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德国HYDRO-BIOS公司——浮游动物计数框
. x5 E3 Q2 C& i3 gCounting Chamber for zooplankton ! I6 ~# B+ t: D# M
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0 O! J: G% p" L1 f4 W5 P3 V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。
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浮游动物计数框订购指南:
( E: R3 F. _3 _, K9 q7 }6 A浮游动物计数框由树脂材料制成,底面抛光,具有很好的透明度
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435 010 浮游动物计数框尺寸40×70mm,容纳样品量约9ml0 q. A* u) z5 h8 j2 R
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435 011 浮游动物计数框尺寸80×100mm,容纳样品量约22ml+ `9 t: m/ z/ D N3 P
435 011A 浮游动物计数框尺寸80×100mm,容纳样品量约6×5.4ml
7 a6 j( j; X0 n 435 011B 浮游动物计数框尺寸80×100mm,容纳样品量约12×2.4ml2 `/ p9 u T8 k
435 011C 浮游动物计数框尺寸80×100mm,容纳样品量约30×0.8ml4 n m/ I- [) N2 k3 B
# W3 B/ \5 R' z. @4 J" v 435 012 浮游动物计数框尺寸80×140mm,容纳样品量约70ml
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代表文献:8 }. t: x( N) ~, o
1.Manfred Rolke and Jürgen Lenz,1984.Size structure analysis of zooplankton " @6 n: S9 ]) B
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! w; I" H8 h. g% }- w% b) c( ^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.
- [6 I5 i% P$ W0 P q1 h5.S. Holler, N. Pfennig,1991.Fermentation products of the anaerobic ciliate Trimyema compressum in monoxenic cultures.Archives of Microbiology.156(4):327-334 .
8 V) B/ u. U" y5 \* A) O! F6.J. W. Rijstenbil, C. Bakker, R. H. Jackson, A. G. A. Merks, P. R. M. de Visscher,1993.Spatial and temporal variation in community composition and photosynthetic characteristics of phytoplankton in the upper Westerschelde estuary (Belgium, SW Netherlands).Hydrobiologia.269-270(1):263-273.. l p4 m) i: S& T+ M( Z
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8 y$ e9 e" F) `8 W3 X8.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.$ \( N' T7 o ~4 z5 q* B+ e, J; h& H
9.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 A# I$ p* _) I H10.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.
& N) H+ W" M/ K1 p$ @: l11.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.
4 ?: k: ?2 h; L3 K' S8 h12.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):461–468.2 k& V" J9 P& s$ o7 M
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):349–358.8 T. ]* i f* C
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):49-53.0 F3 Z. i& s N% q: T4 \
15.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. s! l% h9 A, f
16.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.
; k3 w, }9 U3 G6 D17.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. [! W& c! k; m' I
18.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.! E: s6 m% s' W: T* g8 Q* G7 ?
19.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.
4 b1 \! `" |3 r8 C$ p20.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):1075–1086.7 X# D5 j& R; \- c: Y7 `
21.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.
2 n* g' U: I( p, Q1 ^5 a22.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. V0 D5 G R/ V) f: s6 H0 M
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.: @; i/ T) N7 G: ^; U
24.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.
# }! _/ c- F7 m25.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.
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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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