Spatial-Temporal Distribution of the Burrowing Shrimp Callichirus major (Say, 1818) (Decapoda, Callichiridae) in Preserved Populations of Southeastern Brazil

Ivan Rodrigo Abrão Laurino1,2, Francisco Sekiguchi Buchmann1, Patricio Hernáez3
1Instituto de Biociências (IB), Campus do Litoral Paulista (CLP), Laboratório de Estratigrafia e Paleontologia, Praça Infante Dom Henrique, Universidade Estadual Paulista – UNESP, São Vicente, Brazil
2Instituto Oceanográfico (IO), Laboratório de Manejo, Ecologia e Conservação Marinha, Praça do Oceanográfico, Universidade de São Paulo – USP, São Paulo, Brazil
3Facultad de Ciencias, Centro de Estudios Marinos y Limnológicos, Universidad de Tarapacá (UTA), Arica, Chile

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Alfredini P, Arasaki E, Do Amaral RF (2008) Mean sea-level rise impacts on Santos Bay, southeastern Brazil–physical modelling study. Environ Monit Assess 144(1-3):377–387. https://doi.org/10.1007/s10661-007-0001-z

Alvares CA, Stape JL, Sentelhas PC, Gonçalves JLM, Sparovek G (2013) Köppen’s climate classification map for Brazil. Meteorol Z 22(6):711–728. https://doi.org/10.1127/0941-2948/2013/0507

Amaral ACZ, Corte GN, Denadai MR, Colling LA, Borzone C, Veloso V, Omena EP, Zalmon IR, Rocha-Barreira CA, Souza JRB, Rosa LCD, Almeida TCM (2016) Brazilian sandy beaches: characteristics, ecosystem services, impacts, knowledge and priorities. Braz J Oceanogr 64(spe. 2):5–16. https://doi.org/10.1590/S1679-875920160933064sp2

Bertics VJ, Sohm JA, Treude T, Chow CET, Capone DG, Fuhrman JA, Ziebis W (2010) Burrowing deeper into benthic nitrogen cycling: The impact of bioturbation on nitrogen fixation coupled to sulfate reduction. Mar Ecol Prog Ser 409:1–15. https://doi.org/10.3354/meps08639

Botter-Carvalho ML, Santos PJP, Carvalho PVVC (2002) Spatial distribution of Callichirus major (say 1818) (Decapoda, Callianassidae) on a sandy beach, Piedade, Pernambuco, Brazil. Nauplius 10(2):97–109

Celentano E, Defeo O (2006) Habitat harshness and morphodynamics: life history traits of the mole crab Emerita brasiliensis in Uruguayan sandy beaches. Mar Biol 149(6):1453–1461. https://doi.org/10.1007/s00227-006-0309-1

Contreras H, Jaramillo E, Duarte C, McLachlan A (2003) Population abundances, growth and natural mortality of the crustacean macroinfauna at two sand beach morphodynamic types in southern Chile. Rev Chil Hist Nat 76:543–561

Defeo O, McLachlan A (2005) Patterns, processes and regulatory mechanisms in sandy beach macrofauna: a multi-scale analysis. Mar Ecol Prog Ser 295:1–20. https://doi.org/10.3354/meps295001

Defeo O, Rueda R (2002) Spatial structure, sampling design and abundance estimates in sandy beach macroinfauna: some warnings and new perspectives. Mar Biol 140:1215–1225. https://doi.org/10.1007/s00227-002-0783-z

Defeo O, Layerle C, Masello A (1986) Spatial and temporal structure of the ‘yellow clam’ Mesodesma mactroides (Deshayes, 1854) in Uruguay. Med Amb (Chile) 8:48–57

Defeo O, Brazeiro A, de Alava A, Riestra G (1997) Is sandy beach macroinfauna only physically controlled? Role of substrate and competition in isopods. Estuar Coast Shelf Sci 45:453–462. https://doi.org/10.1006/ecss.1996.0200

Dugan JE, Hubbard DM, Rodil IF, Revell DL, Schroeter S (2008) Ecological effects of coastal armoring on sandy beaches. Mar Ecol 29(1):160–170. https://doi.org/10.1111/j.1439-0485.2008.00231.x

Elliott J M (1983) Some Methods for the statistical analysis of samples of benthic invertebrates. Freshwater biological association, scientific publication no 25. 3rd edition. Freshwater biological association, far Sawrey

Felder DL (2001) Diversity and ecological significance of deep-burrowing macrocrustaceans in coastal tropical waters of Americas (Decapoda: Thalassinidea). Interciencia 26:440–449

Frankenberg D, Coles SL, Johannes RE (1967) The potential trophic significance of Callianassa major fecal pellets. Limnol Oceanogr 12(1):113–120. https://doi.org/10.4319/lo.1967.12.1.0113

Gagnon JM, Beaudin L, Silverberg N, Mauviel A (2013) Mesocosm and in situ observations of the burrowing shrimp Calocaris templemani (Decapoda: Thalassinidea) and its bioturbation activities in soft sediments of the Laurentian trough. Mar Biol 160(10):2687–2697. https://doi.org/10.1007/s00227-013-2262-0

Gonçalves SC, Marques JC (2017) Assessment and management of environmental quality conditions in marine sandy beaches for its sustainable use – virtues of the population based approach. Ecol Indic 74:140–146. https://doi.org/10.1016/j.ecolind.2016.11.024

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

Guedes CCF, Mendes VR, Giannini PCF, Sawakuchi AO, Nogueira L, Buchmann FS (2017) Idades de deposição dos sedimentos da falésia de Itaguaré (Bertioga-SP) determinadas por luminescência opticamente estimulada. Quat Envi Geosci 8(2):09–16. https://doi.org/10.5380/abequa.v8i2.52474

Hernáez P (2018a) An update on reproduction in ghost shrimps (Decapoda: Axiidea) and mud lobsters (Decapoda: Gebiidea). In: Türkoğlu M, Önal U, Ismen A (eds), Marine Ecology, IntechOpen, pp. 231–253

Hernáez P (2018b). Diversidade e distribuição geográfica de camarões corruptos (Infraordens Axiidea e Gebiidea), ao longo do litoral brasileiro: uma aproximação ecológica aos padrões biogeográficos de distribuição. Cap. 3. Relatório Final, Projeto de Pós-Doutorado FAPESP proc. No 2015/09020–0, pp. 93–116

Hernáez P, Hereman MJ, Pimenta CE, Rio JP, João MC, Pinheiro MA (2019) La efectividad de una ley de protección al servicio de la conservación de un recurso marino: El ejemplo del camarón fantasma Callichirus major (Decapoda, Callianassidae) de la costa de Brasil. Iheringia Ser Zool 109:1–9. https://doi.org/10.1590/1678-4766e2019001

Jaramillo E, González M (1991) Community structure and zonation of the macroinfauna along a dissipative-reflective range of beach category in southern Chile. Stud Neotrop Fauna E 26:193–212. https://doi.org/10.1080/01650529109360853

McLachlan A, Defeo O (2013) Coastal beach ecosystems. In: Levin S (ed) Encyclopedia of biodiversity, 2nd edn. Elsevier Academic Press, Amsterdam, pp 128–136. https://doi.org/10.1016/B978-0-12-384720-1.00294-3

McLachlan A, Jaramillo E, Donn E, Wessels F (1993) Sandy beach macrofauna communities and their control by the physical environment: a geographical comparison. J Coast Res 15:27–38

Melo GAS (1999) Manual de identificação dos Crustacea Decapoda do litoral Brasileiro: Anomura, Thalassinidea, Palinuridea, Astacidea. Plêiade/FAPESP, São Paulo

Moschetto FA, Borges RP, Duarte LFDA (2020) Population structure of Callichirus major (say 1818) (Crustacea: Callianassidae) and conservation considerations at southeast coast of São Paulo, Brazil. An Acad bras Ciênc 92(1). https://doi.org/10.1590/0001-3765202020180795

Najjar RG, Walker HA, Anderson PJ, Barron EJ, Bord RJ, Gibson JR, Kennedy VS, Knight CG, Megonigal JP, O’Connor RE, Polsky CD, Psuty NP, Richards BA, Sorenson LG, Steele EM, Swanson RS (2000) The potential impacts of climate change on the mid-Atlantic coastal region. Clim Res 14(3):219–233. https://doi.org/10.3354/cr014219

Pillay D, Branch G M (2011) Bioengineering effects of burrowing thalassinidean shrimps on marine soft-bottom ecosystems. In: Gibson RN, Atkinson RJA, Gordon JDM (eds), Oceanography and marine biology: an annual review. Volume 49, Taylor & Francis, pp. 137-192

Powilleit M, Graf G (1996) The contribution of the mud shrimp Callianassa subterranea (Decapoda: Thallassinidea) to sediment metabolism during oxygen deficiency in southern North Sea sediments. J Sea Res 36(3-4):193–202. https://doi.org/10.1016/S1385-1101(96)90789-3

Rodil IF, Lastra M (2004) Environmental factors affecting benthic macrofauna along a gradient of intermediate sandy beaches in northern Spain. Estuar Coast Shelf Sci 61:37–44. https://doi.org/10.1016/j.ecss.2004.03.016

Rodrigues SA, Shimizu RM (1997) Autoecology of Callichirus major (say, 1818). Oecol Aust 3(1):155–170

Schlacher TA, Dugan J, Schoeman DS, Lastra M, Jones A, Scapini F, McLachlan A, Defeo O (2007) Sandy beaches at the brink. Divers Distrib 13:556–560. https://doi.org/10.1111/j.1472-4642.2007.00363.x

Short AD (1996) The role of wave height, period, slope, tide range and embaymentisation in beach classifications: a review. Rev Chil Hist Nat 69:589–604

Slott JM, Murray AB, Ashton AD, Crowley TJ (2006) Coastline responses to changing storm patterns. Geophys Res Lett 33(18). https://doi.org/10.1029/2006GL027445

Sokal RR, Rohlf FJ (1981) Biometry. The principles and practice of statistics biological research, 2nd edn. Freeman and Company, San Francisco

Sokal RR, Rohlf FJ (1995) Biometry. The principles and practice of statistics biological research, 3nd edn. Freeman and Company, New York

Souza CRG (2012) Praias arenosas oceânicas do estado de São Paulo (Brasil): síntese dos conhecimentos sobre morfodinâmica, sedimentologia, transporte costeiro e erosão costeira. Rev Depto Geograf 1:308–371. https://doi.org/10.7154/RDG.2012.0112.0014

Souza, JRB, Borzone CA (1996) Distribuição de Calianassídeos (Crustacea: Decapoda: Thalassinidea) em praias do litoral paranaense, com especialreferência a Callichirus major (Say, 1818). Arq Biol Tecnol 39(3):553–565. https://doi.org/10.1590/S0101-81752003000400011

Souza JRB, Borzone CA (2003) A extração de corrupto, Callichirus major (Say) (Crustacea, Thalassinidea), para uso como isca em praias do litoral do Paraná: as populações exploradas. Rev Bras Zool 20(4):625–630. https://doi.org/10.1590/S0101-81752003000400011

Souza JRB, Borzone CA, Brey T (1998) Population dynamics and secondary production of Callichirus major (Crustacea: Thalassinidea) on a southern Brazilian sandy beach. Arch Fish Mar Res 46(2):151–164

Suguio K (1973) Introdução à sedimentologia. EDUSP, São Paulo

Turra A, Croquer A, Carranza A, Mansilla A, Areces AJ, Werlinger C, Martínez-Bayón C, Nassar CAG, Plastino E, Schwindt E, Scarabino F, Chow F, Figueroa FL, Berchez F, Hall-Spencer JM, Soto LA, Buckeridge MS, Copertino M, Széchy MTM, Ghilardi-Lopes NP, Horta P, Coutinho R, Fraschetti S, Nery-Leão ZMA (2013) Global environmental changes: setting priorities for Latin American coastal habitats. Glob Chang Biol 19(7):1965–1969. https://doi.org/10.1111/gcb.12186

Underwood AJ (1997) Experiments in ecology. Cambridge University Press, Cambridge

Ziebis W, Forster S, Huettel M, Jørgensen B (1996) Complex burrows of the mud shrimp Callianassa truncata and their geochemical impact in the sea bed. Nature 382:619–622