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Mastozoología neotropical

versão impressa ISSN 0327-9383versão On-line ISSN 1666-0536

Mastozool. neotrop. v.13 n.2 Mendoza dez. 2006

 

Current distribution and conservation of the huemul (Hippocamelus bisulcus) in Argentina and Chile

Alejandro R. Vila1, Rodrigo López2, Hernán Pastore3, Ricardo Faúndez2, and Alejandro Serret4

1 Wildlife Conservation Society, CC 794 (8400) Bariloche, Río Negro, Argentina. 2 Comité Nacional Pro Defensa de la Fauna y Flora, Aníbal Pinto 215, Of. 2 B Piso 1º, Concepción, Chile. 3 Dto. de Ecología del CRUB, Universidad Nacional del Comahue, Quintral 1250 (8400) Bariloche, Río Negro, Argentina. 4 Corrientes 531, Piso 7 (1043) Buenos Aires, Argentina.

Key words. Conservation. Current distribution. Hippocamelus bisulcus. Protected areas.

   The huemul (Hippocamelus bisulcus) is an endemic deer of the Andean-Patagonian forests of Argentina and Chile. Originally its distribution extended from 34 to 54º S in Chile and occupied areas of Andean forests and ecotonal steppes of Argentina between 36 and 52º S (Díaz, 2000). From the beginning of the European colonization the distribution and abundance of this species began to decline due to hunting pressure, destruction of habitat and predation by dogs, and probably also due to susceptibility to diseases of livestock, competition with domestic animals and introduced exotic species (Povilitis, 1998; Díaz and Smith-Flueck, 2000; Serret, 2001).
   The huemul has become extinct in the Chilean VI and VII administrative regions (34º-36º S). There are no current records of its presence between 38 and 41º S in Chile or in Mendoza and most of Neuquén provinces in Argentina (López et al., 1998). At present, the species is classified as endangered (Glade, 1988; Díaz and Ojeda, 2000; IUCN, 2000).
   The evaluation of thresholds of occurrence and trends in distribution range is an important tool for the assessment of conservation status of species (IUCN, 2001). In spite of the fact that huemul are legally protected in both countries and that there have been efforts to conserve them since the 1930s, actions aiming at defining its distribution are recent (Serret, 1992; López et al., 1998; Díaz, 2000). We have studied the current distribution of huemul and identified the location of clusters of occurrence in the context of existing protected areas and administrative unit boundaries in both Chile and Argentina.
   The study area includes the coastal lands and the Andean foothills and highlands within the historical distribution of the species (Povilitis, 1998; Díaz, 2000). This area comprises the provinces of Neuquén, Río Negro, Chubut and Santa Cruz in Argentina and the VIII, IX, X, XI and XII regions in Chile. Records of current presence of huemul were based on the data set of López et al. (1998), the revision and analysis of "gray" literature, and interviews with park rangers, park wardens and wildlife biologists from Administración de Parques Nacionales of Argentina (APN), Direcciones Provinciales de Fauna in Argentina, Fundación Vida Silvestre Argentina, Corporación Nacional Forestal of Chile (CONAF), and Comité Nacional Pro Defensa de la Fauna y Flora (CODEFF) of Chile. Occurrences of confirmed presence of huemul corresponding to the period of 1992-2002 were included. These records were spatially located on maps of Instituto Geográfico Militar (IGM) of both countries.
   A grid of geo-referenced cells of 6400 hectares was produced with ArcView® 3.3 on the base map of the Patagonian region using the UTM projection zone 18. A cell of occurrence was assigned when at least one record of huemul presence was reported in that cell. Drafts of the obtained map were validated by the participants of two huemul workshops, which took place in Cochrane and Torres del Paine in 2003. For the purposes of spatial analysis of the distribution of the species, a cluster was defined as a group of cells with confirmed presence that maintained contact among themselves through any of the four sides or points. We also considered the maximum movement distances reported (6.7 to 9.0 km) for huemul in this approach (Rau, 1980; Saucedo and Gill, 2004). We assumed that, from the central point of each cell, a longer-distance movement would be almost improbable. However, the probability of a 6.7 to 9.0 km movement within the range of the same cell or neighboring cells would be high. The available information on estimates of abundance, minimum numbers, counts or number of sightings was included in each cell.
   We defined the "minimum count" of huemul for their entire distribution range by adding up the confirmed presence of reported individuals in all of the cells. In cases where no estimates were available, the number of huemul was defined as one individual per cell. The extent of huemul clusters or aggregations of occurrence records was calculated by the number of cells per cluster. Both cells and clusters were classified within protected areas (entire cell or area of cells in clusters are covered by a protected area), partially protected areas (cells are covered by < 100% protected area) and unprotected areas. The area covered by protected and unprotected areas was also measured using ArcView® 3.3. The protected area categories used in this analysis included National Parks, National Reserves, Provincial Reserves, Forest Reserves, Natural Monuments and Private Reserves located on the Andean-Patagonian forest region (Laclau, 1997; Ardura et al., 1998; Martín and Chehébar, 2001; Pauchard and Villaroel, 2002).
   The northernmost occurrence of the current distribution of the species in Chile was located at Río Cato in the VIII Region, Fundo El Sauce and Hacienda Alico (36º 40' S, 71º 28' W), while the southernmost reached Cape Froward of the XII Region, in the Strait of Magellan (53º 50' S, 71º 7' W). The record of the westernmost presence was located in the southeast of Wellington Island (49º 41' S, 74º 57' W). The easternmost occurrence of Argentina was reported in Río Negro Province, Veranada de las Lagunitas (41º 35' 3" S, 71º 11' 49" W). The extreme northern and southern limits of distribution in this country were located in Paso Folil (40º 9' S, 71º 49' W) and Glaciar Frías area (50º 73' S, 73º 17') in Neuquén (Parque Nacional Lanin) and Santa Cruz provinces respectively.
   A total of 101 clusters and 317 cells with huemul presence were registered within the historical range of the species (Fig. 1), occupying a minimum of 1 964 394 hectares of the Patagonian-Andean forests. Fifty-two percent of the distribution area was found in Chile and 48% in Argentina.


Fig. 1. Map of huemul distribution range in Argentina and Chile, 1992-2002. The black cells (6400 hectares) show records of huemul occurrence and the light-gray areas show protected areas.

   The identified aggregations of occurrence occupied an average of 3.1 cells (sd=6.8, range=1-61). The mean extent of the clusters was 1.43 cells (range=1-2, n=7) in Argentina, 2.04 (range=1-20, n=74) in Chile and 7.8 (range 1-61, n=20) in aggregations shared by both countries.
   According to the observed spatial distribution, the greatest number of clusters was located in Chile (Table 1) although those of binational range showed a greater degree of occupation within Argentine territory (Fig. 1). In contrast, the distribution of cells with huemul presence showed a more balanced distribution (Table 1). This asymmetry suggested a greater degree of fragmentation in the Chilean portion of the distribution of the species.

   The largest identified cluster, which extends from Lago Azul (42º S) in Chile to Cerro Greda (43º 21' S) in Argentina, included 61 cells. This binational aggregation involved 390 400 hectares and the following protected areas: Río Azul-Lago Escondido, Cerro Currumahuida, Epuyén, Río Turbio, and Lago Baggilt provincial reserves, Lago Puelo and Los Alerces National Parks and Reserva Nacional Futaleufú as well. The clusters of the area of Nevados de Chillán (36º-37º S), VIII Region in Chile, had the greatest degree of isolation. They were found at 316 km from the nearest southern cluster which was located in Paso Folil (Argentina).
   Twenty-eight percent of the clusters and 34.4% of the identified cells were found within the existing protected areas of both countries. Thirty-six aggregations (35.6%) and 111 cells (35%) were located outside protected areas, while the remaining ones were found within partially protected areas. Seventy four percent of the 101 reported clusters were found in small areas of only 1 or 2 cells (Fig. 2). Sixty seven percent of these small clusters were entirely located outside the existing protected areas. The extent of huemul occurrence included 31 protected areas, covering 930 179 hectares of the observed range (47%). Argentina showed a higher percentage of huemul range under protection than Chile (Table 2).


Fig. 2. Extent of huemul clusters classified by number of cells.

   Region XI in Chile had the greatest number of both clusters and cells with huemul occurrence. Nevertheless it showed the least amount of huemul protection (Fig. 1 and Table 2). Region VIII had the lowest level of huemul presence, while the species was not found in Region IX at all. Most of the cells (88%) recorded in X Region corresponded to binational cells in which sightings had been only recorded in Argentina. Huemul range under protection ranged from 51 200 to 600 796 hectares in regions VIII and XI respectively, while X and XI regions showed less than 25% of huemul distribution under protection (Table 2).
   Chubut Province (Argentina) showed the greatest number of clusters and cells with huemul presence, despite having the lowest percentage of cells falling under protection (Fig. 1 and Table 2). The least number of cells and aggregations were registered in the federal lands of Lanin and Nahuel Huapi National Parks (Neuquén Province). The percentage of huemul range under protection was greater than 45% in all of the involved provinces. The huemul area under protection ranged from 89678 to 432004 hectares in Neuquén and Chubut provinces respectively (Table 2). The "minimum count" of huemul for the whole area of distribution was roughly estimated in 1048 individuals, with 58% of the animals in the identified cells in Chile, 32% in Argentina, and 10% in binational areas.
   As was observed by López et al. (1998), the confirmed current distribution for huemul extended along the Patagonian Andes and the southern coastal areas of the Pacific Ocean. Considering the historical distribution of the species (Díaz, 1993, 2000), the greatest decline occurred in the northern and eastern portions of their range.
   The species seems to be extinct in the VI, VII and IX regions in Chile. It has not been confirmed for the northern portion of the X Region, whereas its historical southern limit of distribution mentioned by Osgood (1943) has been confirmed. No presence of the species was found in the steppe areas and only a few records were registered in ecotonal sites with Andean forest in Argentina, in spite of the fact that these environments were part of its original range of distribution (Díaz, 1993, 2000).
   A high number (74%) of identified clusters were small (areas of 64-124 km 2), thus the huemul may be expected to have a high vulnerability to extinction within them. It is important to note the situation of the population of Nevados del Chillán within this context, where the greatest degree of isolation was observed.
   More than 30% (15 700 000 hectares) of the Andean-Patagonian forest region is under protection (Laclau, 1997). In addition, the southernmost portion of this region has the lowest degree of human activities with a low density of human population and roads (López et al., 1998; Sanderson et al., 2002). However, part of the coverage of these protected areas is concentrated outside the historical huemul range (Díaz, 2000). It is important to emphasize that the degree of effective implementation of some of these parks and reserves is not fully satisfactory (Laclau, 1997; Pauchard y Villaroel, 2002; Rush, 2002) and therefore may not guarantee the long term conservation of this species. Additionally, the size of some protected areas might be insufficient to maintain viable huemul populations (Simonetti, 1995). Nevertheless 47% of current huemul range observed in the present study was concentrated in 31 protected areas, which implies that 100 000 km 2 of potential huemul habitat are protected.
   A high percentage of the records of presence occurred in National Parks and Reserves. Yet, these areas had the largest number of surveys as well. The number of positive cells outside protected areas may have been underestimated due to fewer survey efforts. As an important number of clusters was found outside protected areas, efforts should be made to guarantee their conservation, evaluate unsurveyed sites and take management measures to ensure corridors of suitable habitat.
   The range outlined is a "coarse-scale" representation of a distribution, but is adequate for analysis at a regional scale. However it should no be used for "fine grain" or "local" evaluations because of the weakness of resolution. Such hierarchical scale approach should have to use a smaller cell size or other mapping methods based on dots of recorded sightings.
   The "minimum count" of huemul estimated in the present study was higher than the number calculated by López et al. (1998). They estimated a minimum number of 781 huemul using the same approach. The observed increase could be related to the increase in survey effort and quality of the available information. Thus the species would be within the range of abundance cited previously, 1000 to 2000 huemul (Povilitis, 1983; Burton and Pearson, 1987). Nevertheless, these values may not reflect the real abundance of the species since huemul numbers have not been estimated for most of the cells (86%). Therefore, it is necessary to continue efforts to survey populations in Argentina and Chile.
   Some priority actions based on our work are: a) efforts to obtain information about distribution -including absence data-, abundance and threats should be increased; b) potential huemul habitat should be mapped in order to analyze its representation in the reserve network, exclude unsuitable habitat areas and identify populations on biological bases; c) effective protection of the identified populations should be encouraged, emphasizing on increasing the degree of protection in the VIII, X and XI regions of Chile and Chubut Province in Argentina; d) creation of private protected areas with presence or potential habitat of the species should be promoted in such a way as to permit the linking of populations and to maintain a matrix of connectivity.
   The results presented here provide a first step to identify huemul populations, give direction to field survey effort allocation and offer a base-line for assessing the species' conservation status based on trends in range distribution as proposed by IUCN (2001).

This study was possible thanks to the support of the Wildlife Conservation Society, Fundación Vida Silvestre Argentina, Comité Nacional Pro Defensa de la Fauna y Flora de Chile and the Turner Foundation. Delegación Regional Patagonia of APN in Argentina and Proyecto Ordenamiento Territorial de la Zona Costera, VIII Región del Bío Bío, of the German Technical Cooperation (GTZ) in Chile cooperated with the GIS layers development. This project would not have been possible without the information provided by park rangers of APN and CONAF and anonymous informants as well. We wish to express our thanks to Andy Taber, Guillermo Harris, Anthony Povilitis and Victoria Maldonado San José for motivating the execution of this study. We also appreciate the helpful comments provided by three reviewers to improve this paper.

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Recibido 26 mayo 2005.
Aceptación final 17 abril 2006.

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