Ok,
So now I have all things technical working and sorted I can continue discussing my actual work :)
I've mentioned that my work has its roots in ongoing fieldwork in Belize. My target species is the Jaguar: an apex predator, the third largest feline in the world (behind the lion and the tiger) and a probable keystone species: the jaguar plays an important role in stabilising and controlling the ecosystems in which they are found.
Jaguars were historically found from the southern United States to northern Argentina, although this range has been reduced but up to 40-50%, with much of the existing area more highly fragmented and vulnerable to disturbance.
Territories of typical individuals range from approximately 10-40km2 for females to 30-80 km2 for males. Density varies a lot, with maybe 0.2 per 100km2 in some areas of Brazil to 8-10 per 100km2 in the Cockscomb Basin Wildlife Sanctuary in Belize.
The main reasons for this flexibility and variability in density and territory size is thought to centre around prey density and availability and amount/quality of habitat. Belize has some of the highest density of Jaguars throughout its entire range.
Jaguars are, in their own right, deserved of conservation efforts. However, with their large ranges and daily movement requirements (up to 4km in a single day), any effort to conserve habitat for jaguars will lead to extensive biodiversity preservation, with numerous species and vegetation communities protected within the cats range.
The jaguar can therefore be viewed in the basic sense as an indicator of the quality and extend of suitable habitat in any landscape. My modelling efforts use the jaguar as a case study, to promote jaguar conservation itself but also to address larger scale ecosystem function and resilience questions.
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