NEW RECORD SPECIES OF GIANT FRESH WATER SHRIMP FROM THE DOWNSTREAM OF SERAYU RIVER
DOI:
https://doi.org/10.36103/vz9wzs70Keywords:
Bio geography, DNA Barcoding, M. rosenbergii, M. spinipes, Serayu River, life below waterAbstract
Indonesia is characterized by great diversity of freshwater shrimp, consisting of several islands due to the geographical location on the equator. A recent investigation conducted in Central Java has identified Serayu River as the major habitat of freshwater shrimp genus Macrobrachium. Therefore, this research aimed to determine the type of giant freshwater shrimp found downstream of Serayu River using explanatory method. The experiment was conducted for one year (January - December 2023) and the results found two freshwater giant prawn species, namely Macrobrachium rosenbergii and Macrobrachium spinipes. Moreover, this research is the first record of M. spinipes based on the Cytochrome C oxidase Subunit I (CO1) gene. The mtDNA segment of M. rosenbergii was 631 bp (base pairs) (GenBank accession: LC813231.1), while M. spinipes was 616 bp (GenBank accession: PP735157.1). M. spinipes and M. rosenbergii downstream of Serayu River showed similar locations and characteristics. Genetic distance conducted on 15 species of the genus Macrobrachium showed that giant freshwater prawn serayu had a matrix value of 0.09 - 0.18. Genetic analysis conducted with GenBank indicated that M. spinipes showed significant differences from other species, suggesting the natural dispersal of juvenile through currents across Wallace Line. This research also found that M. rosenbergii was similar to M. dacqueti and related to M. malcolmsonii, while M. spinipes was close to M. suphanense. To support these results, recommendation was made to explore further the rivers in the western part of Java, Indonesia.
References
Al-Khshali, M. S., and S. A. Faisal. 2023. Study of the Chemical Properties of the Meat of some Fish Imported to Iraq.IOP Conference Series: Earth and Environmental Science, 1262 (7), 0720892.
Ackiss, A.S., S. Pardede, E.D. Crandall, M. Carmen A. Ablan-lagman, and N. Romena. 2013. Pronounced genetic structure in a highly mobile coral reef fish , caesio cuning, in the coral triangle. Marine Ecology Progress Series, 480(4):185–97. https://doi.org//10.3354/meps10199.
Akinwunmi, M.F., and R. O. Moruf. 2021. Aspects of the bionomics of brackish water prawn (Macrobrachium macrobrachion: Herklots 1851) in the Interconnecting Lagoons of South-Western Nigeria. Egyptian Journal of Basic and Applied Sciences, 8(1):222–34. https://doi.org//10.1080/2314808X.2021.1956186.
Alam, M.M. Mahbub, K.M. Westfall, and S. Pálsson. 2017. Historical demography and genetic differentiation of the giant freshwater prawn Macrobrachium rosenbergii in Bangladesh Based on mitochondrial and DdRAD sequence variation. Ecology and Evolution, 7(3):4326–35. https://doi.org//10.1002/ece3.3023.
Al-Khshali, M.S. and A. B. Ibrahim. 2019. Study of the chemical composition of common carp fish reared in different culture systems. Plant Archives, 19, 1816–1818
Alsaadoon, D.W.K., F. M. Hassan, W. M. Mahdi. 2023. Assessement of water quality of Diyala River using overall index of pollution (OIP) in Iraq. Iraqi Journal of Agricultural Sciences 54(3):682–690. https://doi.org/10.36103/ijas.v54i3.1748.
Astuti, S.S, A.M Hariati, W.E. Kusuma, A. Yuniarti, N. Kurniawan, and D.G.R Wiadnya. 2023. Anthropogenic introduction of the Spotted barb, Barbodes binotatus, across the Wallace Line in Western Sulawesi, Indonesia. Biodiversitas, 24(3):1916–25. https://doi.org//10.13057/biodiv/d240369.
Basith. A, Abinawanto, E. Kusrini, and Yasman. 2021. Genetic diversity analysis and phylogenetic reconstruction of groupers Epinephelus Spp. from Madura Island, Indonesia based on partial sequence of Co1 Gene. Biodiversitas, 22(10):4282–90. https://doi.org//10.13057/biodiv/d221020.
Beesley, L.S., S. Killerby-Smith, D.C. Gwinn, B.J. Pusey, M.M. Douglas, P.A. Novak, T.C. Tayer, C.S. Keogh, M.J. Kennard, C.A. Canham, and S.A. Setterfield. 2023. Modelling the longitudinal distribution, abundance, and habitat use of the giant freshwater shrimp (Macrobrachium spinipes) in a large intermittent, tropical Australian River to inform water resource policy. Freshwater Biology, 68(1):61–76. https://doi.org//10.1111/fwb.14009.
Buckley, S. James, C. Brauer, P.J. Unmack, M.P. Hammer, and L.B. Beheregaray. 2021. The roles of aridification and sea level changes in the diversification and persistence of freshwater fish lineages. Molecular Ecology, 30(19):4866–83. https://doi.org//10.1111/mec.16082.
Cai, Y., and P.K.L. Ng. 2001. The freshwater decapod crustaceans of Halmahera, Indonesia. Journal of Crustacean Biology, 21(3):665–95. https://doi.org//10.1651/0278-0372(2001)021[0665:tfdcoh]2.0.co;2.
Cai, Yixiong, and Peter K.L. Ng. 2002. The freshwater palaemonid prawns (Crustacea: Decapoda: Caridea) of Myanmar. Hydrobiologia, 487(2):59–83. https://doi.org//10.1023/A:1022991224381.
Castelin, M, V. Mazancourt, G. Marquet, G. Zimmerman, and P. Keith. 2017. Genetic and morphological evidence for cryptic species in Macrobrachium australe and resurrection of M. Ustulatum (Crustacea, Palaemonidae). European Journal of Taxonomy, 2017(289):1–27. https://doi.org//10.5852/ejt.2017.289.
Chan, T.Y. 1998. Shrimps and prawns. FAO species identification guide for fishery purposes. in: carpenter ke, Niem VH (Eds).
Condamine. F.L., E.F.A. Toussaint, A.L Clamens, G. Genson, F.A.H. Sperling, and G.J. Kergoat. 2015. Deciphering the evolution of birdwing butterflies 150 years after alfred russel Wallace. Scientific Reports, 5:1–11. https://10.1038/srep11860
Detsch, H, M. Balke, E.F.A. Toussaint, R.P. Narakusumo, K. Fiedler, and A. Riedel. 2020. Transgressing Wallace’s Line brings hyperdiverse weevils down to earth. Ecography, 43(9):1329–40. https://10.1111/ecog.05128
De Bruyn, M., E. Nugroho, M.M Hossain, J.C. Wilson, and P.B. Mather. 2005. Phylogeographic evidence for the existence of an ancient biogeographic barrier: the isthmus of kra seaway. Heredity, 94(3):370–78. https://doi.org//10.1038/sj.hdy.6800613.
De Bruyn, M, J.A. Wilson, and P.B. Mather. 2004. Huxley’s Line demarcates extensive genetic divergence between Eastern and Western forms of the giant freshwater prawn, Macrobrachium rosenbergii. Molecular Phylogenetics and Evolution, 30(1):251–57.
https://doi.org//10.1016/S1055-7903(03)00176-3.
Evans. B.J., R.M. Brown, J.A. McGuire, J.Supriatna, N. Andayani, A. Diesmos, D. Iskandar, D.J. Melnick, and D.C. Cannatella. 2003. Phylogenetics of fanged frogs: testing biogeographical hypotheses at the interface of the Asian and Australian faunal zones. Systematic Biology, 52(6):794–819. https://10.1080/10635150390251063.
Ferro, I, and J.J. Morrone. 2014. Biogeographical transition zones : a search for conceptual synthesis. Biological Journal of the Linnean Society, 113:1–12.
Hall, Robert. 2013. The palaeogeography of sundaland and wallacea since the late jurassic. Journal of Limnology 72(S2):1–17. https://doi.org//10.4081/jlimnol.2013.s2.e1.
Hardianto E, D.P. Wijayanti, J.Y. Shy, P. Mather, J. Hughes, and H. Imai. 2021. Molecular ecology of the fiddler crab Austruca perplexa (H. Milne Edwards, 1852): genetic divergence along a major biogeographical barrier, Wallace’s Line. Biological Journal of the Linnean Society, 135(2):310–21. https://doi.org//10.1093/biolinnean/blab142.
Hoarau, P.E., C.R.M. Treilhes, and P.B. Valade. 2018. Reproductive biology and recruitment in an amphidromous prawn Macrobrachium australe in Reunion Island. invertebrate biology, 10(10):1–9. https://doi.org//10.1111/ivb.12222.
Ibrahim S, Z. Zhong, X. Lan, J. Luo, Q. Tang, Z. Xia, S. Yi, and G. Yang. 2023. Morphological diversity of different male morphotypes of giant freshwater prawn Macrobrachium rosenbergii (De Man, 1879). Aquaculture Journal, 3(2):133–48. https://doi.org//10.3390/aquacj3020012.
Jackson S, M. Finn, and K. Scheepers. 2014. The use of replacement cost method to assess and manage the impacts of water resource development on Australian Indigenous customary economies. Journal of Environmental Management, 135:100–109. https://doi.org//10.1016/j.jenvman.2014.01.018.
Kuguru, B., J. Groeneveld, S. Singh, and B. McHomvu. 2019. First Record of Giant Freshwater Prawn Macrobrachium rosenbergii (De Man, 1879) from small-scale fisheries in East Africa, confirmed with DNA barcoding. BioInvasions Records, 8(2):379–91. https://doi.org//10.3391/bir.2019.8.2.19.
Kusbiyanto. 2009. Bioekologi udang Macrobrachium Spp. di Sungai Banjaran Kabupaten Banyumas. Biosfera, 26(1):23–29.
Letsch, H., M. Balke, E.F.A. Toussaint, R.P. Narakusumo, K. Fiedler, and A. Riedel. 2020. Transgressing Wallace’s Line brings hyperdiverse weevils down to earth. Ecography, 43(9):1329–40. https://10.1111/ecog.05128
Lindenfelser, M. Ellen. 1984. Morphometric and allozyme congruence: evolution in the prawn Macrobrachium rosenbergii (Decapoda: Palaemonidae). society of systematic biologists morphometric, 33(2):195–204.
Liu, M., Y. Cai, and C. Tzeng. 2007. Molecular systematics of the freshwater prawn Genus Macrobrachium Bate, 1868 (Crustacea: Decapoda: Palaemonidae) inferred from MtDNA sequences, with emphasis on East Asian species. Zoological Studies, 46(3):272–89.
Makarim, S., J. Sprinta, Z. Liu, W. Yu, A. Sant, X. Yan, and R. Dwi Susanto. 2019. Previously unidentified indonesian throughflow pathways and freshening in the Indian ocean during recent decades. Scientific Reports, 9(May):1–13. https://doi.org//10.1038/s41598-019-43841-z.
Mohammed, K.S., and Y. M. S. Al-Barzinji. 2022. Genetic characterization of body weight traits in rocky partridge chicks. Iraqi Journal of Agricultural Sciences, 53(6):1289–1297. https://doi.org//10.36103/ijas.v53i6.1643.
Mohammed, A.M. and M. S. ,Al-Khshali. 2023. Effect of fertilization on growth characteristics of cyprinus carpio cultured in rice fields in iraq. Iraqi Journal of Agricultural Sciences, 54(2):447–454. https://doi.org/10.36103/ijas.v54i2.1719
New, M. Bernard. 2010. History and global status of freshwater prawn farming.
Ng, P.K.L., and D. Wowor. 2011. On the nomenclature of the palaemonid names Palaemon spinipes desmarest, 1817, Palaemon spinipes Schenkel, 1902, and Macrobrachium wallacei Wowor & Ng, 2008 (Crustacea: Decapoda: Caridea). Zootaxa, 68(2904):66–68. https://doi.org//10.11646/zootaxa.2904.1.3.
Novak, P.A., P. Bayliss, E.A. Garcia, B.J. Pusey, and M.M. Douglas. 2017. Ontogenetic shifts in habitat use during the dry season by an amphidromous shrimp in a tropical Lowland River. Marine and Freshwater Research, 68(2):2275–88.
Novak, P.A., M.M. Douglas, E.A. Garcia, P. Bayliss, and B.J. Pusey. 2015. A Life-history account of Macrobrachium spinipes (Schenkel, 1902) (Cherabin) in a large tropical Australian River. freshwater science, 34(2):620–33. https://doi.org//10.1086/681526.
Novak, P.A., E.A. Garcia, B.J. Pusey, and M.M. Douglas. 2016. Beesley. marine and freshwater research, 4(2):1–13.
Noori, A.A., and M. S. AlKhshali , J. Abuelheni. 2023. Effects of dietary addition of natural and nano zinc oxide to the diet on the physiological state of common carp. IOP Conference Series: Earth and Environmental Science, 1252(1), 012126
Pascual, M., B. Rives, C. Schunter, and E. MaCpherson. 2017. Impact of life history traits on gene flow: a multispecies systematic review across oceanographic barriers in the Mediterranean Sea. PLoS ONE, 12(5):1–20. https://doi.org//10.1371/journal.pone.0176419.
Pickering, T., G. Pama, A. Singh, J. Varawa, R. Mana, and R. Totome. 2014. SPC activities creating an aquaculture industry for a new type of freshwater prawn in Papua New Guinea hatchery technique. 9–10.
Rao, T., G. Leishe, P. Candice, and M.J. Peter. 2020. Discovery of populations endemic to a marine biogeographical transition zone. Biodiversity Research, 26(June):1825–1832. https://doi.org//10.1111/ddi.13162.
Rowe, K.C., A.S. Achmadi, P.H. Fabre, J.J. Schenk, S.J. Steppan, and J.A. Esselstyn. 2019. Oceanic islands of wallacea as a source for dispersal and diversification of murine rodents. Journal of Biogeography, 46(12):2752–2768. https://10.1111/jbi.13720
Saengphan, N., B. Panijpan, S. Senapin, P. Laosinchai, A. Suksomnit, and K. Phiwsaiya. 2021. Morphology and molecular phylogeny of Macrobrachium prachuapense Sp. Nov. (Decapoda: Palaemonidae) from Southern Thailand. Zootaxa, 4966(4):428–42. https://doi.org//10.11646/zootaxa.4966.4.2.
Sanvicente-a, L., J. Zavala-hidalgo, E. Allende-arandı, and M. Hermoso-salazar. 2018. Larval dispersal in three coral reef decapod species : Influence of Larval duration on the metapopulation structure. Plos One, 13(3):1–22.
Sartimbul, A., H. Nakata, E.Y. Herawati, E. Rohadi, D. Yona, L.I. Harlyan, A.D.R. Putri, V.A. Winata, R.I. Khasanah, Z. Arifin, R.D. Susanto, and F.M. Lauro. 2023. Monsoonal variation and its impact on the feeding habit of Bali Sardinella (S. lemuru Bleeker, 1853) in Bali Strait. Deep-Sea Research Part II: Topical Studies in Oceanography, 211(August 2022):105317. https://doi.org//10.1016/j.dsr2.2023.105317.
Sastranegara, M.H., Kusbiyanto, and A.E. Pulungsari. 2020. Species richness and longitudinal distribution of crustaceans in the Logawa River, Banyumas, Indonesia. Biodiversitas, 21(11):5322–30. https://doi.org//10.13057/biodiv/d211137.
Shiao, J.C, C.S. Tzeng, P.C. Li, and K.N.I. Bell. 2015. Upstream migration and marine early life history of amphidromous gobies inferred from otolith increments and microchemistry. Environmental Biology of Fishes, 98(3):933–50. https://doi.org//10.1007/s10641-014-0329-5.
Short, J.W. 2004. A revision of Australian River Prawns, Macrobrachium (Crustacea: Decapoda: Palaemonidae). Hydrobiologia, 525(1–3):1–100. https://doi.org//10.1023/B:HYDR.0000038871.50730.95.
Shy, J., D. Wowor, and Peter K.L. Ng. 2013. A new record of the giant freshwater prawn, Macrobrachium spinipes (Schenkel, 1902) (Crustacea: Decapoda: Palaemonidae) from Taiwan, with Notes on Its Taxonomy. Zootaxa, 3734(1):1925–28.
Siregar, A.S., T.P. Sinaga, and Setijanto. 2001. Studi ekologi fauna benthik (Macrobrachium Spp) pada Sungai Banjaran, Pelus dan Logawa di Kabupaten Banyumas. Biosfera, 3(Mei):1–11.
Suryaningsih, S., D. Bhagawati, S. Sukmaningrum, Sugiharto, and I.G.A.A. Ratna Puspitasari. 2020. Freshwater fish diversity in three tributary streams in Serayu Basin, Central Java, Indonesia. Biodiversitas, 21(12):5811–17. https://doi.org//10.13057/biodiv/d211244.
Thorburn, D.C., H.S. Gill, and D.L. Morgan. 2014. Predator and Prey interactions of fishes of a tropical Western Australia River revealed by dietary and stable isotope analyses. Journal of the Royal Society of Western Australia, 97(1):363–87.
Toussaint, E.F.A., R. Tänzler, C. Rahmadi, M. Balke, and A. Riedel. 2015. Biogeography of Australasian Flightless Weevils (Curculionidae, celeuthetini) suggests permeability of Lydekker’s and Wallace’s Lines. Zoologica Scripta 44(6):632–44. https://10.1111/zsc.12127
Tran, D.D., and J. Weger. 2018. Barriers to implementing irrigation and drainage policies in an Giang Province, Mekong Delta, Vietnam. Irrigation and Drainage, 67:81–95. https://doi.org//10.1002/ird.2172.
Udayasuriyan, R., P. Saravana, C. Vadivalagan, and G. Rajkumar. 2015. Efficiency of different COI markers in DNA barcoding of freshwater prawn species. Journal of Entomology and Zoology Studies, 3(October 2016):98–110.
Van Day. P., H. K. Huong, P.T.T.Truc, N.T.H. Nhi, D.T. Toan, L.P. Son, H.K. Nam, P.T.B. Nguyen, P.C.Hieu, D.X. Diep, and L.T.P. Mai. 2022. Effects of salinity and alkalinity on growth and survival of all-male giant freshwater prawn (Macrobrachium rosenbergii De Man, 1879) juveniles. Israeli Journal of Aquaculture – Bamidgeh, 74(4):1–14. https://doi.org//10.46989/001c.56682.
Wainwright, B.J., I.S. Arlyza, and S.A. Karl. 2020a. Population genetics of the banded coral shrimp, Stenopus hispidus (Olivier, 1811), in the Indonesian archipelago. Regional Studies in Marine Science, 39:101430. https://doi.org//10.1016/j.rsma.2020.101430.
Wainwright, B.J., I.S. Arlyza, and S.A. Karl. 2020b. Population genetics of the banded coral shrimp, stenopus hispidus (Olivier, 1811), in the Indonesian Archipelago. Journal of Experimental Marine Biology and Ecology, 525(December 2019):151325. https://doi.org//10.1016/j.jembe.2020.151325.
William B.L., and L.A. Rocha. 2015. Shifting seas: the impacts of Pleistocene Sea-level fluctuations on the evolution of tropical marine taxa. Journal of Biogeography, 42:25–38.
Winarni, E.T., S.B.I. Simanjuntak, and A. Nuryanto. 2023. DNA barcoding of crustacean larvae with two new records of Caridina gracilipes and Ptychognathus altimanus in the Western Region of Segara Anakan Lagoon in Indonesia. Biodiversitas, 24(1):341–48. https://doi.org//10.13057/biodiv/d240141.
Wowor, D., Y. Cai, and P.K.L. Ng. 2004. Crustacea : Decapoda , Caridea. Freshwater invertebrates of the Malaysian Region, 4(2):337–57.
Wowor, D., V. Muthu, R. Meier, M. Balke, Y. Cai, and P.K.L. Ng. 2009. Evolution of life history traits in asian freshwater prawns of the Genus Macrobrachium (Crustacea: Decapoda: Palaemonidae) based on multilocus molecular phylogenetic analysis. Molecular Phylogenetics and Evolution, 52(2):340–50. https://doi.org//10.1016/j.ympev.2009.01.002.
Wowor, D., and P.K.L. Ng. 2007. The giant freshwater prawns of the Macrobrachium rosenbergii species group (Crustacea: Decapoda: Caridea: Palaemonidae). Raffles Bulletin of Zoology, 55(2):321–336.
Wowor, D., and P.K.L. Ng. 2008. Case 3428 Palaemon rosenbergii De Man, 1879 (Currently Macrobrachium Rosenbergii ; Crustacea, Decapoda): proposed conservation of usage by designation of a neotype . The Bulletin of Zoological Nomenclature, 65(4):288–93. doi: 10.21805/bzn.v65i4.a12.
Downloads
Published
Issue
Section
License
Copyright (c) 2024 IRAQI JOURNAL OF AGRICULTURAL SCIENCES
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
How to Cite
2.jpg)
2.jpg)
