The strategically important black rhinoceros Diceros bicornis population in Hluhluwe-iMfolozi Park, South Africa, appears to have declined. Some suggested the population exceeded carrying capacity (Emslie, Reference Emslie and Emslie2001a) and required increased harvest (Emslie, Reference Emslie2001b). Others were concerned about overharvesting (Balfour, Reference Balfour and Emslie2001). Reid et al. (Reference Reid, Slotow, Howison and Balfour2007) used apparently larger home range sizes in the Park than previous estimates to infer habitat deterioration, a conclusion that appears to be influencing the opinion of local managers (Morris, Reference Morris2009) and may be used to support changes in the management of the Park's black rhinoceros population (Authors, pers. obs. at 36th Biannual Meeting of the KwaZulu-Natal Rhino Management Group, 5 November 2008, and Hluhluwe-iMfolozi Park Research Forum, 4 June 2009).

Home range estimates are sensitive to the method of data collection and analysis (e.g. convex polygon, kernel or grid cell), and number and period of observations (Laver & Kelly, Reference Laver and Kelly2008). Researchers, therefore, are rightly hesitant to compare estimates that differ in one of these ways. It is of concern, given the importance of their conclusion for the management of a Critically Endangered species, that Reid et al. (Reference Reid, Slotow, Howison and Balfour2007) compared estimates differing in all these respects.

Reid et al. (Reference Reid, Slotow, Howison and Balfour2007) compared their estimates using locations gathered over 11 years with an historical value from Adcock (Reference Adcock1996), reported in Emslie (Reference Emslie1999). Adcock's (Reference Adcock1996) original calculations were from 1 km² grid-occupancy data incorporating a 4-year subset (1991–1994) of the Reid et al. (Reference Reid, Slotow, Howison and Balfour2007) data (1991–2002; Table 1). Lack of independence between datasets and the longer sampling period in Reid et al. (Reference Reid, Slotow, Howison and Balfour2007) will increase range estimates because individual home ranges shift inter-annually (Lent & Fike, Reference Lent and Fike2003).

Table 1 Historical sequence of estimates of black rhinoceros Diceros bicornis var. minor home ranges in Hluluwe-iMfolozi Park, South Africa.

¹ Reid et al. (Reference Reid, Slotow, Howison and Balfour2007) did not mention the earlier estimates of home range size in Hluhluwe-iMfolozi Park from Hitchin's (Reference Hitchins1969, Reference Hitchins1971) intensive observations, including radio telemetry, although the same problems would arise in comparison.

² Sometimes included a broken sequence of two or three different transmitters in the same individual

³ Represents the range of average values from five different regions of the Park. The value of 1,500 ha quoted by Emslie (Reference Emslie1999) and cited by Reid et al. (Reference Reid, Slotow, Howison and Balfour2007) was only for the northernmost region of the Park.

Home ranges may also be 40–300% larger with few locations and disjointed observations, such as those in Fig. 5 of Reid et al. (Reference Reid, Slotow, Howison and Balfour2007), when kernel techniques are applied (Downs & Horner, Reference Downs and Horner2008; Huck et al., Reference Huck, Davison and Roper2008; Boyle et al., Reference Boyle, Lourenco, da Silva and Smith2009). Simulations suggest that ≥ 50 locations are required for accuracy (Seaman et al., Reference Seaman, Millspaugh, Kernohan, Brundige, Raedeke and Gitzen1999), and location data for some animals may require considerably more (e.g. 200–500 locations; Hemson et al., Reference Hemson, Johnson, South, Kenward, Ripley and MacDonald2005). Reid et al. (Reference Reid, Slotow, Howison and Balfour2007) did not report numbers of locations but used as few as 10 per individual and thus probably overestimated range size.

Moreover, rhino locations in Reid et al. (Reference Reid, Slotow, Howison and Balfour2007) were not from standardized sampling but fortuitous sightings. Detection bias among sites and individuals may inflate range sizes because patrolled Park boundaries (i.e. fence-lines) and settlement areas (i.e. tourist camps and ranger stations) receive disproportionate observer effort. Animals in the Park's centre may be more likely detected on the periphery of their range and those living near settlements may be frequently displaced, thus inflating range size estimates. All examples in Fig. 5 of Reid et al. (Reference Reid, Slotow, Howison and Balfour2007) are along Park boundaries (A), surround a human settlement (C & D; i.e. Mbuzane Section Ranger Camp), or are adjacent to public roads (A, B and D).

Even if home range estimates were comparable, increases in ranging cannot be used as evidence of deteriorating habitat (particularly as no data on changes in habitat were provided) without accounting for inter-specific (e.g. competition and predation) and intra-specific interactions and anthropogenic effects (Schwartz et al., Reference Schwartz, Miller, Haroldson, Feldhamer, Thompson and Chapman2003; Morrison et al., Reference Morrison, Marcot and Mannan2006). Reduced animal density, for example, may drive larger range sizes, especially in an asocial species such as black rhinoceros where range overlap is limited by intra-sexual competition (particularly amongst males). If population size in Hluhluwe-iMfolozi Park has declined (Fig. 1 in Reid et al., Reference Reid, Slotow, Howison and Balfour2007) home range size might have increased because of lower density and be unrelated to habitat quality.

Lastly, Reid et al. (Reference Reid, Slotow, Howison and Balfour2007) claim larger home ranges as evidence of deteriorated habitat but report smaller ranges during the dry and cold winter than during summer when resource conditions are better. They explain this as the result of more food allowing energy for greater movement and expanded home ranges in summer. This contradicts their contention that poor habitat causes increased range size. They cite more widely distributed water in summer to explain the contradiction but their results show no change in proximity to permanent (winter) water between seasons.

Home range size is not a reliable proxy for habitat quality. Understanding the dynamics of Hluhluwe-iMfolozi Park’s black rhinoceros population requires systematic monitoring of the vital rates of an unbiased sample of individuals and their habitat through time. The severity of the management challenge at hand and the danger of misleading conservation policy requires that we resist the temptation to over-interpret poor quality data.