A role of wild bird population in the transmission of parasitic flatworms (platyhelminthes: Cestoidea and trematodea) in Vietnam’s forest

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HNUE JOURNAL OF SCIENCE DOI: 10.18173/2354-1059.2020-0053 Natural Sciences 2020, Volume 65, Issue 10, pp. 99-107 This paper is available online at http://stdb.hnue.edu.vn A ROLE OF WILD BIRD POPULATION IN THE TRANSMISSION OF PARASITIC FLATWORMS (PLATYHELMINTHES: CESTOIDEA AND TREMATODEA) IN VIETNAM’S FOREST Georgiev B. Boyko1, Mariaux Jean2, Vasileva P. Gergana1, Nguyen Quoc Huy3 and Vu Quang Manh4* 1 Institute of Biodiversity and Ecosystem Research, Bulgarian Academy of Sciences, Sofia, Bulgaria 2 Natural History Museum, Geneva, Switzerland 3 Institute of Ecology and Works Protection Hanoi 4 Center for Biodiversity Resources Education & Development, Hanoi National University of Education Abstract. The study aimed to evaluate the role of transmitting flatworms (Cestoidea and Trematodea) of wild bird populations in three national parks of Vietnam: Xuan Son in the Northwest mountainous region, Tam Dao in the Northeast mountainous region, and Cat Ba in the Hong River Delta region. Twenty-two wild avian species of 10 families were found to contain parasitic flatworms. According to the number of avian species containing parasitic flatworms, bird families are ranking: Timaliidae recorded with 7 species > Leiothrichidae and Nectariniidae both with 3 species > Pycononotidae and Muscicapidae both with 2 species > Vireonidae, Sylvidae, Picidae, Cisticolidae and Cettiidae with 1 species. According to sex, avian populations containing parasitic flatworms decrease in the order: females accounting for 43.94% of the total individuals > males for 39.40% > juveniles for 16.66%. Three bird species containing flatworms A. pallidus, M. gularis and C. bayumas were found in two of the studied national parks, among them, only the first species was found common to all three studied national parks. They are vectors of high significance from a parasitological point of view. Keywords: wild birds, transmitting parasitic flatworms, national park, Xuan Son, Tam Dao, Cat Ba. 1. Introduction Vietnam is a country with high biodiversity and a rich forest ecosystem, containing many endemic genetic resources as well as transitional genetic ones. However, like several countries with rapid economic and social growth, Vietnam is facing the risk of biodiversity degradation and ecological imbalance. Especially, in the era of globalization, the problem of transmitting and spreading diseases and parasites through Received October 16, 2020. Revised October 23, 2020. Accepted October 30, 2020. 99 Georgiev B. Boyko, Mariaux Jean, Vasileva P. Gergana, Nguyen Quoc Huy and Vu Quang Manh Corresponding author: Vu Quang Manh, e-mail address: vqmanh@gmail.com bird and animal hosts, related to the soil environment, are a big challenge. Soiltransmitted helminthes are transmitted by eggs passing in the faeces of infected people. In conditions that lack adequate sanitation, these eggs contaminate the soil. Soiltransmitted helminthes, including flatworms (Platyhelminthes: Cestoidea and Trematodea), infections are caused by different species of parasitic worms (Krivolutsky et al. 1997, Le et al. 2003, Gray et al. 2010, WHO 2020) [1-4]. A recent analysis by Nguyen Quynh Huong et al. (2020) suggested not only the mixing of animal excreta in the environment but also the interspecies transmission of corona viruses, as both bat and avian coronaviruses were detected in rodent feces on wildlife farms [5]. The analysis data for this study is based on field survey data of the international program Planetary Biodiversity Inventory: A survey of the flatworms (Cestoidea and Trematodea) from the vertebrate bowels of the Earth (2008-2014), funded by the United States National Science Foundation. One of the objectives of the program is to carry out parasitological surveys of vertebrate hosts, including birds, in areas and types of habitats, which have never been or have insufficiently been studied from a parasitological point of view. The envisaged results of such surveys are to find and describe unknown species of cestode parasites, thus enriching the knowledge on the species diversity (Caira et al. 2018) [6]. The present study aimed to evaluate the role of containing and transmitting flatworms (Cestoidea and Trematodea) in wild bird populations in Vietnam’s forests. 2. Content 2.1. Materials and methods * Study region In June and July of 2014, we studied the diversity of parasitic flatworms Cestoidea and Trematodea in bird populations in three types of habitats, which have been poorly studied from parasitological a point of view [7, 8]. The study forests were three national parks including Xuan Son National Park of Phu Tho province, from Northwest mountainous region of Vietnam, 21007.87’ N - 104057.20’ E; Tam Dao National Park of Vinh Phuc province, from Northeast mountainous region, 21° 28.41' - 105° 38.35' E; and Cat Ba National Park, the island belonging to Hai Phong city, from Hong River Delta region, 20° 47.90’ N - 107° 00.29’’ E [9]. * Collecting materials At each of these three national parks, we stayed for 5 - 6 days, for field studies. Birds were collected from three habitat types, including scrublands, forested areas, and wetlands. Birds were collected by using ornithological mist-nets. We studied a number of individuals of each bird species occurring in the area. Therefore, the numbers of the birds, which were collected during the single collecting activity, is too small to affect local populations. It is entirely in the frames of natural mortality. This study has been authorized by the Vietnamese governing body. The bird species of interest were examined for the presence of gastrointestinal parasites and ectoparasites after euthanasia in chloroform. The contents of intestines will be studied under a stereomicroscope. 100 A role of wild bird population in the transmission of parasitic flatworms (Platyhelminthes… Some individuals of each bird species occurring in the area were also studied. Bird’s bodies were processed for deposition in the zoological collection of the CEBRED, Hanoi National University of Education. Parasites - flatworms were isolated from the intestinal contents, fixed, and conserved in ethanol for subsequent laboratory processing and examination. Then, they were carried out in our laboratories in Vietnam, Bulgaria, and Switzerland. * Classification and species identification The classification and species identification of birds follow mainly to Vo & Nguyen (1999), Richard and Le (2018) [10, 11]. Parasites were isolated from the intestinal contents, fixed, and conserved in ethanol for subsequent laboratory processing and examination. They were carried out in the laboratories in Vietnam, Bulgaria, and Switzerland. The classification and species identification of flatworms follow mainly Nguyen (1979), Khalil et al. (1994), Nguyen (1995) [12, 13, 14]. * Data analysis For data analysis used are the Microsoft Office Excel 2010, and the multivariate ecological research version 6. PRIMER 6 is a collection of specialist routines for analyzing species or sample abundance. This method is normally used for ecological and environmental studies [15, 16]. Species similarity index Bray-Curtis (BCjk): BC jk =  n ij − n ik (n ij + n ik ) where BCjk is species similarity between studied forests; nik is the number of k species recorded in i samples; nij is the number of j species recorded in i samples. Hierarchical cluster analysis of bird species similaritíes between the studied national parks is calculated and based on Bray-Curtis indices [15, 16]. 2.2. Results and discussions 2.2.1. Species composition of wild avian populations containing parasitic flatworms A parasitological survey of vertebrates including birds and bats and invertebrates including oribatid mites (Acari: Oribatida) in three national parks have insufficiently been studied from a parasitological point of view [1, 7, 8, 17-19]. Table 1 presents a species composition of wild avian populations found to contain parasitic flatworms in their intestines. Introduced are also the distribution characteristics of birds as well as their sex and age according to the three studied national parks. Table 1. Avian species composition containing parasitic flatworms in three national parks Distribution’s characteristics Scientific names Distribution according to national parks Xuan Son Tam Dao - Northwest - Northeast Mountainous Mountainous region region Notice Cat Ba - Hong River Delta region 101 Georgiev B. Boyko, Mariaux Jean, Vasileva P. Gergana, Nguyen Quoc Huy and Vu Quang Manh I. Pycononotidae 1. Allophoixus pallidus M 2. Hemixos castanonotus M, F M, M, M, F, F, M, M, F II. Vireonidae 3. Erpornis zantholeuca M, F III. Timallidae 4. Pomatorhinus ruficollis 5. Pellorneum tickell 6. Pellorneum ruficeps M M, F, (?) (?) Sex not clear. Accounted as a juvenile. F F 7. Stachyris nigriceps M, F, J 8. Stachyris striolata M, F 9. Macronous gularis M, M, M, F, F, F, F M, F, F, F, F, F, J, F, F 10. Napothera brevicaudata M IV. Leiothrichidae 11. Alcippe morrisonia (?) 12. Ianthocincla chinensis (*) 13. Alcippe rufogularis 102 M, M, M, F, F, (?) M, M, M, J, J (?) Sex not clear. Accounted as a juvenile. F (*) Species were firstly discovered in Vietnam. To be investigated more. (?) Sex not clear. A role of wild bird population in the transmission of parasitic flatworms (Platyhelminthes… Accounted as a juvenile. V. Sylvidae 14. Neosuthora davidianus M, F VI. Muscicapidae 15. Cyornis bayumas 16. Luscinia cyane F, J F F VII. Nectariniidae 17. Aethopyga christinae J 18. Arachnothera longirostra M, F 19. Arachnothera magna F VIII. Picidae 20. Sasia ochracea (?) (?) Sex not clear. Accounted as a juvenile. IX. Cisticolidae 21. Orthotomus atrogularis M X. Cettiidae 22. Abroscopus superciliaris (?) Total: 10 families and 22 species 11 M-13 F7J = 31 bird specimens (?) Sex not clear. Accounted as a juvenile. 10 M -6 F 3J = 19 bird specimens 5 M -10 F 1J = 16 bird specimens Total: 26 M -29 F -11 J = 66 bird specimens Legend. Bird sex: F. Female, M. Male, J. Juvenile, (?). Sex not clear. 103 Georgiev B. Boyko, Mariaux Jean, Vasileva P. Gergana, Nguyen Quoc Huy and Vu Quang Manh During the study, sixty-six avian individuals have been recorded to contain parasitic flatworms in their intestines. They belong to 22 species of 10 avian families. Analysis done showed that according to the number of species containing parasitic flatworms, the avian families are ranked in the following descending order: Timaliidae was recorded with 7 species > Leiothrichidae and Nectariniidae both with 3 species > Pycononotidae and Muscicapidae both with 2 species. The remaining five families including Vireonidae, Sylvidae, Picidae, Cisticolidae, and Cettiidae, all were recorded with 1 species (Table 1). 2.2.2. Sex composition of wild avian populations containing parasitic flatworms Tables 2-4 presents characteristics of bird populations containing flatworms by their sex in the three studied national parks. Table 2. The avian composition containing parasitic flatworms according to each park National park Bird sex Total Xuan Son Tam Dao Cat Ba Male 11 (42.31%) 10 (38.46%) 05 (19.23 %) 26 (100%) Female 13 (44.83%) 06 (20.69%) 10 (34.48%) 29 (100%) Juvenile 07 (63.64%) 03 (27.27%) 01 (9.09%) 11 (100%) Table 3. The avian composition containing parasitic flatworms according to each sex National Park Bird sex Total Male Female Juvenile Xuan Son 11 (35.48%) 13 (41.97%) 07 (22.58%) 31 (100%) Tam Dao 10 (52.63%) 06 (31.58%) 03 (15.79%) 19 (100%) Cat Ba 05 (31.25%) 10 (62.50%) 01 (06.25%) 16 (100%) Table 4. The avian composition containing parasitic flatworms according to each sex in three national parks and sexes in each park Bird sex Number and percentage of sex in three national parks Male 26 (39.40%) Female 29 (43.94%) Juvenile 11 (16.66%) Total National park Xuan Son Tam Dao Cat Ba 31 (46.97%) 19 (28.79%) 16 (24.24%) 66 (100%) In comparison with sex and populations of sixty-six avian individuals containing parasitic flatworms, they decrease in the following order: 29 females (43.94% of the 104 A role of wild bird population in the transmission of parasitic flatworms (Platyhelminthes… total number) > 26 males (39.40%) > 11 juveniles (16.66%). Concerning the prevalence of parasitic flatworm infections in birds, there is no clear sex difference between females and males. Particularly in Tam Dao NP, analyzed sex ratio showed that the percentage of avian individuals containing parasitic flatworms decrease in the following order: male 52.63% of the total number of birds > female 31.58% > juvenile 15.79%. It is recorded that the rate of flatworm containing in the juvenile avian population is not high, only 16.66% of the total individuals obtained. Thus, along with biological age, the rate of bird flatworm infection increases. Our investigation was done with avian populations living in the lower shrubs close to the soil environment, and one of their food sources being soil arthropods [10, 11, 19]. Likely, these are the main ways of infection and transmission of parasitic flatworms in studied wild birds. This is also an assessment given by Gray et al. (2010) and WHO (2020) [3, 4]. 2.2.3. Species similarity of wild avian populations containing parasitic flatworms Analysis of the distribution of bird populations containing flatworms according to three national parks showed that they decreased in the following order: Xuan Son > Tam Dao > Cat Ba. They were found 46.97% > 28.79% > 24.24% of a total of sixty-six bird specimens, respectively (Tables 2-4). The figures show that there are clear differences in the number of birds containing flatworms between the Xuan Son National Park, in comparison with Tam Dao and Cat Ba National Parks, 31 vs. 19 and 16, respectively. Figure 1 showed that species composition similarities between the three studied national parks are not high, ranging from 14.02% to 34.03%. The highest species composition similarity was registered between Xuan Son National Park and Cat Ba National Park, reaching 34.03%. The three common species between them are Allophoixus pallidus, Macronous gularis, Cyornis bayumas (13.63% of total species number). Tam Dao National Park has a distinct difference in bird species composition compared to the two above national parks. Particularly, species composition similarity between Tam Dao National Park compared to Xuan Son and Cat Ba National Parks, reaching only 16.01%. Specifically, only just three out of twenty-two avian species identified, accounting for 13.63% of the total species number, are found common to both Xuan Son and Tam Dao National Parks, namely Allophoixus pallidus, Pellorneum tickelli and Alcippe morrisonia. Only the one avian species, Allophoixus pallidus, accounting for 4.54% of the total species number, was found common to the Tam Dao and Cat Ba National Parks. This is also the only species found in all three national parks (Xuan Son, Tam Dao, and Cat Ba National Parks). The data obtained on the highest bird species composition similarity between Xuan Son National Park of northwest mountainous region and Cat Ba National Park of Hong River Delta region, and their three common species containing flatworm, and one bird species, namely Allophoixus pallidus, found in all three studied national parks, are very significant from a parasitological point of view. These are important factors that should be considered when assessing the potential for transmission and spread of parasitic flatworms and pathogens through bird populations, bats, and possibly oribatid mites as well. 105 Georgiev B. Boyko, Mariaux Jean, Vasileva P. Gergana, Nguyen Quoc Huy and Vu Quang Manh Group average Transform: Square root Resemblance: S17 Bray Curtis similarity Xuân Sơn 0 20 40 60 80 Samples Cát Bà Tam Đảo 100 Similarity Figure 1. A cluster of species avian species similarities between three national parks (species similarities in %) 3. Conclusions In three national parks (Xuan Son, Tam Dao, and Cat Ba National Parks), 22 wild avian species of 10 families were found to contain parasitic flatworms (Cestoidea and Trematodea). According to the species number containing parasitic flatworms, the bird families are ranking as Timaliidae recorded with 7 species > Leiothrichidae and Nectariniidae both with 3 species > Pycononotidae and Muscicapidae both with 2 species > Vireonidae, Sylvidae, Picidae, Cisticolidae and Cettiidae with 1 species. By sex, avian populations containing parasitic flatworms decrease by the order: females accounting for 43.94% of the total individuals > males for 39,40% > juveniles for 16.66%. Three bird species containing flatworms A. pallidus, M. gularis and C. bayumas were found in two of the studied national parks, among them, only the first species was found common to all three studied national parks. They are vectors of high significance from a parasitological point of view. Acknowledgements. The authors would like to thank Ph.D. Hoang Ngoc Hung (Hong Duc University, Thanh Hoa province, Vietnam) for checking the scientific and Vietnamese names of the birds. We also thank Ph.D. student Ha Tra My (CEBRED, Hanoi National University of Education, Vietnam) for checking the data of the multivariate ecological research version 6, Primer 6. REFERENCES [1] Krivolutsky D., Vu Quang Manh, Phan The Viet, 1997: The oribatid mites (Acarina: Oribatei) of Vietnam, In “Tropical Medicine”, Vol. I. The Russian-Vietnamese Tropical Centre, Nauka, Moscow-Hanoi, 130-145 (in Russian). [2] Le Thi Xuan, Malinee Thairungroj Anantaphruti, Phan Anh Tuan, Le Xuan Tu, Tran Vinh Hien, 2003. The first human infection with Bertiella studeri in Vietnam. The Southeast Asian Journal of Tropical Medicine and Public Health, 34(2), pp. 298-300. 106 A role of wild bird population in the transmission of parasitic flatworms (Platyhelminthes… [3] Gray J, Zintl A, Hildebrandt A, Hunfeld KP, Weiss L., 2010. Zoonotic babesiosis: an overview of the disease and novel aspects of pathogen identity. Ticks Tick Borne Dis. 1: 310. doi: 10.1016/j.ttbdis.2009.11.003. Epub 2009 Dec 24. [4] WHO, 2020. Soil-transmitted helminth infections, 2 March 2020. https://www.who.int/ newsroom/fact-sheets/detail/soil-transmitted-helminth-infections. [5] Nguyen Quynh Huong, Nga NTT, Long NV, Luu BD, Latinne A, Pruvot M, Phuong NT, Quang LTV, Hung VV, Lan NT, Hoa NT, Minh PQ, Diep NT, Tung N, Ky VD, Roberton SI, Thuy HB, Long NV, Gilbert M, Wicker L, Olson SH, 2020. Coronavirus testing indicates transmission risk increases along wildlife supply chains for human consumption in Vietnam, 2013-2014. Plos one, Published: August 10, 2020, https://doi.org/10.1371/ journal.pone.0237129. [6] Caira, J. N., K. Jensen, B. B. Georgiev, R. Kuchta, D. T. J. Littlewood, J. Mariaux, T. Scholz, V. V. Tkach, and A. Waeschenbach, 2017. An overview of tapeworms from vertebrate bowels of the earth. In Planetary Biodiversity Inventory (2008-2017): Tapeworms from Vertebrate Bowels of the Earth. J. N. Caira and K. Jensen (eds.). University of Kansas, Natural History Museum, Special Publication No. 25, Lawrence, KS, USA no. 25: 1-20. https://nhm.openrepository.com/bitstream/ handle/10141/622379/ 2017_PBICestoda_Chapt01_Overview.pdf?sequence=1. [7] Vu Dinh Thong, 2007. Bat conservation at Cat Ba Biosphere Reserve, North-East Vietnam, August 2006 - September 2007. Final CLP Project Report, 1-19. [8] Vu Quang Mạnh, Nguyen Huy Tri, Nguyen Thị Hoa, 2014. Role of oribatid mites (Acari: Oribatida) as a vector of transmission of tapeworm (Cestoda) in soil ecosystem of Cat Ba National Park, Hai Phong city, Vietnam National University Journal of Natural Sciences and Technology, Vol. 30, No 1S, Hanoi, 137-146 (in Vietnamese). [9] Bird Life International in Indochina, 2004. Sourcebook of Existing and Proposed Protected Areas in Vietnam. Second Edition. Hanoi, Vol. I. [10] Vo Quy, Nguyen Cu, 1999. A list of Vietnam’s birds. Agricultural Publishing House, Hanoi (in Vietnamese). [11] Richard Crail & Le Quy Minh, 2018. Birds of VietNam, Lunx and BirdLife International Field Guides, Lynx Edicions, Barcelona. [12] Nguyen Thi Le, 1979. The fauna of Vietnam’s Cestoda - Parasites on Birds and Mammals. DSc. Thesis. Academy of Sciences, Moscow, USSR (in Russian). [13] Khalil, L F, A Jones, and R A Bray (Eds), 1994. Keys to the Cestode Parasite of Vertebrates. Wallingford: CAB International, 1-768. [14] Nguyen Thi Le, 1995. Trematodes (Trematoda) parasitizing on Vietnam’s birds and animals, H., Science and Technology Publishing House, 1-250 (in Vietnamese). [15] Clarke KR, Gorley R. N., 2001. Primer v5: user manual/tutorial. Primer-E Ltd. Plymouth. [16] PRIMER 6 for Window 2007. Version 5.2.4. http://www.primer-e.com [17] Grochovskaya Y, 1967. Insects and Mites - A vector of transmission of sickness for humans in Vietnam. DSc. Thesis. 1-433 (in Russian). [18] Ermilov, S.G., Anichkin, A.E. & Pal’ko, 2013. I.V. Oribatid mites (Acari) from nests of some birds in South Vietnam. Entmol. Rev. 93, 799-804. https://doi.org/10.1134/ S0013873813060122. [19] Vo Quy, 1971. Biology of common nesting birds in Vietnam Scientific Techniques Publishing House. Hanoi. 1-283 (in Vietnamese). 107
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