Helminth parasites in wild rats from peninsular Malaysia oil palm plantation

Aidi Haidzil Johan; Siti Nursheena Mohd Zain; Muhamad Afiq Aziz; Mohd Faris Amjad; Hairul Anuar Md Sahray; Hasmahzaiti Omar

doi:10.15625/2615-9023/21459

Author affiliations

Authors

Aidi Haidzil Johan Institute of Biological Sciences, Faculty of Science, Universiti Malaya, 50603 Kuala Lumpur
Siti Nursheena Mohd Zain Institute of Biological Sciences, Faculty of Science, Universiti Malaya, 50603 Kuala Lumpur
Muhamad Afiq Aziz Institute of Biological Sciences, Faculty of Science, Universiti Malaya, 50603 Kuala Lumpur.
Mohd Faris Amjad Institute of Biological Sciences, Faculty of Science, Universiti Malaya, 50603 Kuala Lumpur
Hairul Anuar Md Sahray Operation Centre, UM Plantations Sdn Bhd, Rumah Rindu Alam (6th Residential College), Universiti Malaya
Hasmahzaiti Omar Institute of Biological Sciences, Faculty of Science, Universiti Malaya, 50603 Kuala Lumpur

DOI:

https://doi.org/10.15625/2615-9023/21459

Keywords:

Agriculture, endoparasites, Muridae, Kota Tinggi, species diversity

Abstract

The presence of wild rats in oil palm plantations not only causes significant losses in crop production but also poses a potential threat to human health through the transmission of zoonotic diseases such as helminthiasis. This study determines the prevalence of helminths among the rat population in an oil palm plantation at Sungai Ara, Johor. By setting 100 metal live traps with baits, a total of 74 individual wild rats consisting of 6 species were successfully caught. Rats were euthanized and necropsied to examine internal organs for the presence of helminths. This study has revealed an overall infection rate of 91.9 %, (n = 68) and recorded several species from two groups of helminths: nematodes (Heterakis spumosa, Nippostrongylus brasiliensis, Syphacia muris, Hepatojarakus malayae, Angiostrongylus spp., Trichuris sp., and Capillaria hepatica) and cestodes (Cyst. Taenia taeniaeformis, Hymenolepis diminuta, and Hymenolepis nana). Among these helminths, several species have been identified as important zoonoses with the potential to infect humans such as taeniasis, hymenolepiasis and capillariasis.

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References

Anders J. L., Nakao M., Uchida K., Ayer C. G., Asakawa M. & Koizumi I., 2019. Comparison of the intestinal helminth community of the large Japanese field mouse (Apodemus speciosus) between urban, rural, and natural sites in Hokkaido, Japan. Parasitology international, 70: 51−57.

Arnez S. A. & Mohd Zain S. N., 2006. A study on wild rats and their endoparasite fauna from the Endau Rompin National Park, Johor. Malaysian Journal of Science, 25(2): 19–39.

Capizzi D., Bertolino S. & Mortelliti A., 2014. Rating the rat: global patterns and research priorities in impacts and management of rodent pests. Mammal Review, 44(2): 148–162.

Chaisiri K., Chaeychomsri W., Siruntawineti J., Ribas A., Herbreteau V. & Morand S., 2012. Diversity of gastrointestinal helminths among murid rodents from northern and northeastern Thailand. Southeast Asian Journal of Tropical Medicine and Public Health, 43(1): 21.

Claveria F. G., Causapin J., De Guzman M. A., Toledo M. G. & Salibay C., 2005. Parasite biodiversity in Rattus spp caught in wet markets. Southeast Asian Journal Of Tropical Medicine And Public Health, 36(146).

CM Rizuan Z. A and Noor Hisham H., 2015. Composition and Distribution of Small Rodents in FGV’s Oil Palm Regions in Sabah and Sarawak. Poster presentation in PIPOC, 6–8th October 2015. KLCC, Kuala Lumpur, Malaysia.

Ekanayake S., Warnasuriya N., Samarakoon P., Abewickrama H., Kuruppuarachchi N. & Dissanaike A., 1999. An unusual infection of a child in Sri Lanka, with Taenia taeniaeformis of the cat. Annals of Tropical Medicine & Parasitology, 93(8): 869–873.

Francis C. M., 2008. A field guide to the mammals of Thailand and South−East Asia: Thailand, Peninsular Malaysia, Singapore, Myanmar, Laos, Vietnam, Cambodia. Asia Books Company. Thailand, pp. 1–380.

Frederick R. N. & Abdul−Mawah S. S., 2022. The prevalence of gastrointestinal parasites in wild rats (Muridae) in Pilajau oil palm plantation of Sawit Kinabalu Group, Membakut Sabah Malaysia. Borneo Akademika, 6(2): 12–21.

Garin Y. J. F., Galán−Puchades M.−T., Moulignier A., Robert G., Héran F., Polivka M., Olson P. D., Lorenzo F., Derouin F. & Conn D. B., 2005. Case report: Human brain abscess due to a tetra−acetabulate plerocercoid metacestode (Cyclophyllidea). American Journal Tropical Medicine and Hygiene, 72(5): 513–517.

Hancke D., Navone G. T. & Suarez O. V., 2011. Endoparasite community of Rattus norvegicus captured in a shantytown of Buenos Aires City, Argentina. Helminthologia, 48(3): 167–173.

Herbreteau V., Jittapalapong S., Rerkamnuaychoke W., Chaval Y., Cosson J. F. & Morand S., 2011. Protocols for field and laboratory rodent studies. Kasetsart University Press, Thailand, pp. 1–45.

Ibrahim M. S. N., 2020. A Study on Parasite Fauna of Rats and Shrews Caught at Three Wet Markets in Kuala Terengganu, Malaysia. International Journal of Nature and Life Sciences, 4: 1–13.

Ikhsan M., Priyambodo S., Nurmansyah A., Hendarjanti H. & Sahari B., 2020. Species diversity, abundance and damaged caused by rats in oil palm plantation in West and Central Sulawesi, Indonesia. Biodiversitas, 21(12): 5632–5639.

Jurišić A., Ćupina A. I., Kavran M., Potkonjak A., Ivanović I., Bjelić−Čabrilo O., Meseldžija M., Dudić M., Poljaković−Pajnik L. & Vasić V., 2022. Surveillance Strategies of Rodents in Agroecosystems, Forestry and Urban Environments. Sustainability, 14(15): 9233.

Kaenkaew C., Chan A. H. E., Saralamba N., Ruangsittichai J., Chaisiri K., Charoennitiwat V. & Thaenkham U., 2024. Molecular insights versus morphological traits: rethinking identification of the closely related Angiostrongylus cantonensis and Angiostrongylus malaysiensis. Parasites & Vectors, 17(1): 56.

Kazemi Aghdam M., Karimi A., Amanati A., Ghoroubi J., Khoddami M., Shamsian B. S., Shamsizadeh A. & Zahedi Far S., 2015. Capillaria hepatica, A Case Report and Review of the Literatures [Case Report]. Arch Pediatr Infect Dis, 3(2): e19398.

Kennedy M. J., 1979. Basic methods of specimen preparation in parasitology. International Development Research Centre Manuscript Reports. Canada, pp. 1–41.

Krishnasamy M., Singh K., Ambu S. & Ramachandran P., 1980. Seasonal prevalence of the helminth fauna of the wood rat Rattus tiomanicus (Miller) in West Malaysia. Folia Parasitologica, 27(3): 231–235.

Lim B. & Muul I., 1970. Helminth infections and reproductive rates in Malaysian wood rats. Southeast Asian Journal Of Tropical Medicine And Public Health, 1: 421–422.

Lim T., Loke V., Solana Mena A., Pura P., Angah R., Tan A. & Campos−Arceiz A., 2017. Mapping the Distribution of People, Elephants, and Human−Elephant Conflict in Temengor Forest Complex, Peninsular Malaysia. Malayan Nature Journal 2017: 31–49.

Mamonto H. & Liu Q., 2020. Relationship between waste with ectoparasites and endoparasites (Nematodes and Cestodes) in rats. South Asian Research Journal of Biology and Applied Biosciences, 2(4): 79–85.

Min B. H., Lee H.−S., Kim S. J. & Joo K. H., 2013. Ultrastructure of Capillaria hepatica (Syn. Calodium hepatica) Isolated from the Liver of Mouse Infected with Artificially Embryonated Eggs Collected from House Rats (Rattus norvegicus). Applied Microscopy, 43(4): 146–154.

Miyazaki I., 1991. An Illustrated Book of Helminthic Zoonoses. International Medical Foundation of Japan, Japan, pp. 1–494.

Mohd−Qawiem F., Nur−Fazila S. H., Ain−Fatin R., Yong Q. H. & Nur−Mahiza M. I., 2022. Detection of zoonotic−borne parasites in Rattus spp. in Klang Valley, Malaysia. Veterinary World, 15(4): 1006−1014.

Nasir M. H., Mispan M. S., Bhassu S., Khoo J., Abubakar S., Mohd Azami S., Ishak S., Mohd Taib F. & H. O., 2022. Spatial distribution of Rattus species (Rodentia: Muridae) in oil palm plantations of Peninsular Malaysia with species verification using Cytochrome Oxidase I (COI) gene. Journal of Oil Palm Research, 35(1): 58–74.

Satrio Suryadi Nugroho, Yanto Santosa, 2018. The estimation loss and gain of mammal species diversity due to oil palm plantations: A case study of BPME Estate, Riau, Indonesia. Proceedings of E3S Web of Conferences, 52(42): 1–11.

Nursyazana M., Mohd Zain S. N. & Jeffery J., 2013. Biodiversity and macroparasitic distribution of the wild rat population of Carey Island, Klang. Tropical biomedicine, 30(2): 199–210.

Ogolla F. O., Omondi C. & Odhiambo C., 2019. Assessment Of Wild Rodents Endoparasites In Kirimiri Forest In Embu County, Kenya. International Journal of Advanced Research and Publications, 3(5).

Onyenwe I. W., Ihedioha J. I. & Ezeme R. I., 2009. Prevalence of zoonotic helminths in local house rats (Rattus rattus) in Nsukka, Eastern Nigeria. Animal Research International, 6(3): 1040−1044.

Ortega Pérez P., 2022. Disease occurrence in small mammals from Northern Borneo: Histopathology and selected pathogens [Doctoral thesis]. Freie Universität Berlin

Ow−Yang C. K., 1971. Studies on the nematode parasites of Malaysian rodents. I. The Rhabdiasidea, Trichuridea and Oxyuridea. Journal of Helminthology, 45(2): 93−109.

Ow−Yang C. K., 1974. On the life history of Hepatojarakus malayae (Nematoda: Trichostrongylidae), a parasite of the feral rat in Malaysia. Journal of helminthology, 48(4): 293−310.

Paramasvaran S., Krishnasamy M., Lee H. L., John J., Lokman H., Naseem B. M., Rehana A. S. & Santhana R. J., 2005. Helminth infections in small mammals from Ulu Gombak Forest Reserve and the risk to human health. Tropical biomedicine, 22(2): 191−194.

Paramasvaran S., Sani R., Hassan L., Hanjeet Kaur H. K., Krishnasamy M., Jeffery J., Santhana Raj S. R., Sumarni Mohd Ghazali S. M. G. & Lim Kuang Hock L. K. H., 2009. Endo−parasite fauna of rodents caught in five wet markets in Kuala Lumpur and its potential zoonotic implications. Tropical Biomedicine, 26(1): 67–72.

Pimsai U., Pearch M. J., Satasook C., Bumrungsri S. & Bates P. J., 2014. Murine rodents (Rodentia: Murinae) of the Myanmar−Thai−Malaysian peninsula and Singapore: taxonomy, distribution, ecology, conservation status, and illustrated identification keys. Bonn Zoological Bulletin, 63(1): 15−114.

Premaalatha B., Chandrawathani P., Farah Haziqah M. T., Pricilla F. X., Mamat Z., Mohamed R. & Jamnah O., 2018. A survey of endoparasite and ectoparasite infections of wild rats caught in areas of Ipoh and Kuala Lumpur, Malaysia. Malaysian Journal of Veterinary Research, 8(2): 29–34.

Puan C. L., Goldizen A. W., Zakaria M. & Baxter G. S., 2011. Understanding of relationships between ground cover and rat abundances: An integrative approach for management of the oil palm agroecosystem. Crop Protection, 30(10): 1263−1268.

Puan C. L., Goldizen A. W., Zakaria M., Hafidzi M. N. & Baxter G. S., 2011. Relationships among rat numbers, abundance of oil palm fruit and damage levels to fruit in an oil palm plantation. Integrative zoology, 6(2): 130−139.

Setiati N., Auliya R., Partaya, Bodijantoro F. P. M. H., Indriyanti D. R. & Widiyaningrum P., 2021. Types of rats and their parasites that potential to transmit disease in Tugu District, Semarang City. Biosaintifika: Journal of Biology & Biology Education, 13(3): 363−368.

Sharma R., Tiwari K., Birmingham K., Armstrong E., Montanez A., Guy R., Sepulveda Y., Mapp−Alexander V. & DeAllie C., 2017. Cysticercus fasciolaris in brown rats (Rattus norvegicus) in Grenada, West Indies. Journal of Parasitology Research, 2017(1).

Shukor M. I., Zainal Abidin C. M. R. & Hamid N., 2018. Greater Bandicoot Rat, Bandicota indica Infestation in Oil Palm Plantation and Its Management. Plant, 94: 100–110.

Sinniah B., Sinniah D., Singh M. & Poon G. K., 1978. Prevalence of parasitic infections in Malaysian oil palm estate workers. Southeast Asian J Trop Med Public Health, 9(2): 272−276.

Spickett A., Junker K., Froeschke G., Haukisalmi V. & Matthee S., 2020. Nematodes and cestodes of rodents in South Africa: baseline data on diversity and geographic distribution. Journal of helminthology, 94: 1–17.

Sulima−Celińska A., Kalinowska A. & Młocicki D., 2022. The Tapeworm Hymenolepis diminuta as an Important Model Organism in the Experimental Parasitology of the 21st Century. Pathogens, 11(12).

Tijjani M., Abd Majid R., Abdullahi S. A. & Unyah N. Z., 2020. Detection of rodent−borne parasitic pathogens of wild rats in Serdang, Selangor, Malaysia: A potential threat to human health. International Journal for Parasitology: Parasites and Wildlife, 11: 174–182.

Upadhyay S. K. & Nanware S. S., 2020. Parasitoses and Histopathological Consequences of Trichuris trichiura (Nematoda: Enoplida) in Rodents, Rattus rattus (Mammalia: Rodentia). Asian Journal of Biological and Life Sciences, 9(1): 75.

Woittiez L. S., Haryono S., Turhina S., Dani H., Dukan T. P. & Smit H., 2016. Smallholder Oil Palm Handbook Module 5: Pests and Diseases (3rd ed.). Wageningen University and SNV International Development Organisation.

Wooda B. J. & Fee C. G., 2003. A critical review of the development of rat control in Malaysian agriculture since the 1960s. Crop Protection, 22(3): 445–461.

Yamaguti S., 1959. Systema helminthum. Volume II. The cestodes of vertebrates. Interscience Publishers, pp. 860.

Yamaguti S., 1961. Systema helminthum. Volume III. The nematodes of vertebrates, pp. 679.

Yong H. S., Prasartvit A., Wanachiwanawin D. & Boonyong S., 2016. Geographical distribution and incidence of Angiostrongylus lungworms (Nematoda: Angiostrongylidae) and their rodent hosts in Thailand. Tropical biomedicine, 33: 35–44.

Zafir A. W. A. & Magintan D., 2016. Historical review of human−elephant conflict in Peninsular Malaysia. Journal of Wildlife and Parks, 31: 1–19.