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德国HYDRO-BIOS公司——数字生物网口流量计 1 W6 A1 {2 `2 E3 m
Digital Flow Meter $ B4 j" [+ n1 Z ^' P: d3 \
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数字生物网口流量计(Digital Flow Meter) + O. k' m+ B. t w( d) h; N
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" w; ~9 v( s/ w数字生物网口流量计订购信息:# [0 p$ D$ i+ A! N
| 438 110 数字生物网口流量计. t+ r/ m5 q& E8 v D H
用来测量通过浮游生物网的水的体积
) [& Y9 R; o% N3 E; T Y+ ~ 5位机械式计数器) u) q. l: Z8 B* E/ r) m6 j& R
叶轮直径:75mm
0 g( e/ ]) M f3 e/ o 便捷的单点连接或双点连接. {" s$ d: R( K: S8 V
水平拖网使用 r5 f% N' C7 o1 q' `) j1 G4 z+ r
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1 R6 d( F, Q% k+ w: ` X | 438 115 数字生物网口流量计; T4 j& }: e1 M4 ]2 u) i
用来测量通过浮游生物网的水的体积
# i4 }; }. y* T9 ~' s2 V9 \4 o0 ] 5位机械式计数器
s" d( {3 y& y; G0 Z2 x, F( S+ ^) h 叶轮直径:75mm
3 {' ?+ T# h1 s; F3 z# g7 C 便捷的三点连接
& v- `6 J; w! u1 f' V 垂直拖网使用
! P& i; p) E3 r* m1 ?- Y% L0 c 带逆行自动停止功能% U0 g. ]- h8 l& C
| 数字生物网口流量计照片集:5 u: W. \+ \; n
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代表文献:+ j, C" [: X6 Z' q3 l$ S: _8 F! P' l
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1.D. Schnack,1974.On the Reliability of Methods for Quantitative Surveys of Fish Larvae.The Early Life History of Fish.201-212.
! N, s7 O" b9 I2 P Y% r5 i/ |2.S. Falk-Petersen and C.C.E. Hopkins,1981.Ecological investigations on the zooplankton community of Balsfjorden, northern Norway: population dynamics of the euphausiids Thysanoessa inermis (Kröyer), Thysanoessa raschii (M.Sars) and Meganyctiphanes norvegica (M.Sars) in 1976 and 1977.Journal of Plankton Research.3(2): 177-192. w3 r5 V# |' ] |
3.J. Lenz, D. Schnack, D. Petersen, J. Kreikemeier, B. Hermann, S. Mees and K. Wieland,1995.The Ichthyoplankton Recorder: A video recording system for in situ studies of small-scale plankton distribution patterns.ICES Journal of Marine Science.52(3-4):409-417.
3 [1 `2 S: H5 `4.A. Vandelannoote, H. Robberecht, H. Deelstra, F. Vyumvuhore, L. Bitetera, F. Ollevier,1996.The impact of the River Ntahangwa, the most polluted Burundian affluent of Lake Tanganyika, on the water quality of the lake.Hydrobiologia.328(2):161-171.
0 G" n/ e# g) \$ _5 A" G: \8 Y5.Epaminondas D. Christou,1998.Interannual variability of copepods in a Mediterranean coastal area (Saronikos Gulf, Aegean Sea).Journal of Marine Systems.15(1–4):523–532.4 ]0 E6 ~. D2 g9 ^4 s; i% ~
6.A. Vandelannoote, H. Deelstra, F. Ollevier,1999.The inflow of the Rusizi River to Lake Tanganyika.Hydrobiologia.407(0):65-73." ^- h/ R) {; n* U" j
7.PEDERSEN L., JENSEN H. M., BURMEISTER A., HANSEN B. W.,1999.The significance of food web structure for the condition and tracer lipid content of juvenile snail fish (Pisces : Liparis spp.) along 65-72°N off West Greenland.Journal of Plankton Research.21(9):1593-1611.
* v+ Q2 I& a9 U6 e. d: Z" v8.H. Wennhage, L. Pihl,2001.Settlement patterns of newly settled plaice (Pleuronectes platessa) in a non-tidal Swedish fjord in relation to larval supply and benthic predators.Marine Biology.139(5):877-889.
# ]9 \/ a) V( z9 O* m9.S. M. Moser, D. J. Macintosh,2001.Diurnal and lunar patterns of larval recruitment of Brachyura into a mangrove estuary system in Ranong Province, Thailand.Marine Biology.138(4):827-841.8 r h4 }6 g4 {" g% _. p
10.Peter Beeck, Sandra Tauber, Stephanie Kiel, Jost Borcherding,2002.0+ perch predation on 0+ bream: a case study in a eutrophic gravel pit lake.Freshwater Biology.47(12):2359–2369.) i7 x7 J& w4 x3 W2 g/ u
11.Olafur S. Astthorsson and Astthor Gislason,2003.Seasonal variations in abundance, development and vertical distribution of Calanus finmarchicus, C. hyperboreus and C. glacialis in the East Icelandic Current.Journal of Plankton Research.25(7):843-854.8 P9 F1 V% |+ X) {
12.A.M.P. Santosa, A. Peliza, J. Dubertb, P.B. Oliveiraa, M.M. Angélicoa, P. Réc,2004.Impact of a winter upwelling event on the distribution and transport of sardine (Sardina pilchardus) eggs and larvae off western Iberia: a retention mechanism.Continental Shelf Research.24(2):149–165.- }# t5 M* E! x! r& X- h& h, Y9 ]
13.J.Hein M. van Lieverlooa, Dick W. Bosboomb, Geo L. Bakkerc, Anke J. Brouwera, Remko Voogta, Josje E.M. De Roosd,2004.Sampling and quantifying invertebrates from drinking water distribution mains.Water Research.38(5):1101–1112.
T( E: g0 h y14.Chih-hao Hsieh, Chih-Shin Chen, Tai-Sheng Chiu,2005.Composition and abundance of copepods and ichthyoplankton in Taiwan Strait (western North Pacific) are influenced by seasonal monsoons.Marine and Freshwater Research.56(2):153–161.8 ?+ q: F6 y- k0 @- t
15.Kwee Siong Tew, Wen-Tseng Lo,2005.Distribution of Thaliacea in SW Taiwan coastal water in 1997, with special reference to Doliolum denticulatum, Thalia democratica and T. orientalis.Marine Ecology Progress Series.292:181-193.( U# @0 R Q* e& d: r; @! x
16.Tien-Hsi Fang, Jiang-Shiou Hwang, Shih-Hui Hsiao, Hung-Yu Chen,2006.Trace metals in seawater and copepods in the ocean outfall area off the northern Taiwan coast.Marine Environmental Research.61(2):224–243.
" n2 o8 U: z, ?17.E. Gaard, A. Gislason, T. Falkenhaug, H. Søiland, E. Musaeva, A. Vereshchaka, G. Vinogradov,2008.Horizontal and vertical copepod distribution and abundance on the Mid-Atlantic Ridge in June 2004.Deep Sea Research Part II: Topical Studies in Oceanography.55(1–2):59–71.
6 e, N* N1 x# V2 f7 J; I2 [$ @18.Peter Thor1, Torkel Gissel Nielsen, Peter Tiselius,2008.Mortality rates of epipelagic copepods in the post-spring bloom period in Disko Bay, western Greenland.Marine Ecology Progress Series.359:151-160.
& Q; R4 E1 j* W& P& h9 O0 {5 t1 @19.Cesar Vilas, Pilar Drake, Emilio Pascual,2009.Inter- and intra-specific differences in euryhalinity determine the spatial distribution of mysids in a temperate European estuary.Journal of Experimental Marine Biology and Ecology.369(2):165–176.
& w1 ~- Z% N% d' }9 `: T+ g# s20.Enrique González-Ortegón, José A. Cuesta, Emilio Pascual, Pilar Drake,2010.Assessment of the interaction between the white shrimp, Palaemon longirostris, and the exotic oriental shrimp, Palaemon macrodactylus, in a European estuary (SW Spain).Biological Invasions.12(6):1731-1745.0 W, O7 ?# s0 y
21.Kesarkar, K.S., Anil, A.C.,2010.New species of Paracalanidae along the west coast of India: Paracalanus arabiensis.Journal of the Marine Biological Association of the United Kingdom.90(2):399-408.( g$ _/ ~- H4 k( T& T
22.Iskender Gülle, Ismail Ibrahim Turna, Salim Serkan Güçlü, Pinar Gülle, Zekiye Güçlü,2010.Zooplankton Seasonal Abundance and Vertical Distribution of Highly Alkaline Lake Burdur, Turkey.Turkish Journal of Fisheries and Aquatic Sciences.10:245-254.) S/ l) S6 H/ A- v/ V3 r
23.Mianrun Chen, Bingzhang Chen, Paul Harrison, Hongbin Liu,2011.Dynamics of mesozooplankton assemblages in subtropical coastal waters of Hong Kong: A comparative study between a eutrophic estuarine and a mesotrophic coastal site.Continental Shelf Research.31(10):1075–1086.7 \! `0 E: i8 J# z9 A* J, P
24.Min-Chul Jang, Kyoungsoon Shin, Bonggil Hyun, Tongsup Lee and Keun-Hyung Choi,2013.Temperature-regulated egg production rate, and seasonal and interannual variations in Paracalanus parvus.Journal of Plankton Research.doi: 10.1093/plankt/fbt050.
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更多关键字: 生物网口流量计,数字流量计,网口流量计, Digital Flow Meter,流量计* K% G, v" k. G3 t g* ^
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