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Check List 10(5): 997–1004, 2014
© 2014 Check List and Authors
ISSN 1809-127X (available at www.checklist.org.br)

flora sureveys are fundamental for the implementation of 
management plans and measures for the conservation of 
the biome.

The Amadeu Botelho Ecological Reserve (ERAB) is a 
Private Reserve of Natural Heritage (PRNH) that contains 
a preserved fragment of Atlantic Forest whose mammal 
fauna has yet to be thoroughly studied. Hence, the present 
study surveyed the mammalian fauna of the ERAB and 
evaluated the influence of the farm’s plantations and its 
proximity to the urban center on these mammals.

 
Materials and Methods
Study site

The study area is the Ecological Reserve Amadeu 
Botelho (ERAB), one Private Reserve of Natural Heritage 
(PRNH) created through the Ordinance No. 19 ICMBio 
(Instituto Chico Mendes de Conservação da Biodiversidade) 
in 2000. It is owned by the Santo Antonio Ipês farm 
located in the municipality of Jaú (22°18′ S, 48°31′ W), 
in the central-western region of the state of São Paulo, 
in southeastern Brazil. The farm was acquired by Arruda 
Botelho family in the late 19th century (Conselho Nacional 
da Reserva da Biosfera da Mata Atlântica 2008).

The farm grows various crops such as sugarcane, 
corn, sunflowers, oranges, as well as species of the genus 
Cordia, medicinal passion fruit, peaches and coffee. These 
plantations surround the entire forest fragment, giving it 
a clear cut and elongated appearance (Figure 1). Several 
dirt roads cut through these plantations, which are used 
to transport harvested crops. In addition, two roads cut 

Introduction
There are approximately 5,600 mammal species in 

the world, 701 of which are found in Brazil, i.e., 12% of 
the all the world’s mammal species. The species found in 
Brazil are divided into 12 orders (Paglia et al. 2012). The 
mammals found in the state of São Paulo comprise 231 
species (32.9% of the Brazilian mammals), 206 except the 
cetaceans (de Vivo et al. 2011).

Medium and large-sized mammals play an important 
role in seed dispersal and population control of 
invertebrates and vertebrates. Mammalian predators such 
as the pumas (Puma concolor (Linnaeus, 1771)) and ocelots 
(Leopardus pardalis (Linnaeus, 1758)) are considered 
keystone species because they regulate prey populations 
and structure natural communities (Soulé 2000). Some 
are also considered umbrella species, because they 
require very large areas of land and are fundamental to the 
existence and survival of other species. These mammals 
can be used as indicator species in conservation planning 
and monitoring. Hence, maintaining viable populations of 
these species will also ensure the preservation of sufficient 
habitat for numerous other species that require smaller 
areas (Noss et al. 1997).

The Atlantic Forest biome, currently, only has 8.5% of 
forest remnants. Adding all the fragments of native forest 
above 3 ha, there are only 12.5% of the original area, 
wich was 130 million ha. (Fundação SOS Mata Atlântica/
Instituto Nacional de Pesquisas Espaciais 2014).

Therefore, the few remaining forest fragments have 
great importance for conservation, and the fauna and 

Medium and Large-sized Mammals in a Private Reserve 
of Natural Heritage in the Municipality of Jaú, São Paulo, 
Brazil

Ricardo Reale 1, 2, 3* , Renata Cristina Batista Fonseca 2 and Wilson Uieda 1

1  Universidade Estadual Paulista “Júlio de Mesquita Filho”, Instituto de Biociências de Botucatu, Departamento de Zoologia. Distrito de Rubião 
Júnior, S/N. CEP 18618-970. Botucatu, SP, Brasil.

2  Universidade Estadual Paulista “Júlio de Mesquita Filho”, Faculdade de Ciências Agronômicas, Departamento de Ciências Florestais. Rua José 
Barbosa de Barros, 1780. CEP 18610-307. Botucatu, SP, Brasil.

3  Master’s Forest Ecosystem Preservation in Forest Resources at University of São Paulo (USP), Luiz de Queiroz College of Agriculture (ESALQ). 
Pádua Dias Avenue 11. CEP13418-900. Piracicaba, SP, Brasil.

* Corresponding author. E-mail: realericardo@usp.br

Abstract: Medium and large-sized mammals control invertebrate and vertebrate populations and are important seed 
dispersers. These animals are losing their territory and living range due to deforestation and the fragmentation of natural 
areas, particularly in the Atlantic Forest and Cerrado. The Private Reserve of Natural Heritage (PRNH) Amadeu Botelho is 
isolated from other forest fragments and is thus a wildlife refuge in the region of Jaú, central-western region of state of São 
Paulo, southeastem Brazil. Animals as such as the puma (Puma concolor), ocelot (Leopardus pardalis) and jaguarundi (Puma 
yagouaroundi) have been sighted in the reserve by wildlife guards and residents. This reserve, which belongs to “Santo 
Antônio dos Ipês” farm, is surrounded by several plantations, and is very close to the center of the city of Jaú. In addition to 
surveying the mammal species in the reserve, this study diagnosed the influence of the farm’s activities and the proximity 
to the center of the municipality of Jaú on the fauna under study.

DOI: 10.15560/10.5.997

mailto:realericardo%40usp.br?subject=
http://dx.doi.org/10.15560/10.5.997


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Reale et al. | Medium and large-sized mammals in a private reserve, Jaú, São Paulo, Brazil

through the forest fragment (Figure 2), serving only to link 
the plantations during harvest time, not being used during 
the rest of the year. 

The reserve is a preserved remnant of Atlantic Forest 
containing approximately 190 ha of semi-deciduous forest, 
characterized by tall broad-leaved mesophilic trees, with 
a canopy varying in height from 15 to 20m, including the 
occurrence of emergent individuals (Adati 2001). More 
information about the flora of the region can be found in 
Souza and Veniziani-Jr (2012) and Kronka et al. (2005).

This is the most significant remnant of native forest 
existing in the municipality of Jaú, and one of the most 
important in the entire region (Conselho Nacional da 
Reserva da Biosfera da Mata Atlântica 2008). Albeit well 
preserved, the ERAB is located far away from other forest 
fragments and is virtually the only refuge for forest species 
within a radius of 30 kilometers. The forest fragment is a 
watershed, whose two extremes, (northwest-southeast 
direction), reach the Santo Antônio and João da Velha 
streams (Figure 1). These streams are tributaries of Jaú 
River (Figure 1), whose closest point to ERAB is 50 meters 
(Conselho Nacional da Reserva da Biosfera da Mata 
Atlântica 2008).

  
Data collection

Tracks, footprints and other signs are important 
indicators of the presence of a mammalian species in 
a given area (Borges and Tomás 2004). Thus, we used 
Borges and Tomás (2004) and Becker and Dalponte 
(1991) to identify the traces found in the work field. When 
the field guides were not enough to help in the recognition 

of the most difficult tracks, these were measured, drawn, 
photographed and molded in plaster to make a more 
precise identification in the laboratory, compared to other 
materials (pictures database laboratory UNESP/FCA). The 
conservation status of the recorded species was based 
on the endangered species list of the state of São Paulo 
published by the Environment Secretariat of the State of 
São Paulo, Decree No. 60, 133, February 7, 2014.

Transects
An efficient method to search for animal tracks is the 

transect method (Pardini et al. 2003). Using this method, we 
walked along the roads that pass through the forest (Figure 2) 

Figure 1. Aerial photo of Ecological Reserve Amadeu Botelho (ERAB), showing its elongated shape. Indicated in the figure are 
the Curumim, Cachoeira and João da Velha streams. Also shown is the Jaú river. Surrounding the ERAB are the different types of 
plantations.

Figure 2. Roads that pass within the forest of ERAB (in red). Both are 
used exclusively in the transportation of production from the farm 
during harvest time, functioning as facilitators of the flow of harvests by 
connecting and bringing the plantations.



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Reale et al. | Medium and large-sized mammals in a private reserve, Jaú, São Paulo, Brazil

and through the plantations (Figure 3), which were traveled 
along on every day of fieldwork, covering a distance of 15 km 
per campaign day, and corresponding to 360 km of transect 
in four campaigns (28 days). We used this method to attempt 
to identify the animals that leave the forest and possibly use 
the plantations to feed on or shelter in. 

Sand plots
To record the tracks of animals that rarely leave the 

forest, we used the sand plot technique. Each plot consists 
of a square of PVC pipe that delimits 0.80 × 0.80 m (that 
delimits an area of 0.64 m²). This square is placed on the 
forest floor and about 3 to 4 cm of clear sand is placed 
inside it (Figure 4). 

Three trails about 150 m long were made from the 
border of the forest into its interior. Two groups of sand 
plots were placed on each trail (Figure 5), each group 
comprising four plots spaced 10–15 m apart, forming a 
square on the forest floor, according to the unpublished 
method recommended by Nature Conservation Laboratory 
of UNESP’s Department of Forest Sciences at Botucatu.

The border effect can cause changes in fauna, 
particularly in species with low tolerance for open areas 
(Laurance 1999). To minimize this problem, the first 
group of plots was placed at a distance of 100 meters from 
the border and the second group at 150 m from the border 
and 50 m from the first group. The trails were made as 
straight as possible.

Each day baits of bananas, mangos, papayas, avocados, 
bacon and pepperoni were placed on the sand plots. The 
plots of each group were baited with different types of 
food to prevent visits from the same animal on the same 
day. All plots were always baited with three equal pieces 
of baited. During the surveys 24 hours later, the baits were 
removed from the trail, so that only the new baits would 
attract animals. The baits were replaced every day.

On the first day of the campaign, the baits were 
placed on the plots and repairs made when necessary. 
On subsequent days, the baits were changed to attract 
a broader range of animals with different dietary 
preferences. In addition, the sand in the plots of each 
group had to be loosened, moistened and smoothed in 
order to create a suitable surface to record the tracks of 
animals visiting the plot. The tracks of the same species 
found on the same plots on different days of the campaign 
were considered as originating from different individuals. 
When footprints were found in the same group of plots on 
the same day, they were considered to belong to the same 
individual, and were therefore not counted again. 

Camera traps
Five to eight camera traps (manufactured by 

Trapacamera, Brazil) were used at different sites: facing 
some of the sand plots inside the forest fragment; at forest 
borders; roadsides; at springs, water course and river 
banks; at transects between forest and plantations; and at 
transects within the plantations. The cameras, which were 
equipped with an infrared motion sensor, took pictures 
when the motion stopped. This method has been widely 
used in research of medium and large-sized mammals, 
as can be seen in the comparative study of photographic 
traps of Srbek-Araujo and Chiarello (2007).

Figure 3. Stretch of road transect between cornfields of Santo Antonio 
dos Ipês Farm (Photo: Ricardo Reale). 

Figure 4. Portion sand baited with banana (located in Group 2, Trail 1) 
(Photo: Ricardo Reale).

Figure 5. Map of trails and groups portions of sand. G1 = Group 1; G2 = 
Group 2.

Figure 6. Brocket deer, Mazama gouazoubira, grazing along the orchard 
of Santo Antonio Ipês Farm (Photo: Ricardo Reale).



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Reale et al. | Medium and large-sized mammals in a private reserve, Jaú, São Paulo, Brazil

Interviews
During the fieldwork, 10 of the farm’s residents and 

employees were interviewed. A photo album of mammals 
was shown to the interviewees to help them correctly 
identify any species that had already been sighted by 
them within the boundaries of the farm. All interviewees 
had worked or lived in the farm for over 10 years. The 
interviews were conducted according to Alves (2009).

Results
Twenty-six medium and large-sized species of 

mammals were recorded, distributed among 16 families 
and six orders. Table 1 lists the mammals recorded in 
the Amadeu Botelho Ecological Reserve, as well as their 

regional conservation status.
The presence of Chrysocyon brachyurus (Illiger, 1815), 

a species typical of environments with open vegetation 
(Dietz 1985), is possibly a result of the recent expansion 
of the species in response to the transformation of Atlantic 
Forest areas into pastureland and agricultural areas. 
Further evidence is the fact that the reserve be located in 
an ecotone between Atlantic Forest and Cerrado, the latter 
area, typical of maned wolf. 

The presence of five endangered species in the 
ERAB is an indicative of the importance of this area for 
conservation. The staff of the farm is always on the watch, 
to prevent hunters from entering the reserve, and always 
camouflaging the entrances to trails to conceal them and 

Table 1. List of animals found in ERAB, English common name, type of record, and conservation status, based on the state of São Paulo red list. Forms 
of records: I = interviews, T = tracks on transects or plots, S = sighted. Level of threat: E = Endangered, NT = Near Threatened, DD = Data Deficient.

 CLASSIFICATION COMMON NAME RECORD CONSERVATION STATUS
ORDER ARTIODACTYLA
FAMILY CERVIDAE
Mazama gouazoubira (G. Fischer [von Waldheim], 1814) brocket deer I, T, S
ORDER CARNIVORA
FAMILY CANIDAE
Cerdocyon thous (Linnaeus, 1766) crab-eating fox I, T
Chrysocyon brachyurus (Illiger, 1815) maned wolf T E
Lycalopex vetulus (Lund, 1842) hoary fox T E
FAMILY FELIDAE
Leopardus pardalis (Linnaeus, 1758) ocelot I, T E
Leopardus sp. (Schinz, 1821) Neotropical spotted cat I, T E
Puma concolor (Linnaeus, 1771) puma, cougar I, T E
Puma yagouaroundi (É. Geoffroy Saint-Hilaire, 1803) jaguarundi I, T
FAMILY MEPHITIDAE
Conepatus sp. Gray, 1837 hog-nosed skunk I, T DD
FAMILY MUSTELIDAE
Eira barbara (Linnaeus, 1758) tayra I, T
Galictis cuja (Molina, 1782) ferret I, T ND
Lontra longicaudis (Olfers, 1818) otter T NT
FAMILY PROCYONIDAE
Nasua nasua (Linnaeus, 1766) coati I, T, S
Procyon cancrivorus (G. [Baron] Cuvier, 1798) raccoon I, T
ORDER LAGOMORPHA
FAMILY LEPORIDAE
Sylvilagus brasiliensis (Linnaeus, 1758) tapeti I, T, S DD
ORDER PRIMATES
FAMILY CEBIDAE
Sapajus nigritus (Goldfuss, 1809) black capuchin monkey I, T, S
ORDER RODENTIA
FAMILY CUNICULIDAE
Cuniculus paca (Linnaeus, 1766) paca I, T NT
FAMILY DASYPROCTIDAE
Dasyprocta azarae Lichtenstein, 1823 agouti T
FAMILY ERETHIZONTIDAE
Sphiggurus villosus (F. Cuvier, 1823) orange-spined hairy dwarf porcupine T
FAMILY HYDROCAERIDAE
Hydrochoerus hydrochaeris (Linnaeus, 1766) capybara I, T
FAMILY MYOCASTORIDAE
Myocastor coypus (Molina, 1782) * nutria T DD
FAMILY SCIURIDAE
Guerlinguetus ingrami (Thomas, 1901) Brazilian squirrel I, T, S
ORDER XENATHRA
FAMILY DASYPODIDAE
Cabassous sp. McMurtrie, 1831 naked-tailed armadillo T
Dasypus novemcinctus Linnaeus, 1758 nine-banded armadillo T
Euphractus sexcinctus (Linnaeus, 1758) six-banded armadillo I, T
FAMILY MYRMECOPHAGIDAE
Tamandua tetradactyla (Linnaeus, 1758) collared anteater I
Total 26 E = 5; NE = 2; ND = 4

 * Exotic species 



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Reale et al. | Medium and large-sized mammals in a private reserve, Jaú, São Paulo, Brazil

hindering the access of unauthorized people to the forest. 
Several animals were sighted during the field work, 

and whenever possible, photographs were taken. Mazama 
gouazoubira (G. Fischer [von Waldheim], 1814) (Figure 6), 
Sapajus nigritus (Goldfuss, 1809) (Figure 7), Guerlinguetus 
ingrami (Thomas, 1901) (Figure 8) and Nasua nasua 
(Linnaeus, 1766) were sighted (Figure 9).

Sand plots
Sixty-two footprints were recorded (considering each 

footprints to represent a single individual animal), and 11 
tracks were from different mammal species, representing 
42.30% of the total species found in ERAB. Three 
species were found solely by this method, representing 
11.54% of the total species of ERAB, namely: Dasyprocta 
azarae Lichtenstein, 1823 (Although it is not possible to 
identify to species level only by trail, we reach this level 
by its geographic distribution, as Catzeflis et al. (2008)), 
Myocastor coypus (Molina, 1782) (exotic species in São 
Paulo) e Sphiggurus villosus (F. Cuvier, 1823). Although 
these species are small, they left tracks on the sand plots 
and were therefore easily recognized.

Table 2 lists the species recorded, the number of tracks 
of each species on each trail, and the frequency with which 
each species was recorded in ERAB, using the sand plot 
method.

The black-horned capuchin monkey was present on all 
the trails and in other areas of the farm. Three groups of 
these monkeys were recorded in the ERAB, each containing 

an average of 14 individuals. This may explain the high 
frequency of records of black-horned capuchin on the 
plots. During the harvest season, the farm’s workers and 
residents often see these monkeys feeding on sugarcane, 
corn and peaches.

It was found that the records of S. nigritus in sand plots 
decreased as the stages of the crops planted on the farm 
advanced. Its records were more frequent during harvest 
time in September/October, due to the easy access to food 
on the sand plots. In October groups of capuchin monkey 
were also sighted on the north side of the fragment, which 
faces the peach orchards. 

The armadillos Dasypus novemcinctus Linnaeus, 1758 
and Euphractus sexcinctus (Linnaeus, 1758) dens were 
found on trail 2, close to the sand plots, explaining the 
higher frequency of records of these animals on the trail. 
The differentiation of armadillo species was performed by 
comparing the entrances size of the burrows, according to 
Becker and Dalponte (1991) and Borges and Tomás (2004). 
Furthermore, the records of these armadillos occurred in 
sand plots near the burrows, and by comparing the size of 
the footprints and of the burrows, we were able to infer 
the species of armadillo.

Three species were identified exclusively on trail 1: 
Procyon cancrivorus (G. [Baron] Cuvier, 1798), Myocastor 
coypus and Sphiggurus villosus, with the last two identified 
exclusively by the sand plot technique. Cuniculus paca 
(Linnaeus, 1766) was identified exclusively on trail 3, but 
trail 2 did not present exclusive visitors. All the trails were 

Figure 7. Black-horned capuchin, Sapajus nigritus, sighted near track 2, 
which lies between forests and plantations (Photo: Ricardo Reale).

Figure 8. Brazilian squirrel, Guerlinguetus ingrami, sighted in the 
Curumim environmental education school (Photo: Ricardo Reale).

Figure 9. Coati, Nasua nasua, sighted on the main road from the farm, 
located between forest and plantation. It was seen foraging alone the 
border of the forest and plantation (Photo: Ricardo Reale).

Figure 10. Capybara, Hydrochoerus hydrochaeris, caught by camera trap 
installed nearby reforestation area of the Jaú river (Photo: Ricardo Reale).



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Reale et al. | Medium and large-sized mammals in a private reserve, Jaú, São Paulo, Brazil

equivalent in terms of the number of species, with trails 1 
and 3 presenting seven species and trail 2 presenting six 
species.

There is a small water spring that passes by group 
two on Trail 3. The presence of this spring presumably 
influenced the occurrence of the lowland paca this trail, 
since this stream flows into Cachoeira Stream, a tributary 
of the Jaú River. Next to this tributary is an artificial lake 
that supplies the city of Jaú, accounting for 30% of the 
city’s water supply (SAEMJA – Jaú Municipal Water and 
Sewer Service), where local residents claim to have sighted 
lowland pacas in previous years. However, according to 
the 10 interviewees, this species has not been sighted in 
the ERAB for several (~5) years.

Transects
The transect lines were chosen randomly along the 

roads on the farm (inside the forest and plantations) 
before and after examining the sand plots, and 92 animal 
tracks, over 21 different species of terrestrial mammals 
of medium and large-sized were recorded for this 
method. This record represents 80.77% of mammals of 

medium and large sized found in ERAB.
The most frequent species recorded were Mazama 

gouazoubira (N=18), Sylvilagus brasiliensis (N=9), Sapajus 
nigritus (N=6), Hydrochoerus hydrochaeris (N=5), and 
Cabassous sp. and Dasypus novemcinctus (N=4 each). 

The mammals most frequently recorded on the 
transect of ERAB, representing the species whose tracks 
were recorded at least four times (Figure 11).

Mammal richness was more concentrated between 
the forest and the Jaú River, in the region of the reserve is 
located farthest away from the city center. This part of the 
reserve is situated at about 20 meters from the river. On 
this side of the forest there are also two streams, Cachoeira 
and João da Velha, both of which are tributaries the Jaú 
River. Streams can act as ecological corridors between 
the forest and river, and the Jaú River may also work as 
an ecological corridor, connecting the ERAB with small 
fragments near it.

From the tracks found along the plantation roads, it 
was assumed that the species that make the most use of 
crops are M. gouazoubira, S. nigritus, S. brasiliensis and 
Cabassous sp. Along the transects between the planted 

SPECIES TRAIL 1 TRAIL 2 TRAIL 3 * TOTAL FR † (%)
Sapajus nigritus 10 12 3 25 40.32
Dasypus novemcinctus 1 7 1 9 14.52
Dasyprocta azarae ‡ 7 - 1 8 12.9
Euphractus sexcinctus - 4 1 5 8.06
Galictis cuja - 2 2 4 6.45
Eira barbara - 1 2 3 4.84
Procyon cancrivorus 2 - - 2 3.23
Sylvilagus brasiliensis 1 1 - 2 3.23
Cuniculus paca - - 2 2 3.23
Myocastor coypus ‡ 1 - - 1 1.61
Sphiggurus villosus ‡ 1 - - 1 1.61
Total records 23 27 12 62 100
Total sampled 192 192 48 432 14.35
* Due to heavy rains in May, trail 3 was damaged, leading to the loss of all the sand plots. Therefore, the results of trail 3 shown in this table 

correspond only to the February campaign.
†  FR = frequency of records
‡ Species recorded only on sand plots

Table 2. Number of footprints and respective frequency of records (FR) of each species on trails 1, 2 and 3. Also shown is the total number of samples 
(number of sand plots visited by animals)

Figure 11. Number (N) of footprints of the six mammals most commonly found in the transects of ERAB from Jaú.

16 
 

18

9

6
5

4 4

0
2
4
6
8

10
12
14
16
18
20

Mazama
gouazoubira

Sylvilagus
brasiliensis

Sapajus nigritus Hydrochoerus
hydrochaeris

Cabassous sp. Dasypus
novemcinctus

Number of Records

 
 
 



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Reale et al. | Medium and large-sized mammals in a private reserve, Jaú, São Paulo, Brazil

fields, this deer was also the most recurrent species, with 
eight records, i.e., almost half of this fauna found on the 
transects between plantations. 

The species D. novemcinctus, E. sexcinctus, Lycalopex 
vetulus (Lund, 1842), M. gouazoubira, C. paca and S. 
nigritus were recorded along the forest transects (Figure 
2). These species were found along the transect line of the 
Cachoeira’s streams road. Only S. nigritus was recorded 
visually on the road close to trail 1.

Camera traps and interviews
The camera traps recorded only groups of Sapajus 

nigritus and an individual of Hydrochoerus hydrochaeris 
(Figure 10). 

The interviews revealed that much of the fauna of the 
reserve lives in the forest of the ERAB, since felines such as 
Puma yagouaroundi, Puma concolor and Leopardus pardalis 
are commonly sighted. In addition to H. hydrochaeris, 
D. novemcinctus, S. nigritus, M. gouazoubira, Procyon 
cancrivorus and Nasua nasua are also frequently sighted.

Lontra longicaudis (Olfers, 1818) and Galictis cuja 
(Molina, 1782) were species less recognized by the 
interviewees, indicating that they are rarely sighted. 
Chrysocyon brachyurus and Cabassous sp. had never been 
sighted in the ERAB.

Long-time residents, who have lived there since the 
childhood, last sighted Dasyprocta azarae over 20 years 
ago. Tamandua tetradactyla (Linnaeus, 1758) was sighted 
a few times about a year ago (mid-2010) but has not been 
seen since then, not even its tracks (V.S. Uieda personal 
communication). This may indicate that this species no 
longer lives in the reserve, or that the sampling effort to 
find it was insufficient.

Discussion
When comparing this study with others surveys of 

equal content, conducted in the Atlantic biome of São Paulo, 
as Dotta (2005), Carvalho (2011) and De-Vivo (2011), it is 
shown that the Amadeu Botelho Ecological Reserve has a 
rich fauna of medium and large-sized mammals, indicating 
that the forest fragment has a good state of preservation 
and conservation. 

It therefore serves as a refuge for wildlife species at 
risk of extinction, which are classified as Vulnerable, such 
as Chrysocyon brachyurus, Lycalopex vetulus, Leopardus 
pardalis, and Puma concolor; as endangered: Leopardus 
sp. Other four species are classified of Near Threatened: 
Lontra longicaudis, Sapajus nigritus, Cuniculus paca, 
Dasyprocta azarae.

According to the interviews, C. paca has not been 
sighted for several years. However, three footprints were 
recorded in this study (one on a sand plot and two along 
the transects), indicating that this species still exists in the 
reserve, as do most of the mammals living in the ERAB, in 
low population densities.

The farm’s activities also influence the dispersal of 
mammals on the farm and in the forest, and the fact that the 
southeast region of the reserve is less frequented at certain 
times of the year explains why they are in little evidence. 
This may be one of the reasons for the concentration of 
species richness in the southeastern of the reserve. Only 
the most generalist species were found in the region of the 

reserve that faces only the plantations, such as Mazama 
gouazoubira, Sylvilagus brasiliensis and Sapajus nigritus, 
which are the ones that make the most use of the farm’s 
crops, or that are most frequently found in the plantations. 

Acknowlegments: We would like to thank everyone who made this 
study possible: Mr. Antônio Carioba, manager of the farm, for kindly 
providing material, accommodation and extremely necessary assistance 
in the planning and execution of the fieldwork; and to the technicians 
Silvio Cesar de Almeida and Flávio da Silva of the Department of Zoology 
at Unesp at Botucatu and my undergraduate friends Moisés Guimarães, 
Gabriel Mendes, Ayesha Pedrozo Ribeiro and Ana Maria C. Ruocco for 
their help, experience and information exchanged regarding some of the 
fieldwork. We gratefully acknowledge UNESP at Botucatu for making 
available its infrastructure (transportation and covering fuel and toll 
expenses), reviewers: Marcio Port Carvalho and anonymous reviewer 
and the subject editor at Check List Guilherme Siniciato Terra Garbino for 
their valuable suggestions that greatly improved the manuscript.

Literature Cited
Adati, E.F. 2001. Florística das Espécies Arbóreas que Ocorrem ao Longo 

da Trilha Ecológica da Reserva Amadeu Botelho no Município de Jaú, 
SP: Subsídios Para Atividades de educaÇão Ambiental. Undergraduate 
dissertation. Bauru: UNESP.

Alves, T.R. 2009. Diversidade de Mamíferos de Médio e Grande Porte e 
sua Relação com o Mosaico Vegetacional da Fazenda Experimental 
Edgárdia, UNESP Botucatu/SP. M.Sc. dissertation. Botucatu: 
Faculdade de Ciências Agronômicas da UNESP campus Botucatu.

Becker, M. and Dalponte, J.C. 1991. Rastros de Mamíferos Silvestres 
Brasileiros: Um Guia de Campo. Brasília: Universidade de Brasília. 
181 pp.

Borges, P.A.L. and Tomás, W.M. 2004. Guia de Rastros e Outros Vestígios de 
Mamíferos do Pantanal. Corumbá: Embrapa Pantanal. 139 pp.

Catzeflis, F., Patton J., Percequillo, A., Bonvicino, C. and Weksler, M. 
2008. Dasyprocta azarae. The IUCN Red List of Threatened Species. 
Version 2014.2. Accessible at: http://www.iucnredlist.org. Captured 
on 02 August 2014.

Carvalho, W.D. 2011. Mamíferos Não-voadores da Reserva Biológica da 
Serra do Japi, São Paulo: Avaliação da Eficiência e Metodologia de 
Captura. M.Sc. dissertation. Seropédica: Universidade Federal Rural 
do Rio de Janeiro. 92 pp.

de Vivo, M., Carmignotto, A.P., Gregorin, R., Hingst-Zaher, E., Iack-Ximenes, 
G.E., Miretzki, M., Percequillo, A.R., Rollo., M.M., Rossi, R.V. and Taddei 
V.A. 2010. Checklist of mammals from São Paulo State, Brazil. Biota 
Neotropica 11(1a). Accessible at http://www.biotaneotropica.org.
br/v11n1a/en/abstract?inventory+bn0071101a2011. Captured on 
May 2014.

Dias, W.A.F., Tezori, R.F.F., Oliveira, A.K. 2012. Registro de mamíferos de 
médio e grande porte em dois fragmentos florestais no município de 
São Carlos, Estado de São Paulo. Multiciência 11: 277–293.

Dietz, J.M. 1985. Chrysocyon brachyurus. Mammalian Species 234(1): 1–4.
Dotta, G. 2005. Diversidade de mamíferos de médio e grande porte em 

relação à paisagem da Bacia do Rio Passa-Cinco, São Paulo. M.Sc. 
dissertation Ecologia de Agroecossistemas. Piracicaba: Universidade 
de São Paulo, USP-ESALQ. Accessible at (http://www.teses.usp.br/
teses/disponiveis/91/91131/tde-07072005-150411/). Captured 
on 02 August 2014.

Fundação SOS Mata Atlântica / Instituto Nacional de Pesquisas Espaciais 
(Org.). 2014. Atlas dos Remanescentes Florestais da Mata Atlântica 
Período 2012–2013: Relatório Técnico. São Paulo: SOSMA/INPE. 
61 pp. Accessible at http://www.sosma.org.br/wp-content/
uploads/2014/05/atlas_2012-2013_relatorio_tecnico_20141.pdf. 
Captured on 28 May 2014.

Kronka, F.J.N., M.A. Nalon, C.K. Matsukuma, M.M. Kanashiro, M.S.S. Ywane, 
M. Pavão., G. Durigan, L.M.P.R. Lima, J.R. Guillaumon, J.B. Baitello, S.C. 
Borgo, L.A. Maneti, A.M.F Barradas, J.C. Fukuda, C.N. Shida, C.H.B. 
Monteiro, A.A.S. Pontinha, G.G. Andrade, O. Barbosa and A.P. Soares. 
2005. Inventário Florestal da Vegetação Natural do Estado de São 
Paulo. São Paulo: Secretaria do Meio Ambiente, Instituto Florestal, 
Imprensa Oficial. 200 pp.

Laurance, S.G. and Laurance, W.F. 1999. Tropical wildlife: Use of linear 
rainforest remnants by arboreal mammals. Biological Conservation 
91(1): 231–239.

Lynch-Alfaro, J.; Silva-Jr, J.S. and Rylands, A.B. 2012. How different are 
robust and gracile capuchin monkeys? An argument for the use of 
Sapajus and Cebus. American Journal of Primatology 74(4): 273–286 
(doi: 10.1002/ajp.22007).

Mesquita, C.A.B., and Vieira, M.C.W. (orgs.). 2004. RPPN: Reservas 
particulares do patrimônio natural da mata atlântica. Caderno da 
Reserva da Biosfera da Mata Atlântica: Série Conservação e Áreas 

http://www.iucnredlist.org/
http://www.biotaneotropica.org.br/v11n1a/en/abstract?inventory+bn0071101a2011
http://www.biotaneotropica.org.br/v11n1a/en/abstract?inventory+bn0071101a2011
http://www.teses.usp.br/teses/disponiveis/91/91131/tde-07072005-150411/
http://www.teses.usp.br/teses/disponiveis/91/91131/tde-07072005-150411/
http://www.sosma.org.br/wp-content/uploads/2014/05/atlas_2012-2013_relatorio_tecnico_20141.pdf
http://www.sosma.org.br/wp-content/uploads/2014/05/atlas_2012-2013_relatorio_tecnico_20141.pdf
http://dx.doi.org/10.1002/ajp.22007


1004

Reale et al. | Medium and large-sized mammals in a private reserve, Jaú, São Paulo, Brazil

Protegidas Nº 28. São Paulo: Conselho Nacional da Reserva da 
Biosfera da Mata Atlântica, 56 pp.

Noss, R.F., O’Connell, M.A. and Murphy, D.D. 1997. The Science of 
Conservation Planning: Habitat Conservation Under the Endangered 
Species Act. Washington, D.C.: Island Press. 239 pp.

Paglia, A.P., Fonseca, G.A.B. da, Rylands, A. B., Herrmann, G., Aguiar, L.M.S., 
Chiarello, A.G., Leite, Y.L.R., Costa, L.P., Siciliano, S., Kierulff, M.C.M., 
Mendes, S.L., Tavares, V. da C., Mittermeier, R.A. and Patton J.L. 2012. 
Annotated Checklist of Brazilian Mammals. 2nd ed. Conservation 
International, Occasional Papers in Conservation Biology 06: 76 pp.

Pardini, R. Ditt, E.H., Culler Jr., L., Bassi, C. and Rudran, R. 2003. 
Levantamento rápido de mamíferos terrestres de Médio e Grande 
Porte; pp. 184–201, in: Cullen-Jr., L., Rudran, R. and Valladares-Padua, 
C. (orgs), Métodos de Estudos em Biologia da Conservação e Manejo da 
Vida Silvestre. Curitiba: Editora da Universidade Federal do Paraná.

Soulé, M. E. 2000. The social and biological universals of nature protection. 
Anais do 2º Congresso Brasileiro de Unidades de Conservação. Rede 
Nacional de Pró-Unidades de Conservação/Fundação O Boticário 

de Proteção à Natureza. Campo Grande, Mato Grosso do Sul. Vol. 1, 
pp. 85–91; in: Vidolin, G.P. 2000. Aspectos Bio-ecológicos de Puma 
concolor (Linnaeus, 1771), Leopardus pardalis (Linnaeus, 1758) e 
Leopardus tigrinus (Schreber, 1775) na Reserva Natural Salto Morato, 
Guaraqueçaba, Paraná, Brasil. M.S. disseration. UFPR.

Souza, A.M. and Veniziani-Jr, J.C.T. 2012. As florestas de Jaú. Instituto 
Pró-Terra, Série Técnica, 01: 1-18. Accessible at: http://www.
institutoproterra.com.br. Captured: 2 August 2014.

Srbek-Araujo, A.C. and Chiarello, A.G. 2007. Armadilhas fotográficas 
na amostragem de mamíferos: considerações metodológicas e 
comparação de equipamentos. Revista Brasileira de Zoologia 24(3): 
647–656.

Received: April 2014
Accepted: August 2014
Published online: October 2014
Editorial responsibility: Guilherme Garbino

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