收稿日期: 2013-04-07
修回日期: 2013-04-26
网络出版日期: 2013-05-10
基金资助
国家自然科学基金重点项目“南海东北部底层海流和沉积搬运过程的观测研究”(编号:91128206);同济大学“中央高校基本科研业务费专项资金”资助.
Applications of Tripods to DeepSea Observation
Received date: 2013-04-07
Revised date: 2013-04-26
Online published: 2013-05-10
李建如 , 徐景平 , 刘志飞 . 底基三脚架在深海观测中的应用[J]. 地球科学进展, 2013 , 28(5) : 559 -565 . DOI: 10.11867/j.issn.1001-8166.2013.05.0559
Tripods installed with various instruments, data loggers, and a recovery system, are selfcontained, fully submerged structures that can rest stably on the seafloor. These bottom measurement systems can be used for nearly nondisturbed and longterm investigations on the seafloor. In the past four decades, tripods have made significant contributions to our understanding of the ocean chemical, physical, biological and geological processes. Some discoveries in deepsea observation have also been made from tripod experiments. The paper reviews the concept, development history, and applications of tripods.
Key words: Tripod; Deep-Sea observation
[1]Knott S T. Use of the precision graphic recorder in oceanography[J]. Marine Scientific Instrumentation, 1962, 1: 251-262.
[2]Cacchione D A, Sternberg R W, Ogston A S. Bottom instrumented tripods: History, applications, and impacts[J]. Continental Shelf Research,2006, 26: 2 319-2 334.
[3]Shanghai Center of Marine Science & Technology(Prepartory Office), State Key Laboratory of Marine Geology of Tongji University. China Seafloor Observation—Science and Technology [M]. Shanghai: Tongji University Press, 2011.[上海海洋科技研究中心(筹),海洋地质国家重点实验室(同济大学). 海底观测——科学与技术的结合[M]. 上海:同济大学出版社,2011.]
[4]Sternberg R W. Friction factors in tidal channels with differing bed roughness[J]. Marine Geology,1968, 6: 243-260.
[5]Cacchione D A, Drake D E. A new instrument system to investigate sediment dynamics on continental shelves[J]. Marine Geology,1979, 30: 299-312.
[6]Gross T F, Williams III A J. Characterization of deep-sea storms[J]. Marine Geology,1991, 99: 281-302.
[7]Agrawal Y C, Traykovski P. Particles in the bottom boundary layer: Concentration and size dynamics through events[J]. Journal of Geophysical Research, 2001, 106: 9 533-9 542.
[8]Mikkelsen O A, Pejrup M. The use of a LISST-100 laser particle sizer for in-situ estimates of floc size, density and settling velocity[J]. Geo-Marine Letters, 2001, 20: 187-195.
[9]Sternberg R W, Berhane I, Ogston A S. Measurement of size and settling velocity of suspended aggregates on the northern California shelf[J]. Marine Geology,1999, 154: 43-53.
[10]Rubin D M, Chezar H, Topping D J, et al. Two new approaches for measuring spatial and temporal changes in bed-sediment grain size[C]∥Flemming B W, Hartmann D, Delafontaine M T, eds. International Workshop on Particle Size to Sediment Dynamics. Germany: Hanse Institute, 2004: 126-128.
[11]Tengberg A, De Bovee F, Hall P, et al. Benthic Chamber and Profiling Landers in Oceanography—A Review of Design, Technical Solutions and Functioning[M]. Oxford: Elsevier Science Ltd.1995.
[12]Kuenen Ph H, Migliorini C I. Turbidity currents as a cause of graded bedding[J]. Journal of Geology, 1950, 58(2): 91-127.
[13]Nowell A R M, Hollister C D. The objectives and rationale of HEBBLE[J]. Marine Geology, 1985, 66: 1-11.
[14]Grant W D, Williams A J, Glenn S M. Bottom stress estimates and their prediction on the northern California continental shelf during CODE-1: The importance of wave-current interaction[J]. Journal of Physical Oceanography,1984, 14: 506-527.
[15]McCave I N, Chandler R C, Swift S A, et al. Contourites of the Nova Scotian continental rise and the HEBBLE area[M]∥Stow D A V, Pudsey C J, Howe J A,
et al, eds. Deep-Water Contourite Systems: Modern Drifts and Ancient Series, Seismic and Sedimentary Characteristics. London:Geological Society, 2002.
[16]Boyle E A. Introduction: Chemical oceanography[J]. Chemical Reviews,2007, 107: 305-307.
[17]Black K S, Fones G R, Peppe O C, et al. An autonomous benthic lander: Preliminary observations from the UK BENBO thematic programme[J]. Continental Shelf Research,2001, 21: 859-877.
[18]Priede I G, Bagley P M, Way S, et al. Bioluminescence in the deep sea: Free-fall lander observations in the Atlantic Ocean off Cape Verde[J]. Deep-Sea Research I, 2006, 53: 1 272-1 283.
[19]Jamieson A J, Fujii T, Solan M, et al. HADEEP: Free-falling landers to the deepest places on Earth[J]. Marine Technology Society Journal, 2009, 43(5): 151-160.
/
| 〈 |
|
〉 |
甘公网安备62010202000687
