[table][/table]详细介绍
2 Y- F' ]& g) A8 @- y3 T德国HYDRO-BIOS公司 浮游生物沉降器7 R. Z( u k9 d( C+ n7 f* u
类别: 浮游生物观察组件8 V# q( I- }/ h* h4 f; t
型号: 435 025
4 \! `+ K# u o; @- `3 M& `4 y关键字: 浮游生物沉降器,浮游植物沉降器,浮游植物计数框
( d9 C7 f" ?/ C" E) K供应商: 青岛水德科技有限公司1 A$ m3 `* p3 g/ [
产品简介:浮游生物沉降器用于对浮游植物进行沉降计数。/ P$ b6 Q+ X! t% R6 C
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德国HYDRO-BIOS公司——Utermöhl组合式浮游生物计数框(浮游生物沉降器)6 E; p5 p* n; o. E* X5 e4 S
% A) b2 a+ L) v1 e$ ^Combined Plate Chamber (Utermöhl Chamber)' u4 g( j; E5 ^5 ~2 z3 c+ P
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浮游生物沉降器用于对浮游植物进行沉降计数。浮游生物沉降器由生物学家Utermöhl发明,并由德国HYDRO-BIOS公司生产。浮游生物沉降器已经成为浮游植物沉降计数的国际标准,广泛应用于水生生物的观察计数。
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浮游生物沉降器订购指南:
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5 F5 y! J) [5 [, ^ 435 025 Utermöhl组合式浮游生物计数框(浮游生物沉降器)
6 ]: C) V4 V0 d8 B 由10ml,50ml,100ml圆管各1个,与3片盖玻片、50片底玻片和其他辅助操作附件组成一套完整的浮游生物沉降计数系统。
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% ^; @6 M* S. P0 j; ] 435 028 盖玻片" ?8 I" q- P& r5 f/ `5 q6 ?5 k
适用于浮游生物计数管和组合式浮游生物计数框(浮游生物沉降器),直径33mm,厚度2mm, 50片/包4 Z$ N1 S5 R* x2 l
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435 035 底玻片
& {5 V. Y/ h- y' E/ x) l# q2 \ 适用于浮游生物计数管和组合式浮游生物计数框(浮游生物沉降器),直径27.5mm,厚度0.2mm,250片/包# Y, j; N( C& S: h4 g# T
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代表文献:$ q6 F$ ^7 z7 J$ S. a
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# M. H* v# w \) O+ S- i' S: Z+ k3 j6.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):263-273.0 S: G! r* P- Z6 Q# N5 Y
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- Z9 |: d* o0 O% W K9.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.
) |% I) j( G; T1 ?& \( q2 n10.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.* G5 t; i8 ^6 K9 i: r! k
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0 _! i, k( B- _" [' K3 G3 @12.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.
O A- H7 a7 o S0 J13.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.
, H0 ]; V$ t6 V$ C- Y( G9 J14.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):49-53.2 T* A1 I9 ]5 O
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.
~" b9 l# X: `, w# l* K16.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.' V% B' R9 F% r; m
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' K, n* q- g* F/ D' y, h& X8 S21.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.
* g9 ~8 [2 F* e22.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. e& H0 _" F; H! 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.
, r; S. d5 e9 x7 [0 X# H7 J% L! ^) p24.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): 99-105.9 ~' q; J$ T8 S1 _
25.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.$ @5 J8 j, {# m# @) v% P
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0 p) S$ ]+ A" }* w- h更多关键字: 浮游生物沉降器,浮游植物沉降器,浮游植物计数框, 浮游生物沉淀器,浮游植物沉淀器,藻类计数器,组合式浮游生物计数框$ E+ P* a o1 o2 r' l) a# N
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2 I; @" l) |, }+ X; V$ m产品优势 德国HYDRO-BIOS公司 浮游生物沉降器
2 @# {1 g2 M2 t: Y; v2 e& O类别: 浮游生物观察组件4 I' Z) ^ n; t7 K: w
型号: 435 0256 {4 I" N/ f9 Q9 J$ z; W+ S7 \% b
关键字: 浮游生物沉降器,浮游植物沉降器,浮游植物计数框
$ T; n* k) S6 M3 T供应商: 青岛水德科技有限公司, J0 D3 C0 T9 {
产品简介:
! Y* F7 T1 s C5 m# o. m- X# ?+ F5 |1 ~浮游生物沉降器用于对浮游植物进行沉降计数。 相关产品
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