How do humans and animals travel between multiple destinations on a given foraging trip? This question is of theoretical and practical interest, yet few empirical data exist to date. We examined how a group of wild chacma baboons travelled among multiple, simultaneously fruiting mountain fig trees (Ficus glumosa). In the course of a 16-month study, this highly preferred fruit was available during a 3-week period, from relatively few sites, which were also utilized by four larger baboon groups. We used directness of route and travel speed of 13 days of observation, and approach rates of 31 days of observation to differentiate between purposeful and opportunistic encounters with 50 fig trees. The study group visited a total of 30 fig trees ov...
Baboons (Papio spp.) are characterised by a large degree of variation in foraging behaviour and diet...
Animals are hypothesized to search their environments in predictable ways depending on the distribut...
Humans generally solve multi-destination routes with simple rules-of-thumb. Animals may do the same,...
The ability of animals to plan their foraging journeys and to approach resources in a goal-directed ...
Encounters between groups of wild chacma baboons (Papio ursinus) can be viewed as a natural experime...
The benefits of spatial memory for foraging animals can be assessed on two distinct spatial scales: ...
Tropical forests have a high diversity of tree species which have very low densities and vary across...
Animal foraging routes are analogous to the computationally demanding “traveling salesman problem” (...
Finding food in tropical forests poses a potentially major problem for chimpanzees, whose ranging is...
Abstract It is assumed that spatial memory contributes crucially to animal cognition since animals ’...
BACKGROUND: How an animal moves through its environment directly impacts its survival, reproduction,...
Transformation and loss of natural habitat to urbanization and agriculture provide new opportunities...
Foraging in seasonal environments can be cognitively challenging. Comparative studies have associate...
Although it is well known that frugivorous spider monkeys (Ateles geoffroyi yucatanensis) occupy lar...
Previous research has shown that a considerable number of primates can remember the location and fru...
Baboons (Papio spp.) are characterised by a large degree of variation in foraging behaviour and diet...
Animals are hypothesized to search their environments in predictable ways depending on the distribut...
Humans generally solve multi-destination routes with simple rules-of-thumb. Animals may do the same,...
The ability of animals to plan their foraging journeys and to approach resources in a goal-directed ...
Encounters between groups of wild chacma baboons (Papio ursinus) can be viewed as a natural experime...
The benefits of spatial memory for foraging animals can be assessed on two distinct spatial scales: ...
Tropical forests have a high diversity of tree species which have very low densities and vary across...
Animal foraging routes are analogous to the computationally demanding “traveling salesman problem” (...
Finding food in tropical forests poses a potentially major problem for chimpanzees, whose ranging is...
Abstract It is assumed that spatial memory contributes crucially to animal cognition since animals ’...
BACKGROUND: How an animal moves through its environment directly impacts its survival, reproduction,...
Transformation and loss of natural habitat to urbanization and agriculture provide new opportunities...
Foraging in seasonal environments can be cognitively challenging. Comparative studies have associate...
Although it is well known that frugivorous spider monkeys (Ateles geoffroyi yucatanensis) occupy lar...
Previous research has shown that a considerable number of primates can remember the location and fru...
Baboons (Papio spp.) are characterised by a large degree of variation in foraging behaviour and diet...
Animals are hypothesized to search their environments in predictable ways depending on the distribut...
Humans generally solve multi-destination routes with simple rules-of-thumb. Animals may do the same,...