Jeffrey K. McCrary scite author profile

ABSTRACT1. The common name 'tilapia' refers to a group of tropical freshwater fish in the family Cichlidae (Oreochromis, Tilapia, and Sarotherodon spp.) that are indigenous to Africa and the southwestern Middle East. Since the 1930s, tilapias have been intentionally dispersed worldwide for the biological control of aquatic weeds and insects, as baitfish for certain capture fisheries, for aquaria, and as a food fish. They have most recently been promoted as an important source of protein that could provide food security for developing countries without the environmental problems associated with terrestrial agriculture. In addition, market demand for tilapia in developed countries such as the United States is growing rapidly.2. Tilapias are well-suited to aquaculture because they are highly prolific and tolerant to a range of environmental conditions. They have come to be known as the 'aquatic chicken' because of their potential as an affordable, high-yield source of protein that can be easily raised in a range of environments } from subsistence or 'backyard' units to intensive fish hatcheries. In some countries, particularly in Asia, nearly all of the introduced tilapias produced are consumed domestically; tilapias have contributed to basic food security for such societies.3. This review indicates that tilapia species are highly invasive and exist under feral conditions in every nation in which they have been cultured or introduced. Thus, the authors have concluded that, despite potential or observed benefits to human society, tilapia aquaculture and open-water introductions cannot continue unchecked without further exacerbating damage to native fish species and biodiversity. Recommendations include restricting tilapia culture to carefully managed, contained ponds, although exclusion is preferred when it is feasible. Research into culture of indigenous species is also recommended.

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Three new species of cichlid fishes (Teleostei: Cichlidae) from Lake Apoyo, Nicaragua

Stauffer

McCrary

Black

2008

Proceedings of the Biological Society of Washington

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Not a simple case – A first comprehensive phylogenetic hypothesis for the Midas cichlid complex in Nicaragua (Teleostei: Cichlidae: Amphilophus)

Geiger

McCrary²,

Schliewen

2010

Molecular Phylogenetics and Evolution

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Territorial aggression can be sensitive to the status of heterospecific intruders

Lehtonen¹,

McCrary²,

Meyer³

2010

Behavioural Processes

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Territorial animals are known to be able to differentiate between intruding individuals posing a low or high threat and adjust their aggressive response accordingly. However, plastic territorial aggression based on recognising individuals with different attributes is typically assumed to be relevant only in the context of conspecific interactions. In this study, we investigated territorial aggression of neotropical cichlid fish in their natural habitat to assess whether responses to different types of individuals of another species can also be plastic. We show that arrow cichlids (Amphilophus zaliosus) adjusted their territorial aggression regarding the status of heterospecific intruders: breeding individuals of Amphilophus astorquii received a lower level of aggression than non-breeders. The same pattern was also found for the two different types of A. astorquii individuals intruding into conspecific territories. These results suggest that heterospecific individuals should not be ignored when considering selection pressures shaping plasticity of aggressive behaviour in territorial animals.

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Zoogeografía íctica de lagunas cratéricas de Nicaragua

Waid¹,

Raesly²,

MaKaye³

et al. 1999

Encuentro

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En ocho lagunas cratéricas volcánicas de Nicaragua se observan 20 nuevos records distribucionales de especies de peces. Estas lagunas, de origen relativamente reciente, son dominadas por peces secundarios de agua dulce, especialmente de las familias Cichlidae y Poeciliidae. Se considera que el origen de los peces proviene de poblaciones de los más viejos y Grandes Lagos de Nicaragua. En las lagunas se encontró entre 3 a 16 especies ícticas. Esta riqueza íctica se correlaciona con un orden modificado de las edades de las lagunas (P=0.011) y con un orden modificado del área de superficie (P=0.013).

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