Line transect and recce trail surveys

We used both line transects and reconnaissance trails (hereafter recce trails) to survey golden monkey populations at both study sites and across four time periods (Table 1). Line transect surveys provide accurate animal density estimates but can be time consuming and costly to implement, whereas walks along recce trails facilitate quick monitoring of large areas, without the need to cut new trails, as is necessary for line transect surveys (Fashing & Cords, Reference Fashing and Cords2000; Twinomugisha & Chapman, Reference Twinomugisha and Chapman2006). We determined line transect starting points, lengths and orientations based on the terrain (e.g. to avoid inaccessible ravines). Daily observations from Park staff and findings from previous biomonitoring surveys in the Virunga massif showed that golden monkeys were almost exclusively found in the bamboo zone in the Virungas (Twinomugisha & Chapman, Reference Twinomugisha and Chapman2006; Tuyisingize, Reference Tuyisingize, Rowe and Myers2016; Hickey et al., Reference Hickey, Granjon, Vigilant, Eckardt, Gilardi and Cranfield2019). We surveyed a total of 22 line transects in 2007, 20 in 2011 and 20 in 2017–2018, all in areas dominated by bamboo (Fig. 2). We also collected data outside the bamboo zone along four transects (in 2007 only) and five recce trails (during all study periods) to document presence of golden monkeys there (Fig. 2). We visited each line transect and recce trail repeatedly (twice in 2007, three times in 2011 and seven times in 2017–2018) to increase the number of detections and thus the accuracy of density estimates (Buckland et al., Reference Buckland, Anderson, Burnham, Laake, Borchers and Thomas2004). The cumulative lengths of these 244 transect surveys and 15 recce trails were 420.7 km and 299.2 km, respectively.

Fig. 2 Location of line transects and recce trails at both study sites: in Volcanoes National Park in (a) 2007, (b) 2011 and (c) 2017–2018 and (d) in Gishwati Forest in 2017–2018.

Table 1 Summary of golden monkey Cercopithecus mitis kandti survey efforts (km) in Rwanda, by study period and site (VNP, Volcanoes National Park; GMNP, Gishwati–Mukura National Park).

Given the small size of the Gishwati Forest, we placed nine parallel line transects systematically across the entire remnant, with gaps of 400 m between transects. We also placed a single recce trail across the corridor and restored forest patch to assess the presence of golden monkeys in these areas. We collected data along these transects and recce trail 1–3 times per month for a total of 22 times in 2017 and 2018 (Fig. 2). The cumulative lengths of transect and recce trail surveys were 473 km and 55 km, respectively.

We collected data along transects and recce trails between 7.00 and 13.00 in Volcanoes National Park and between 7.00 and 16.00 in Gishwati Forest. During line transect surveys, a single observer walked at an average speed of c. 1 km/h and stopped every 100 m to listen and look for monkeys ahead of the rest of the survey team, which comprised two people: a park ranger and an observer collecting data on illegal activities (Peres, Reference Peres1994; Plumptre & Cox, Reference Plumptre and Cox2006). Monkeys were detected from their movements, feeding signs, noise and vocalizations, but we recorded only confirmed direct sightings. Upon visual detection of one or more monkeys, the observer recorded the geographical location of detection on the transect (using a GPS), the compass bearing of the individual or centroid of the group, the number of sighted individuals and the distance from the transect to the individual or centroid of the group (using a Bushnell Elite 1,500 Golf Laser Rangefinder; Bushnell, Northbrook, USA). Teams of three observers conducted recce walks, recording the location of each monkey group and the number of individuals. We did not collect data during rainy weather, to prevent biases resulting from the lower detectability of monkeys (Peres, Reference Peres1999).

Illegal activities

We used maps of illegal activities (bamboo cuts, snares, honey and water collection, feral dogs, beehives) produced by Volcanoes National Park rangers. These data were collected during regular law enforcement and monitoring patrols along recce trails over 220 days during October 2017–September 2018. As there was no systematic monitoring by rangers in Gishwati Forest at the time of our study, we collected data on illegal activities (such as bamboo cuts, snares, cattle grazing inside the forest, collection of honey or firewood) along recce trails in areas where we suspected illegal activities may occur. The goal of this biased search was to establish a list of illegal activities taking place in the forest. These searches took place 3–4 times per month for 12 months, starting in June 2017. We used ArcGIS 3.6 (Esri, Redlands, USA) to create maps of frequently occurring (mean frequency > 7 records per month) illegal activities in both study areas.

Population density and size

We estimated golden monkey group densities using point process models with the spatstat package in R 3.6.1 (Niemi & Fernández, Reference Niemi and Fernández2010; Baddeley et al., Reference Baddeley, Rubak and Turner2015; R Core Team, 2019). Inhomogeneous Poisson point process models can be fitted to spatial distributions of points to investigate the link between point density and point attributes (e.g. species, sex, group size) or environmental covariates (e.g. vegetation type, terrain, distance to transects). This approach is less commonly used than the distance sampling method but provides more flexibility in handling fine-scale spatial variation in animal density and nested sampling designs (Borchers & Marques, Reference Borchers and Marques2017). In the spatstat package, the design of inhomogeneous Poisson point process models is similar to the design of generalized linear models; the main difference is that the dependent variable in point process models is a spatial point pattern object as opposed to a numerical variable in generalized linear models. We modelled the natural log of the point density as a linear function of the squared distance to the transect line (denoted as x). This implies that the expected sighting density $\hat{D}$ is:

$$\hat{D} = \exp ( {\rm intercept} + b\times x) = A\times \exp ( b\times x) $$

where A is the sighting density on the transect line (i.e. for x = 0), and b the negative coefficient denoting the spread of the detection function. This model assumes the detection function has the shape of a half-normal distribution. Visual inspection of the distribution of distances to the transect line confirmed this was a good approximation. Our point process models also included transect identity as a random-effects variable influencing the intercept, to consider our nested design, with each transect repeated 2–7 times in Volcanoes National Park, and 22 times in Gishwati Forest. Models were fit using the mppm() function from spatstat (Baddeley et al., Reference Baddeley, Rubak and Turner2015).

Most sighted individuals were within 80 m of a transect line. The few observations that were beyond 80 m were considered outliers and were not used in our statistical analysis. We also excluded the four Volcanoes National Park transects outside the bamboo forest from the analyses, as no golden monkeys were observed there. We fitted mixed-effects point process models to each of the four datasets described in Table 1. We estimated the group density for each dataset as the exponential of the model intercept, and calculated the 95% confidence interval as exp(intercept ± SE × 1.96).

The overall individual density $\hat{D}$ is the product of the mean group density and the mean group size. Both quantities were estimated from our data, together with associated standard errors. We used the delta method (Powell, Reference Powell2007) to estimate the standard errors of individual densities and to calculate the associated confidence intervals. The coefficient of variation (CV) of the individual density was approximated using:

$$CV( D) = \sqrt {CV^2( G) + CV^2( S) } $$

where D, G and S are the individual density, group density and mean group size, respectively. The standard error of the individual density was derived as:

$${\rm SE}( D ) = CV( D ) \times \hat{D}$$

Confidence intervals for individual densities were then calculated for each of the four estimates as $\hat{D}$ ± 1.96 SE(D).

We estimated total population size for both areas by multiplying density estimates for Volcanoes National Park and Gishwati Forest with the area of the bamboo zone in Volcanoes National Park (c. 51.2 km²; McNeilage, Reference McNeilage1995) and the area of the remnant tropical montane forest of Gishwati (c. 10 km²), the only habitats where golden monkeys were found. We extrapolated the confidence intervals for abundance estimates by multiplying the confidence intervals for individual density estimates by total areas.