Ocean and Polar Research

Korea Institute of Ocean Science & Technology (한국해양과학기술원)
권호 표지
DOI QR코드

DOI QR Code

Biology of the Mud Shrimp Upogebia major (de Haan, 1841), with Particular Reference to Pest Management for Shrimp Control in Manila Clam Bed in the West Coast of Korea

쏙의 생물학 - 최근 서해안 바지락 양식장에 이상 증식한 쏙의 제거 대책을 중심으로 -

  • Hong, Jae-Sang (Department of Ocean Sciences, College of the Natural Sciences, Inha University)
  • 홍재상 (인하대학교 자연과학대학 생명해양과학부)
  • Received : 2013.11.21
  • Accepted : 2013.12.17
  • Published : 2013.12.30
Download PDF
⟨ Previous Next ⟩

Abstract

The mud shrimp Upogebia major (Upogebiidae: Decapoda: Crustacea) is a common species on muddy and sandy mud tidal flats in the west coast of Korea. They reside in Y-shaped burrows that can extend up to more than 2 meters below the sediment surface. They feed on suspended detritus carried into their burrow by the beating of their pleopods and captured by their hairy first two pairs of thoracic legs. Mud shrimp burrows provide a habitat for a variety of small organisms such as crabs, shrimps, polychaetes, and mollusks. Ovigerous females are observed from December to May. Females deposit eggs only once per breeding season. They start hatching in March and the pelagic larvae of first zoea appear in March and April, followed by benthic settlement in May. Growth over the first year is rapid, and females deposit their first eggs in the third breeding season, 31 months after their settlement. Adult shrimps live for 4~5 years. Depth of the burrow increases with body length. The deep burrows provide refuge from predators and physical stress, allowing the shrimps to survive for a long time. The mud shrimps supply oxygen-rich water to their deep burrows, and exert a great influence on the structure and metabolism of the tidal flat benthic community. However, recently this type of mud shrimp has posed a serious threat to the Korean clam industry along the west coast of Korea. The extensive burrowing shrimp populations suddenly invaded the tidal flats from 2010 where the clams (Ruditapes philippinarum) are raised. As a consequence, clam production has decreased by about 10% over the past three years in some Korean clam beds. Therefore, the objective of this study is to review the biology of this mud shrimp in order to seek solutions to control the burrowing of these shrimps.

Keywords

References

  1. 김성태, 유철, 홍재상 (2012) 인천 선재도산 쏙(Upogebia major)의 개체군 동태. 2012 FSAK 한국수산과학총연합회 공동 학술대회 초록집, Bexco, 부산, 2012년 11월 16일
  2. 김창덕 (2012) 선재도 '바지락 실종사건'. http://news.donga.com/3/all/20120316/44832514/1 Accessed 9 Dec 2013
  3. 김훈수 (1973) 한국동식물도감 제14권 동물편 (집게.게류). 문교부, 서울, 694 p
  4. 안경호, 정상옥, 박광재, 송재희, 윤상필, 최윤석 (2011) 갯벌생물생태 가이드북, 국립수산과학원 갯벌연구소, 군산, 79 p
  5. 유옥환 (2011) 대량폐사 이후 쏙(Upogebia major)의 개체군가입 연구. 2011년도 한국해양과학기술협의회 공동학술대회, Bexco, 부산, 2011년 6월 2-3일, pp 385-398
  6. 최병래, 김 원, 노현수, 최재완, 정종우, 길현종, 최미애 (2002) 서해안 갯벌의 무척추동물상 조사 및 모니터링(연체동물, 다모류, 갑각류). 한국생명공학연구원, 대전, 61 p
  7. 해양수산부 (1999) 갯벌생태계 조사 및 지속가능한 이용방안 연구. 해양수산부, 서울, 873 p
  8. 홍재상 (1998) 한국의 갯벌. 대원사, 서울, 143 p
  9. 화성시 (2006) 화성 연안 동물도감, 화성시, 화성, 260 p
  10. Agricultural Research (2008) Reducing Burrowing Shrimps'Impact on Oyster Production. http://www.ars.usda.gov/is/ar/archive/may08/oyster0508.htm Accessed 19 November 2013
  11. Armstrong DA, Millemann RE (1974) Effects of the insecticide carbaryl on clams and some other intertidal mud flat animals. J Fish Res Board Can 31:466-470 https://doi.org/10.1139/f74-078
  12. Armstrong DA, Dumbauld BR, Doty D (1989) Oyster culture and crab habitat: conflicts over use of the insecticide Sevin in coastal estuaries. Northwest Environ J 5:185-187
  13. Astall CM, Taylor AC, Atkinson RJA (1997) Behavioral and physiological implications of a burrow dwelling lifestyle for two species of upogebiid mud shrimp (Crustacea: Thalassinidea). Estuar Coast Shelf S 44:155-168 https://doi.org/10.1006/ecss.1996.0207
  14. Barnes RD (1987) Invertebrate Zoology. CBS College Publishing, New York, 893 pp
  15. Bass CS, Weis JS (1999) Behavioral changes in the grass shrimp, Palaemonetes pugio (Holthuis), induced by the parasitic isopod, Probopyrus pandalicola (Packard). J Exp Mar Biol Ecol 241:223-233 https://doi.org/10.1016/S0022-0981(99)00084-2
  16. Booth SR (2003) A Comprehensive Plan Towards an Integrated Pest Management Program for Burrowing Shrimp on Commercial Oyster Beds. Washington Department of Ecology, Washington, 17 p
  17. Bouma TJ, Olenin S, Reise K, Ysebaert T (2009) Ecosystem engineering and biodiversity in coastal sediments: Posing hypotheses. Helgoland Mar Res 63:95-106 https://doi.org/10.1007/s10152-009-0146-y
  18. Branch GM, Pringle A (1987) The impact of the sand prawn Callianassa kraussi Stebbing on the sediment turnover and on bacteria, meiofauna, and benthic microflora. J Exp Mar Biol Ecol 107:219-235 https://doi.org/10.1016/0022-0981(87)90039-6
  19. Buchanan DV, Bottom DL, Armstrong DA (1985) The Controversial Use of the Insecticide Sevin in Pacific Northwest Estuaries: Its Effects on Dungeness Crab, Pacific Oyster, and Other Species. In: Proceedings of the Symposium on Dungeness Crab Biology and Management. Alaska Sea Grant Report 85-3, University of Alaska, Fairbanks, Alaska, 9-11 Oct 1984, pp 401-417
  20. Chapman JW, Dumbauld BR, Itani G, Markham JC (2012) An introduced Asian parasite threatens northeastern Pacific estuarine ecosystems. Biol Invasions 14:1221-1236 https://doi.org/10.1007/s10530-011-0151-3
  21. Coelho VR, Cooper RA, Rodrigues SA (2000) Burrow morphology and behavior of the mud shrimp Upogebia omissa (Decapoda: Thalassinidea: Upogebiidae) Mar Ecol Prog Ser 200:229-240 https://doi.org/10.3354/meps200229
  22. Conides AJ, Nicolaidou A, Apostolopoulou M, Thessalou-Legaki M (2012) Growth, mortality and yield of the mudprawn Upogebia pusilla (Petagna, 1792) (Crustacea: Decapoda: Gebiidea) from western Greece. Acta Adriat 53(1):87-103
  23. Cretchley R (1996) Exploitation of the bait organism, Upogebia africana, (Crustacea: Anomura) in the Knysna Estuary. M.Sc. thesis, Rhodes University, Grahamstown, 133 p
  24. D'Andrea AF, DeWitt TH (2009) Geochemical ecosystem engineering by the mud shrimp Upogebia pugettensis (Crustacea: Thalassinidae) in Yaquina Bay, Oregon: Densitydependent effects on organic matter remineralization and nutrient cycling. Limnol Oceanogr 54(6):1911-1932 https://doi.org/10.4319/lo.2009.54.6.1911
  25. Day JH (1981) The estuarine fauna. In: Day JH (ed) Estuarine Ecology, with particular reference to southern Africa. Balkema AA, Cape Town, pp 147-178
  26. DeFrancesco J, Murray K (2010) Pest Management Strategic Plan for Bivalves in Oregon and Washington. In: Summary of a workshop. 11 March 2010, Long Beach, Washington, 88 p
  27. de Haan W (1841) Crustacea. In: Philipp FS, Temminck CJ, Schlegel H, de Haan W, Kiichi N, Shigeho T, Nagamichi K, Yaichiro O (eds) Fauna Japonica sive Descriptio Animalium, quae in Itinere per Japoniam, Jussu et Auspiciis Superiorum, qui Summum in India Batava Imperium Tenent, Suspecto, Annis 1823-1830 Collegit, Notis, Observationibus et Adumbrationibus Illustravit. Lugduni-Batavorum, Leiden, pp 243
  28. DeWitt TH, Wellman KF, Wildman T, Armstrong DA, Bennett L (1997) An evaluation of the feasibility of using integrated pest management to control burrowing shrimp in commercial oyster beds. Pacific Northwest Division, Battelle, 127 p
  29. DeWitt TH, d'Andrea AF, Brown CA, Griffen BD, Eldridge PM (2004) Impact of Burrowing Shrimp Populations on Nitrogen Cycling and Water Quality in Western North American Temperate Estuaries. Impact of burrowing shrimp populations on nitrogen cycling and water quality in western North American temperate estuaries. In: Tamaki A (ed) Proceedings of the Symposium on Ecology of Large Bioturbators in Tidal Flats and Shallow Sublittoral Sediments - from Individual Behavior to Their Role as Ecosystem Engineers. University of Nagasaki, Japan, pp 107-118
  30. Dobbs FC, Guckert JB (1988) Callianassa trilobata (Crustacea: Thalassinidea) influences abundance of meiofauna and biomass, composition, and physiologic state of microbial communities within its burrow. Mar Ecol Prog Ser 45:69-79 https://doi.org/10.3354/meps045069
  31. Dumbauld BR, Armstrong DA, Feldman KL (1996) Lifehistory characteristics of two sympatric thalassinidean shrimps, Neotrypaea californiensis and Upogebia pugettensis with implications for oyster culture. J Crustacean Biol 16:689-708 https://doi.org/10.1163/193724096X00784
  32. Dumbauld BR, Armstrong DA, Skalski J (1997) Efficacy of the pesticide carbaryl for thalassinid shrimp control in Washington State oyster (Crassostrea gigas, Thunberg 1793) aquaculture. J Shellfish Res 16:503-518
  33. Dumbauld BR, Brooks KM, Posey MH (2001) Response of an benthic community to application of the pesticide carbaryl and cultivation of Pacific oysters (Crassostrea gigas) in Willapa Bay, Washington. Mar Pollut Bull 42(10):826-844 https://doi.org/10.1016/S0025-326X(00)00230-7
  34. Dumbauld BR, Booth S, Cheney D, Suhrbier A, Beltran H (2006) An Integrated Pest Management Program for Burrowing Shrimp Control in Oyster Aquaculture. Aquaculture 261:976-992 https://doi.org/10.1016/j.aquaculture.2006.08.030
  35. Dumbauld BR, Holden DL, Langness OP (2008) Do sturgeon limit burrowing shrimp populations in Pacific Northwest Estuaries? Environ Biol Fish 83:283-296 https://doi.org/10.1007/s10641-008-9333-y
  36. Dumbauld BR, Harlan L (2009) The Potential Use of Electricity to Control Burrowing Shrimp in Oyster Aquaculture Beds. N Am J Aquacult 71:178-188 https://doi.org/10.1577/A07-107.1
  37. Dumbauld BR, Chapman JW, Torchin ME, Kuris AM (2011) Is the collapse of mud shrimp (Upogebia pugettensis) populations along the Pacific Coast of North America caused by outbreaks of a previously unknown bopyrid isopod parasite (Orthione griffenis)? Estuar Coast 34:336-350 https://doi.org/10.1007/s12237-010-9316-z
  38. Dworschak PC (1981) The pumping rates of the burrowing shrimp Upogebia pusilla (Petagna) (Decapoda: Thalassinidea). J Exp Mar Biol Ecol 52:25-35 https://doi.org/10.1016/0022-0981(81)90168-4
  39. Dworschak PC (1983) The biology of Upogebia pusilla (Petagna) (Decapoda, Thalassinidea) I. The burrows. Mar Ecol 4:19-43 https://doi.org/10.1111/j.1439-0485.1983.tb00286.x
  40. Dworschak PC (1987) Feeding behavior of Upogebia pusilla and Callianassa tyrrhena (Crustacea, Decapoda, Thalassinidea). Invest Pesq 51:421-429
  41. Dworschak PC (1988) The biology of Upogebia pusilla (Petagna) (Decapoda, Thalassinidea) III. Growth and production. Mar Ecol 9(1):51-77 https://doi.org/10.1111/j.1439-0485.1988.tb00198.x
  42. Dworschak PC (2000) Global diversity in the Thalassinidea (Decapoda). J Crustacean Biol 20:238-245
  43. Farley RD, Case JF (1968) Perception of external oxygen by the burrowing shrimp, Callianassa californiensis Dana and C. affinis Dana. Biol Bull 134(2):261-265 https://doi.org/10.2307/1539602
  44. Felder DL, Griffis RB (1994) Dominant infaunal communities at risk in shoreline habitats: Burrowing thalassinid Crustacea. OCS Study' MMS 94-0007, U.S. Department of the Interior, New Orleans, pp 87
  45. Feldman KL, Armstrong DA, Dumbauld BR, DeWitt TH, Doty DC (2000) Oysters, crabs, and burrowing shrimp: Review of an environmental conflict over aquatic resources and pesticide use in Washington State's (USA) coastal estuaries. Estuaries 23(2):141-76 https://doi.org/10.2307/1352824
  46. Griffen BD, DeWit TH, Langdon C (2004) Particle removal rates by the mud shrimp Upogebia pugettensis, its burrow, and a commensal clam: effects on estuarine phytoplankton abundance. Mar Ecol Prog Ser 269:223-236 https://doi.org/10.3354/meps269223
  47. Griffis RB, Suchanek TH (1991) A model of burrow architecture and trophic modes in thalassinidean shrimp (Decapoda: Thalassinidea). Mar Ecol Prog Ser 79:171-183 https://doi.org/10.3354/meps079171
  48. Hanekom N, Baird D (1992) Growth, production and consumption of the thalassinid prawn Upogebia africana (Ortmann) in the Swartkops estuary. S Afr J Zool 27(3):130-139 https://doi.org/10.1080/02541858.1992.11448273
  49. Hart JL (1937) Larval and adult stages of British Columbia anomura. Can J Res 15:179-220
  50. Hart JFL (1982) Crabs and their relatives of British Colombia. British Columbia Provincial Museum, Victoria, 266 p
  51. Hong JS, Lee CL (2013) First Record of the Thalassinid Upogebia issaeffi (Balss, 1913) (Crustacea: Decapoda: Upogebiidae) in Korean Waters. Ocean Sci J (Submitted)
  52. Hong JS, Lee CL, Kim S, Yu C (2012) Macro-invertebrate ectoparasites associated with the mud shrimp, Upogebia major from the west coast of Korea. In: Proceedings of the Abstracts, Fishery Sciences Association of Korea 2012, 16 November 2012. Bexco, Busan, 19 Dec 2013
  53. Hornig S, Sterling A, Smith SD (1989) Species profiles : Life histories and environmental requirements of coastal fishes and invertebrates (Pacific Northwest) - ghost shrimp and blue mud shrimp. Usdi Fish W 82:11-93
  54. Itani G (2001a) Silent biodiversity in the burrows - animals associated with the mud shrimp. Benthos Res 56:50-53 (In Japanese)
  55. Itani G. (2001b) Population characteristics of Upogebia yokoyai (Crustacea, Decapoda, Thalassinidea) at a tidal flat in southern Wakayama, Japan. Nanki Seibutsu 43:1-5(In Japanese)
  56. Itani G (2004a) Distribution of intertidal upogebiid shrimp (Crustacea: Decapoda: Thalassinidea) in Japan. Contr Biol Lab Kyoto Univ 29:383-399
  57. Itani G (2004b) Host specialization in symbiotic animals associated with thalassinidean shrimp in Japan. In: Tamaki A (ed) Proceedings of the symposium on ecology of large bioturbators in tidal flats and shallow sublittoral sediments - from individual behavior to their role as ecosystem engineers. 1-2 November 2003, Nagasaki, Nagasaki University, pp 33-43
  58. Itani G (2008) Diverse commensalism in the burrows of the tidal flat. In: Ishibashi N and Nawa Y (ed) Parasitism and Symbiosis. Tokai University Press, pp 217-237 (In Japanese)
  59. Itani G, Kato M (2002) Cryptomya (Venatomya) truncata (Bivalvia: Myidae): Association with Thalassinidean shrimp burrows and morphometric variation in Japanese waters. Venus 61(3-4):193-202
  60. Itoh H, Nishida S (2002) A new species of Hemicyclops (Copepoda, Poecilostomatoida) from burrows of the mud shrimp U pogeb ia m ajor in an e stuarine m ud-flat in Tokyo Bay, Japan. Hydrobiologia 474(1-3):139-146 https://doi.org/10.1023/A:1016509102177
  61. Jo QT (1990) Redescription of larval development of Upogebia major (de Haan). M.S. Thesis, National Fisheries University of Pusan, 35 p
  62. Johnson GE, Gonor JJ (1982) The tidal exchange of Callianassa californiensis (Crustacea, Decapoda) larvae between the ocean and Salmon River estuary, Oregon. Estuar Coast Shelf S 14:501-516 https://doi.org/10.1016/S0302-3524(82)80073-X
  63. Jones CG, Lawton JH, Shachak M (1994) Organisms as ecosystem engineers. OIKOS 69:373-386 https://doi.org/10.2307/3545850
  64. Kaifu K, Miyazaki S, Aoyama J, Kimura S, Tsukamoto K (2012) Diet of Japanese eels Anguilla japonica in the Kojima Bay-Asahi River system, Japan. Environ Biol Fish 96(4):439-446
  65. Kamita T (1958) Studies on the decapod crustaceans of Corea. Shimane University Collected Papers 2:29-48
  66. Kato M, Itani G (1995) Commensalism of a bivalve, Peregrinamor oshimai, with a thalassinidean burrowing shrimp, Upogebia major. J Mar Biol Assoc Uk 75:941-947 https://doi.org/10.1017/S0025315400038261
  67. Kil HJ, Park TS (2009) First record of Peregrinamor oshimai (Mollusca: Bivalvia) from Korea. Korean J Syst Zool 25(2):205-207 https://doi.org/10.5635/KJSZ.2009.25.2.205
  68. Kim HS (1973) A Catalogue of Anomura and Brachyura from Korea. In: Illustrated Encyclopedia of Fauna and Flora of Korea, Samhwa Publishing Company, Seoul, pp 694
  69. Kim HS, Kwon DH (1988) Bopyrid isopods parasitic on decapod crustaceans in Korea. Korean J Syst Zool 2:199-221
  70. Kim IH (2000) Poecilostomatoid copeopods from an intertidal mud flat in the Yellow Sea. J Nat Hist 34:367-432 https://doi.org/10.1080/002229300299543
  71. Kinoshsita K (2002) Burrow structure of the mud shrimp Upogebia major (Decapoda: Thalassinidea: Upogebiidae). J Crust Biol 22:474-480 https://doi.org/10.1163/20021975-99990255
  72. Kinoshita K, Furota T (2004) Burrow structure and lifehistory characteristics of the mud shrimp, Upogebia major. In: Tamaki A (ed) Proceedings of the symposium on ecology of large bioturbators in tidal flats and shallow sublittoral sediments - from individual behavior to their role as ecosystem engineers. November 1-2 2003, University of Nagasaki, Japan, pp 7-13
  73. Kinoshita K, Nakayama S, Furota T (2003) Life cycle characteristics of deep-burrowing mud shrinp Upogebia major (Thalassinidea: Upogebiidae) on a tidal flat along the northern coast of Tokyo Bay. J Crustacean Biol 23:318-327 https://doi.org/10.1163/20021975-99990342
  74. Kinoshita K , Wada M , Kogure K , Furota T ( 2008) Microbial activity and accumulation of organic matter in the burrow of the mud shrimp, Upogebia major (Crustacea: Thalassinidea). Mar Biol 153:277-283
  75. Kinoshita K, Itani G, Uchino T (2010) Burrow morphology and associated animals of the mud shrimp Upogebia yokoyai (Crustacea: Thalassinidea: Upogebiidae). J Mar Biol Ass UK 90(5):947-952 https://doi.org/10.1017/S0025315410000214
  76. Koike I, Mukai H (1983) Oxygen and Inorganic Nitrogen Contents and Fluxes in Burrows of the Shrimp Callianassa japonica and Upogebia major. Mar Ecol Prog Ser 12:185-190 https://doi.org/10.3354/meps012185
  77. Komai T (2005) A new species of Upogebia (Crustacea: Decapoda: Thalassinidea: Upogebiidae) from Okinawa Island, Ryukyu Islands. Species Diversity 10:259-268
  78. Konishi K (1989) Larval development of the mud shrimp Upogebia (Upogebia) major (De Haan) (Crustacea: Thalassinidea:Upogebiidae) under laboratory conditions, with comments on larval characters of thalassinid families. Bull Natl Res Inst Aquaculture 12:1-17
  79. Kornienko ES (2013) Burrowing shrimp of the Infraorders Gebiidea and Axiidea (Crustacea: Decapoda). Russ J Mar Biol 39(1):1-14 https://doi.org/10.1134/S1063074013010033
  80. Kuris AM (1974) Trophic interactions: Similarity of parasitic castrators to parasitoids. Quart Rev Biol 49:129-148 https://doi.org/10.1086/408018
  81. Lee S, Lee SK, Rho HS, Kim W (2013) New Report of the Varunid Crabs , Hemigrapsus takanoi and Sestrostoma toriumii (Crustacea: Decapoda: Varunidae) from Korea. Anim Syst Evol Divers 29(2):152-159 https://doi.org/10.5635/ASED.2013.29.2.152
  82. Lindsay CE (1961) Pesticide tests in the marine environment in the state of Washington. Proc Natl Shellfish Assoc 52:87-97
  83. Liu JY (1955) Economic shrimps and prawns of Northern China. Scientific Publishing, Peking, 73 p
  84. Liu R, Liu W (2008) Infraorder Thalassinidea Latreille, 1831. In: Liu R (ed) Checklist of Marine Biota of China Seas. Science Press, Beijing, pp 739-742
  85. Liu W, Liu R (2010) The subfamily Neogebiculinae (Decapoda, Gebiidea, Upogebiidae) in the south China Sea. In: Charles F, Sammy G, Peter N (eds) Studies on Malacostraca: Lipke Bijdeley Holthuis Memorial Volume. Koninklijke Brill NV, Leiden, pp 389-401
  86. Liu W, Liu R (2012) A new species of the genus Austinogebia Ngoc-Ho, 2001 (Crustacea, Decapoda, Gebiidea, Upogebiidae) from northern China. Zootaxa 3243:59-64
  87. Liu W, Liu R (2013) A new species of the genus Mantisgebia Sakai, 2006 (Crustacea, Decapoda, Gebiidea, Upogebiidae) from the South China Sea. Zootaxa 3637(5):592-596
  88. Loosanoff VL, Tommers FD (1948) Effect of suspended silt and other substances on rate of feeding of oysters. Science 107:69-70 https://doi.org/10.1126/science.107.2768.69
  89. Lutzen J, Sakamoto H, Taguchi A, Takahashi T (2001) Reproduction, dwarf males, sperm dimorphism, and life cycle in the commensal bivalve Peregrinamor oshimai Shoji (Heterodonta: Galeommatoidea: Montacutidae). Malacologia 43:313-325
  90. Lutzen J, Itani G, Jespersen A, Hong JS, Glenner H (2013) On a new species of parasitic barnacle (Crustacea, Rhizocephala), Sacculina shiinoi nov. sp, parasitizing Japanese mud shrimps (Upogebia, Thalassinidea, Upogebiidae), including a description of a novel structure of the Rhizocephala. Zool Sci (In Press)
  91. MacGinitie G (1930) Natural history of mud shrimp, Upogebia. Ann Mag Nat Hist Ser 10(6):36-44
  92. Makarov VV (1938) Crustacea. Fauna of USSR 10(3):54-61
  93. Marais JFK (1984) Feeding ecology of major carnivorous fish from four eastern Cape estuaries. S Afr J Zool 19(3):210-223 https://doi.org/10.1080/02541858.1984.11447883
  94. Marin I, Korn OM, Kornienko ES (2011) Symbiotic crab Sestrostoma balssi (Shen, 1932) (Varunidae: Gaeticinae) from Vostok Bay, Sea of Japan: A new species for the fauna of Russia, Russ J Mar Biol 37(6):509-510 https://doi.org/10.1134/S1063074011060113
  95. Marin I (2010) Redescription of the alpheid Shrimp Betaeus levifrons Vinogradov, 1950 (Crustacea, Decapoda, Alpheidae) from Peter the Great Bay, Russian coast of the Sea of Japan. Zootaxa 2613:51-60
  96. Martin AP (1988) Birds of the Swartkops estuary and it's environs and the effects of developments and bait exploitation. In: South African National Scientific Programmes Report 156, pp 86-94
  97. Munoz G, George-Nascimento M (1999) Efectos reproductivos reciprocos en la simbiosis entre napes (Decapods: Thalassinidea) e isopodos bopiridos (Isopoda: Epicaridea) en Lenga, Chile. Rev Chil Hist Nat 72:49-56
  98. Miyake S (1982) Illustrated Encyclopedia of Japanese Macro-Crustaceans (I). Hoikusha Publishing Company, 261 p (In Japanese)
  99. Nakamura Y (2001) Filtration rates of the Manila clam, Ruditapes philippinarum: dependence on prey items including bacteria and picocyanobacteria. J Exp Mar Biol Ecol 266:181-192 https://doi.org/10.1016/S0022-0981(01)00354-9
  100. Ngoc-Ho N (1984) The functional anatomy of the foregut of Porcellana platyceles and a comparison with Galathea squamifera and Upogebia deltura (Crustacea: Decapoda). J Zool 203:511-535
  101. Ngoc-Ho N, Chan TY (1992) Upogebia edulis, new species, a mud shrimp (Crustacea: Thalassinidea: Upogebiidae) from Taiwan and Vietnam, with a note on polymorphism in the male first pereiopod. Raffles B Zool 40(1):33-43
  102. O'Brien JJ, Van Wyk P (1985) Effects of crustacean parasitic castrators (epicaridean isopods and rhizocephalan barnacles) on growth of crustacean hosts. In: Wenner AM (ed) Crustacean issues: Factors in adult growth. Rotterdam, Balkema, pp 191-218
  103. Ohtomi J (2011) Edible fishes and shellfishes of Kyushu, Southern Japan. Nanpou Shinsya, Kagoshima, 255 p (In Japanese)
  104. Pemberton GS, Risk MJ, Buckley DE (1976) Supershrimp: deep bioturbation in the Strait Canso, Nova Scotia. Science 192:790-791 https://doi.org/10.1126/science.192.4241.790
  105. Pearse AS (1945) Ecology of Upogebia affinis (Say). Ecology 26:303-305 https://doi.org/10.2307/1932410
  106. Peterson CH (1977) Comparative organization of the softbottom macrobenthic communities of Southern California lagoons. Mar Biol 43:343-359 https://doi.org/10.1007/BF00396928
  107. Peterson CH (1984) Does a rigorous criterion for environmental identity preclude the existence of multiple stable points? Am Nat 124:127-133 https://doi.org/10.1086/284256
  108. Pinn EH, James R, Atkinson A, Rogerson A (1998) Particle size selectivity and resource partitioning in five species of Thalassinidea (Crustacea: Decapoda). Mar Ecol Prog Ser 169:243-250 https://doi.org/10.3354/meps169243
  109. Poore G, Turkay M (2013a) Upogebia Leach, 1814, World Register of Marine Species. http://www.marinespecies.org/aphia.php?p=taxdetails&id=107079 Accessed 15 Jul 2013
  110. Poore G, Turkay M (2013b). Upogebiidae, World Register of Marine Species. http://www.marinespecies.org/aphia.php?p=taxdetails&id=106803 Accessed 23 Jul 2013
  111. Posey MH (1986a) Changes in a benthic community associated with dense beds of a burrowing deposit feeder, Callianassa californiensis Dana. Mar Ecol Prog Ser 31:15-22 https://doi.org/10.3354/meps031015
  112. Posey MH (1986b) Predation on a burrowing shrimp:Distribution and community consequences. J Exp Mar Biol Ecol 103:143-161 https://doi.org/10.1016/0022-0981(86)90138-3
  113. Posey MH, Dumbauld BR, Armstrong DA (1991) Effects of a burrowing mud shrimp, Upogebia pugettensis (Dana) on abundance of macro-infauna. J Exp Mar Biol Ecol 148:283-294 https://doi.org/10.1016/0022-0981(91)90088-E
  114. Powell RR (1974) The functional morphology of the foreguts of the thalassinid crustaceans, C. californiensis and U. pugettensis. University of California, Berkeley, 262 p
  115. Reise K, Volkenborn N (2004) Large worms as ecosystem engineers in intertidal sediments. In: Tamaki A (ed) Proceedings of the symposium on ecology of large bioturbators in tidal flats and shallow sublittoral sediments - from individual behavior to their role as ecosystem engineers. 1-2 November 2003, Nagasaki, Nagasaki University, pp 95-100
  116. Reise K, Bouma TJ, Olenin S, Ysebaert T (2009) Coastal habitat engineers and the biodiversity in marine sediments. Helgol Mar Res 63:1-2 https://doi.org/10.1007/s10152-009-0147-x
  117. Rice MA, Valliere A, Gibson M, Ganz A (2000) Ecological significance of the providence river quahogs: population filtration. J Shellfish Res 19:580
  118. Ricketts EF, Calvin J, Hedgpeth JW, Phillips DW (1985) Between Pacific Tides. 5th Edition, Stanford University Press, 632 p
  119. Rhodes DC, Young DK (1970) The influence of depositfeeding organisms on sediment stability and community trophic structure. J Mar Res 28:150-178
  120. Rowden AA, Jones MB (1993) Critical evaluation of sediment turnover estimates for Callianassidae (Decapoda: Thallassinidea). J Exp Mar Biol Ecol 173:265-272 https://doi.org/10.1016/0022-0981(93)90057-U
  121. Rowden AA, Jago CF, Jones SE (1998a) Influence of benthic macrofauna on the geotechnical and geophysical properties of surficial sediment, North Sea. Cont Shelf Res 18:1347-1363 https://doi.org/10.1016/S0278-4343(98)00047-8
  122. Rowden AA, Jones MB, Morris AW (1998b) The role of Callianassa subterranea (Montagu) (Thhalassinidea) in sediment resuspension in the North Sea. Cont Shelf Res 18:1365-1380 https://doi.org/10.1016/S0278-4343(98)00048-X
  123. Roditi HA, Caraco NF, Cole JJ, Strayer DL (1996) Filtration of Hudson River water by the zebra mussel (Dreissena polymorpha). Estuaries 19:824-832 https://doi.org/10.2307/1352300
  124. Sakai K (1982) Revision of Upogebiidae (Decapoda, Thalassinidea) in the Indo-West Pacific region. Researches on Crustacea. Spec. No. 1, Carcinol Soc Japan, 101 p
  125. Sakai K (2006) Upogebiidae of the world (Decapoda, Thalassinidea). Crustaceana Monogr 6:1-185
  126. Sakamoto Y, Yamamoto S, Iwamura S (1987) Propagation Experiment of Shellfishes (mud shrimp control experiment). Report of the Nori Research Institute, pp 125-156 (In Japanese)
  127. Sato M, Uchida H, Itani G, Yamashita H (2001) Taxonomy and life history of the scale worm Hesperonoe hwanghaiensis (Polychaeta: Polynoidae) newly recorded in Japan, with special reference to commensalism to a burrowing shrimp, Upogebia major. Zool Sci 18:981-991 https://doi.org/10.2108/zsj.18.981
  128. Schaefer N (1970) The functional morphology of the foregut of three species of decapod Crustacea: Cyclograpus punctatus Milne-Edwards, Diogenes brevirostris Stimpson and Upogebia africana (Ortmann). Zool Afr 5:309-326 https://doi.org/10.1080/00445096.1970.11447399
  129. Simenstad CA, Fresh KL (1995) Influence of Intertidal Aquaculture on Benthic Communities in Pacific Northwest Estuaries: Scales of Disturbance. Estuaries 18(1A):43-70 https://doi.org/10.2307/1352282
  130. Smaal AC, Vonch W, Prins TC (1990) The functional role of mussels in the Oosterschelde Estuary. J Shellfish Res 8:472
  131. Smith AE, Chapman JW, Dumbauld BR (2008) Population structure and energetics of the bopyrid isopod parasite Orthione griffenis in mud shrimp Upogebia pugettensis. J Crustacean Biol 28:228-233 https://doi.org/10.1163/20021975-99990368
  132. Stewart NE, Millemann RE, Breese WP (1967) Acute toxicity of the insecticide Sevin and its hydrolytic product 1-naphthol to some marine organisms. T Am Fish Soc 96:25-30 https://doi.org/10.1577/1548-8659(1967)96[25:ATOTIS]2.0.CO;2
  133. Suchanek TH, Colin PL, McMurtry, Suchanek CS (1986) Bioturbation and redistribution of sediment radionuclides in Enewetak Atoll lagoon by callianassid shrimp: biological aspects. Bull Mar Sci 38(1):144-154
  134. Swinbanks DD, Luternauer JL (1987) Burrow distribution of thalassinidean shrimp on a Fraser delta tidal flat, British Columbia. J Paleontol 613:315-332
  135. Swinbanks DD, Murray JW (1981) Biosedimentological zonation of boundary Bay tidal flats, Fraser River Delta, British Columbia. Sedimentology 28(2):201-237 https://doi.org/10.1111/j.1365-3091.1981.tb01677.x
  136. Takeda M (1974) Accounts of some crabs from Mutsu Bay, with description of a new grapsid from Onagawa Bay. Bull Mar Biol Stn Asamushi 15(1):13-21
  137. Tamaki A, Miyamoto S, Yamazaki T, Nojima S (1992) Abundance pattern of the ghost shrimp Callianassa japonica Ortmann (Thalassinidea) and the snake eel Pisodonophis cancrivorus (Richardson) (Pisces, Ophichthidae) and their possible interaction on an intertidal sand flat. Benthos Res 43:11-22
  138. Thompson RK (1972) Functional morphology of the hindgut gland of Upogebia pugettensis (Crustacea, Thalassinidea) and its role in burrow construction. Ph.D. Thesis, Univ California Berkeley, Berkeley, California, 202 p
  139. Tucker BW (1930) On the effects of an epicaridean parasite, Gyge branchialis, on Upogebia littoralis. Q J Microsc Sci 74:1-118
  140. Volkenborn N, Reise K (2006) Lugworm exclusion experiment:Responses by deposit feeding worms to biogenic habitat transformations. J Exp Mar Biol Ecol 330:169-179 https://doi.org/10.1016/j.jembe.2005.12.025
  141. Walker SP (1977) Probopyrus pandalicola: Discontinuous ingestion of shrimp hemolymph. Exp Parasitol 41:198-205 https://doi.org/10.1016/0014-4894(77)90145-X
  142. Washington Department of Fisheries (1970) Ghost Shrimp Control Experiments with Sevin, 1960-1968. Washington Department of Fisheries Technical Report vol 1. Olympia, Washington, 62 p
  143. Washington Department of Fisheries and Washington Department of Ecology (1985) Use of the Insecticide Sevin to Control Ghost and Mud Shrimp in Oyster Beds of Willapa Bay and Grays Harbor. Final Environmental Impact Statement. Olympia, Washington, 88 p
  144. Washington Department of Fisheries and Washington Department of Ecology (1992) Use of the Insecticide Carbaryl to Control Ghost and Mud Shrimp in Oyster Beds of Willapa Bay and Grays Harbor. Final Supplemental Environmental Impact Statement. Olympia, Washington, 197 p
  145. Williams AB (1986) Mud shrimps, Upogebia, from the Eastern Pacific (Thalassinoidea: Upogebiidae). San Diego Society of Natural History, Memoir 14, 60 p
  146. Wooldridge TH, Loubser H (1996) Larval release rhythms and tidal exchange in the estuarine mudprawn, Upogebia africana. Hydrobiologia 337:113-121 https://doi.org/10.1007/BF00028512
  147. Wooldridge TH (1999) Estuarine zooplankton community structure and dynamics. In: Allanson BR and Baird D (ed) Estuaries of South Africa. Cambridge Univ Press, Cambridge, pp 141-166
  148. Wooldridge T (2007) Collection of bait organisms in estuaries. In: Wooldridge T (ed) C.A.P.E. Estuaries Program, pp 11
  149. Wynberg RP, Branch GM (1991) An assessment of baitcollecting for Callianassa kraussi Stebbing in Langebaan lagoon, Western Cape, and of associated avian predation. S Afr J Marine Sci 11:141-152 https://doi.org/10.2989/025776191784287592
  150. Yamasaki M, Nanri T, Taguchi S, Takada Y, Saigusa M (2010) Latitudinal and local variations of the life history characteristics of the thalassinidean decapod, Upogebia yokoyai: A hypothesis based on trophic conditions. Estuar Coast Shelf Sci 87:346-356 https://doi.org/10.1016/j.ecss.2010.01.017
  151. Yokoya Y (1930) Report of the Biological Survey of Mutsu Bay 16. Sci Rep the Tohoku Imperial Univ 5(3):542-546
  152. Ziebis W, Forster S, Huettel M, Jorgensen BB (1996) Complex burrows of the mud shrimp Callianassa truncata and their geochemical impact in the sea bed. Nature 382:619-622 https://doi.org/10.1038/382619a0

Cited by

  1. First Finding of the Mud Shrimp Upogebia yokoyai Makarov, 1938 (Crustacea: Decapoda: Upogebiidae) in Korean Waters vol.36, pp.3, 2014, https://doi.org/10.4217/OPR.2014.36.3.235
  2. Complete mitochondrial genome ofUpogebia yokoyai(Decapoda, Crustacea) from Jejudo, Korea 2014, https://doi.org/10.3109/19401736.2014.982595
  3. Occurrence of Orthione griffenismarkham, 2004 (Isopoda: Bopyridae), parasite of the mud shrimp upogebia major(de Haan, 1841) in South Korean waters, and its implications with respect to marine bioinvasion vol.35, pp.5, 2015, https://doi.org/10.1163/1937240X-00002361
  4. The seasonal dynamics and distribution of burrowing shrimp larvae of the infraorders Gebiidea and Axiidea in Amursky and Ussuriysky Bays, the Sea of Japan vol.42, pp.3, 2016, https://doi.org/10.1134/S1063074016030044
  5. The population dynamics and growth of the mud shrimp Upogebia major (De Haan, 1841) (Crustacea: Decapoda) from Peter the Great Bay, Sea of Japan vol.43, pp.4, 2017, https://doi.org/10.1134/S1063074017040101