{\bf Wolf ({\em Canis lupus}) range in northeastern Minnesota forms a striking spatial mosaic of non-overlapping territories\cite{Mech:WNI73,VanBallenberghe:WM-43-1}. We propose a mechanism for the formation of these territorial patterns, analysing a spatially explicit mathematical model which incorporates wolf movement and scent marking. No assumptions are made about the existence or extent of territories; territorial patterns arise naturally as stable steady-state solutions to the equations. Model results reflect field observations: buffer zones where wolves are scarce arise between adjacent packs and near these buffer zones there are increased levels of scent marking. We show mathematically how reduced predation in the buffer zones can provide a refuge for prey species. This result reflects field studies; spatial patterns in the distriubtion of primary prey species, white-tailed deer ({\em Odocoileus virginianus}), are closely tied to those of the wolves---deer are found primarily in buffer the zones\cite{Hoskinson:JWM-40-429,Rogers:JWM-44-253}. Evidence for a similar situation with deer populations and human societies is given by a case study of Sioux and Chippewa Indians from 1780--1850\cite{Hickerson:MCA65,% Mech:S-198-320} }\\ \rule{5.35in}{0.015in}\\ \section{Striking spatial patterns} Radio-marking studies of wolves ({\em Canis lupus}) in northeastern Minnesota in the last 20 years have greatly facilitated the observation of wolf territories --- not an easy task. By following the movements of radio-marked individual members from a pack, or cooperative extended family group, these studies have made it possible to deduce distinct spatial patterns in wolf distribution. Wolves typically remain within well-defined territories\cite{Mech:WNI73,% VanBallenberghe:WM-43-1} that overlap only along their edges (Fig.\ 1). These territories may effectively partition jurisdiction over spatially distributed resources such as prey. Spatial patterns in the distribution of a primary prey species, white-tailed deer ({\em Odocoileus virginianus}), are closely tied to those of the wolves; deer are found primarily in the narrow corridors between territories of adjacent wolf packs\cite{Hoskinson:JWM-40-429,Rogers:JWM-44-253} (Fig.\ 2). We now develop and analyse a spatially explicit model for the wolf and deer populations with a specific view to understanding mechanisms for production of these distinct spatial patterns. \section{The ecology of wolf territoriality} In northeastern Minnesota wolf packs basically remain in territories ranging from 125 to 310 km${^2}$ \cite{Peters:AS-63-628}. Territorial boundaries are usually avoided, primarily to limit confrontation with adjacent packs\cite{Mech:S-198-320}. The resulting buffer zones or `no-mans-lands' are about 2 km wide and may comprise as much as 25-40\% of the available area\cite{Mech:S-198-320,% Mech:PPP75}. Based upon many years of field observations, Mech\cite{Mech:WOW91} claims that wolf territories are formed and maintained by inter-pack aggression in conjunction with two warning systems: scent marking and howling, and that the result is a mosaic of territories covering the wolves' range. While howling may provide temporary information on a pack's location, elaborate spatial patterns of scent marks serve to advertise precise information about territorial claims. It is these scent marks that we now consider. As with other carnivores, the primary sensory modality for wolves is olfaction (or scent)\cite{Macdonald:SOM85}. As wolves travel, they typically leave olfactory signs. Marks include (1) raised-leg urination (RLU), (2) squat urination, (3) defecation, and (4) scratching. Behavioral studies indicate that it is the RLU which plays the most important role in leaving information for subsequent canine travellers\cite{Peters:AS-63-628,% Merti-Millhollen:ZB-5-7}. Thus, although wolves typically use a spectrum of olfactory stimuli for territory maintenance, we concentrate here upon the RLU as the dominant one. The information available for subsequent travellers includes the identity of the pack from which the RLU originated, the approximate time since the RLU was made and the reproductive status of the pack\cite{Rothman:AB-27-750}. Out of a typical pack of 5--15 wolves\cite{Mech:WEB70}, only a few mature dominant members leave RLUs\cite{Peters:AS-63-628}. However, these wolves leave RLUs quite regularly upon trails and and a travelling wolf may expect to encounter one RLU every two to three minutes\cite{Peters:AS-63-628}. Observations indicate some aversion to the scent from RLUs made by neighboring packs\cite{Peters:AS-63-628}. Marking frequency approximately doubles near territorial borders, giving rise to `bowl-shaped' distributions of RLUs across territories, with the raised edges of the olfactory bowl located at the territorial boundaries\cite{Peters:AS-63-628}. %It is interesting that scent marking %increases over the winter months when the wolves are no %longer compelled to remain close to the den or rendezvous site, and are %therefore more able to infringe upon neighboring territories.