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德国HYDRO-BIOS公司——Van Veen采泥器
) r! {+ Y1 ~9 {% X* m; R' WBottom Sampler acc. to Van Veen
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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:+ M0 U$ e7 ^! K. {
o! n$ C: E7 v, Q$ c& I9 [ 采泥器的闭合状态 采泥器的打开状态
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! x0 Y+ v' j- i# g0 q/ x. yVan Veen采泥器(抓斗式采泥器)订购信息:
! s' C9 k' h3 X! V2 A& T' V: j. O437 330 Van Veen采泥器
, b" \2 C2 o* F6 U% R 小型采泥器,表面积250cm2,不锈钢材质
' T# y5 [$ I& j4 q( h4 p 尺寸20×30×60 cm,重量5kg
$ k) Y9 O+ O$ t' c$ _437 332 Van Veen采泥器: ^+ Y% M, ~: Q# T
大型采泥器,表面积1000cm2,不锈钢材质
6 v+ D# T/ X* G9 Y2 v8 [ 尺寸35×42×90 cm,重量22kg `& h/ v) O4 w5 J, q5 _
437 333 Van Veen采泥器5 n) }# W5 T; R0 |6 o
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
b: z& Q9 E K9 b# m9 V1 D, M 尺寸36×45×90 cm,带配重铅块,总重量35kg(无配重)/60kg(25kg配重); Z1 Q! w1 V! @, G# m2 p d
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Van Veen采泥器照片集:! }2 a$ I! c3 H, {0 [6 \+ K1 n G
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4 L+ t1 M; n( @- z2 H5 l/ ?& k0 Q, w+ z9 k 登录/注册后可看大图
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| Van Veen采泥器
+ y3 |9 d9 u6 F | Van Veen采泥器
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3 j9 a |, X/ ]4 ?8 Q1 t2 @ | 打开状态的Van Veen采泥器
+ @) I- Y% L0 G3 Q. F2 U; E | 关闭状态的Van Veen采泥器3 v- @' X: m _3 v
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3 X4 D. E5 o- N8.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.
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10.Pablo A. Lara-Martín, Abelardo Gómez-Parra, Eduardo González-Mazo,2005.Determination and distribution of alkyl ethoxysulfates and linear alkylbenzene sulfonates in coastal marine sediments from the Bay of Cadiz (southwest of Spain).Environmental Toxicology and Chemistry.24(9):2196–2202.. f- v7 Q% I* x) w" H: e" W
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; ]3 Q5 U% W$ o13.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.p07-075r0 A4 w! ~$ J( u
PALAIOS September 2008 vol. 23 no. 9 586-600".7 ~5 @# W! p6 O" j' k6 ^
14.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):1631–1635.2 d1 Y3 n1 z+ w( |+ R
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.
' C/ i4 h% {( [5 D16.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.
" Z8 [5 t- D6 ^" q( x17.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.
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