Colin Chapman (primatologist)
Colin A. Chapman is a professor at the Vancouver Island University in British Columbia, Canada. In addition, he is a Fellow of the Royal Society of Canada, an Honorary Lecturer at Makerere University in Uganda, a Member of the Committee of Research and Exploration at National Geographic,[1] and an Associate Scientists of the Wildlife Conservation Society in New York. Prior to taking on his position at McGill University, he was at the University of Florida in the Department of Zoology from 1993 to 2004. He is internationally recognized for his 30+ years of research into primate ecology, population regulation, nutrition, and disease dynamics and for his contribution to conservation globally.
He is Director of the Kibale Monkey Project; a long-term project in Kibale National Park, Uganda that he started in 1989, building on the data of Thomas Struhsaker from Duke University who worked in Kibale from 1970 to 1987.[2] The project focuses on primate ecology and conservation, but also has a very strong component examining forest dynamics, including those driven by climate change, elephant numbers, and forest succession. The team of researchers he has worked with have also placed a heavy emphasis on conservation strategies, including forest regeneration, animal population recovery, fragmentation, people-parks relationships, zoonotic disease spread, and the link between providing health care and conservation.
Early life and education
[edit]Chapman was born in Edmonton, Alberta, Canada, and he did all of his degrees (B.Sc., MA. Ph.D.) at the University of Alberta and obtained a joint Ph.D. under the supervision of Drs. Linda Fedigan, John Addicott, and Jan Murie. He went on to do a Post-doc with Louis Lefebvre in Biology at McGill University and then Richard Wrangham in Anthropology at Harvard University. Prior to coming to Harvard he conducted primate research in the Caribbean (St. Kitts) and Costa Rica, but when at Harvard he started research in Kibale National Park, Uganda.
His interest in conservation started in Costa Rica as this was the time of the growth and the countries park system and he conducted surveys in the area that was to become Guanacaste National Park, with the aim of helping Daniel Janzen evaluate wildlife recovery. But conservation became the tenet of his research in Uganda, where he helped establish Makerere University Biological Field Station,[3] develop the chimpanzee ecotourism, encouraged the local community to establish small scale but sustainable ecotourism efforts, aided in fisheries management plans, worked on evaluating forest regeneration for the Uganda Wildlife Authority.[4][5] He contributed to making Kibale field stations sustainable through forming a consortium of University users and establishing a core of courses to come to the station (Canadian Field Studies in Africa, Tropical Biology Association, Makerere University, Waterloo),[6] and established a clinic and then a mobile clinic. The clinics act as an instrument between the park and the local communities as the clinics provide subsidized health care in return for improved park-people relationship.[7] Throughout this time he put a great deal of effort into the training of Ugandan students and park personnel.
Honours and awards
[edit]Year | Award |
---|---|
2017 | Velan Award for Humanitarian Service |
2012 - 2014 | Killam Research Fellow |
2012–present | Canadian Research Chair – Primate Ecology and Conservation (Tier 1) |
2012 | Globe and Mail newspaper - the most cited Anthropologist in Canada |
2010–present | Fellow of the Royal Society of Canada |
2005 - 2011 | Canadian Research Chair – Primate Ecology and Conservation (Tier 1) |
2003 | Anderson Teacher Scholar – University of Florida |
Research
[edit]Early in his career he was interested in ecological factors influencing group size, social organization, and population regulation, and it was this later interest that led him to conservation – that and the plight of primates that he witnessed through the course of his research. Early in his Ph.D. he became interested in that determined the size of spider monkey (Ateles geoffroyi) groups and this eventually lead him to formalize what he coined the Ecological Constraints Model.[8] A challenge from Daniel Janzen to show that primates had any ecologically significant role lead him to study seed dispersal and then the role of primates in forest regeneration of tropical tree dynamics. Forest regeneration remained a subject that he revisited throughout his research career to demonstrate the longitudinal dynamics of regeneration as observed in different parts of the forest that experienced different degrees of disturbance in the past.[9][10]
While in Kibale he became fascinated with red colobus and the determinants of both their group size, that can lead to groups of over 150 individuals, and variation in abundance. This led him to study nutritional ecology, disease ecology, and to document long-term change. It was his friendship with Tom Struhsaker from Duke University and the extensive data that encompassed research from 1970 to 1987 that really lead Dr. Chapman to quantify long-term patterns. This data became invaluable when globally researchers became aware of climate change and the fact that old growth forests were much more dynamic than previously believed.[citation needed]
Ecological Constraints Model
[edit]Chapman has worked on issues dealing with understanding animal group size and composition since his Ph.D. and formalized the Ecological Constraints Model. The ideas are relatively simple. Various researchers have suggested that grouping confers such predictable benefits that differences in group size can be explained by the disadvantages.[11] The most widely accepted potential cost of grouping is thought to be a reduction in foraging efficiency. Being with other individuals with the same dietary requirements means that animals either fight over food, or one animal in a group beats another to the food, thus when the second animal comes to an area there is simply no food left. In both of these situations it is thought that competition over food leads to animals having to travel farther as the size of the group increases. The logic behind this argument is relatively simple. Animals must forage over an area that can meet their energetic and nutritional requirements. It follows that an increase in group size will increase the area that must be covered to find adequate food supplies. Thus individuals must travel further and expend more energy if they are in a large group, than if they forage in a smaller group. With an increase in the time spent traveling, a point is approached where the energy spent in travel is too costly and smaller groups become advantageous. In this way ecological factors can influence movement patterns and foraging efficiency, thereby constraining the size of groups that can efficiently exploit available food resources. These ideas have been formalized in what has become known as the Ecological Constraints Model[8][12] and have been shown to predict group size in a variety of primates and other species.[13]
The Ecological Constraint Model has been found to be supported in different primate species with a variety of diet, such as, chimpanzees (Pan troglodytes),[14] spider monkeys (Ateles geoffroyi),[14] red colobus (Procolobus pennantii),[15] red-tailed guenon (Cercopithecus ascanius),[15] and ursine colobus monkeys (Colobus vellerosus).
Links between conservation and health: Kibale Mobile Clinic
[edit]Tropical forests are some of the most beautiful and biodiverse ecosystem on the face of the planet, yet they are gravely threatened. Recent global assessments report that 2.3 million km2 of forest was lost between 2000 and 2012 and in the tropics forest loss increased by 2101 km2 per year.[16] Ultimately, changes in forest cover are driven by increased human population size and natural resource consumption rates. In African countries with tropical forest, human population density increased from 8 people per km2 in 1950 to 35 people per km2 in 2010.[17] This increasingly dire situation not only threatens biodiversity, but it is clear that extreme poverty and this rapid loss of biodiversity are intimately linked, with extreme poverty and biodiversity hotspots being geographically coincident. The people living next to tropical protected areas are some of the poorest people in the world and suffer from often acute health problems. For example, in Uganda the country that Chapman has worked in for the last 27+ years, 30% of all deaths among children between the ages of 2 and 4 are caused by malaria, a disease that could be easily treated or prevented; and 26% of children under the age of five are malnourished.[7] This situation means that for effective conservation to occur the local community must be involved, which often means they receive benefits. Chapman has implemented systems that link health provision and conservation. Receiving money or employment from the park is definitely beneficial and appreciated, but saving the life of a young child suffering from malaria is enormous and its benefit unmeasurable to the parent. Chapman, first established a clinic to meet the health needs of the local people and subsequently since Kibale is large and many people could not travel to the clinic, he brought an ambulance from Canada to Kibale to act as a mobile clinic. The Mobile Health Clinic travels around the park, bringing basic health care, family planning, deworming, HIV/AIDS treatment and counselling, vaccinations, and health and conservation education to remote villagers. The staff also provide public talks on disease prevention. Chapman has taken this sort of approach of working with the local community to help them obtain the needs they identify, while still administering strict wildlife protection in all of his conservation efforts.
References
[edit]- ^ "Grants Program". National Geographic Society.
- ^ Box, Hilary; Butynski, Thomas M.; Chapman, Colin A.; Lwanga, Jeremiah S.; Oates, John F.; Olupot, William; Rudran, Rudy; Waser, Peter M. (2008-01-29). "Thomas T. Struhsaker: Recipient of the Lifetime Achievement Award of the International Primatological Society 2006". International Journal of Primatology. 29 (1): 13–18. doi:10.1007/s10764-007-9155-3. ISSN 0164-0291. S2CID 31433764.
- ^ "Makerere University Biological Field Station - Kibale - Home". caes.mak.ac.ug. Archived from the original on 2016-11-13. Retrieved 2016-11-10.
- ^ Johns A.D., Chapman L.J., Chapman C.A. 1991 A field station profile: Makerere University Biological Field Station. Tropinet (Fall).
- ^ Chapman, Colin A.; Struhsaker, Thomas T.; Lambert, Joanna E. (2005). "Thirty Years of Research in Kibale National Park, Uganda, Reveals a Complex Picture for Conservation". International Journal of Primatology. 26 (3): 539–555. CiteSeerX 10.1.1.671.8258. doi:10.1007/s10764-005-4365-z. ISSN 0164-0291. S2CID 5577722.
- ^ Kasenene J., Ross E. 2008 Community benefits from long-term research programs: a case study from Kibale National Park, Uganda. (pp. 99-114, Cambridge University Press, Cambridge, UK.
- ^ a b Chapman, Colin A.; Bavel, Bianca van; Boodman, Carl; Ghai, Ria R.; Gogarten, Jan F.; Hartter, Joel; Mechak, Lauren E.; Omeja, Patrick A.; Poonawala, Sofia (2015-10-01). "Providing health care to improve community perceptions of protected areas". Oryx. 49 (4): 636–642. doi:10.1017/S0030605313001592. ISSN 0030-6053. PMC 4594866. PMID 26456977.
- ^ a b Chapman C.A., Chapman L.J. 2000 Determinants of group size in primates: the importance of travel costs. In On the move: how and why animals travel in groups (eds. Boinski S., Garber P.A.), pp. 24-41. Chicago, University of Chicago Press.
- ^ Omeja, Patrick A.; Jacob, Aerin L.; Lawes, Michael J.; Lwanga, Jeremiah S.; Rothman, Jessica M.; Tumwesigye, Charles; Chapman, Colin A. (2014-11-01). "Changes in Elephant Abundance Affect Forest Composition or Regeneration?". Biotropica. 46 (6): 704–711. doi:10.1111/btp.12154. ISSN 1744-7429. S2CID 38677653.
- ^ Chapman, Colin A.; Chapman, Lauren J. (1997-12-01). "Forest Regeneration in Logged and Unlogged Forests of Kibale National Park, Uganda". Biotropica. 29 (4): 396–412. doi:10.1111/j.1744-7429.1997.tb00035.x. ISSN 1744-7429. S2CID 84685726.
- ^ Alexander, R D (1974-11-01). "The Evolution of Social Behavior". Annual Review of Ecology and Systematics. 5 (1): 325–383. doi:10.1146/annurev.es.05.110174.001545. ISSN 0066-4162.
- ^ Ganas, Jessica; Robbins, Martha M. (2005-03-09). "Ranging behavior of the mountain gorillas (Gorilla beringei beringei) in Bwindi Impenetrable National Park, Uganda: a test of the ecological constraints model". Behavioral Ecology and Sociobiology. 58 (3): 277–288. doi:10.1007/s00265-005-0920-z. ISSN 0340-5443. S2CID 29533701.
- ^ Wrangham, R. W.; Gittleman, J. L.; Chapman, C. A. (1993). "Constraints on group size in primates and carnivores: population density and day-range as assays of exploitation competition". Behavioral Ecology and Sociobiology. 32 (3): 199–209. doi:10.1007/BF00173778. ISSN 0340-5443. S2CID 24665859.
- ^ a b Chapman, C. A.; Chapman, L. J.; Wrangham, R. W. (1995). "Ecological constraints on group size: an analysis of spider monkey and chimpanzee subgroups". Behavioral Ecology and Sociobiology. 36 (1): 59–70. doi:10.1007/BF00175729. ISSN 0340-5443. S2CID 22958072.
- ^ a b Chapman, Colin A.; Chapman, Lauren J. (2000). "Constraints on Group Size in Red Colobus and Red-tailed Guenons: Examining the Generality of the Ecological Constraints Model". International Journal of Primatology. 21 (4): 565–585. doi:10.1023/A:1005557002854. ISSN 0164-0291. S2CID 1472332.
- ^ Hansen, M. C.; Potapov, P. V.; Moore, R.; Hancher, M.; Turubanova, S. A.; Tyukavina, A.; Thau, D.; Stehman, S. V.; Goetz, S. J. (2013-11-15). "High-Resolution Global Maps of 21st-Century Forest Cover Change". Science. 342 (6160): 850–853. Bibcode:2013Sci...342..850H. doi:10.1126/science.1244693. ISSN 0036-8075. PMID 24233722. S2CID 23541992.
- ^ Estrada, Alejandro (2013-01-01). "Socioeconomic Contexts of Primate Conservation: Population, Poverty, Global Economic Demands, and Sustainable Land Use". American Journal of Primatology. 75 (1): 30–45. doi:10.1002/ajp.22080. ISSN 1098-2345. PMID 23047543. S2CID 33524396.