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德国HYDRO-BIOS公司——Van Veen采泥器 5 {! m9 v- A) L4 x1 N. n
Bottom Sampler acc. to Van Veen 9 R1 G1 g4 `4 Q" O- m
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用Van Veen采泥器(抓斗式采泥器)可以从任意想要的深度进行采样。在采泥器被沉入水中过程中,两根杆被锁定,并且离得很远,采泥器的采泥口处于打开状态。当采泥器与水床接触时,闭合器被释放;当绳缆被拉紧并向上拉动采泥器时,采泥器口就会关闭。如下图:
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5 S3 P5 H( v2 j! b# g; K6 s 采泥器的闭合状态 采泥器的打开状态 & k3 B# e8 V! ^0 c0 j( O( L
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! L) x# o7 T) p/ fVan Veen采泥器(抓斗式采泥器)订购信息:
" t' y+ R+ y3 R9 m437 330 Van Veen采泥器3 N1 k3 [' f& C) g& t1 p; P
小型采泥器,表面积250cm2,不锈钢材质7 t. n! z- N$ X2 i
尺寸20×30×60 cm,重量5kg
# C0 F0 F& @ b# A; l: n437 332 Van Veen采泥器/ w$ d' Q5 s8 k9 @
大型采泥器,表面积1000cm2,不锈钢材质
# J* I( Q) I, r; u5 \ p 尺寸35×42×90 cm,重量22kg) q6 I0 Q) p) \0 {3 |( U5 F3 _6 Y2 S
437 333 Van Veen采泥器
+ O: s" F' a, z+ E: ?8 V( o2 O" `% `/ z 大型采泥器,表面积1250cm2,不锈钢材质,带活动顶盖,便于样品释放
+ I, A( G/ m1 ~+ f9 k/ t! n4 U 尺寸36×45×90 cm,带配重铅块,总重量35kg(无配重)/60kg(25kg配重)# X3 p6 N7 l; m5 X
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2 ~( b" R4 j+ ~( c4 d) OVan Veen采泥器照片集:3 R, }( t9 @. P" Y
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| 打开状态的Van Veen采泥器# _7 f* k9 b9 C. O* R& e
| 关闭状态的Van Veen采泥器, U' ] L7 H- u% m+ e2 R
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3 X# X8 R. V! g- U3 v- H v代表文献:; W2 R, K8 u" G" {. I: r
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/ n& @$ l; r4 T, L9 c5.Eduardo González-Mazo,Jesus María Forja, Abelardo Gómez-Parra,1998.Fate and Distribution of Linear Alkylbenzene Sulfonates in the Littoral Environment.Environmental Science & Technology.32(11):1636–1641.
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6 d7 R1 R0 W2 x0 }7.A.V Tkalin, E.L Chaykovskaya,2000.Anthropogenic radionuclides in Peter the Great bay.Journal of Environmental Radioactivity.51(2):229–238.
' x3 s! N. f' H" Z r/ h1 N- T/ e8.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):461–468.9 S2 Q* \6 W+ ~7 d9 }+ E& D& [5 S
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m ~! D2 D; X$ c7 p12.James E. Saunders, Khalid Mohammed Al Zahed, David M. Paterson,2007.The impact of organic pollution on the macrobenthic fauna of Dubai Creek (UAE).Marine Pollution Bulletin.54(11):1715–1723.
( U# y* y, e& |( j0 L9 W. F7 h# O7 G13.Ilona Hauser, Wolfgang Oschmann and Eberhard Gischler,2007.Taphonomic Signatures On Modern Caribbean Bivalve Shells As Indicators Of Environmental Conditions (Belize, Central America).Society for Sedimentary Geology."doi: 10.2110/palo.2007.p07-075r
( R# V X' s4 R3 g( G+ C( UPALAIOS September 2008 vol. 23 no. 9 586-600".
2 _8 v) d% D$ T14.Ana J. Marmolejo-Rodríguez, Miguel Caetano, Ricardo Prego, Carlos Vale,2008.Thorium accumulation in the sedimentary environment of the Vigo Ria (NW Iberian Peninsula).Journal of Environmental Radioactivity.99(10):1631–1635.$ E) ?# Z! d4 U, `. o3 e7 D; W
15.Zengjie Jiang, Jianguang Fang, Guanhua Wang and Yuze Mao,2012.Identification of Aquaculture-Derived Organic Matter in the Sediment Associated with Coastal Fish Farming by Stable Carbon and Nitrogen Isotopes.Journal of Environmental Science and Engineering.A 1 (2012) 142-149.
6 ?6 M- Q- {! k# ~, L) o16.Claudia Propp, Ingo Jänen, Tim Jennerjahn,2013.Sources and Degradation of Sedimentary Organic Matter in Coastal Waters off the Brantas River, Java, Indonesia.Asian Journal of Water, Environment and Pollution.10(1):95-115.2 k4 n; w1 m" m3 Q' Q
17.Fazel Abdolahpur Monikh, Ammar Maryamabadi, Ahmad Savari, Kamal Ghanemi,2013.Heavy metals’ concentration in sediment, shrimp and two fish species from the northwest Persian Gulf.Toxicol Ind Health.doi: 10.1177/0748233713475498.0 E+ _- G/ f, x9 j1 i& ^
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