[table][/table]详细介绍
7 ]/ Z- s; o: |- N: l! s ]- e+ o德国HYDRO-BIOS公司 浮游动物计数框/ A, B9 p! y$ ^ B. s, Q
类别: 浮游生物观察组件+ [: y5 `& V7 g( t, H
型号: 435 010/435 011/435 012
0 h8 U% O7 w& b关键字: 浮游动物计数框,浮游生物计数框,浮游生物观察组件% Y$ L3 s/ v& A, i4 Y
供应商: 青岛水德科技有限公司" @! w7 e Z' Y" @7 u
产品简介:浮游动物计数框用于在体式显微镜底下对浮游动物进行观察计数。% M% ^* n5 R! ^5 C$ z0 f
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德国HYDRO-BIOS公司——浮游动物计数框
% Z* A8 X0 d% R& _Counting Chamber for zooplankton
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6 I% Z% w: e w9 l) @浮游动物计数框用于在体式显微镜底下对浮游动物进行观察计数。浮游动物计数框由树脂材料制成,底面抛光,具有较好的透明度,可将其放置到常规显微镜上对浮游动物进行观察。/ ~9 m b7 N* T( P) f0 q+ I' E
) z2 X) f& B! a3 r* G4 k0 G! ]& L浮游动物计数框订购指南:) Q7 O7 Q$ J# d
树脂材料制成,底面抛光,具有很好的透明度 h/ i( K4 D: a5 |6 H
0 X v1 w" ^: ?& k6 \* Z0 W N 435 010 尺寸40×70mm,容纳样品量约9ml: q! C5 b& Y7 O3 y* A+ d+ x: q" r
1 o+ P8 U: e4 ` F9 ]5 e L 435 011 尺寸80×100mm,容纳样品量约22ml
5 [. d1 Y( E4 g2 [3 ` 435 011A 尺寸80×100mm,容纳样品量约6×5.4ml
" \8 }! Q6 p6 k; W9 o) d/ K 435 011B 尺寸80×100mm,容纳样品量约12×2.4ml! x/ y( X& M* r' [, _' c: i! K
435 011C 尺寸80×100mm,容纳样品量约30×0.8ml: v z: B' m* x9 U" g8 t ~' y
) n4 m- t1 W# l# b a9 w 435 012 尺寸80×140mm,容纳样品量约70ml
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) K' P; m9 [0 | ~: m# w. m代表文献:
; p9 l/ O1 b: e+ F1.Manfred Rolke and Jürgen Lenz,1984.Size structure analysis of zooplankton . A _3 K: r. W
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: I: f) T; d+ m( a( x3 c/ @+ O' p) P/ w* \4.S. Wagener, C. F. Bardele, N. Pfennig,1990.Functional integration of Methanobacterium formicicum into the anaerobic ciliate Trimyema compressum.Archives of Microbiology.153(5):496-501. g; w+ r% s# U8 ], F+ H. |
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3 c$ k. T0 k- B1 h( } ^5 y/ \8.Catalina Castell Perez, Suzanne Roy, Maurice Levasseur, Donald M. Anderson,1998.CONTROL OF GERMINATION OF ALEXANDRIUM TAMARENSE (DINOPHYCEAE) CYSTS FROM THE LOWER ST. LAWRENCE ESTUARY (CANADA).Journal of Phycology.34(2):242–249.
4 U b( v8 R0 t9.Teresa Cruz and Jorge Araújo,1999.Reproductive Patterns of Pollicipes pollicipes (Cirripedia: Scalpellomorpha) on the Southwestern Coast of Portugal.Journal of Crustacean Biology.19(2):260-267.
4 T4 s, X5 V! o/ h" q10.Michael Hust, Wolfgang E Krumbein, Erhard Rhiel,1999.An immunochemical in situ approach to detect adaptation processes in the photosynthetic apparatus of diatoms of the Wadden Sea sediment surface layers.Journal of Microbiological Methods.38(1–2):69–80.
! T6 Q: b" O6 @( W* C0 V. c11.Christine Dupuy, Solange Le Gall, Hans J. Hartmann, Martine Bréret,1999.Retention of ciliates and flagellates by the oyster Crassostrea gigas in French Atlantic coastal ponds: protists as a trophic link between bacterioplankton and benthic suspension-feeders.Marine Ecology Progress Series.177:165-175.
3 |; d8 v# y3 D; I12.A. Tewari, H.V. Joshi, R.H. Trivedi, V.G. Sravankumar, C. Raghunathan, Y. Khambhaty, O.S. Kotiwar, S.K. Mandal,2001.The Effect of Ship Scrapping Industry and its Associated Wastes on the Biomass Production and Biodiversity of Biota in in situ Condition at Alang.Marine Pollution Bulletin.42(6):461–468.3 b; d, f. B2 `2 O8 J: k
13.Hera Karayanni, Urania Christaki, France Van Wambeke, Andrew P. Dalby,2004.Evaluation of double formalin—Lugol's fixation in assessing number and biomass of ciliates: an example of estimations at mesoscale in NE Atlantic.Journal of Microbiological Methods.56(3):349–358.' v4 y8 A' Q/ G2 y$ }( q9 X0 H
14.EI Ohimain, TOT Imoobe & MO Benka-Coker,2005.The impact of dredging on macrobenthic invertebrates in a tributary of the Warri River, Niger delta.African Journal of Aquatic Science.30(1):49-53.
% ?# N) H% o* X5 h& D15.Laurent Seuront, Dorothée Vincent, James G. Mitchell,2006.Biologically induced modification of seawater viscosity in the Eastern English Channel during a Phaeocystis globosa spring bloom.Journal of Marine Systems.61(3–4):118–133.
4 F& p {" `$ t1 W* \; g. c. W# c; F16.Wim A.M. Hijnen, Yolanda J. Dullemont, Jack F. Schijven, Anke J. Hanzens-Brouwer, Martine Rosielle, Gertjan Medema,2007.Removal and fate of Cryptosporidium parvum, Clostridium perfringens and small-sized centric diatoms (Stephanodiscus hantzschii) in slow sand filters.Water Research.41(10):2151–2162.
8 v3 _ z5 ~5 K) C, J8 ^17.Géraldine Sarthou, Dorothée Vincent, Urania Christaki, Ingrid Obernosterer, Klaas R. Timmermans, Corina P.D. Brussaard,2008.The fate of biogenic iron during a phytoplankton bloom induced by natural fertilisation: Impact of copepod grazing.Deep Sea Research Part II: Topical Studies in Oceanography.55(5–7):734–751.
; Z4 k+ U4 T! N8 r; W5 N' n- O' x2 h18.Damir Viličić, Tamara Djakovac, Zrinka Burić, Sunčica Bosak,2009.Composition and annual cycle of phytoplankton assemblages in the northeastern Adriatic Sea.Botanica Marina.52(4):291–305.
+ p' I! ~2 \$ B0 x7 n; z19.Fedekar F. Madkour, Mohsen M. El-Sherbiny and Maher A. Aamer,2010.Phytoplankton population along certain Egyptian coastal regions of the Red Sea.Egypt J. Aquat. Biol. & Fish..14(2):95-109.
, @# s O3 s6 X* x8 m7 t20.Mianrun Chena, Bingzhang Chena, Paul Harrisonb, 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.
4 r8 n P& w. s& z( u$ v9 F21.Germán A. Kopprio, Gerhard Kattner, Martin Graeve, R. Hugo Freije, Rubén J. Lara,2012.Exceptional lipid storage mode of the copepod Boeckella poopoensis in a pampean salt lake, Argentina.Aquatic Biology.15:275-281. F( E' @6 h) F% ^
22.Dongyan Liu, Yajun Shi, Baoping Di, Qianli Sun, Yujue Wang, Zhijun Dong, Hongbing Shao,2012.The impact of different pollution sources on modern dinoflagellate cysts in Sishili Bay, Yellow Sea, China.Marine Micropaleontology.84–85:1–13.2 Y" R7 J* A: N* z5 J' V
23.Daniel Remias, Andreas Holzinger, Siegfried Aigner, Cornelius Lütz,2012.Ecophysiology and ultrastructure of Ancylonema nordenskiöldii (Zygnematales, Streptophyta), causing brown ice on glaciers in Svalbard (high arctic).Polar Biology.35(6):899-908.
! k, H6 O/ H" U% ?9 m- T7 J24.F.S. Tahami, A.G. Mazlan, H. Negarestan, Sh. Najafpour, W.W.M. Lotfi and G.D. Najafpour,2012.Phytoplankton Combination in the Southern Part of Caspian Sea.World Applied Sciences Journal.16(1): 99-105.
/ \% a3 }, F' k* q, s25.Amir Abbas Bazyar Lakeh, Werner Kloas Rainer Jung, Ra’anan Ariav, Klaus Knopf,2013.Low frequency ultrasound and UV-C for elimination of pathogens in recirculating aquaculture systems.Ultrasonics Sonochemistry.20(5):1211–1216.# @: E E; U" q7 M, @9 O
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更多关键字: 浮游动物计数框,浮游生物计数框,浮游生物观察组件
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产品优势 德国HYDRO-BIOS公司 浮游动物计数框/ W% F! D1 F: K) b
类别: 浮游生物观察组件
! o3 q, p" N2 i3 T5 V7 `型号: 435 010/435 011/435 012
& l' f6 g9 m+ ^4 {& G; J+ W关键字: 浮游动物计数框,浮游生物计数框,浮游生物观察组件/ k) u; j& w7 h( y# ~
供应商: 青岛水德科技有限公司
0 U2 U3 S3 K5 `" `8 r% ?* c+ P产品简介:8 \) O6 C5 e) R: @3 |$ \
浮游动物计数框用于在体式显微镜底下对浮游动物进行观察计数。 |
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