德国HYDRO-BIOS公司--Ekman-Birge采泥器
Bottom Sampler acc. to Ekman-Birge
黄铜材质
不锈钢材质
带穿孔钢板
Ekman-Birge采泥器(箱式采泥器)由一个坚固的黄铜或不锈钢材质制成,采泥器底部有2个弹簧闭合器,这2个闭合器由释放的使锤激发。在采泥器向上拉出水体的过程中,采泥器顶部开口处的2块钢板可以防止样品被冲走。
Ekman-Birge采泥器(箱式采泥器)订购信息:
437 200 Ekman-Birge采泥器
体积15×15×20cm,采样面积225cm2,采样体积4.5L,黄铜材质,重量约4kg
437 201 Ekman-Birge采泥器,带穿孔钢板,用于采集大型底栖生物,符合欧盟水框架指令
体积15×15×20cm,采样面积225cm2,采样体积4.5L,黄铜材质,重量约4kg
437 210 Ekman-Birge采泥器
体积15×15×20cm,采样面积225cm2,采样体积4.5L,黄铜材质,灌铅重型,重量约8kg
437 212 Ekman-Birge采泥器
体积15×15×20cm,采样面积225cm2,采样体积4.5L,不锈钢材质,重量约4kg
437 213 Ekman-Birge采泥器
体积15×15×20cm,采样面积225cm2,采样体积4.5L,不锈钢材质,灌铅重型,重量约8kg
437 214 Ekman-Birge采泥器
体积20x20x30cm,采样面积400cm2,采样体积10L,不锈钢材质,重量约6kg
437 215 Ekman-Birge采泥器
体积20x20x30cm,采样面积400cm2,采样体积10L,不锈钢材质,灌铅重型,重量约11.5kg
440 000
备用使锤,用来激发弹簧闭合器,带内径的绳孔,重量
专用闭合器,用于Ekman-Birge采泥器和Lenz采泥器
在Ekman-Birge采泥器和Lenz采泥器进行浅水采样时,可以将其推入水床,然后释放专用闭合器。用于连接伸缩杆的孔径为。
专用闭合器订购信息:
437 320
专用闭合器,重量400g
Ekman-Birge采泥器照片集: | |
Ekman-Birge采泥器 | Ekman-Birge采泥器 |
准备Ekman-Birge采泥器 | 准备好的Ekman-Birge采泥器 |
代表文献:
1.A.I. el MOGHRABY,1977.A study on diapause of zooplankton in a tropical river -The Blue Nile.Freshwater Biology.7(3):207–212.
2.SvenBlomqvist,1990.Sampling performance of Ekman grabs — in situ observations anddesign improvements.Hydrobiologia.206(3):245-254.
3.Jia-JangHung,1995.Terrigenous Inputs and Accumulation of Trace Metals in theSoutheastern Taiwan Strait.Chemistry and Ecology.10(1-2):33-46.
4.J.J. Hung, C. P. Shy,1995.Speciation of dissolved selenium in the Kaoping andErhjen rivers and estuaries, southwestern Taiwan.Estuaries.18(1):234-240.
5.WBrack, A Paschke, H Segner, R Wennrich, G Schüürmann,2000.Urease inhibition: atool for toxicity identification in sedimentelutriates.Chemosphere.40(8):829–834.
6.EdwinT.H.M. Peeters, Jean J.P. Gardeniers, Albert A. Koelmans,2000.Contribution oftrace metals in structuring in situ macroinvertebrate community compositionalong a salinity gradient.Environmental Toxicology andChemistry.19(4):1002–1010.
7.GuyBachelet, Xavier de Montaudouin, Isabelle Auby and Pierre-JeanLabourg,2000.Seasonal changes in macrophyte and macrozoobenthos assemblages inthree coastal lagoons under varying degrees of eutrophication.ICES Journal ofMarine Science.57(5):1495-1506.
8.RSinem Atgin, Omar El-Agha, Abdullah Zarars?z, Ahmet Kocata?, Hatice Parlak,Gürdal Tuncel,2000.Investigation of the sediment pollution in Izmir Bay: traceelements.Spectrochimica Acta Part B: Atomic Spectroscopy.55(7):1151–1164.
9.BranislavVrana, Albrecht Paschke andPeterPopp,2001.Polyaromatic hydrocarbonconcentrations and patterns in sediments and surface water of the Mansfeldregion, Saxony-Anhalt, Germany.Journal of Environmental Monitoring.3:602-609.
10.MónicaM. Diaz, Pedro F. Temporetti, Fernando L. Pedrozo,2001.Response ofphytoplankton to enrichment from cage fish farm waste in Alicura Reservoir(Patagonia, Argentina).Lakes & Reservoirs: Research &Management.6(2):151–158.
11.KalleOlli, Karolin Trunov,2010.Abundance and distribution of vernal bloomdinoflagellate cysts in the Gulf of Finland and Gulf of Riga (the BalticSea).Deep Sea Research Part II: Topical Studies in Oceanography.57(3–4):235–242.
12.SteffenMischke, Ahuva Almogi-Labin, Reuven Ortal, Arik Rosenfeld, Markus J. Schwab,Ian Boomer,2010.Quantitative reconstruction of lake conductivity in theQuaternary of the Near East (Israel) using ostracods.Journal ofPaleolimnology.43(4):667-688.
13.AnnetteKramer, Ulrike Herzschuh, Steffen Mischke, Chengjun Zhang,2010.Holocenetreeline shifts and monsoon variability in the Hengduan Mountains (southeasternTibetan Plateau), implications from palynologicalinvestigations.Palaeogeography, Palaeoclimatology,Palaeoecology.286(1–2):23–41.
14.SteffenMischke, Ilhomjon Rajabov, Nailya Mustaeva, Chengjun Zhang, Ulrike Herzschuh,Ian Boomer, Erik T. Brown, Nils Andersen, Amy Myrbo, Emi Ito, Michael E.Schudack,2010.Modern hydrology and late Holocene history of Lake Karakul,eastern Pamirs (Tajikistan): A reconnaissance study.Palaeogeography,Palaeoclimatology, Palaeoecology.289(1–4):10–24.
15.SteffenMischke, Chengjun Zhang,2011.Ostracod distribution in Ulungur Lake (Xinjiang,China) and a reassessed Holocene record.Ecological Research.26(1):133-145.
16.HomiraAgah, Mehry Hashtroodi, Willy Baeyens,2011.Trace Metals Analysis in theSediments of the Southern Caspian Sea.Journal of PERSIAN GULF.2(6):1-12.
17.T.Van der Meeren, S. Mischke, N. Sunjidmaa, U. Herzschuh, E. Itof, K. Martens, D.Verschuren,2012.Subfossil ostracode assemblages from Mongolia – Quantifyingresponse for paleolimnological applications.EcologicalIndicators.14(1):138–151.
18.Asl?hanKatip, Feza Karaer, Hüseyin Sava? Ba?kaya, Saadet Ileri, SonaySarma?ik,2012.Fraction distribution and risk assessment of heavy metals andtrace elements in sediments of Lake Uluabat.Environmental Monitoring andAssessment.184(9):5399-5413.
19.AslihanKatip, Feza Karaer, Saadet Ileri, Sonay Sarmasik, Nurcan Aydogan, SinemZenginay,2012.Analysis and assessment of trace elements pollution in sedimentsof Lake Uluabat, Turkey.Journal of Environmental Biology.33:961-968.
20.BernhardAichner, Ulrike Herzschuh, Heinz Wilkes, Hans-Martin Schulz, Yongbo Wang,Birgit Plessen, Steffen Mischke, Bernhard Diekmann, ChengjunZhang,2012.Ecological development of Lake Donggi Cona, north-eastern TibetanPlateau, since the late glacial on basis of organic geochemical proxies andnon-pollen palynomorphs.Palaeogeography, Palaeoclimatology,Palaeoecology.313–314:140–149.
21.KadirGedik, ?pek ?mamo?lu,2013.Levels, Distribution, and Sources of PolychlorinatedBiphenyls in Sediments of Lake Eymir, Turkey.Archives of EnvironmentalContamination and Toxicology.DOI: 10.1007/s00244-013-9900-x.