Your search keyword '"Josephine Head"' showing total 2 results

1. Spatio-temporal complexity of chimpanzee food: How cognitive adaptations can counteract the ephemeral nature of ripe fruit

Author

Richard W. Wrangham, Karline R. L. Janmaat, Zorro B Gone Bi, Colin A. Chapman, Leo Polansky, Christophe Boesch, Martha M. Robbins, Richard W. Byrne, and Josephine Head

Subjects

0106 biological sciences, Distribution (economics), Troglodytes, 010603 evolutionary biology, 01 natural sciences, Crop, biology.animal, 0501 psychology and cognitive sciences, Primate, 050102 behavioral science & comparative psychology, Ecology, Evolution, Behavior and Systematics, 2. Zero hunger, geography, geography.geographical_feature_category, biology, Ecology, business.industry, Ephemeral key, 05 social sciences, Crown (botany), Temporal complexity, 15. Life on land, Old-growth forest, biology.organism_classification, Animal Science and Zoology, business

Abstract

Ecological complexity has been proposed to play a crucial role in primate brain-size evolution. However, detailed quantification of ecological complexity is still limited. Here we assess the spatio-temporal distribution of tropical fruits and young leaves, two primary chimpanzee (Pan troglodytes) foods, focusing on the predictability of their availability in individual trees. Using up to 20 years of information on monthly availability of young leaf, unripe and ripe fruit in plant species consumed by chimpanzees from tropical forests in East, Central, and West Africa, we estimated: (1) the forest-wide frequency of occurrence of each food type and (2) the predictability of finding ripe fruit-bearing trees, focusing on the timing, frequency, and amount of ripe fruit present. In all three forests, at least half of all encountered trees belonged to species that chimpanzees were known to feed on. However, the proportion of these trees bearing young leaves and fruit fluctuated widely between months. Ripe fruit was the most ephemeral food source, and trees that had more than half of their crown filled were at least nine times scarcer than other trees. In old growth forests only one large ripe fruit crop was on average encountered per 10 km. High levels of inter-individual variation in the number of months that fruit was present existed, and in some extreme cases individuals bore ripe fruit more than seven times as often as conspecifics. Some species showed substantially less variation in such ripe fruit production frequencies and fruit quantity than others. We hypothesize that chimpanzees employ a suite of cognitive mechanisms, including abilities to: (1) generalize or classify food trees; (2) remember the relative metrics of quantity and frequency of fruit production across years; and (3) flexibly plan return times to feeding trees to optimize high-energy food consumption in individual trees, and efficient travel between them. Am. J. Primatol. 78:626-645, 2016. © 2016 Wiley Periodicals, Inc.

Published

2016

2. Recent decline in suitable environmental conditions for African great apes

Author

Inaoyom Imong, Andrea Ghiurghi, Peter D. Walsh, Jeremy A. Lindsell, Fiona Maisels, Crickette M. Sanz, Elizabeth A. Williamson, Joel Gamys, Anh Galat-Luong, Bethan J. Morgan, Stephen Blake, Charles-Albert Petre, Anne Ntongho, Roger Mundry, Gilles Etoga, Josephine Head, Louwrens Du Toit, Kouame Paul N'Goran, Atanga Ekobo, Matthew R. McLennan, Nicolas Granier, Hugo Rainey, Emma J. Stokes, Jessica Ganas-Swaray, Emmanuelle Normand, Sally A. Lahm, Adama Tondossama, John Hart, Bas Huijbregts, Noëlle Kuempel, Hjalmar Kuehl, Christophe Boesch, Andrew J. Plumptre, Jessica Junker, Ymke Warren, David Morgan, Sébastien Regnaut, Chris S. Duvall, Ilka Herbinger, Sandra Tranquilli, Thurston C. Hicks, Jacqueline Sunderland-Groves, Laura Martinez, David Tiku Okon, Felix Mulindahabi, Geneviève Campbell, and Sylvain Gatti

Subjects

biology, Ecology, Range (biology), Bonobo, Biodiversity, Habitat conservation, Pongidae, Gorilla, biology.organism_classification, Western chimpanzee, Geography, biology.animal, IUCN Red List, Physical geography, Ecology, Evolution, Behavior and Systematics

Abstract

Aim: To predict the distribution of suitable environmental conditions (SEC) for eight African great ape taxa for a first time period, the 1990s and then project it to a second time period, the 2000s; to assess the relative importance of factors influencing SEC distribution and to estimate rates of SEC loss, isolation and fragmentation over the last two decades. Location: Twenty-two African great ape range countries. Methods: We extracted 15,051 presence localities collected between 1995 and 2010 from 68 different areas surveyed across the African ape range. We combined a maximum entropy algorithm and logistic regression to relate ape presence information to environmental and human impact variables from the 1990s with a resolution of 5 9 5 km across the entire ape range. We then made SEC projections for the 2000s using updated human impact variables. Results: Total SEC area was approximately 2,015,480 and 1,807,653 km2 in the 1990s and 2000s, respectively. Loss of predicted SEC appeared highest for Cross River gorillas (_59%), followed by eastern gorillas (_52%), western gorillas (_32%), bonobos (_29%), central chimpanzees (_17%) and western chimpanzees (_11%). SEC for Nigeria-Cameroon chimpanzees and eastern chimpanzees was not greatly reduced. Except for Cross River and eastern gorillas, the number of SEC patches did not change significantly, suggesting that SEC loss was caused mainly by patch size reduction. Main conclusions: The first continent-wide perspective of African ape SEC distribution shows dramatic declines in recent years. The model has clear limitations for use at small geographic scales, given the quality of available data and the coarse resolution of predictions. However, at the large scale it has potential for informing international policymaking, mitigation of resource extraction and infrastructure development, as well as for spatial prioritization of conservation effort and evaluating conservation effectiveness.

Published

2012