德国HYDRO-BIOS公司——Ekman-Birge采泥器
$ e; \; [3 K" H8 O3 r! E3 M# qBottom Sampler acc. to Ekman-Birge
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黄铜材质 不锈钢材质 带穿孔钢板 9 J3 n) _( y; b+ h9 R2 ~% M) {
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4 V4 P8 ?* L: u0 y4 a2 gEkman-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,采泥器的这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。# A$ I8 z4 Y, s
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Ekman-Birge采泥器(箱式采泥器)订购信息:
1 {! @" W1 T# U* j( z7 s0 ` 437 200 Ekman-Birge采泥器
5 `, p2 i6 d7 D) n6 P3 D 体积15×15×20cm,采样面积225cm2,采样体积4.5L,黄铜材质,重量约4kg
; h! k! ` Q& Z3 c5 ? 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
# r2 T; C, n& Y, m- } 体积15×15×20cm,采样面积225cm2,采样体积4.5L,黄铜材质,重量约4kg
5 }$ T5 }% }8 K 437 210 Ekman-Birge采泥器
, W6 z5 b+ m6 L5 D* Q3 y' _+ N 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 h1 n8 ?9 z; Y4 H
437 212 Ekman-Birge采泥器& m" M+ q" w% j9 h7 o* O$ _/ Q
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
. F" O# H* R( @& P+ ^ 437 213 Ekman-Birge采泥器( N7 h2 ?2 D( A
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, |+ q' U; R8 P' c# q
437 214 Ekman-Birge采泥器6 J6 c# Z1 S' K5 q$ s- ~
体积20x20x30cm,采样面积400cm2,采样体积10L,不锈钢材质,重量约6kg
`# l0 u7 I; @ 437 215 Ekman-Birge采泥器
5 d2 l# ?: `8 L' T5 b3 V 体积20x20x30cm,采样面积400cm2,采样体积10L,黄铜材质,灌铅重型,重量约11.5kg, }9 i# O3 _0 y! W A
440 000 备用使锤,用来激发弹簧闭合器,带内径6mm的绳孔,重量400g) ~5 \# g/ M' b" m) o x
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专用闭合器,用于Ekman-Birge采泥器和Lenz采泥器, P+ o8 ^$ P5 F1 x% f$ v$ G
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20mm。4 Q5 E- z8 h D
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采泥器的专用闭合器订购信息: ?! C, N4 O3 z* W) q3 L
437 320 专用闭合器,重量400g' R! L% r2 d/ Z$ G
Ekman-Birge采泥器照片集:
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| 准备Ekman-Birge采泥器
' v& J* d. N$ u3 j! m/ U' a | 准备好的Ekman-Birge采泥器3 {# v+ G2 w2 E X
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代表文献:
3 u0 b+ B- G4 I3 ~1.A. I. el MOGHRABY,1977.A study on diapause of zooplankton in a tropical river - The Blue Nile.Freshwater Biology.7(3):207–212.6 Z4 l5 a% D9 `
2.Sven Blomqvist,1990.Sampling performance of Ekman grabs — in situ observations and design improvements.Hydrobiologia.206(3):245-254.9 r0 W" Y A5 ]% S3 V6 H
3.Jia-Jang Hung,1995.Terrigenous Inputs and Accumulation of Trace Metals in the Southeastern Taiwan Strait.Chemistry and Ecology.10(1-2):33-46.' w) z" Z7 ~* f6 r/ b ?
4.J. J. Hung, C. P. Shy,1995.Speciation of dissolved selenium in the Kaoping and Erhjen rivers and estuaries, southwestern Taiwan.Estuaries.18(1):234-240.
Z7 {% a, ?, h! A5.W Brack, A Paschke, H Segner, R Wennrich, G Schüürmann,2000.Urease inhibition: a tool for toxicity identification in sediment elutriates.Chemosphere.40(8):829–834.
4 G' s8 k; b/ Q6 I' L* C8 ^4 ]6.Edwin T.H.M. Peeters, Jean J.P. Gardeniers, Albert A. Koelmans,2000.Contribution of trace metals in structuring in situ macroinvertebrate community composition along a salinity gradient.Environmental Toxicology and Chemistry.19(4):1002–1010.+ C* H% E: B* l" a/ i
7.Guy Bachelet, Xavier de Montaudouin, Isabelle Auby and Pierre-Jean Labourg,2000.Seasonal changes in macrophyte and macrozoobenthos assemblages in three coastal lagoons under varying degrees of eutrophication.ICES Journal of Marine Science.57(5):1495-1506., J- w; _$ E8 l' Q% w2 H2 D0 V, A* Y
8.R Sinem Atgin, Omar El-Agha, Abdullah Zararsız, Ahmet Kocataş, Hatice Parlak, Gürdal Tuncel,2000.Investigation of the sediment pollution in Izmir Bay: trace elements.Spectrochimica Acta Part B: Atomic Spectroscopy.55(7):1151–1164.3 {5 v% \, p, w1 J, n
9.Branislav Vrana, Albrecht Paschke and Peter Popp ,2001.Polyaromatic hydrocarbon concentrations and patterns in sediments and surface water of the Mansfeld region, Saxony-Anhalt, Germany.Journal of Environmental Monitoring.3:602-609.
# ^5 r. R" T9 ?! J, e. u+ N10.Mónica M. Diaz, Pedro F. Temporetti, Fernando L. Pedrozo,2001.Response of phytoplankton to enrichment from cage fish farm waste in Alicura Reservoir (Patagonia, Argentina).Lakes & Reservoirs: Research & Management.6(2):151–158.+ z1 t/ B7 K2 I8 b0 n9 A+ [
11.Kalle Olli, Karolin Trunov,2010.Abundance and distribution of vernal bloom dinoflagellate cysts in the Gulf of Finland and Gulf of Riga (the Baltic Sea).Deep Sea Research Part II: Topical Studies in Oceanography.57(3–4):235–242. M7 O; k" W5 b
12.Steffen Mischke, Ahuva Almogi-Labin, Reuven Ortal, Arik Rosenfeld, Markus J. Schwab, Ian Boomer,2010.Quantitative reconstruction of lake conductivity in the Quaternary of the Near East (Israel) using ostracods.Journal of Paleolimnology.43(4):667-688.
. B( G3 a& c3 l& b" H/ U6 S13.Annette Kramer, Ulrike Herzschuh, Steffen Mischke, Chengjun Zhang,2010.Holocene treeline shifts and monsoon variability in the Hengduan Mountains (southeastern Tibetan Plateau), implications from palynological investigations.Palaeogeography, Palaeoclimatology, Palaeoecology.286(1–2):23–41.4 O3 Y+ `4 P- Y. k' X1 ]0 p6 B
14.Steffen Mischke, 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):10–24.1 \9 Q2 U5 _7 r i
15.Steffen Mischke, Chengjun Zhang,2011.Ostracod distribution in Ulungur Lake (Xinjiang, China) and a reassessed Holocene record.Ecological Research.26(1):133-145.. \9 Q6 T( g2 F, o+ t, s
16.Homira Agah, Mehry Hashtroodi, Willy Baeyens,2011.Trace Metals Analysis in the Sediments of the Southern Caspian Sea.Journal of PERSIAN GULF.2(6):1-12.# ~$ F. v& o9 ?- w* O$ l
17.T. Van der Meeren, S. Mischke, N. Sunjidmaa, U. Herzschuh, E. Itof, K. Martens, D. Verschuren,2012.Subfossil ostracode assemblages from Mongolia – Quantifying response for paleolimnological applications.Ecological Indicators.14(1):138–151.
& Q! }/ E% M- P4 r5 g6 G: t K18.Aslıhan Katip, Feza Karaer, Hüseyin Savaş Başkaya, Saadet Ileri, Sonay Sarmaşik,2012.Fraction distribution and risk assessment of heavy metals and trace elements in sediments of Lake Uluabat.Environmental Monitoring and Assessment.184(9):5399-5413., X4 D* R( i- ]8 E
19.Aslihan Katip, Feza Karaer, Saadet Ileri, Sonay Sarmasik, Nurcan Aydogan, Sinem Zenginay,2012.Analysis and assessment of trace elements pollution in sediments of Lake Uluabat, Turkey.Journal of Environmental Biology.33:961-968.) i& p3 W+ u6 ]& t5 {: r
20.Bernhard Aichner, Ulrike Herzschuh, Heinz Wilkes, Hans-Martin Schulz, Yongbo Wang, Birgit Plessen, Steffen Mischke, Bernhard Diekmann, Chengjun Zhang,2012.Ecological development of Lake Donggi Cona, north-eastern Tibetan Plateau, since the late glacial on basis of organic geochemical proxies and non-pollen palynomorphs.Palaeogeography, Palaeoclimatology, Palaeoecology.313–314:140–149.
1 t$ h9 M1 A9 F1 b% R21.Kadir Gedik, İpek İmamoğlu,2013.Levels, Distribution, and Sources of Polychlorinated Biphenyls in Sediments of Lake Eymir, Turkey.Archives of Environmental Contamination and Toxicology.DOI: 10.1007/s00244-013-9900-x.
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! p4 x7 M6 S( ]7 N% z5 S更多关键词:彼得逊采泥器,箱式沉积物取样器,沉积物采样器,箱式分层采泥器,重力式采泥器,Ekman采泥器,底部取样器,小型箱式采泥器,Ekman-Birge采泥器9 O, i9 G- k: V' O" L
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