|Cuban crocodile range|
The Cuban crocodile has numerous characteristics that set it apart from other crocodilians, such as its brighter adult colors, rougher, more 'pebbled' scales, and long, strong legs. This is a small to mid-sized crocodilian. Typical adults were found to have measured 2.1–2.3 m (6.9–7.5 ft) in length and to have weighed 70–80 kg (150–180 lb). Large males can reach as much as 3.5 m (11 ft) in length and weigh 215 kg (474 lb) or more.
Distribution and habitat
Today, the Cuban crocodile can only be found in Cuba's Zapata Swamp and the Isle of Youth, and it is highly endangered. It formerly ranged elsewhere in the Caribbean. Fossils of this species have been found in the Cayman Islands and the Bahamas.
Biology and behavior
This species has been observed to display interesting behavior that other crocodilians do not. A colony of this species at Gatorland, Florida, has exhibited what is strongly suspected to be pack-hunting behavior, which may explain the predation of prehistoric megafauna that coexisted with this species, such as the giant sloth. The behavior has prompted much interest in the species, usually kept singly (especially so after such reports). This species is also the most terrestrial of crocodiles, and also possibly the most intelligent.
Hunting and diet
Small fish, arthropods, and crustaceans make up the diet of young Cuban crocodiles. Adults of the species feed mostly upon small mammals, fish, and turtles. They have blunt rear teeth, which aid in crushing the shells of their turtle prey. Cuban crocodiles also demonstrate the jumping feeding technique seen in other crocodilians such as the American alligator. By thrusting with their powerful tails, they can leap from the water and snatch small animals from overhanging branches. The Cuban crocodile, while not a particularly large species, is often regarded as the most aggressive New World crocodile and is behaviorally dominant over the larger American crocodile in areas where the two species coexist. Data regarding attacks on humans are limited, but occurrences are likely rare given the species' very small distribution area and separation from human populations. However, captive specimens show aggression towards their keepers, a behavior displayed at Gatorland.
The mating season of the Cuban crocodile (Crocodylus rhombifer) is between the months of May and July. This is thought to be related to environmental changes, such as rainfall and temperature. In the wild, crocodiles will nest in wet marshes; where they will create trenches and cover the eggs with organic material. In captivity, crocodiles will create mounds. During the nesting period the Cuban crocodiles will lay between 30-40 eggs and the estimated incubation period is 58–70 days. Hatching can occur from late August to early September. Due to the predation of humans, raccoons, and other animals, many eggs will not hatch. At birth, hatchlings are approximately 2-3 inches in length, and are 1/4th of a pound in weight. As with other crocodilians the sex of the Cuban crocodile’s offspring is determined by the temperature in the nest. In conservations, the eggs are kept in incubators that provide a constant environment of 32 degrees Celsius in order to produce males. Cuban crocodiles are an aggressive species and are known to have performed acts of cannibalism. This is a contributing cause for the majority of offspring not surviving to the juvenile stage. In 2012, two Cuban crocodile hatchlings were born in conservation at the National Zoo in Washington, D.C. This was the first time in 25 years that the Cuban crocodile had been successfully bred at this zoo.
The Cuban crocodile is a critically endangered species, listed on CITES appendix 1. Its restricted habitat and range make it very vulnerable. Humans have hunted this species to near extinction. Much research remains to be done on the remaining wild populations. The species is represented in captivity in Europe and the United States, where breeding projects are taking place. Problems in the past with hybridisation have occurred, especially with the American crocodile, which limits the pure gene pool of this species.
- Targarona, R. R.; Soberón, R. R.; Cotayo, L.; Tabet, M. A.; Thorbjarnarson, J. (1996). "Crocodylus rhombifer". IUCN Red List of Threatened Species. Version 2013.2. International Union for Conservation of Nature. Retrieved 2014-04-10.
- Morgan, Gary; Franz, Richard & Ronald Crombie (1993). "The Cuban Crocodile, Crocodylus rhombifer, from Late Quaternary Fossil Deposits on Grand Cayman" (PDF). Caribbean Journal of Science 29 (3–4): 153–164.
- Franz, Richard; Morgan, G, Albury, N & Buckner, S (1995). "Fossil skeleton of a Cuban crocodile (Crocodylus rhombifer) from a blue hole on Abaco, Bahamas". Caribbean Journal of Science 31 (1–2): 149–152.
- Steadman, D. W. et al. (2007-12-11). "Exceptionally well preserved late Quaternary plant and vertebrate fossils from a blue hole on Abaco, The Bahamas". PNAS 104 (50): 19897–19902. doi:10.1073/pnas.0709572104. PMC 2148394. PMID 18077421.
- National Zoo
- Alexander, Marc (2006-01-01). "Last of the Cuban crocodile?". Americas (English Edition) (Organization of American States). ISSN 0379-0940. Retrieved 2010-07-09.
- University of Florida
- Kristen, P. (2001). Crocodylus Rhombifer. Retrieved from Animal Diversity Web : .http://animaldiversity.ummz.umich.edu/accounts/Crocodylus_rhombifer/
- Ramos Taragon, R. S. (2010). Cuban crocodile (Crocodylus rhombifer). In S. M. C.Stevenson, Crocodiles Status Survery and Conservation Action Plan (pp. 114-118). Crocodile Specialist Group : Darwin .
- Press., A. (2012, July 20). After decades, Cuban Crocodiles Born At D.C Zoo. Retrieved from CBS Baltimore: http://baltimore.cbslocal.com/2012/07/20/after-decades-cuban-crocodiles-born-at-dc-zoo/
- Weaver, J. P.; Rodriguez, D.; Venegas-Anaya, M.; Cedeño-Vázquez, J. R.; Forstner, M. R. J.; Densmore, L. D. III (2008). "Genetic characterization of captive Cuban crocodiles (Crocodylus rhombifer) and evidence of hybridization with the American crocodile (Crocodylus acutus)". Journal of Experimental Zoology Part A: Ecological Genetics and Physiology 309A (10): 649–660. doi:10.1002/jez.471.