Distribution pattern of free living nematode communities in the eight Mekong estuaries by seasonal factor

Ngô, Quảng Xuân; Nguyen, Ngoc Chau; Nguyen, Dinh Tu; Pham, Van Lam; Vanreusel, Ann

doi:10.13141/jve.vol4.no1.pp28-33

Cited by 3 publications

(1 citation statement)

References 7 publications

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“…In our case, we excluded the salinity effect since the three stations were all located within the same polyhaline zone of the estuary. We sampled during the dry season, but during the wet season the estuary salinity decrease [92] might impact the nematoda assemblages over a year for the same stations, as observed in some Vietnamese estuaries [93]. In a study based on the metals impacts (e.g., Hg, Pb, As, Cd, Cu, and Cr) on meiofauna assemblages [40], authors supported the evidence of some nematode tolerance against metals loads whose concentrations exceeded the National Environment Quality.…”

Section: Nematodes Communitymentioning

confidence: 99%

First Assessment of the Benthic Meiofauna Sensitivity to Low Human-Impacted Mangroves in French Guiana

Michelet

Zeppilli

Hubas

et al. 2021

Forests

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Bioindicators assess the mangroves ecological state according to the types of pressures but they differ with the ecosystem’s specificities. We investigated benthic meiofauna diversity and structure within the low human-impacted mangroves in French Guiana (South America) in response to sediment variables with various distances to the main city. Contaminant’s concentrations differed among the stations, but they remained below toxicity guidelines. Meiofauna structure (Foraminifera, Kinorhyncha, Nematoda) however varied accordingly. Nematode’s identification brought details on the sediment’s quality. The opportunistic genus Paraethmolaimus (Jensen, 1994) strongly correlated to the higher concentrations of Hg, Pb. Anoxic sediments were marked by organic enrichment in pesticides, PCB, and mangrove litter products and dominance of two tolerant genus, Terschellingia (de Man, 1888) and Spirinia (Gerlach, 1963). In each of these two stations, we found many Desmodora individuals (de Man, 1889) with the presence of epibionts highlighting the nematodes decreased fitness and defenses. Oxic sediments without contaminants were distinguished by the sensitive genera Pseudocella (Filipjev, 1927) and a higher diversity of trophic groups. Our results suggested a nematodes sensitivity to low contaminants concentrations. Further investigations at different spatio-temporal scales and levels of deterioration, would be necessary to use of this group as bioindicator of the mangroves’ ecological status.

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Section: Nematodes Communitymentioning

confidence: 99%

First Assessment of the Benthic Meiofauna Sensitivity to Low Human-Impacted Mangroves in French Guiana

Michelet

Zeppilli

Hubas

et al. 2021

Forests

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The Seasonal Variability in The Genus-Family Structure of Free-Living Nematode Communities in Organic Shrimp Farming Ponds, Ca Mau Province

Yến¹,

Quảng²

2019

NST

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This study determined the seasonal variability of free-living nematode communities structure (genus/family level) in organic shrimp farms ponds in Tam Giang commune, Nam Can district, Ca Mau province. Based on the result of SIMPER analysis, the average similarity in nematode communities at genus level was low with 30.75% and 30.81% (in dry and rainy season, respectively). However, the average dissimilarity between seasons was considerably high with 71.75%. Terschellingia, Daptonema, and Parodontophora were main genera contributing to similarity/dissimilarity between seasons. At the family level, results of SIMPER analysis showed that the average similarity was low with 37.12% and 39.02% (dry and rainy, respectively). Additionally, the average dissimilarity between dry and rainy season was fairly high with 64.06%. Specifically, four families such as Linhomoeidae, Xyalidae, Axonolaimidae, and Chromadoridae were the main families contributing to similarity/dissimilarity between seasons. Differences in sediment environmental characteristics between dry and rainy season are the reason for dissimilarity in the nematode communities structure. The high abundance of genus Terschellingia, Daptonema, Parodontophora may be indicative of organic enrichment conditions in shrimp pond sediment in both seasons. Nematodes with their rapid adaptation to changing environments can be used as a potential tool for bio-indicator. Keywords Bio-indicator, Ca Mau province, nematode communities, organic shrimp farms ponds, simper analysis References [1] Lin, F. Y., Vo, A. H., Phan, V. B., Nguyen, T. T., Bryla, D., Tran, C. T., ... & Robbins, J. B., The epidemiology of typhoid fever in the Dong Thap Province, Mekong Delta region of Vietnam, The American journal of tropical medicine and hygiene 62(5) (2000) 644-648.[2] Semprucci F, Moreno M, Sbrocca S, Rocchi M, AlbertelliG, Balsamo, M., The nematode assemblage as a tool for the assessment of marine ecological quality status: a case-study in the Central Adriatic Sea, Mediterranean Marine Science 14(1) (2013) 48-57.[3] Ngo, Q. X., Nguyen, N. C., Nguyen, D. T., & Vanreusel, A., Distribution pattern of free living nematode communities in the eight Mekong estuaries by seasonal factor, Journal of Vietnamese Environment 4(1) (2013) 28-33.[4] Heip, C., Vincx, M., Vranken G., The ecology of marine nematodes, Oceanography and Marine Biology: An Annual Review 23 (1985) 399-489.[5] Hodda, M., Nicholas, W.L., Nematode diversity and industrial pollution in the Hunter River Estuary, NSW, Australia, Marine Pollution Bulletin 17 (1986) 251-255.[6] Alongi D.M., Intertidal zonation and seasonality of meiobenthos in tropical mangrove estuaries, Marine Biology 95 (1987) 447-458.[7] Tudorancea, C., & Zullini, A., Associations and distribution of benthic nematodes in the Ethiopian Rift Valley lakes, Hydrobiologia, 179(1) (1989) 81-96.[8] Hodda M., Nicholas W.L., Production of meiofauna in an Australian estuary, Wetland 9 (1990) 41-48.[9] Beier, S., & Traunspurger, W., Seasonal distribution of free-living nematodes in the Körsch, a coarse-grained submountain carbonate stream in southwest Germany, Nematology 5(4) (2003) 481-504.[10] Hourston, M., Potter, I. C., Warwick, R. M., Valesini, F. J., & Clarke, K. R., Spatial and seasonal variations in the ecological characteristics of the free-living nematode assemblages in a large microtidal estuary, Estuarine, Coastal and Shelf Science 82(2) (2009) 309-322.[11] Tran, T.T., Pham, T.L., Nguyen, T., Ngo, X. Q., Relationship of free-lingving nematode communities to some environmental characteristics in the organic shrimp farms, Ca Mau province, Vietnam Journal of Science and Technology 56(5) (2018).[12] Tran, T. T., Nguyen, T. M. Y., Nguyen, T., Ngo, X. Q., Meiofauna in the mangrove–shrimp farms ponds, Ca Mau province, Vietnam Journal of Science and Technology 55(3) (2017) 271.[13] El Hag E. A., Food and food selection of the Penaeid prawn Penaeus monodon (Fabricius), In Limnology and Marine Biology in the Sudan, Springer Netherlands, (1984) 213-217.[14] Chong V. C., Sasekumar A., Food and feeding habits of the white prawn Penaeus merguiensis, Marine ecology progress series 5 (20) (1981) 185-191.[15] Nguyen Thi My Yen, Tran Thanh Thai, Nguyen Tan Duc, Ngo Xuan Quang, Free living nematode communities as fundamental food for shrimps in the ecological - model of mangrove - shrimp farming ponds, Nam Can district, Ca Mau province, Vietnam Journal of Biotechnology, 16(3) (2018), 581 -588.[16] Clarke, K.R. and Gorley, R.N., PRIMER v6: User Manual/Tutorial PRIMER-E: Plymouth (2006).[17] Ingels, J., Tchesunov, A. V. and Vanreusel, A., Meiofauna in the Gollum Channels and the Whittard Canyon, Celtic Margin—how local environmental conditions shape nematode structure and function, PLoS One 6(5) (2011) e20094.[18] Cai, L., Fu, S., Yang, J. and Zhou, X., Distribution of meiofaunal abundance in relation to environmental factors in Beibu Gulf, South China Sea, Acta Oceanologica Sinica 31(6) (2012) 92-103.[19] Ngo, X. Q., Smol, N. and Vanreusel, A., The meiofauna distribution in correlation with environmental characteristics in 5 Mekong estuaries, Vietnam, Cahiers de Biologie Marine 54 (2013) 71 -83.[20] Górska, B., Grzelak, K., Kotwicki, L., Hasemann, C., Schewe, I., Soltwedel, T. and W łodarska-Kowalczuk, M., Bathymetric variations in vertical distribution patterns of meiofauna in the surface sediments of the deep Arctic ocean (HAUSGARTEN, Fram strait), Deep Sea Research Part I: Oceanographic Research 91 (2014) 36-49.[21] Mueller, M., Pander, J., & Geist, J., The effects of weirs on structural stream habitat and biological communities, Journal of Applied Ecology 48(6) (2011) 1450-1461.[22] Schratzberger, M., Warr, K., Rogers, S. I., Patterns of nematode populations in the southwestern North Sea and their link to other components of the benthic fauna, Journal of Sea Research 55 (2006) 113–127.[23] Moreno, M., Albertelli, G., and Fabiano, M., Nematode response to metal, PAHs and organic enrichment in tourist marinas of the mediterranean sea, Marine Pollution Bulletin 58(8) (2009) 1192-1201.[24] Alves, A. S., Adão, H., Ferrero, T. J., Marques, J. C., Costa, M. J., & Patrício, J., Benthic meiofauna as indicator of ecological changes in estuarine ecosystems: the use of nematodes in ecological quality assessment, Ecological Indicators 24 (2013) 462-475.[25] Moreno, M., Semprucci, F., Vezzulli, L., Balsamo, M., Fabiano, M., & Albertelli, G., The use of nematodes in assessing ecological quality status in the Mediterranean (2) (2011) 328-336.

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Ảnh Hưởng Của Yếu Tố Mùa Tới Sự Đánh Giá Sức Khỏe Sinh Thái Nền Đáy Sông Ba Lai Thông Qua Quần Xã Tuyến Trùng Sống Tự Do

Hoài¹,

Thái²,

Yến³

et al. 2021

TNUJST

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Yếu tố mùa thường được nghiên cứu nhằm làm rõ sự ảnh hưởng của chúng đối với quần xã tuyến trùng sống tự do khi áp dụng vào đánh giá nhanh sức khỏe sinh thái. Nghiên cứu được thực hiện tại sông Ba Lai, tỉnh Bến Tre trong mùa mưa năm 2019 và mùa khô năm 2020. Kết quả nghiên cứu thu được trong mùa mưa là 97 giống, 47 họ thuộc 11 bộ và trong mùa khô là 91 giống nhưng thuộc 43 họ, 10 bộ thuộc cùng 2 lớp (Chromadorea và Enoplia). Áp dụng giá trị cp và chỉ số sinh trưởng MI của quần xã tuyến trùng sống tự do để đánh giá nhanh cho thấy, sức khỏe sinh thái nền đáy sông Ba Lai ở mức xáo trộn tại hầu hết các vị trí khảo sát, các vị trí ngay chân đập Ba Lai luôn duy trì sức khỏe sinh thái xáo trộn qua hai mùa khảo sát. Các chỉ số và giá trị MI của quần xã tuyến trùng trên sông Ba Lai cho thấy yếu tố mùa đã chi phối tính khác biệt trong kết quả đánh giá. Do đó, yếu tố mùa cần được cân nhắc cẩn trọng và áp dụng vào nghiên cứu chi tiết hơn khi dùng tuyến trùng làm sinh vật chỉ thị.

show abstract

Distribution pattern of free living nematode communities in the eight Mekong estuaries by seasonal factor

Cited by 3 publications

References 7 publications

First Assessment of the Benthic Meiofauna Sensitivity to Low Human-Impacted Mangroves in French Guiana

First Assessment of the Benthic Meiofauna Sensitivity to Low Human-Impacted Mangroves in French Guiana

The Seasonal Variability in The Genus-Family Structure of Free-Living Nematode Communities in Organic Shrimp Farming Ponds, Ca Mau Province

Ảnh Hưởng Của Yếu Tố Mùa Tới Sự Đánh Giá Sức Khỏe Sinh Thái Nền Đáy Sông Ba Lai Thông Qua Quần Xã Tuyến Trùng Sống Tự Do

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