Aston, E. C. (2002). Mangrove sesarmid crab feeding experiments in Peninsular Malaysia. J. Exp. Mar. Biol. Ecol., 273(1), 97-119.

Bartolini, F., & Penha-Lopes, G. (2009). Behavioural responses of the mangrove fiddler crab (Uca annulipes and U. inversa) to urban sewage loadings: Results of a mesocosm approach. Marine Pollution Bulletin, 1860-1867.

Briffett, C. (1992). A Guide to the Common Birds of Singapore. Singapore: BP Science Centre.

Bright, D. B., & Hogue, C. L. (1972). A synopsis of the burrowing land crabs of the world and list of their symbionts and burrow associates. Contr. Sci. Nat. Hist., M220, 1-58.

Buchanan, J. B. (1984). Sediment analysis. In N. A. Holme, & A. D. McInyre (Eds.), Methods for the study of marine benthos (2nd ed., pp. 41-65). Blackwell scientific publications.

Davenport, J., & Wong, T. M. (1987). Responses of adult mud crabs (Scylla serrata) to salinity and low oxygen tension. Comp. Biochem. Physiol., 43-47.

Gillikin, D. P. (2004). Osmoregulatory ability of Chiromantes ortmanni (Crosnier, 1965) subjected to dilute and hypersaline seawater. Crustaceana, 67-74.

Gillikin, D. P., De Grave, S., & Tack, J. F. (2001). The occurence of the semi-terrestrial shrimp Merguia oligodon (De Man, 1888) in Neosarmatium smithi H. Milne Edwards, 1853 burrows in Kenyan mangroves. Crustaceana, 74(5), 505-508.

Gillikin, D. P., Wachter, B. D., & Tack, J. F. (2004). Physiological responses to two ecologically important Kenyan mangrove crabs exposed to altered salinity regimes. Journal of Experimental Marine Biology and Ecology, 93-109.

Holliday, C. W. (1985). Salinity-induced changes in salinity-induced changes in gill Na+, K+-ATPase activity in the mud fiddler crab, Uca pugnax. J. Exp. Zool., 23, 199-208.

Lee, S. Y. (1997). Potential trophic importance of the faecal material of the mangrove crab Sesarma messa. Mar. Ecol. Prog. Ser., 159, 275-284.

Lee, S. Y. (1998). Ecological role of grapsid crabs in mangrove ecosystem: a review. Mar. Freshw. Res., 49, 335-343.

Lim, S. L., & Diong, C. H. (2003). Burrow morphological characters of the fiddlers crabs, Uca annulipes (H. Milne Edwards, 1837) and ecological correlates in a lagoonal beach on Pulau Hantu, Singapore. Crustaceana, 76(9), 522-528.

Lim, S. S., & Heng, M. M. (2007). Mangrove micro-habitat influence on bioturbative activities and burrow morphology of the fiddler crab, Uca annulipes (H. Milne Edwards, 1837) (Decapoda, Ocypodidae). Crustaceana, 80(1) 31-45.

Lim, S. S., Lee, P. S., & Diong, C. H. (2005). Influence of biotope characteristics on the distribution of Uca annulipes (H. Milne Edwards, 1837) and U. vocans (Linnaeus, 1758) (Crustacea: Brachyura: Ocypodidae) on Pulau Hantu Besar, Singapore. The Raffles Bulletin of Zoology, 53(1), 111-114.

Lin, H. C., Su, Y. C., & Su, S. H. (2002). A comparative study of osmoregulation in Four Fiddler Crabs (Ocypodidae: Uca). Zoological Science, 643-650.

Owen, R. K., Forbes, A. T., Cyrus, D. P., & Pipers, S. E. (2000). Physical determinants of the distribution and abundance of the burrowing ocypodid crab, Paratylodiplax blephariskios, Stebbing in the St. Lucia and Mhlathuze estuaries, KwaZulu-Natal, South Africa. African Journal of Aquatic Science, 25, 23-32.

Parrish, P. (1985). Acute Toxicity Tests. In Fundamentals of Aquatic Ecotoxicology: Methods and Applications (p. 666). Hemisphere Publishing Corporation.

Rabalais, N. N., & Cameron, J. N. (1985). Physiological and morphological adaptations of adult Uca subcylindrica to semi-arid environments. Biological Bulletin, 135-146.

Rand, G. M., & Petrocelli, S. R. (1985). Fundamentals of aquatic toxicology. Hemisphere Publishing Corporation.

Rhodes-Ondi, S. E., & Turner, R. L. (2010). Salinity tolerance and osmotic response of estuarine hermit crab Pagurus maclaughlinae in the Indian River Lagoon, Florida. Estuarine, Coastal and Shelf Science, 189-196.

Ridd, P. V. (1996). Flow through animal burrows in mangrove creeks. Estuar. Coast. Shelf Sci., 43, 617-625.

Robertson, A. I. (1986). Leaf-buring crabs: their influence on energy flow and export from mixed mangrove forests (Rhizophora spp.) in northeastern Australia. J. Exp. Mar. Biol. Ecol., 102, 237-248.

Shock, B. C., Foran, C. M., & Stueckle, T. A. (2009). Effects of salinity stress on survival, metabolism, limb regeneration, and ecdysis in Uca pugnax. Journal of Crustacean Biology, 293-301.

Smith, T. J., Boto, K. G., Frusher, S. D., & Giddens, R. L. (1991). Keystone species and mangrove forest dynamics: the influence of burrowing by crabs on soil nutrient status and forest productivity. Estuar. Coast. Shelf Sci, 33(5), 419-432.

Stieglitz, T., Ridd, P., & Muller, P. (2000). Passive irrigation and functional morphology of crustacean burrows in a tropical mangrove swamp. Hydrobiologia(421), 69-76.

Thomas, R. E., & Rice, S. D. (1992). Salinity tolerance of adult and juvenile red king crabs Paralithodes camtschatica. Comp. Biochem. Physiol, 433-437.

Thurman, C., Hanna, J., & Bennett, C. (2010). Ecophenotypic physiology: osmoregulation by fidder crabs (Uca spp.) from the northern Carribean in relation to ecological distribution. 339-356.

Warren, J. H., & Underwood, A. J. (1986). Effects of burrowing crabs on the topography of mangrove swamps in New South Wales. J. Exp. Mar. Biol. Ecol., 102, 223-236.

Zanders, I. P., & Rojas, W. E. (1996). Osmotic and ionic regulation in the fiddler crab Uca rapax acclimated to dilute and hypersaline seawater. Mar. Biol., 125, 315-320.

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