed as separate evolutionary units. Populations in Xinjiang, China and Khövsgöl and Bulgan, Mongolia exhibited the highest levels of genetic diversity and should be prioritized in conservation planning.

Published
2018
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47. Do Bar-Headed Geese Train for High Altitude Flights?

Author

Hawkes LA, Batbayar N, Butler PJ, Chua B, Frappell PB, Meir JU, Milsom WK, Natsagdorj T, Parr N, Scott GR, Takekawa JY, WikeIski M, Witt MJ, and Bishop CM

Subjects
Animals, Fitness Trackers, Heart Rate, Oxygen Consumption physiology, Altitude, Animal Migration physiology, Flight, Animal physiology, Geese physiology
Abstract

Synopsis: Exercise at high altitude is extremely challenging, largely due to hypobaric hypoxia (low oxygen levels brought about by low air pressure). In humans, the maximal rate of oxygen consumption decreases with increasing altitude, supporting progressively poorer performance. Bar-headed geese (Anser indicus) are renowned high altitude migrants and, although they appear to minimize altitude during migration where possible, they must fly over the Tibetan Plateau (mean altitude 4800 m) for much of their annual migration. This requires considerable cardiovascular effort, but no study has assessed the extent to which bar-headed geese may train prior to migration for long distances, or for high altitudes. Using implanted loggers that recorded heart rate, acceleration, pressure, and temperature, we found no evidence of training for migration in bar-headed geese. Geese showed no significant change in summed activity per day or maximal activity per day. There was also no significant change in maximum heart rate per day or minimum resting heart rate, which may be evidence of an increase in cardiac stroke volume if all other variables were to remain the same. We discuss the strategies used by bar-headed geese in the context of training undertaken by human mountaineers when preparing for high altitude, noting the differences between their respective cardiovascular physiology., (© The Author 2017. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology. All rights reserved. For permissions please email: journals.permissions@oup.com.)

Published
2017
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48. Chewing Lice of Swan Geese ( Anser cygnoides ): New Host-Parasite Associations.

Author

Choi CY, Takekawa JY, Prosser DJ, Smith LM, Ely CR, Fox AD, Cao L, Wang X, Batbayar N, Natsagdorj T, and Xiao X

Subjects
Animals, Lice Infestations parasitology, Microscopy, Mongolia, Bird Diseases parasitology, Geese, Lice Infestations veterinary, Phthiraptera anatomy & histology, Phthiraptera classification
Abstract

Chewing lice (Phthiraptera) that parasitize the globally threatened swan goose Anser cygnoides have been long recognized since the early 19th century, but those records were probably biased towards sampling of captive or domestic geese due to the small population size and limited distribution of its wild hosts. To better understand the lice species parasitizing swan geese that are endemic to East Asia, we collected chewing lice from 14 wild geese caught at 3 lakes in northeastern Mongolia. The lice were morphologically identified as 16 Trinoton anserinum (Fabricius, 1805), 11 Ornithobius domesticus Arnold, 2005, and 1 Anaticola anseris (Linnaeus, 1758). These species are known from other geese and swans, but all of them were new to the swan goose. This result also indicates no overlap in lice species between older records and our findings from wild birds. Thus, ectoparasites collected from domestic or captive animals may provide biased information on the occurrence, prevalence, host selection, and host-ectoparasite interactions from those on wild hosts.

Published
2016
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49. A new method for discovering behavior patterns among animal movements.

Author

Wang Y, Luo Z, Takekawa J, Prosser D, Xiong Y, Newman S, Xiao X, Batbayar N, Spragens K, Balachandran S, and Yan B

Abstract

Advanced satellite tracking technologies enable biologists to track animal movements at fine spatial and temporal scales. The resultant data present opportunities and challenges for understanding animal behavioral mechanisms. In this paper, we develop a new method to elucidate animal movement patterns from tracking data. Here, we propose the notion of continuous behavior patterns as a concise representation of popular migration routes and underlying sequential behaviors during migration. Each stage in the pattern is characterized in terms of space (i.e., the places traversed during movements) and time (i.e. the time spent in those places); that is, the behavioral state corresponding to a stage is inferred according to the spatiotemporal and sequential context. Hence, the pattern may be interpreted predictably. We develop a candidate generation and refinement framework to derive all continuous behavior patterns from raw trajectories. In the framework, we first define the representative spots to denote the underlying potential behavioral states that are extracted from individual trajectories according to the similarity of relaxed continuous locations in certain distinct time intervals. We determine the common behaviors of multiple individuals according to the spatiotemporal proximity of representative spots and apply a projection-based extension approach to generate candidate sequential behavior sequences as candidate patterns. Finally, the candidate generation procedure is combined with a refinement procedure to derive continuous behavior patterns. We apply an ordered processing strategy to accelerate candidate refinement. The proposed patterns and discovery framework are evaluated through conceptual experiments on both real GPS-tracking and large synthetic datasets.

Published
2016
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50. Crown shape of maxillary molars with delayed eruption.

Author

Batbayar N, Kameda T, Sano-Sekikawa N, and Terada K

Subjects
Adolescent, Case-Control Studies, Child, Female, Humans, Imaging, Three-Dimensional, Male, Maxilla, Molar diagnostic imaging, Tooth, Unerupted diagnostic imaging, Molar anatomy & histology, Tooth Eruption, Tooth, Unerupted anatomy & histology
Abstract

The purpose of this study was to explore the crown shapes of maxillary molars with delayed eruption (DEMo1) at the position distal to the maxillary second premolar. Included teeth erupted later than the average for the maxillary first molar eruption in Japanese females (6.58 ± 0.67 years) by more than two standard deviations. Crown shapes of 12 four-cusped left DEMo1 teeth were compared with those of 25 four-cusped left maxillary first molars (U6n) and 25 four-cusped left maxillary second molars (U7n) from different patients with normal eruption. Seven landmarks were established on the reference plane containing the mesiobuccal, distobuccal and mesiolingual cusp tips of the molars; the origin was defined as the center of gravity of these three points. According to the obtained discriminant function (percentage of correct classifications, 84%), five DEMo1 teeth were classified as U6n and the other seven as U7n. The DEMo1 teeth were also classified into two subgroups, the U6n-close and U7n-close groups, according to the location of the distolingual cusp tip. These results suggest that DEMo1 teeth could include U6 and U7 with delayed eruption or could be an intermediate between U6 and U7, according to their crown shapes.

Published
2016
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