[1] Coryd S, Stevenj C.Conservation of aquatic resources through the use of freshwater protected areas:opportunities and challenges[J]. Biodiversity & Conservation, 2007, 16(7):2015-2029. [2] Dudgeon D, Arthington AH, Gessner MO, et al.Freshwater biodiversity:importance, threats, status and conservation challenges[J]Biological Reviews, 2006, 81(2):163-182. [3] Revenga C, Campbell I, Abell R, et al.Prospects for monitoring freshwater ecosystems towards the 2010 targets[J]. Philosophical Transactions of the Royal Society of London, 2005, 360(1454):397-413. [4] Order TO.Standard methods for sampling North American freshwater fishes:opportunities for international collaboration[J]. Fisheries, 2017, 42(3):7. [5] Bohmann K, Evans A, Gilbert MTP, et al.Environmental DNA for wildlife biology and biodiversity monitoring[J]. Trends in Ecology & Evolution, 2014, 29(6):358-367. [6] 姜维, 赵虎, 邓捷, 等. 环境DNA分析技术—一种水生生物调查新方法[J]. 水生态学杂志, 2016, 37(5):1-7. [7] Evans NT, Shirey PD, Wieringa JG, et al.Comparative cost and effort of fish distribution detection via environmental DNA analysis and electrofishing[J]. Fisheries, 2017, 42(2):90-99. [8] Laramie MB, Pilliod DS, Goldberg CS.Characterizing the distribution of an endangered salmonid using environmental DNA analysis[J]. Biol Conserv, 2015, 183:29-37. [9] Mckelvey KS, Young MK, Knotek WL, et al.Sampling large geographic areas for rare species using environmental DNA:a study of bull trout Salvelinus confluentus occupancy in western Montana[J]. Journal of Fish Biology, 2016, 88(3):1215-1222. [10] Rees HC, Maddison BC, Middleditch DJ, et al.The detection of aquatic animal species using environmental DNA - a review of eDNA as a survey tool in ecology[J]. Journal of Applied Ecology, 2014, 51:1450-1459. [11] Taberlet P, Coissac E, Hajibabaei M, et al.Environmental DNA[J]. Molecular Ecology, 2012, 21:1789-1793. [12] Evans NT, Olds BP, Renshaw MA, et al.Quantification of mesocosm fish and amphibian species diversity via environmental DNA metabarcoding[J]. Molecular Ecology Resources, 2015, 16(1):29-41. [13] Keskin E.Detection of invasive freshwater fish species using environmental DNA survey[J]. Biochemical Systematics & Ecology, 2014, 56:68-74. [14] Thomsen PF, Kielgast J, Iversen LL, et al.Detection of a diverse marine fish fauna using environmental dNA from seawater samples[J]. PLoS One, 2012, 7:e41732. [15] Thomsen PF, Kielgast J, Iversen LL, et al.Monitoring endangered freshwater biodiversity using environmental DNA[J]. Molecular Ecology, 2012, 21:2565. [16] Lacoursière-Roussel A, Côté G, Leclerc V, et al.Quantifying relative fish abundance with eDNA:a promising tool for fisheries management[J]. Journal of Applied Ecology, 2016, 53(4):1148-1157. [17] Takahara T, Minamoto T, Yamanaka H, et al.Estimation of fish biomass using environmental DNA[J]. PLoS One, 2012, 7:e35868. [18] Yamanaka H, Minamoto T.The use of environmental DNA of fishes as an efficient method of determining habitat connectivity[J]. Ecological Indicators, 2016, 62(1):147-153. [19] Jerde CL, Chadderton WL, Mahon AR, et al.Detection of asian carp DNA as part of a Great Lakes basin-wide surveillance program[J]. Canadian Journal of Fisheries & Aquatic Sciences, 2013, 70(4):522-526. [20] Pilliod DS, Goldbergcaren S, Arklerobert S, et al.Estimating occupancy and abundance of stream amphibians using environmental DNA from filtered water samples[J]. Canadian Journal of Fisheries & Aquatic Sciences, 2013, 70(8):1123-1130. [21] Turner CR, Uy KL, Everhart RC.Fish environmental DNA is more concentrated in aquatic sediments than surface water[J]. Biol Conserv, 2015, 183:93-102. [22] Jerde CL, Mahon AR, Chadderton WL, et al.“Sight-unseen” detection of rare aquatic species using environmental DNA[J]. Conservation Letters, 2011, 4(2):150-157. [23] Foote AD, Thomsen PF, Sveegaard S, et al.Investigating the potential use of environmental DNA(eDNA)for genetic monitoring of marine mammals[J]. PLoS One, 2012, 7(8):e41781. [24] Wilcox TM, Mckelvey KS, Young MK, et al.Robust Detection of rare species using environmental DNA:the importance of primer specificity[J]. PLoS One, 2013, 8:e59520. [25] Mahon AR, Jerde CL, Galaska M, et al.Validation of eDNA surveillance sensitivity for detection of Asian carps in controlled and field experiments[J]. PLoS One, 2013, 8(3):e58316. [26] Takahara T, Minamoto T, Doi H. Using environmental DNA to estimate the distribution of an Invasive fish species in ponds[J]. PLoS One, 2013, 8(2):e56584. [27] Klymus KE, Richter CA, Chapman DC, et al.Quantification of eDNA shedding rates from invasive bighead carp Hypophthalmichthys nobilis and silver carp Hypophthalmichthys molitrix[J]. Biol Conserv, 2015, 183:77-84. [28] Keskin E, Unal EM, Atar HH.Detection of rare and invasive freshwater fish species using eDNA pyrosequencing:Lake Iznik ichthyofauna revised[J]. Biochemical Systematics & Ecology, 2016, 67:29-36. [29] 徐念, 常剑波. 长江中下游干流环境DNA样本鱼类物种检测的初步研究[J]. 水生态学杂志, 2016, 37(5):49-55. [30] 赵梦迪. 利用环境DNA分析冬季中国东黄海水域的鱼类多样性[D]. 上海:上海海洋大学, 2017. [31] Takahara T, Minamoto T, Doi H. Effects of sample processing on the detection rate of environmental DNA from the Common Carp(Cyprinus carpio)[J]. Biol Conserv, 2015, 183:64-69. [32] Strickler KM, Fremier AK, Goldberg CS.Quantifying effects of UV-B, temperature, and pH on eDNA degradation in aquatic microcosms[J]. Biol Conserv, 2015, 183:85-92. [33] Turner CR, Barnes MA, Xu CCY, et al.Particle size distribution and optimal capture of aqueous macrobial eDNA[J]. Methods in Ecology & Evolution, 2014, 5(7):676-684. [34] 范圣第, 权春善. 环境DNA的提取和纯化方法的研究[J]. 大连民族大学学报, 2005, 7(5):1-4. [35] Kristy D, Florian A.Transport distance of invertebrate enviro-nmental DNA in a Natural River[J]. PLoS One, 2014, 9(2):e88786. [36] Renshaw MA, Olds BP, Jerde CL, et al.The room temperature preservation of filtered environmental DNA samples and assimilation into a phenol-chloroform-isoamyl alcohol DNA extraction[J]. Molecular Ecology Resources, 2015, 15(1):168-176. [37] Goldberg CS, Pilliod DS, Arkle RS, et al.Molecular detection of vertebrates in stream water:ademonstration using rocky mountain tailed frogs and idaho giant salamanders[J]. PLoS One, 2011, 6(7):e22746. [38] Collins RA, Armstrong KF, Holyoake AJ, et al.Something in the water:biosecurity monitoring of ornamental fish imports using environmental DNA[J]. Biological Invasions, 2013, 15(6):1209-1215. [39] Olson ZH, Briggler JT, Williams RN.An eDNA approach to detect eastern hellbenders(Cryptobranchus a. alleganiensis)using samples of water[J]. Wildlife Research, 2012, 39(7):629. [40] 刘军, 赵良杰, 凡迎春, 等. 鱼类环境DNA研究中通用引物的筛选验证[J]. 淡水渔业, 2016, 46(1):9-17. [41] 马鸿娟, Stewart K, 马利民, 等. 环境DNA及其在水生生态系统保护中的应用[J]. 生态学杂志, 2016, 35(2):516-523. [42] Piaggio AJ, Engeman RM, Hopken MW, et al.Detecting an elusive invasive species:a diagnostic PCR to detect Burmese python in Florida waters and an assessment of persistence of environmental DNA[J]. Molecular Ecology Resources, 2014, 14(2):374-380. [43] Minamoto T, Yamanaka H, Takahara T, et al.Surveillance of fish species composition using environmental DNA[J]. Limnology, 2012, 13(2):193-197. [44] Pyšek P, Richardson DM.Invasive species, environmental change and management, and health[J]. Annual Review of Environment & Resources, 2010, 35(1):25-46. [45] Deiner K, Walser JC, Mächler E, et al.Choice of capture and extraction methods affect detection of freshwater biodiversity from environmental DNA[J]. Biol Conserv, 2015, 183(9):53-63. [46] Eva B, Harmony P, Thomas G, et al.Trails of river monsters:detecting critically endangered mekong giant catfish pangasianodon gigas using environmental DNA[J]. Global Ecology & Conservation, 2016, 7(C):148-156. [47] Song JW, Small MJ, Casman EA. Making sense of the noise:The effect of hydrology on silver carp eDNA detection in the Chicago area waterway system[J]. Science of the Total Environment, 2017, 15: 605-606, 713-720. [48] Karahan A, Douek J, Paz G, et al.Employing DNA barcoding as taxonomy and conservation tools for fish species censuses at the southeastern Mediterranean, a hot-spot area for biological invasion[J]. Journal for Nature Conservation, 2017, 36:1-9. [49] Yamamoto S, Masuda R, Sato Y, et al.Environmental DNA metabarcoding reveals local fish communities in a species-rich coastal sea[J]. Scientific Reports, 2017, 7:40368. [50] Briers R.Ecology:from individuals to ecosystems[J]. Freshwater Biology, 2006, 51(9):1787-1788. [51] 卢珊. 常见水生动物与其环境DNA的定性与定量关系[D]. 南京:南京师范大学, 2015. [52] Spear SF, Groves JD, , Williams LA, et al, Using environmental DNA methods to improve detectability in a hellbender(Cryptobranchus alleganiensis)monitoring program[J]. Biol Conserv, 2015, 183:38-45. [53] Barnes MA, Turner CR.The ecology of environmental DNA and implications for conservation genetics[J]. Conservation Genetics, 2016, 17(1):1-17. [54] Sigsgaard EE, Carl H, Møller PR, et al.Monitoring the near-extinct European weather loach in Denmark based on environmental DNA from water samples[J]. Biol Conserv, 2015, 183:46-52. [55] 马竹欣. 利用环境DNA技术调查入侵种克氏原螯虾在元阳梯田的分布[D]. 昆明:云南大学, 2016. [56] 徐浩, 罗茜, 李云, 等. 环境DNA研究技术及其在生态学领域的应用[J]. 生物技术通报, 2014(10):49-55. [57] 于水强, 王文娟, Li BL, 等. 环境DNA技术在地下生态学中的应用[J]. 生态学报, 2015, 35(15):4968-4976. |