A floristic description And utilisAtion of two home rAnges by vervet monkeys in loskop dAm nAture reserve , south AfricA

The plant communities occurring in the home ranges of two vervet monkey (Chlorocebus aethiops) troops (referred to as the Donga and Picnic troops) were investigated as part of a comprehensive research project on the spatial and temporal patterns in resource dispersion or distribution and range use. From two-way indicator species analysis (TWINSPAN) multivariate classifications refined by Braun-Blanquet procedures, seven plant communities that can be placed into three major groups were identified in the home range of the Donga troop, and eight plant communities that can be placed into four major groups were identified in the home range of the Picnic troop. Classifications and descriptions of the major groups, including vegetation maps, are presented. Diagnostic as well as prominent species of tree, shrub, forb and grass strata are outlined. Ordinations and floristic analyses were undertaken for the two home ranges to highlight vegetative differences between the areas. The phenology of vervet resources and the available resource energy were determined as a basis for the comprehensive study.


INTRODUCTION
The Loskop Irrigation Dam was completed in 1938 to provide water for the irrigation needs of agriculture downstream. To ensure that the water users received good-quality water, it was critical for the area surrounding the dam to be managed appropriately for water quality conservation. This led to the establishment of the Loskop Dam Nature Reserve (LDNR) in 1942, with subsequent proclamation in 1954 (Barrett 2009). Currently, the Mpumalanga Tourism and Parks Agency (MTPA), whose mandate is the conservation of natural biodiversity for current and future generations through the sustainable use of natural resources, manages the reserve.
The reserve falls within the savanna biome of South Africa and, because of climate and topography, there are a variety of habitats on the reserve, making it possible to stock a large variety of game species. To ensure efficient management and to assist the managers in making evidence-based decisions, various research projects on different animals and vegetation are undertaken and encouraged in the reserve.
No ecologically based studies on vervet monkeys have been undertaken in the LDNR to date, and only a few vegetation studies have been conducted in the reserve. Theron (1973) conducted the first detailed vegetation study of the reserve and did a broad-scale analysis of the overall vegetation, using what appears to be a scale of 1:50 000 for his delineation of the plant communities. The vegetation of areas that have been added to the north-eastern section of the reserve (two farms called Rietfontein and Parys) have been classified and mapped by Götze et al. (1998) using 1:30 000 aerial photographs. home ranges vary floristically and in terms of available resources. In this article, the various plant communities occurring in the two troops's home ranges are identified, described and mapped, and the general vegetation structure of the areas is determined. Environmental factors influencing the plant communities are explored to determine whether there are specific associations between these factors and the respective plant communities. A floristic analysis of both the home ranges is undertaken and the results compared. The phenology of resource tree species used by the two troops is also determined and presented.
The home ranges of the two troops that were studied are geographically separated and approximately 4.5 km apart. The Donga home range is 224 ha in size and the Picnic home range is 138 ha. The underlying geology of the Donga home range comprises the sedimentary Loskop formation and the Selonsrivier formation, while the Picnic home range consists only of the Loskop formation.
There are conspicuous topographical differences between the two home ranges, with the Donga area being more rugged and hilly than the Picnic area, which is more level and uniform in appearance. The average slope for the Donga area is 13.6° compared to 10° for the Picnic area. The Donga plant communities occur at a wider range of altitudes than those of the Picnic home range, with the Donga altitudes ranging from 1005 m to 1105 m and the Picnic altitudes ranging from 1031 m to 1097 m.

Climate
The LDNR is located in a summer rainfall area with moderate to very hot summers and mild to cold winters, and with frost occurring on the mountain tops and in the low-lying valley bottoms (Theron 1973). Temperatures range from a minimum of -8 °C to a maximum of 40 °C, with an average of 21 °C (Low & Rebelo 1998). Rainfall occurs mainly in the form of shortlived, high-intensity thunderstorms associated with strong, south-westerly winds. The majority of the rainfall occurs in the summer (November-April).
The average monthly rainfall for the wet season (November 2006-April 2007 during the study period was 55 mm, compared to 87 mm for the period November 2002-April 2007 (Figure 1). During the study period, the mean temperature for the dry season was 18.5 °C, compared to 24 °C for the wet season. A mean minimum temperature of 8.5 °C (July 2006) and a mean maximum of 32 °C (February 2007) were recorded for the study period. The average annual rainfall for the study area, as measured by weather stations located at various monitoring points on the reserve, was 654 mm for the period May 2002 to April 2007. The study period was drier for both the dry and the wet seasons compared to the average for the previous 5 years. Average monthly rainfall for the dry season (May 2006-October 2006 during the study period was 6 mm, compared to 11 mm for May 2002-October 2006.
The average climate of the two home ranges is similar due to their close proximity, yet the effects of climate and particularly of rainfall on the areas are not the same, due to topographical distinctions between the areas, such as slope and altitudinal differences. The Picnic home range is less steep than the Donga home range, resulting in surface water being stored for longer periods in a series of natural pools and small, man-made dams.
There are no impoundments in the Donga home range and the run-off rate into the Loskop Dam is rapid after rain has fallen.

Study area
The LDNR is located 52 km north of Middelburg on the N11 national road to Groblersdal in Mpumalanga province ( Figure  2). According to Emery, Lotter and Williamson (2004) and Ferrar and Lotter (2007), the reserve is currently 23 175 ha in size, of which 2350 ha is water surface. It is located between longitude 29°15'00" and 29°40'00" East and latitude 25°34'00" and 25°56'00" South. At the heart of the reserve is the Loskop Irrigation Dam (approximately 24 km long), situated in the Olifants River Valley. The dam is fed predominantly by the perennial Olifants River and the Krantz Spruit, and their respective tributaries (Theron 1973). A network of small mountain streams and drainage channels originating from both inside and outside the boundaries of the reserve also drain into the dam.

Vegetation classification
A series of 1:10 000 digitised orthophotos of the LDNR was used to stratify the study area into physiognomic-physiographic units, as described by Barbour, Burk and Pitts (1987) and Kent and Coker (1997). To ensure that all variations in the vegetation were captured during the sampling, 69 sample plots (43 in the Donga home range and 26 in the Picnic home range) were placed in a random manner within the stratified units. Plot sizes were fixed at 400 m 2 (Barbour et al. 1987;Brown 1997, Brown & Bredenkamp 1994).
Vegetation-related fieldwork was undertaken during November and December 2005, January 2006 and December 2006. The two troops's home range boundaries were determined from all GPS co-ordinates collected for the troops over the entire study period (June 2005-June 2007. Taxon names conform to those of Germishuizen and Meyer (2003).
Environmental data collected included altitude, latitude and longitude, aspect, slope, percentage surface rock cover, percentage erosion, basic soil type, evidence of animal activity and the effects of fire. All plant species growing in the sample plots were recorded, and cover abundance was assessed using a modified Braun-Blanquet cover abundance scale (Barbour et al. 1987, Mueller-Dombois & Ellenberg 1974. Erosion was estimated using erosion classes from Matthee and Van Schalkwyk (1984), and slope was estimated using the categories specified by Barrett et al. (2006).
Floristic data were recorded according to Braun-Blanquet techniques and analysed using the TURBOVEG suite (Hennekens 1998), which includes the two-way indicator species  (Hill 1979). This technique is regarded as a successful approach to vegetation classification by a number of phytosociologists (Bredenkamp & Bezuidenhout 1995;Brown, Bredenkamp & Van Rooyen 1996;Brown & Bredenkamp 1994;Cilliers 1998). The visual editor MEGATAB  was used to generate phytosociological tables and further refinement of the classification was undertaken through the application of Braun-Blanquet procedures (Barbour et al. 1987;Kent & Coker 1997;Werger 1974). Using the final phytosociological tables and habitat information collected during sampling in the field, different plant communities were described and ecologically interpreted.
Plant communities were identified using 'diagnostic species' as defined by Westhoff & Van der Maarel (1978), who define species as diagnostic if they are present in at least 20% of the relevés of a particular plant community, whilst simultaneously being absent or less frequent in other communities. An adaptation of this definition was used in this study, where a species was considered diagnostic for a particular community if it was present within the following constancy parameters (Grobler, Bredenkamp & Brown 2006): • ≥ 70% and with a constancy of ≤ 35% in all other communities • ≥ 50% and with a constancy of ≤ 25% in all other communities • ≥ 20% and with a constancy of ≤ 13% in all other communities. 'Dominant species' are defined as all species that have cover values exceeding a predetermined cover threshold value in any relevé in a selected vegetation unit (Westhoff & Van der Maarel 1978). The vegetation of the study area is relatively heterogeneous, with dominant species not restricted to specific threshold values, but rather to the species with the highest overall cover abundance in a community.

Phenology
Resource trees (utilised for food by the vervets) were identified by following the two troops during habituation and during data collection for this comprehensive study (Barrett 2009). To determine the number of vervet resource trees required for phenological monitoring, density figures for the tree species were used. Ten per cent of the total density figure for each tree species was calculated and used as the number of trees to tag for that species. Representative samples of each species for tagging were selected from plant communities that occurred in both the troops's home ranges. In the field, these species were randomly selected and identified, locations were recorded with a GPS device and individual trees were tagged with a numbered aluminium disc for data-collection purposes. Initial phenology data were collected from all tagged trees; thereafter data were collected on a monthly basis for the duration of the study period.
The quantification of available resources has been undertaken in tropical forests, where the focus was on the ecology of fruiting trees and the behaviour of frugivorous consumers (Chapman 1990;Chapman et al. 1992;Clutton-Brock 1977;Leighton & Leighton 1982;Raemakers 1980;Terborgh 1983). A combination of quantification methods used in the forest environments of Uganda (Chapman et al. 1992) and in the savanna environments of South Africa (Smit 1989a(Smit , 1989b were used for this study. Direct measurement techniques were not an option for collecting reliable tree dimension estimates quickly and accurately because of the dense nature of the vegetation and the inaccessibility of many trees sampled in the areas frequented by the troops. The inexpensive, relatively quick 'one-man' method employed by Smit (1996) was modified and linear tree dimension data were collected using improvised equipment. Instead of using a calibrated 35-mm photographic slide, as suggested by Smit (1996), a clear fibreglass reader with markings matching the markings on a 3-m measuring stick was used. Within the 3-m markings, the reader was subdivided into 0.25-m segments for refined measurements. Luminous yellow tape was used to mark the bottom and the 3-m point on the measuring stick. To measure a particular tree, the measuring stick was placed vertically adjacent to the trunk of the tree at ground level. The observer then paced away from the stick until the stick's markings lined up to the 3-m markings on the reader when held at arm's length from the observer. At this point, the reader was used to measure all linear tree dimensions in 3-m and/ or 0.25-m intervals, whichever was required. If a tree was on a slope, its height was calculated on the uphill side. Initially, a clinometer was used for calibration testing of the modified 'oneman' method, particularly for tree heights. The measurements corresponded well and the results obtained from the fibreglass reader were constantly within 0.5 cm of the clinometer readings (Barrett 2009).
According to Chapman et al. (1992), the various methods of estimating resource abundance (particularly fruit) for biological studies are all susceptible to potential errors and no particular method is more suitable than any other. Various authors have a predisposition towards specific methods based on personal preference, the objectives of the research being undertaken or the repeatability of the method(s) being employed. As the LDNR falls within the savanna biome, and because the nature of savanna trees differs significantly from those occurring in forest environments (Hoffman & Franco 2003;Hoffman et al. 2005), a combination of visual estimates, actual fruit counts and canopy volume extrapolation was used in this study. Only one observer collected all the phenological data over the study period, hence there was no need to do any inter-observer variability calculations or adjustments.

Vegetation classification
For the purposes of this paper, only the major plant communities of the home ranges of the study troops are described. More detailed classification and descriptions of the sub-communities and their associated habitats can be found in Barrett (2009). All references to species groups refer to Tables 1 and 2 (see online supplement).

Donga home range
The Donga home range could typically be classified as Acacia caffra-Rhus leptodictya woodland; however, for the purposes of the comprehensive vervet study, it was necessary to do a more detailed vegetative analysis of the area. Noteworthy species occurring within the home range include the small, erect, deciduous tree Dombeya rotundifolia, the tree Faurea saligna, the deciduous shrub Dichrostachys cinerea, the erect shrub Lippia javanica, the spiny, multi-stemmed shrub Rhus pyroides, the multi-stemmed Grewia spp. shrubs, the shrub Euclea crispa, and the tufted, perennial grasses Setaria sphacelata var. sphacelata and Panicum maximum.
Seven plant communities that can be grouped into the following three major communities were identified in the Donga troop's  The average number of plant species recorded in this community was 24 per 400 m 2 . The tree layer has a canopy cover ranging between 2% and 50%, the shrub layer 4% and 15%, the grass layer between 21% and 70%, and the forb layer, between 1% and 2%.
The tree F. saligna had the highest density of 472 individuals per ha, followed by the shrub D. cinerea with 405 individuals per ha and the tree A. caffra with 215 individuals per ha.
2. Acacia nilotica-Acacia caffra woodland: This woodland community covers approximately 52% (117 ha) of the Donga home range and had relatively little rock cover, although there were sections that had a high cover. Rock cover ranged from 1% to 90%, with an average of 17%. The erosion was estimated at 15% (slight), and altitude ranged from 1015 m to 1090 m, with an average slope of 8°.
Species belonging to species group F are diagnostic for this community (Table 1, see online supplement). The woody vegetation is dominated by the small-to medium-sized deciduous tree A. caffra and the shrub E. crispa (species group M). The medium-sized tree R. leptodictya (species group M), the small, erect, deciduous tree D. rotundifolia (species group J), the shrub Acacia nilotica (species group F), and the deciduous shrub D. cinerea (species group J) are all prominent. In the grass layer, the tufted perennial grass P. maximum (species group L) is locally prominent.
The average number of plant species was 27 per 400 m 2 in this community. The canopy cover for the tree layer ranged between 17% and 60%, the shrub layer between 17% and 57%, with the grass layer relatively high, ranging between 25% and 77%. The forb layer is not well developed and covers between 1% and 5% of the area.

Picnic home range
The Picnic home range could typically be classified as an Acacia karroo-Dichrostachys cinerea shrubland. In the same way that a detailed vegetative analysis was undertaken for the Donga home range, the Picnic home range was also analysed. Noteworthy species occurring within the Picnic home range include the small-to medium-sized deciduous tree A. caffra, the mediumsized tree R. leptodictya, the shrub Solanum panduriforme, the erect shrub L. javanica and the tufted, perennial grasses P. maximum and Heteropogon contortus.
The Picnic home range comprises eight plant communities (shown in Figure 4), which can be grouped into the following four major community types ( The average number of plant species recorded for this community was 26 per 400 m 2 . The tree layer had a 13% -60% cover, the shrub layer 5% -60%, the grass layer 50% -75%, and the forb layer had a 1% -3% cover. Two sub-communities were distinguished, namely the Acacia caffra-Setaria sphacelata var. sphacelata-Ziziphus mucronata woodland and the Acacia caffra-Setaria sphacelata var. sphacelata-Dombeya rotundifolia woodland.

Acacia karroo-Dichrostachys cinerea shrubland: This
shrubland community occurs in two stands, one forming the eastern boundary and the other, smaller section located in the central part of the home range. This shrubland covers approximately 22% (31 ha) of the Picnic home range (see Figure 4). Rock cover ranged from 1% to 5% with an average of 3%, and erosion was estimated at 38% (slight to moderate). Altitude ranged from 1031 m to 1052 m, with an average slope of 8°.
Species belonging to species group D are diagnostic for this community (Table 2, see online supplement). The woody vegetation is dominated by the evergreen shrub A. karroo and the deciduous shrub D. cinerea (species group N). The medium-sized tree R. leptodictya and the shrub S. panduriforme (species group G) are prominent. The grass layer is dominated by the tufted, perennial grasses Aristida stipitata and Eragrostis lehmanniana (species group G), with the tufted, perennial grasses H. contortus and P. maximum (species group N) being locally prominent.
The average number of plant species was 20 per 400 m 2 , while the tree layer covers between 10% and 80% and the shrub layer 10% -80% of the area. As expected, the grass Acacia caffra-Setaria sphacelata var. sphacelata woodland

Heteropogon contortus-Sclerocarya birrea woodland
Hyperthelia dissoluta grassland layer has a relatively low cover ranging between 5% and 40%, while the forb layer has a 1% cover. The shrub A. karroo had the highest density of 558 individuals per ha, followed by the shrub D. cinerea with 483 individuals per ha and the shrub G. buxifolia with 408 individuals per ha.

Heteropogon contortus-Sclerocarya birrea woodland:
This woodland community covers 46% (63 ha) of the Picnic home range and has relatively high rock cover and soil erosion. Rock cover ranged from 2% to 50%, with an average of 22%, and erosion was estimated at 21% (slight to moderate). Altitude ranged from 1045 m to 1097 m, with the average slope being 12°.
Species belonging to species group H are diagnostic for this community (  Figure 4). There were no surface rocks present and erosion was estimated at 45% (moderate). Altitude was 1052 m, with the average slope being 2°.
This community is characterised by the absence of diagnostic species and is distinguished by presence of species from species group M and the absence of species from species group L (

Ordination
For both the Donga home range (see Figure 5a) and the Picnic home range (see Figure 5b) there was an overall positive association between rock cover and altitude (with the exception of community four in the Picnic troop), with higher lying (high altitude) areas being rockier than lower lying (low altitude) areas. Erosion was more evident in the lower lying areas,  For the Donga home range there was an inverse relationship between tree cover and altitude, resulting in higher tree cover in lower lying areas than in higher lying areas (see Figure 6a). For the Picnic home range, tree cover was highest at intermediate altitudes, with lower tree cover recorded in high-and low-lying areas (see Figure 6b).
In the Donga home range, the shrub layer was predominantly represented in community two. Community two occurred at an intermediate altitude between communities one and three (see Figure 6a). The recorded canopy cover for the shrub layer in Donga community two was high in both the high-lying and lowlying areas, despite high tree-cover values and high exposure to wind, respectively. Shrub cover in the Picnic home range was highest at lower altitudes (see Figure 6b).

Floristic analysis Donga home range
The flora in the Donga home range is represented by 43 families, constituting 94 genera with 127 species. The dominant plant family is Poaceae, constituting 22.8% (29 species) of the total flora, followed by Fabaceae, with 9.4% (12 species). Subsidiary families include the Anacardiaceae, with seven species representing 5.5% of the total flora, Combretaceae, with six species representing 4.7%, and Asparagaceae and Tiliaceae, both with five species each representing 3.9%. Combined, these families represent 50.4% of the flora in the Donga home range, while the remaining 36 families constitute 49.6%, comprising 63 different species (see Figure 7).

Picnic home range
The flora of the Picnic home range is represented by 34 families, constituting 72 genera with 94 species. The dominant plant families are Poaceae, constituting 26.6% of the total flora, followed by the Fabaceae (6.4%) and Anacardiaceae (6.4%). The Poaceae comprise 25 species, with the Fabaceae and Anacardiaceae comprising six species each. Other families include Combretaceae, with five species representing 5.3% of the total flora, and Asparagaceae and Asteraceae, both with four species each representing 4.3%. Combined, these families represent 53.2% of the flora in the Picnic home range, while the remaining 28 families constitute 46.8%, comprising 44 different plant species (see Figure 8).
Differences between the Donga and Picnic home range plant family representation were not significant (t 46 = 0.037, P = 0.97).

Resource items
The phenology of vervet resource items on resource tree species for the study period is shown in Figure 9.
Vervet foods in the LDNR fell into two main seasonality categories. Some showed year-round availability, such as Euclea undulata, Mimusops zeyheri and Z. mucronata, which are keystone or mainstay species, while others are highly seasonal. These latter species are available only at certain times of the year, such as the various Acacia sp. pods, B. zeyheri fruits, C africana fruits, O. europaea subsp. africana fruits, Lannea discolor fruits and Sclerocarya birrea fruits (see Figure 9).

Resource availability
Although vervets have eclectic diets and generally eat whatever is available to them (Lee & Hauser 1998), predicting what they will consume at different times of the year is difficult because of the considerable seasonality of plant productivity in savannas, driven by variable rainfall and temperature (Solbrig 1996). Some trees require specific environmental conditions to synchronise before they produce fruit or resources (Chapman et al. 2005), resulting in the vervets not being able to achieve complete dietary stability and their diets thus varying based on current availability. The main forage species showed heterogeneity across months in their contribution to the vervets's diets. As a result, while the vervets consumed different plant specie resource items in different months, there was a constant supply of resource items throughout the year on resource tree species, especially leaves and fruit or pods ( Figure 10). Fruits, however, showed a more complex pattern of availability across species, but fruits of some sort were also available and consumed in every month.
Comparisons of the available tree resources used by the two troops over the study period showed that there was a significant difference between the two home ranges for leaves (U = 27, P = 0.01), with trees in the Donga home range bearing more leaves than those in the Picnic home range. There were no significant differences for fruits or pods (U = 46, P = 0.13) and flowers (U = 65, P = 0.69).

DISCUSSION
In terms of plant species composition, the Donga home range shows similarity to the Faurea saligna-Setaria perennis, Acacia caffra-Setaria sphacelata and Combretum apiculatum-Heteropogon contortus tree savannas described by Theron (1973). There is also a similarity to the Acacia caffra-Setaria sphacelata community described for the two newly proclaimed areas (Rietfontein and Parys) by Götze et al. (1998). The Picnic home range has broad floristic similarity to the Acacia caffra-Combretum apiculatum-

FIGURE 9
Leafing, fruiting and flowering phenology of vervet resource trees for the two vervet home ranges Themeda triandra and Combretum apiculatum-Heteropogon contortus tree savannas described by Theron (1973). There also are similarities to the Combretum apiculatum-Themeda triandra community described by Götze et al. (1998). Dominant Picnic home range tree species found in the Combretum apiculatum-Themeda triandra community include A. caffra, A. karroo and D. cinerea.
The vegetation of the two home ranges has general similarities and could be combined into a single, large Acacia caffra-Dichrostachys cinerea-Panicum maximum shrubland community. Prominent species include R. leptodictya, D. rotundifolia, B. zeyheri and Eragrostis chloromelas.
Ordination results for the home ranges show that tree and grass cover are negatively correlated, with increasing tree cover leading to decreased grass cover. Traditionally it was thought that trees in temperate savannas reduced understory plant productivity through competition for light, water and nutrients (McMurtrie & Wolf 1983;Walker & Noy-Meir 1982). Recent studies, however, suggest that the relationship between trees and understory plants is more intricate, and that isolated trees occurring in communities with low tree densities may in fact improve understory productivity (Belsky et al. 1993;Knoop & Walker 1985;Stuart-Hill, Tainton & Barnard 1987;Weltzin & Coughenour 1990). Thus the relationship between trees and understory plants is dynamic and various site-specific factors can influence interactions among them.
From the ordination, Donga community one has noticeably lower tree cover values than communities two and three, which are located at higher altitudes. This most probably could be explained by the lower temperatures at higher altitudes, while the effect of soil type and depth cannot be excluded. In the Picnic home range, community three occurs on foot-and midslopes and is signified by large S. birrea specimens. These foot-and midslopes provide a highly suitable habitat for large marula trees.
For both home ranges, the higher lying areas had higher grass cover than the lower lying areas, with the exception of community three in the Picnic home range. As mentioned above, community three had large S. birrea trees, providing too much shade for the grass layer to establish a dense sward; however, the shade-loving grass P. maximum occurs in dense patches in some localities.
The forb layer is not well developed in either of the two home ranges. Herbaceous plants that do occur are restricted to the shaded and sheltered areas under trees and shrubs, where soil moisture conditions are favourable. Forbs flourished after short periods (4−5 days) of abundant rainfall, but their tenure was transient, as the soils dried out rapidly when sunny conditions returned.
The results indicate higher numbers of large trees in the Donga home range than in the Picnic home range. Historically, farmers removed many large trees from the Picnic area for crop planting. It is speculated that the number of mature, seed-producing trees found in the Donga home range are a reason for the large quantity of young trees found in the area, because of the sheltered environment they provide for seedlings, and the seeds they produce. However, in most instances these saplings did not survive to become adults due to competition for light and resources, particularly in the densely shaded areas that comprise extensive portions of the Donga home range. The Picnic area had more medium-sized trees than the Donga area. This could be attributed to previous human interference that resulted in large, homogeneous stands of trees that were similar in size and age, including A. karroo and Terminalia brachystemma. The invasive, weedy annual herbs Bidens pilosa and Tagetes minuta occurred in both home ranges, but densities in the Picnic area exceeded those in the Donga area. Floristic analyses showed that the Donga and Picnic home ranges have 30 plant families in common. The Donga home range has 13 families not represented in the Picnic home range, with the Picnic home range containing four families not represented in the Donga home range. Overall, the two home ranges show no significant differences when comparing results for plant family representation. The largest plant family represented in both home ranges is the Poaceae, which is the most dominant and economically important family of flowering plants worldwide (Walter 1979). The effects of seasonality on this family suggest that many species provide only temporary food supplies, especially during the dry period when grasses die back and store resources underground until favourable conditions return (Gibbs Russel et al. 1990). Fabaceae is the second largest plant family represented in the two home ranges. This family shows high nitrogen metabolism capabilities, often with root nodules containing nitrogen-fixing bacteria. This suggests resources with high protein and high energy content, which are sought after by foraging animals, including vervets (Grobbelaar & Rosch 1981). The plant families Anacardiaceae (the mango family), which contain mostly trees and shrubs, and Asteraceae (the daisy family), which occur mostly as herbs and sometimes as shrubs, are well represented in the Picnic home range.
From a structural perspective, both home ranges had similar tree cover values, with the Donga area containing more trees in the > 3 m class than the Picnic area, which had more trees in the > 1 m -3 m class. In the Donga home range, tree cover was 46.7%, shrub 16.4%, forb 3.5% and grass 41.2%. Picnic area tree cover was 31%, shrub 25.7%, forb 1% and grass 51%. Overall vegetation cover in the Donga home range was 75.6%, compared to 70.6% in the Picnic home range.
The Donga home range was more heterogeneous compared to the Picnic area and provided a larger number of plant species for the vervets to feed on. The Donga troop exploited 36 different woody plant species, six of which constituted 50% of the total used. The Picnic troop used 21 different species, of which only two species were responsible for 50% of the total usage.
The Loskop vervet troops preferred riparian areas with large trees, venturing into less-preferred areas only when there was sufficient incentive to do so, such as the availability of various fruits. Highly used areas had relatively dense canopy cover, with trees that were sufficiently high to provide protection, resources and sleeping sites for the troops. For the Donga troop, community three, the Acacia nilotica-Acacia caffra woodland provided all of their requirements and the troop spent the majority of their time in this community during both the wet and the dry season (Barrett 2009). Community three contained the bulk of resource trees that the Donga troop utilised. For the Picnic troop, community one, the Acacia caffra-Setaria sphacelata var. sphacelata woodland, and community two, the Acacia karroo-Dichrostachys cinerea shrubland, were used most. Both these communities were adjacent to a non-perennial stream that had two man-made farm dams built in it. Trees growing along the edges of the stream provided food, safety and sleeping sites for the troop and they spent most of their time in these trees. Community two also contained a picnic site that was only frequented during school holidays or weekends, when visitor numbers increased. The troop generally spent less time in the area and preferred the natural food resources of communities one and two.

CONCLUSION
It is important that the different plant communities of the home range of animals are studied when conducting research on behavioural patterns. The Braun-Blanquet approach to classifying and identifying plant communities in the field provided an accurate and appropriate description of the vegetation for the purposes of this study. The results showed variations in the vegetation occurring in the two home ranges, with topographical differences and the effects of environmental factors influencing plant species availability. The Acacia nilotica-Acacia caffra woodland provided most of the food sources for the Donga troop, while the Acacia caffra-Setaria sphacelata var. sphacelata woodland and the Acacia karroo-Dichrostachys cinerea shrubland were utilised most for food by the Picnic group, suggesting that Acacia woodlands play an important role in providing habitat for vervets at Loskop Dam Nature Reserve. Similar communities have been described in other parts of the reserve (Götze et al. 1998;Theron 1973) and could be studied as possible habitats for vervet monkeys.
Overall resource plant availability and utilisation suggests that there is a large base of resources for both vervet troops to use in their respective home ranges. The effects of seasonality, with accompanying shifts in spatial and temporal resource abundance, could affect troop ranging patterns, particularly during the dry season when resources are less available.
The phenology of resources used by the two troops showed that both the Donga and Picnic home ranges had sufficient plant resources to meet the minimum habitat and energy requirements of vervet monkeys. There are sufficient food species in the home ranges to sustain viable troops, even during the drier periods when resources are less abundant, hence vervet presence in the area. The larger tree species provide protection from predators while the vervets feed and sleep. Both areas have access to drinking water.
Fire in the two troops's home ranges will have less of an impact on the Donga troop, as their resource trees occur mostly in or adjacent to the donga areas in their home range. These areas are relatively shady and there is not much fuel to sustain a fire under the trees. In addition, the large resource trees are sufficiently high to prevent excessive resource loss in the event of a fire going through the area. However, the grassy areas between the dongas will be affected by fire, although the Donga troop is not dependent on the resources found in these areas. The Picnic troop is more prone to resource loss from fire due to the homogenous nature of their home range and the general structure of the area. A large proportion of resource trees occurs interspersed throughout the area, with high fuel loads adjacent to and under them, making them susceptible to fire damage. A fire during the dry season could have a severe impact on vervet resources, and this would be exacerbated during a drought period. In the event of a fire occurring during such conditions, the resources that the vervets depend on might be insufficient to sustain the troop under natural conditions.