Snapping shrimp are among the major sources of biological noise in shallow bays, harbors, and inlets, in temperate and tropical waters. Snapping shrimp sounds can severely limit the use of underwater acoustics by humans and may also interfere with the transmission and reception of sounds by other animals such as dolphins, whales, and pinnipeds. The shrimp produce sounds by rapidly closing one of their frontal chela (claws), snapping the ends together to generate a loud click. The acoustics of the species Synalpheus paraneomeris was studied by measuring the sound produced by individual shrimp housed in a small cage located 1 m from an H-52 broadband hydrophone. Ten clicks from 40 specimens were digitized at a 1-MHz sample rate and the data stored on computer disk. A low-frequency precursor signature was observed; this previously unreported signature may be associated with a “plunger” structure which directs a jet of water forward of the claw during a snap. The peak-to-peak sound pressure level and energy flux density at 1 m (source level and source energy flux density) varied linearly with claw size and body length. Peak-to-peak source levels varied from 183 to 189 dB re: 1 μPa. The acoustic power produced by a typical snap was calculated to be about 3 W. A typical spectrum of a click had a low-frequency peak between 2 and 5 kHz and energy extending out to 200 kHz. The spectrum of a click is very broad with only a 20-dB difference between the peak and minimum amplitudes across 200 kHz. A physical model of the snapping mechanism is used to estimate the velocity, acceleration, and force produced by a shrimp closing its claws.

1.
Ahn, J. Y., Hamada, H., and Saito, K. (1993a). “On the components of high frequency of the snapping shrimp sounds,” J. Tokyo Univ. Fishes 80, 69–73.
2.
Ahn, J. Y., Hamada, H., and Saito, K. (1993b). “Study of positioning of snapping shrimps and the source levels of their sounds,” J. Tokyo Univ. Fishes 80, 75–81.
3.
Au, W. W. L. (1993). The Sonar of Dolphins (Springer-Verlag, New York).
4.
Au
,
W. W. L.
, and
Penner
,
R. H.
(
1981
). “
Target detection in noise by echolocating Atlantic bottlenose dolphins
,”
J. Acoust. Soc. Am.
70
,
687
693
.
5.
Au
,
W. W. L.
,
Floyd
,
R. W.
,
Penner
,
R. H.
, and
Murchison
,
A. E.
(
1974
). “
Measurement of echolocation signals of the Atlantic bottlenose dolphin, Tursiops truncatus Montagu, in open waters
,”
J. Acoust. Soc. Am.
56
,
1280
1290
.
6.
Albers, V. M. (1965). Underwater Acoustics Handbook-II (The Pennsylvania State University Press, University Park, PA).
7.
Banner, A. H. (1953). “The crangonidae, or snapping shrimp of Hawaii,” Pacific Sci. 7, 3–144.
8.
Banner, A. H. (1974). “Contributions to the knowledge of the alpheid shrimp of the Pacific Ocean Part XVII. Additional notes on the Hawaiian alpheids: New Species, Subspecies, and Some Nomenclaturial Changes,” Pacific Sci. 28, 423–437.
9.
Cato, D. (1993). “The biological contribution to the ambient noise in waters near Australia,” Acoust. Australia 20, 76–80.
10.
Cato, D. H., and Bell, M. J. (1992). “Ultrasonic ambient noise in Australian shallow waters at frequencies up to 200 kHz,” Material Research Laboratory Technical Report MRL-TR-91–23, Ascot Vale, Victoria.
11.
Conover, M. R., and Miller, D. E. (1978). “The importance of the large chela in the Territorial and Pairing behavior of the snapping shrimp, Alpheus heterochaelis,” Mar. Behav. Physiol. 5, 185–192.
12.
Dardeau, M. R. (1984). “Synalpheus shrimp (crustacea: decapoda: alpheidae). I. The Gambarelliodes group, with a description of a new species,” Mem. Hourglass Cruises 7.
13.
Everest
,
F. A.
,
Yound
,
R. W.
, and
Johnson
,
M. W.
(
1948
). “
Acoustical characteristics of noise produced by snapping shrimp
,”
J. Acoust. Soc. Am.
20
,
137
142
.
14.
Fenton, M. B. (1995). “Natural history and biosonar signals,” in Hearing by Bats, edited by A. N. Popper and R. R. Fay (Springer-Verlag, New York), pp. 37–86.
15.
Hazlett, B. A., and Winn, H. E. (1962). “Sound production and associated behavior of Bermuda crustaceans (Panulirus, Gonodactylus, Alpheus and Synalpheus),” Crustaceana 4, 25–38.
16.
Knowlton
,
R. E.
, and
Moulton
,
J. M.
(
1963
). “
Sound production in the snapping shrimp Alpheus (Crangon) and Synalpheus
,”
Biol. Bull.
125
,
311
331
.
17.
Knudsen
,
V. O.
,
Alford
,
R. S.
, and
Emling
,
J. W.
(
1948
). “
Underwater ambient noise
,”
J. Mar. Res.
7
,
410
429
.
18.
Pye, J. D. (1980). “Echolocation signals and echoes in air,” in Animal Sonar Systems, edited by R.-G. Busnel and J. F. Fish (Plenum, New York), pp. 309–353.
19.
Readhead
,
M. L.
(
1996
). “
Snapping shrimp noise near Gladstone, Queensland
,”
J. Acoust. Soc. Am.
101
,
1718
1722
.
20.
Schien, H. (1975). “Aspects of the aggressive and sexual behavior of Alpheus heterochaelis Say,” Mar Behav. Physiol. 3, 83–96.
21.
Schien, H. (1977). “The role of snapping in Alpheus heterochaelis Say, 1818, the big clawed snapping shrimp,” Crustaceana 33, 182–188.
22.
Titgen, R. H. (1991). “Summary of Albert H. and Dora M. Banner’s contribution to the knowledge of the family Alpheidae (Decapodia Caridea),” Pacific Sci. 45, 232–245.
23.
Urick, R. J. (1983). Principles of Underwater Sound (McGraw-Hill, New York).
24.
Urick, R. J. (1984). Ambient Noise in the Sea (Naval Sea Systems Command, Washington, DC).
25.
Widener
,
M.W.
(
1967
). “
Ambient noise levels in selected shallow waters off Miami, Florida
,”
J. Acoust. Soc. Am.
42
,
137
142
.
This content is only available via PDF.
You do not currently have access to this content.