收稿日期: 2021-02-01
录用日期: 2021-04-02
网络出版日期: 2022-05-19
基金资助
国家自然科学基金 (42076103)
Comparison of the fixation effect of formaldehyde and glutaraldehyde on the Ludox–QPS method
Received date: 2021-02-01
Accepted date: 2021-04-02
Online published: 2022-05-19
为检验甲醛与戊二醛固定并经Ludox–QPS (Ludox Density Gradient Centrifugation Combined with Quantitative Protargol Staining, 硅胶提取结合定量蛋白银染色)染色后的微型底栖动物群落研究结果是否具有可比性, 本研究于2019年4月对采自长江口湿地3种自然生境 (海三棱藨草滩、光滩和沙滩) 的底栖纤毛虫群落, 分别用终浓度1%的甲醛与2%的戊二醛进行固定后, 通过ANOSIM (Analysis of Similarities, 相似性分析) 双因子 (固定剂类型与生境类型) 交叉分析方法, 检验两种固定剂固定的群落在物种组成、生物量和多样性上的差异. 研究结果表明: 虽然不同生境之间纤毛虫群落结构存在显著差异, 但固定剂类型对其群落的物种组成、多样性参数 (物种数、个体数、均匀度、香农–维纳指数) 以及生物量均无显著影响. NMDS (Non-metric Multidimensional Scaling, 非度量多维尺度) 分析结果 (stress = 0.11) 也显示, 两种固定剂固定的纤毛虫群落物种组成相似. 以上结果表明, 这两种固定剂获得的底栖纤毛虫群落, 在经过Ludox–QPS染色后的研究结果具有可比性. 因此, 甲醛溶液也可用于微型底栖生物样品的固定.
王苗勋 , 许媛 . 甲醛与戊二醛固定剂对基于Ludox–QPS染色方法的研究结果对比[J]. 华东师范大学学报(自然科学版), 2022 , 2022(3) : 82 -89 . DOI: 10.3969/j.issn.1000-5641.2022.03.009
Density gradient centrifugation in combination with quantitative protargol stain (Ludox–QPS) is an important research method for the separation, extraction, and staining of microbenthos. Glutaraldehyde solution is the most widely used fixative for this method; however, it is a hazardous chemical and transportation by civil aviation is forbidden. Hence, biogeography studies using glutaraldehyde solution on a large scale are greatly limited. In contrast, samples fixed with formaldehyde solution can be transported by air consignment under certain conditions. To test whether the results of a study on microbenthic communities fixed with formaldehyde and glutaraldehyde are comparable, we collected microbenthic samples from three natural habitats (bare mudflat, Scirpus mariqueter meadow, sandy beach) and fixed them with either formaldehyde (final concentration is 1%) or glutaraldehyde (final concentration is 2%). Then, we tested the significance of differences in species composition, diversity, and biomass of the communities using an ANOSIM two-way crossed analysis (fixative type and habitat type). The results of this study demonstrate that although significant differences exist in the community structures among the three habitats, the species composition, diversity indices (number of species, number of individuals, evenness, Shannon-Wiener diversity index), and biomass of the microbenthic communities between the two fixative types have no significant differences. NMDS analysis also shows similar results (stress = 0.11). In conclusion, the data indicates that the microbenthic communities fixed by the two fixatives are comparable. Therefore, formaldehyde is also suitable for ecological research of microbenthos as a fixative.
Key words: diversity; community structure; microbenthos; ciliates; fixative
| 1 | CAREY P G. Marine interstitial ciliates: An illustrated key [M]. London: Chapman and Hall, 1992: 1-351. |
| 2 | 杜永芬. 潮间带纤毛虫原生动物和小型底栖动物生态学研究 [D]. 北京: 中国科学院研究生院, 2008. |
| 3 | 代仁海. 潮间带底栖纤毛虫分类学及生态学初步研究 [D]. 山东 青岛: 中国海洋大学, 2009. |
| 4 | 类彦立, 徐奎栋. 海洋微型底栖生物调查方法与操作规程. 海洋与湖沼, 2011, 42 (1): 157- 164. |
| 5 | 孟昭翠. 黄海夏季微型底栖生物群落结构与生态特点 [D]. 北京: 中国科学院研究生院, 2011. |
| 6 | 类彦立, 徐奎栋. 海洋微型底栖生物调查规范: HY/T140—2011 [S]. 北京: 中国标准出版社, 2011. |
| 7 | 方晓琪, 仇建标, 余海滨, 等. 海洋浮游植物调查中常见的固定和保存方法及其影响. 海洋湖沼通报, 2019, (6): 106- 111. |
| 8 | BURKILL P H. Ciliates and other microplankton components of a nearshore food–webs: Standing stocks and production processes. Ann Inst Oceanogr Paris N S, 1982, 58, 335- 350. |
| 9 | STOECKER D K, GIFFORD D J, PUTT M. Preservation of marine planktonic ciliates: Losses and cell shrink age during fixation. Marine Ecology Progress Series, 1994, 110 (2/3): 239- 299. |
| 10 | JEROME C A, MONTAGNES D J, TAYLOR F J. The effect of the quantitative protargol stain and Lugol’s and Bouin’s fixatives on cell size: A more accurate estimate of ciliate species biomass. Journal of Eukaryotic Microbiology, 2010, 40 (3): 254- 259. |
| 11 | XU K, DU Y, LEI Y, et al. A practical method of Ludox density gradient centrifugation combined with protargol staining for extracting and estimating ciliates in marine sediments. European Journal of Protistology, 2010, 46 (4): 263- 270. |
| 12 | 中国民用航空局. 旅客和机组携带危险品的航空运输规范: MH/T1030–2018 [S]. 北京: 中国民用航空局, 2018. |
| 13 | 张武昌, 肖天, 王荣. 海洋微型浮游动物的丰度和生物量. 生态学报, 2001, 21 (11): 1893- 1908. |
| 14 | TURLEY C M, HUGHES D J. Effects of storage on direct estimates of bacterial numbers of preserved seawater samples. Deep Sea Research, 1992, 39 (3/4): 375- 394. |
| 15 | CHOI J W, STOECKER D K. Effects of fixation on cell volume of marine planktonic protozoa. Applied and Environmental Microbiology, 1989, 55 (7): 1761- 1765. |
| 16 | STOECKER D K. An experimentally determined carbon: Volume ratio for marine “Oligotrichous” ciliates from estuarine and coastal water. Limnology and Oceanography, 1989, 34 (6): 1097- 1103. |
| 17 | OHMAN M D, SNYDER R A. Growth kinetics of the omnivorous oligotrich ciliate Strombidium sp. . Limnology and Oceanography, 1991, 36 (5): 922- 935. |
| 18 | LEAKEY R J G, BURKLL P H, SLEIGH M A. A comparison of fixatives for the estimation of abundance and biovolume of marine planktonic ciliate populations. Journal of Plankton Research, 1994, (4): 375- 389. |
| 19 | 曾钰婷. 少毛类纤毛虫定量方法比较——QPS与福尔马林固定液之数量体积及分类能力的评估 [D]. 台湾地区 基隆市: 台湾海洋大学, 2012. |
| 20 | 孟昭翠, 类彦立, 和莹莹, 等. 样品保藏方式与时间对海洋底栖细菌及原生生物荧光计数效能的影响. 海洋科学, 2010, 34 (5): 13- 20. |
| 21 | 宋微波, 沃伦, 胡晓钟. 中国黄渤海的自由生纤毛虫 [M]. 北京: 科学出版社, 2009. |
| 22 | LYNN D H. The?Ciliated?Protozoa: ?Characterization, ?Classification, ?and?Guide?to?the Literature [M]. 3th ed. Dordrecht, the Netherlands: Springer, 2008. |
| 23 | NOZAIS C, PERISSINOTTO R, TITA G. Seasonal dynamics of meiofauna in a South African temporarily open/closed estuary (Mdloti Estuary, Indian Ocean). Estuarine Coastal and Shelf Science, 2005, 62 (1/2): 325- 338. |
| 24 | HAMELS I, MUYLAERT K, SABBE K, et al. Contrasting dynamics of ciliate communities in sandy and silty sediments of an estuarine intertidal flat. European Journal of Protistology, 2005, 41 (4): 241- 250. |
| 25 | 周红, 张志南. 大型多元统计软件PRIMER的方法原理及其在底栖群落生态学中的应用. 青岛海洋大学学报(自然科学版), 2003, 3 (1): 58- 64. |
| 26 | XU Y, FAN X, WARREN A, et al. Functional diversity of benthic ciliate communities in response to environmental gradients in a wetland of Yangtze Estuary, China. Marine Pollution Bulletin, 2018, 127, 726- 732. |
| 27 | VERISSIMO H, BREMNER J, GARCIA C, et al. Assessment of the subtidal macrobenthic community functioning of a temperate estuary following environmental restoration. Ecological Indicators, 2012, 23, 312- 322. |
| 28 | PAGANELLI D, MARCHINI A, OCCHIPINTI A. Functional structure of marine benthic assemblages using Biological Traits Analysis (BTA): A study along the Emilia–Romagna coastline (Italy, North–West Adriatic Sea). Estuarine Coastal and Shelf Science, 2012, 96, 245- 256. |
| 29 | BREMNER J, ROGERS I S, FRID L C. Functional diversity of macrobenthic assemblages decreases in response to sewage discharges. Ecological Indicators, 2016, 66, 65- 75. |
| 30 | WONG M C, DOWD M. Patterns in taxonomic and functional diversity of macrobenthic invertebrates across seagrass habitats: A case study in Atlantic Canada. Estuaries and Coasts, 2015, 38 (6): 2323- 2336. |
| 31 | 张遐, 鞠躬, 董光皎. 甲醛和戊二醛应用于神经系统免疫组织化学组织固定的特性分析. 神经解剖学杂志, 1990, 6 (2): 249- 256. |
| 32 | 马族航. 上海崇明岛东滩湿地底栖纤毛虫的物种多样性及其生态学研究 [D]. 上海: 华东师范大学, 2018. |
| 33 | OTA T, TANIGUCHI A. Standing crop of planktonic ciliates in the East China Sea and their potential grazing impact and contribution to nutrient regeneration. Deep Sea Research, 2003, 50 (2): 423- 442. |
| 34 | HWANG S J, HEATH R T. The distribution of Protozoa across a trophic gradient, factors controlling their abundance and importance in the plankton food web. Journal of Plankton Research, 1997, 19 (4): 491- 518. |
| 35 | XU Y, YAO S, SOETAERT K, et al. Effects of salt marsh restoration on eukaryotic microbenthic communities in Yangtze Estuary [J]. Marine Ecology Progress Series, 2020, 638: 39–50. |
| 36 | TURLEY C M, HUGHES D J. Effects of storage on direct estimates of bacterial numbers of preserved seawater samples. Deep Sea Research, 1992, 39 (3): 375- 394. |
| 37 | 刘华雪, 谭烨辉, 黄良民, 等. 夏季南海北部纤毛虫群落组成及其水平分布. 生态学报, 2010, 30 (9): 2340- 2346. |
| 38 | 周百灵, 孟昭翠, 赵峰, 等. 长江口外海域微型和小型底栖生物群落结构和时空变化. 生态学报, 2015, 35 (15): 5050- 5063. |
/
| 〈 |
|
〉 |
中国综合性科技类核心期刊(北大核心)