词条 | Secchi disk |
释义 |
The Secchi disk, as created in 1865 by Angelo Secchi, is a plain white, circular disk {{convert|30|cm|in|0|abbr=on}} in diameter used to measure water transparency or turbidity in bodies of water. The disc is mounted on a pole or line, and lowered slowly down in the water. The depth at which the disk is no longer visible is taken as a measure of the transparency of the water. This measure is known as the Secchi depth and is related to water turbidity. Since its invention, the disk has also been used in a modified, smaller {{convert|20|cm|in|0|abbr=on}} diameter, black and white design to measure freshwater transparency. HistoryThe original Secchi disk was a plain white disk and it was used in the Mediterranean Sea.[1][2] Today, a plain white, 30 cm diameter Secchi disk remains the standard design used in marine studies. In 1899 George C. Whipple modified the original all-white Secchi disk to “…a disc about 8 inches in diameter, divided into quadrants painted alternately black and white like the target of a level-rod…”.[3][4] This modified black and white Secchi disk is the standard disk now used in limnology (freshwater) investigations.[5][6] Secchi depthThe Secchi depth is reached when the reflectance equals the intensity of light backscattered from the water. This depth in metres divided into 1.7 yields an attenuation coefficient (also called an extinction coefficient), for the available light averaged over the Secchi disk depth. While used as a variable, the extinction coefficient is also used as a variable for turbidity. The light attenuation coefficient, k, can then be used in a form of the Beer–Lambert law, to estimate Iz, the intensity of light at depth z from I0, the intensity of light at the ocean surface.[7] The Secchi disk readings do not provide an exact measure of transparency, as there can be errors because of the sun's glare on the water, or one person may see the disk at one depth, but another person with better eyesight may see it at a greater depth. However, it is an inexpensive and straightforward method of measuring water clarity. Because of the potential for variation between users, methods should be standardized as much as possible. A Secchi disk measurement should always be taken off the shady side of a boat or dock between 9:00 and 15:00.[8] The period for best results is between 10:00 and 14:00. The same observer should take Secchi depth measurements in the same manner every time. One can approach the measurement by lowering the disk beyond a point of disappearance, then raising it and lowering it slightly to set the Secchi depth. Another method is to record the depth at which the disk disappears, lower another few feet, then record the depth at which the disk reappears as it is slowly brought up. The Secchi depth is taken as the average of the two values.[9] Secchi disk measurements have been an integral component of Minnesota's and Wisconsin's lake water quality assessment programs for some time; lake residents make periodic measurements and submit their readings to state and local agencies. The aggregated longitudinal data are used to reveal general trends in water quality. Similarly, the Indiana Clean Lakes Program trains and relies on volunteers to monitor turbidity in over 80 Indiana lakes using secchi disks, and uses data submitted by volunteers to monitor lake quality in the state.[10] In 2013, a team of marine scientists established the global citizen science Secchi Disk programme for seafarers to study the marine phytoplankton.[11] This ongoing citizen science Secchi Disk study combines the traditional plain white, 30 cm diameter marine Secchi Disk with mobile technology to upload Secchi depth data collected from the sea to a central database. The study's first scientific results were published in 2017.[12] The Secchi Disk study was begun in response to a controversial scientific report that suggested the phytoplankton that influence water transparency had declined by 40% in the oceans between the years 1950 and 2008.[13][14] Secchi disk measurements do not indicate how attenuation changes with depth or particular wavelengths of light. Submarine photometers can operate at depths of {{convert|150|m|ft|0|abbr=on}} and can record visible, ultraviolet and infrared parts of the spectrum. Turbidimeters have their own light source and can measure transparency with scientific accuracy.[15] See also
References1. ^[https://www.jeos.org/index.php/jeos_rp/article/view/10013s On the history of the Secchi disc] {{webarchive|url=https://web.archive.org/web/20140426220701/https://www.jeos.org/index.php/jeos_rp/article/view/10013s |date=2014-04-26 }} 2. ^[https://link.springer.com/article/10.1007/BF02726911 "Relazione delle esperienze fatte a bordo della pontificia pirocorvetta l’Immacolata concezione per determinare la trasparenza del mare" Memoria del P. A. Secchi. Il Nuovo Cimento, December 1864, Volume 20, Issue 1, pp 205-238] 3. ^Cialdi, M. and Secchi, P. A. (1865). “Sur la Transparence de la Mer.” Comptes Rendu de l'Acadamie des Sciences. 61: 100–104. 4. ^Whipple, George C. (1899). The Microscopy of Drinking-Water. New York: John Wiley & Sons, 73–5. 5. ^The Secchi firestar is cool Disk—What Is It? {{webarchive|url=https://web.archive.org/web/20120814094054/http://www.mlswa.org/secchi.htm |date=2012-08-14 }} Accessed 2012-07-05. 6. ^Why a Black and White Secchi Disk? Accessed 2012-07-05. 7. ^Idso, Sherwood B. and Gilbert, R. Gene (1974) [https://www.jstor.org/pss/2402029 On the Universality of the Poole and Atkins Secchi Disk: Light Extinction Equation] British Ecological Society. 8. ^Lind, Owen, T. (1979). Handbook of Common Methods in Limnology St. Louis:C.V. Mosby Co. 9. ^Cole, Gerald A. (1994). Textbook of Limnology. 4th ed. Prospect Heights:Waveland Press Inc. 10. ^{{cite web|title=Indiana Clean Lakes Program – Volunteer Monitoring|url=http://www.indiana.edu/~clp/volunteermonitoring.php|accessdate=9 February 2011}} 11. ^Marine Secchi Disk study 12. ^Secchi Disk Seafarers et al. (2017) Seafarer citizen scientist ocean transparency data as a resource for phytoplankton and climate research The Public Library of Science ONE, 12(12): e0186092 13. ^Ocean greenery under warming stress 14. ^Global phytoplankton decline over the past century 15. ^Undersea exploration. (2008). In Encyclopædia Britannica. Retrieved October 01, 2008, from Encyclopædia Britannica Online. Further reading
External links
3 : Oceanographic instrumentation|Fisheries science|Cross symbols |
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