The locomotor behavior of seven sympatric species of New World m o n k e y s 4 n g u i n u s m.idns midas, Snimiri sciureus, Pithecia pithecia, Ch.iropotes satanas chiropotes, Cehus apella apella, Alouatta seniculus, and Ateles paniscus paniscus-was studied at the Raleighvallen-Voltzberg Nature Reserve in Central Surinam. This paper examines the way in which locomotor behavior is related to body size and to ecological parameters such as forest stratification, forest type, and diet.Locomotor behavior is clearly related to the size of the species; with increasing size, the amount of climbing increases and the amount of leaping decreases. In general, larger monkeys use larger arboreal supports; however, Saguinus midas midas uses relatively larger, and Ateles paniscus paniscus relatively smaller supports than expected from body size alone.Leaping is associated with use of the forest understory and with use of Lane forest. Other types of locomotion are associated with main canopy use in a variety of forest types.There are no consistent associations between diet and either locomotor behavior or forest utilization; rather, monkeys with similar diets show locomotor and habitat differentiation.A major goal of physical anthropology has long been, and remains, documentation and interpretation of the extraordinary morphological diversity exhibited by the Order Primates. There is considerable evidence that much of this diversity in musculo-skeletal anatomy is causally related to differences i n locomotor behavior leg., Keith, 1891; Ashton and Oxnard, '63; Stern and Oxnard, '73; Fleagle, '77a,b, '78b, '79). A n u m b e r of authors h a v e f u r t h e r suggested t h a t there a r e also predictable, causal relationships between locomotor behavior and other aspects of an animal's biology such as body size, forest utilization, or diet. Although a variety of theories have been proposed which relate these variables, the field data necessary to test the theoretical predictions have remained lacking (Stern and Oxnard, '73). This dearth of' data to test general hypotheses about locomotor behavior is particularly obvious when compared with the available information for the analysis of dietary behavior (e.g., Kay, '75; Clutton-Brock, '77).The information necessary for a broad comparison of locomotor behavior among extant primates is unlikely to become available anytime soon. We have, therefore, adopted a n alternate strategy for understanding t h e relationships between locomotor behavior, body size, and habitat utilization among arboreal primates. Our approach has been to examine these factors in a diverse group of sympatric species in hopes that this "natural experiment" will yield results that are representative for understanding locomotor evolution throughout the Order. To this end we have examined the naturalistic locomotor behavior of seven species of New World m o n k e y s S a g u i n u s rnidas midns, S a i m i r i sciureus, Pithecin pithecia, Chiropotes santanns chiropotes, Cehus npella npella, Alouuttn seniculus, an...
