<

• 
• 
• 
• 
• 
• 
• 
• 
• 

>

產(chǎn)品報價： 面議

留言咨詢

產(chǎn)品熱度：加載中

產(chǎn)品型號：435010

適用范圍：高教

所在地區(qū)：

德國HYDRO-BIOS公司--浮游生物觀察組件

　　浮游動物計數(shù)框

　　樹脂材料制成，底面拋光，透明度好,可將其放置到常規(guī)顯微鏡上對浮游動物進(jìn)行觀察

　　435 010 尺寸40×70mm，容納樣品量約9ml

　　435 011 尺寸80×100mm，容納樣品量約22ml

　　435 011A 尺寸80×100mm，容納樣品量約6×5.4ml

　　435 011B尺寸80×100mm，容納樣品量約12×2.5ml

　　435 011C尺寸80×100mm，容納樣品量約30×0.8ml

　　435 012 尺寸80×140mm，容納樣品量約70ml

　　435 015  Kolkwitz浮游植物計數(shù)框

　　包含帶計數(shù)網(wǎng)格的蓋片,網(wǎng)格大小1×,尺寸33×33mm,蓋玻片厚度1.3mm,計數(shù)孔直徑,樣品容量0.5ml

　?。ń?jīng)過精確校準(zhǔn)的）

　　435 016  Kolkwitz浮游植物計數(shù)框

　　同上，蓋玻片厚度2.6mm,樣品容量1.0ml

　　管狀浮游植物計數(shù)框

　　樹脂玻璃制成，帶可旋轉(zhuǎn)拆卸的黃銅底座，外加1個蓋玻片和50個底玻片

　　435 021 容量5ml

　　435 022 容量10ml

　　435 023 容量25ml

　　435 025 

　　Utermohl組合式浮游植物計數(shù)框（浮游植物沉降器）

　　由10ml，50ml，100ml圓管各1個，與3片直徑33mm蓋玻片、50片底玻片和其他輔助操作附件組成一套完整的浮游植物沉降

　　計數(shù)系統(tǒng)。

　　435 028  蓋玻片，適用于管狀浮游植物計數(shù)框和組合式浮游植物計數(shù)框，

　　直徑，厚度，50片/包

　　435 035  底玻片，適用于管狀浮游植物計數(shù)框和組合式浮游植物計數(shù)框，

　　直徑，厚度，250片/包

　　Hensen活塞式樣品移液管

　　與250ml稀釋瓶和一個活塞組成一套完整的樣品稀釋系統(tǒng)

　　435 090 容量0.1ml

　　435 091 容量0.25ml

　　435 092 容量0.5ml

　　435 093 容量1.0ml

　　435 094 容量2.5ml

　　435 095 容量5.0ml

　　435 098 備用稀釋瓶，250ml，Duran玻璃制，10個/包

　　435 100  

　　Folsom浮游生物分樣器

　　用來將大量的浮游生物分成適合的量，來進(jìn)行觀察研究。一次操作

　　可以將樣品平分成兩份。重復(fù)操作，可以將樣品分成的任意所需要

　　的量。透明的塑料滾筒可以容納約100ml樣品。底座安裝有一

　　個水平器和兩個調(diào)節(jié)水平的螺桿，確保樣品分割的精確性。凈重1kg。

　　代表文獻(xiàn)：

　　1.Manfred Rolke and Jürgen Lenz,1984.Size structure analysis ofzooplankton samples by means of an automated image analyzing system.Journal ofPlankton Research.6(4): 637-645.

　　2.Austin B.M. Egborge and Prekeyi Tawari,1987.The rotifers ofWarri River, Nigeria.Journal of Plankton Research.9(1):1-13.

　　3.J.W. Rijstenbil,1987.Phytoplankton composition of stagnant andtidal ecosystems in relation to salinity, nutrients, light andturbulence.Netherlands Journal of Sea Research.21(2):113–123.

　　4.S. Wagener, C. F. Bardele, N. Pfennig,1990.Functionalintegration of Methanobacterium formicicum into the anaerobic ciliate Trimyemacompressum.Archives of Microbiology.153(5):496-501.

　　5.S. Holler, N. Pfennig,1991.Fermentation products of theanaerobic ciliate Trimyema compressum in monoxenic cultures.Archives ofMicrobiology.156(4):327-334 .

　　6.J. W. Rijstenbil, C. Bakker, R. H. Jackson, A. G. A. Merks, P.R. M. de Visscher,1993.Spatial and temporal variation in community compositionand photosynthetic characteristics of phytoplankton in the upper Westerscheldeestuary (Belgium, SW Netherlands).Hydrobiologia.269-270(1):263-273.

　　7.Bettina Meyer-Harms, Falk Pollehne,1998.ALLOXANTHIN INDINOPHYSIS NORVEGICA (DINOPHYSIALES, DINOPHYCEAE) FROM THE BALTIC SEA.Journalof Phycology.34(2):280–285.

　　8.Catalina Castell Perez, Suzanne Roy, Maurice Levasseur, DonaldM. Anderson,1998.CONTROL OF GERMINATION OF ALEXANDRIUM TAMARENSE (DINOPHYCEAE)CYSTS FROM THE LOWER ST. LAWRENCE ESTUARY (CANADA).Journal of Phycology.34(2):242–249.

　　9.Teresa Cruz and Jorge Araújo,1999.Reproductive Patterns ofPollicipes pollicipes (Cirripedia: Scalpellomorpha) on the Southwestern Coastof Portugal.Journal of Crustacean Biology.19(2):260-267.

　　10.Michael Hust, Wolfgang E Krumbein, Erhard Rhiel,1999.Animmunochemical in situ approach to detect adaptation processes in thephotosynthetic apparatus of diatoms of the Wadden Sea sediment surfacelayers.Journal of Microbiological Methods.38(1–2):69–80.

　　11.Christine Dupuy, Solange Le Gall, Hans J. Hartmann, MartineBréret,1999.Retention of ciliates and flagellates by the oyster Crassostreagigas in French Atlantic coastal ponds: protists as a trophic link betweenbacterioplankton and benthic suspension-feeders.Marine Ecology Progress Series.177:165-175.

　　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 ShipScrapping Industry and its Associated Wastes on the Biomass Production andBiodiversity of Biota in in situ Condition at Alang.Marine PollutionBulletin.42(6):461–468.

　　13.Hera Karayanni, Urania Christaki, France Van Wambeke, Andrew P.Dalby,2004.Evaluation of double formalin—Lugol's fixation in assessing numberand biomass of ciliates: an example of estimations at mesoscale in NEAtlantic.Journal of Microbiological Methods.56(3):349–358.

　　14.EI Ohimain, TOT Imoobe & MO Benka-Coker,2005.The impact ofdredging on macrobenthic invertebrates in a tributary of the Warri River, Nigerdelta.African Journal of Aquatic Science.30(1):49-53.

　　15.Laurent Seuront, Dorothée Vincent, James G.Mitchell,2006.Biologically induced modification of seawater viscosity in theEastern English Channel during a Phaeocystis globosa spring bloom.Journal ofMarine Systems.61(3–4):118–133.

　　16.Wim A.M. Hijnen, Yolanda J. Dullemont, Jack F. Schijven, AnkeJ. Hanzens-Brouwer, Martine Rosielle, Gertjan Medema,2007.Removal and fate ofCryptosporidium parvum, Clostridium perfringens and small-sized centric diatoms(Stephanodiscus hantzschii) in slow sand filters.WaterResearch.41(10):2151–2162.

　　17.Géraldine Sarthou, Dorothée Vincent, Urania Christaki, IngridObernosterer, Klaas R. Timmermans, Corina P.D. Brussaard,2008.The fate ofbiogenic iron during a phytoplankton bloom induced by natural fertilisation:Impact of copepod grazing.Deep Sea Research Part II: Topical Studies inOceanography.55(5–7):734–751.

　　18.Damir Vili?i?, Tamara Djakovac, Zrinka Buri?, Sun?ica Bosak,2009.Composition andannual cycle of phytoplankton assemblages in the northeastern AdriaticSea.Botanica Marina.52(4):291–305.

　　19.Fedekar F. Madkour, Mohsen M. El-Sherbiny and Maher A.Aamer,2010.Phytoplankton population along certain Egyptian coastal regions ofthe Red Sea.Egypt J. Aquat. Biol. & Fish..14(2):95-109.

　　20.Mianrun Chena, Bingzhang Chena, Paul Harrisonb, HongbinLiu,2011.Dynamics of mesozooplankton assemblages in subtropical coastal watersof Hong Kong: A comparative study between a eutrophic estuarine and amesotrophic coastal site.Continental Shelf Research.31(10):1075–1086.

　　21.Germán A. Kopprio, Gerhard Kattner, Martin Graeve, R. HugoFreije, Rubén J. Lara,2012.Exceptional lipid storage mode of the copepodBoeckella poopoensis in a pampean salt lake, Argentina.AquaticBiology.15:275-281.

　　22.Dongyan Liu, Yajun Shi, Baoping Di, Qianli Sun, Yujue Wang,Zhijun Dong, Hongbing Shao,2012.The impact of different pollution sources onmodern dinoflagellate cysts in Sishili Bay, Yellow Sea, China.MarineMicropaleontology.84–85:1–13.

　　23.Daniel Remias, Andreas Holzinger, Siegfried Aigner, CorneliusLütz,2012.Ecophysiology and ultrastructure of Ancylonema nordenski?ldii(Zygnematales, Streptophyta), causing brown ice on glaciers in Svalbard (higharctic).Polar Biology.35(6):899-908.

　　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 ofCaspian Sea.World Applied Sciences Journal.16(1): 99-105.

　　25.Amir Abbas Bazyar Lakeh, Werner Kloas Rainer Jung, Ra’ananAriav, Klaus Knopf,2013.Low frequency ultrasound and UV-C for elimination ofpathogens in recirculating aquaculture systems.UltrasonicsSonochemistry.20(5):1211–1216.