Abstract
Sapajus nigritus (Primates: Cebidae) is endemic of the Atlantic Forest, occurring from the Southeastern and Southern regions of Brazil to Northeastern Argentina. This species plays a role in two ecosystem services: seed dispersal through endozoochory and insect population control in agricultural plantations and forest environments. Fruits and invertebrates represent approximately 90% of their diet, and there is a large number of insects in the diet of S. nigritus in urban and conserved areas. However, it is known that insect diversity decreases in anthropized environments. Our objective was to identify the insects present in the fecal samples of S. nigritus from five Conservation Units in Rio de Janeiro state, Brazil. We aim to estimate the percentage of each taxon of insects found in feces either, hypothesizing that there are a greater variety of insect species in the diet of S. nigritus that inhabit preserved forested areas. A fecal screening was conducted using a light microscopy and the insects were identified based on their external morphology. Insect fragments were found in eight out of ten fecal samples of S. nigritus, revealing that they belonged to insects from five orders: Hymenoptera, Hemiptera, Orthoptera, Coleoptera and Blattodea, suggesting a good conservation status of the sampling areas.
Key words
ecosystem services; invertebrates; neotropical primates; primate diet
INTRODUCTION
The capuchin monkey, Sapajus spp. (Primates: Cebidae), inhabits the north region of South America, Southern Brazil and Northeastern Argentina (Vilanova et al. 2005VILANOVA R, DE SOUSA E SILVA J, GRELLE CEV, MARROIG G & CERQUEIRA R. 2005. Limites climáticos e vegetacionais das distribuições de Cebus nigritus e Cebus robustus (Cebinae, Platyrrhini). Neotrop Primates 13: 14., Lynch Alfaro et al. 2012LYNCH ALFARO JW ET AL. 2012. Explosive Pleistocene range expansion leads to widespread Amazonian sympatry between robust and gracile capuchin monkeys. J Biogeogr 39: 272-288.). Currently, eight species are recognized: Sapajus apella, S. macrocephalus, S. libidinosus, S. cay, S. robustus, S. xanthosternos and S. nigritus (Lynch Alfaro et al. 2012LYNCH ALFARO JW ET AL. 2012. Explosive Pleistocene range expansion leads to widespread Amazonian sympatry between robust and gracile capuchin monkeys. J Biogeogr 39: 272-288.). The latter, Sapajus nigritus (Goldfuss 1989), is endemic to the Atlantic Forest, with a distribution mostly in the Southeastern and Southern regions of Brazil, as well as Northeastern Argentina (Rylands et al. 2005RYLANDS AB, KIERULFF MCM & MITTERMEIER RA. 2005. Notes on the taxonomy and distributions of the tufted capuchin monkey (Cebus, Cebidae) of South America. Lundiana 6: 97-100., Lynch Alfaro et al. 2012LYNCH ALFARO JW ET AL. 2012. Explosive Pleistocene range expansion leads to widespread Amazonian sympatry between robust and gracile capuchin monkeys. J Biogeogr 39: 272-288.). As an opportunistic feeding species, S. nigritus also occupies forest fragments near agricultural plantations and urban areas (Cowlishaw & Dunbar 2000COWLISHAW G & DUNBAR I. 2000. Primate conservation biology. Chicago: University of Chicago Press, p. 498-498., Corrêa et al. 2018CORRÊA FM, CHAVES ÓM, PRINTES RC & ROMANOWSKI HP. 2018. Surviving in the urban–rural interface: Feeding and ranging behavior of brown howlers (Alouatta guariba clamitans) in an urban fragment in southern Brazil. Am J Primatol: e22865., Gonçalves 2019GONÇALVES BA. 2019. A diversidade da dieta de macacos-prego (Sapajus spp.) em um fragmento urbano no Sul do Brasil. Thesis. Foz do Iguaçu: Universidade Federal da Integração Latino-Americana. (Unpublished)., Mikich et al. 2015MIKICH SB, LIEBSCH D, DE ALMEIDA A & MIYAZAKI RD. 2015. O papel do macaco-prego Sapajus nigritus na dispersão de sementes e no controle potencial de insetos pragas em cultivos agrícolas e florestais. In: Paron LM, Garcia JR, Oliveira EB, Brown GG & Prado RB. (Eds), Serviços Ambientais em Sistemas Agrícolas e Florestais do Bioma Mata Atlântica. Brasília: Embrapa, p. 250-258.) and according to its trophic plasticity, its diet tends to be adapted to the available resources (Brown & Zunino 1990BROWN AD & ZUNINO GE. 1990. Dietary Variability in Cebus apella in Extreme Habitats: Evidence for Adaptability. Folia Primatol 54: 187-195., Ludwig et al. 2005LUDWIG G, AGUIAR LM & ROCHA VJ. 2005. Uma Avaliação da Dieta, da Área de Vida e das Estimativas Populacionais de Cebus nigritus (Goldfuss, 1809) em um Fragmento Florestal no Norte do Estado do Paraná. Neotrop Primates 13: 12-18.). Due to the variety of their diet, these primates play an important role in ecosystem services, such as seed dispersal through endozoochory and insect population control in agricultural plantations and forest environments (Mikich et al. 2015MIKICH SB, LIEBSCH D, DE ALMEIDA A & MIYAZAKI RD. 2015. O papel do macaco-prego Sapajus nigritus na dispersão de sementes e no controle potencial de insetos pragas em cultivos agrícolas e florestais. In: Paron LM, Garcia JR, Oliveira EB, Brown GG & Prado RB. (Eds), Serviços Ambientais em Sistemas Agrícolas e Florestais do Bioma Mata Atlântica. Brasília: Embrapa, p. 250-258., Liebsch et al. 2018LIEBSCH D, MIKICH SB & ALMEIDA A DE. 2018. Espécies e práticas indicadas para o enriquecimento da Floresta com Araucária visando reduzir os danos causados por macacos- prego a plantações florestais, 1st ed., Embrapa Florestas, p. 2-14.).
Sapajus nigritus (Primates: Cebidae) is omnivorous with a diet based on leaves, sap, seeds, nectar, eggs, ripe, small vertebrates, fruits, and invertebrates (Ludwig et al. 2005LUDWIG G, AGUIAR LM & ROCHA VJ. 2005. Uma Avaliação da Dieta, da Área de Vida e das Estimativas Populacionais de Cebus nigritus (Goldfuss, 1809) em um Fragmento Florestal no Norte do Estado do Paraná. Neotrop Primates 13: 12-18., Mikich 2001MIKICH SB. 2001. Frugivoria e dispersão de sementes em uma pequena reserva isolada do Estado do Paraná. Thesis. Curitiba: Universidade Federal do Paraná. (Unpublished).). The last two items represent approximately 90% of their diet (Mikich 2001MIKICH SB. 2001. Frugivoria e dispersão de sementes em uma pequena reserva isolada do Estado do Paraná. Thesis. Curitiba: Universidade Federal do Paraná. (Unpublished)., Ludwig et al. 2005LUDWIG G, AGUIAR LM & ROCHA VJ. 2005. Uma Avaliação da Dieta, da Área de Vida e das Estimativas Populacionais de Cebus nigritus (Goldfuss, 1809) em um Fragmento Florestal no Norte do Estado do Paraná. Neotrop Primates 13: 12-18., Gonçalves 2019GONÇALVES BA. 2019. A diversidade da dieta de macacos-prego (Sapajus spp.) em um fragmento urbano no Sul do Brasil. Thesis. Foz do Iguaçu: Universidade Federal da Integração Latino-Americana. (Unpublished).). This species has wide canine teeth capable of tearing food (Mikich & Liebsch 2014MIKICH SB & LIEBSCH D. 2014. Damage to forest plantations by tufted capuchins (Sapajus nigritus): Too many monkeys or not enough fruits? For Ecol Manage 314: 9-16.) and has specialized abilities for food capture and manipulation, which allow them to dig surfaces by removing tree bark to search for small invertebrates (Mannu & Ottoni 2009MANNU M & OTTONI EB. 2009. The enhanced toolkit of two groups of wild bearded capuchin monkeys in the Caatinga: tool making, associative use, and secondary tools. Am J Primatol 71: 242-251.). In addition, the protein intake is directly related to the consumption of invertebrates (Rothman et al. 2014ROTHMAN JM, RAUBENHEIMER D, BRYER MAH, TAKAHASHI M & GILBERT CC. 2014. Nutritional contributions of insects to primate diets: Implications for primate evolution. J Hum Evol 71: 59-69., Santos 2015SANTOS L. 2015. Parâmetros nutricionais da dieta de duas populações de macacos-prego: Sapajus libidinosus no ecótono Cerrado/Caatinga e Sapajus nigritus na Mata Atlântica. Thesis. São Paulo: Universidade de São Paulo. (Unpublished).), and this essential nutrient is a limiting component for wild animals because, for vertebrates, they are only provided by feeding (Santos 2015SANTOS L. 2015. Parâmetros nutricionais da dieta de duas populações de macacos-prego: Sapajus libidinosus no ecótono Cerrado/Caatinga e Sapajus nigritus na Mata Atlântica. Thesis. São Paulo: Universidade de São Paulo. (Unpublished)., Barboza et al. 2009BARBOZA PS, PARKER KL & HUME ID. 2009. Integrative wildlife nutrition. Springer Science & Business Media, 342 p.). Its varied diet ensures nutritional and energy sources that contribute for survival and individual reproduction (Garber 1987GARBER P. 1987. Foraging Strategies among Living Primates. Annu Rev Anthropol 16: 339- 364., Jesus et al. 2022). A wide insect variety has been found in the S. nigritus diet, including the orders Orthoptera, Hymenoptera, Hemiptera, Coleoptera, Blattodea, Diptera and Lepidoptera (Mikich et al. 2015MIKICH SB, LIEBSCH D, DE ALMEIDA A & MIYAZAKI RD. 2015. O papel do macaco-prego Sapajus nigritus na dispersão de sementes e no controle potencial de insetos pragas em cultivos agrícolas e florestais. In: Paron LM, Garcia JR, Oliveira EB, Brown GG & Prado RB. (Eds), Serviços Ambientais em Sistemas Agrícolas e Florestais do Bioma Mata Atlântica. Brasília: Embrapa, p. 250-258., Ludwig et al. 2005LUDWIG G, AGUIAR LM & ROCHA VJ. 2005. Uma Avaliação da Dieta, da Área de Vida e das Estimativas Populacionais de Cebus nigritus (Goldfuss, 1809) em um Fragmento Florestal no Norte do Estado do Paraná. Neotrop Primates 13: 12-18.).
In areas with a high degree of conservation, invertebrates are food items often described in the primate diet (Pickett et al. 2012PICKETT SB, BERGEY CM & DI FIORE A. 2012. A metagenomic study of primate insect diet diversity. Am J Primatol 74: 622-631., Jesus et al. 2022). Similarly, in forest fragments even when close to urban centers and agricultural plantations, it was found that Sapajus sp. does not abandon wild foods, including the consumption of invertebrates (Galetti & Pedroni 1994GALETTI M & PEDRONI F. 1994. Seasonal diet of capuchin monkeys (Cebus apella) in a semideciduous forest in south-east Brazil. J Trop Ecol 10: 27-39., Gonçalves 2019GONÇALVES BA. 2019. A diversidade da dieta de macacos-prego (Sapajus spp.) em um fragmento urbano no Sul do Brasil. Thesis. Foz do Iguaçu: Universidade Federal da Integração Latino-Americana. (Unpublished).). In a forest fragment in the urban matrix in Foz do Iguaçu in Paraná state, Southern Brazil, despite the abundant supply of anthropogenic food sources, it was noticed a high consumption of invertebrates (45.73%), followed by fruits (40.41%) among the items identified in the diet of Sapajus spp. (Gonçalves 2019GONÇALVES BA. 2019. A diversidade da dieta de macacos-prego (Sapajus spp.) em um fragmento urbano no Sul do Brasil. Thesis. Foz do Iguaçu: Universidade Federal da Integração Latino-Americana. (Unpublished).).
Within invertebrates, insects are highly occurring organisms in tropical forests, accounting for 89% of terrestrial animals (Buzzi & Miyazaki 1993), but a reduction in insect diversity due to natural disturbances such as environmental fragmentation and anthropization is observed (Thomazini & Thomazini 2002). Thus, insects are bioindicators of environmental impacts and have varied roles in ecosystem functioning (Thomazini & Thomazini 2002). Considering the importance of assessing the actual need for conservation, since the S. nigritus is significantly impacted by natural disturbances, particularly forest resource exploitation (Chapman et al. 2013CHAPMAN CA, GHAI R, JACOB A, KOOJO SM, REYNA-HURTADO R, ROTHMAN JM, TWINOMUGISHA D, WASSERMAN MD & GOLDBERG TL. 2013. Going, going, gone: A 15-year history of the decline of primates in forest fragments near Kibale National Park, Uganda. In: Primates in Fragments: Complexity and Resilience. Springer New York, p. 89-100.), and understanding the dietary intake of primates, according to their diet flexibility and the location they inhabit, can provide us information on the impact of primates and their ecological functions for species conservation planning (Chapman et al. 2012CHAPMAN CA, ROTHMAN JM & LAMBERT JE. 2012. Food as a selective force in primates. University of Chicago Press, p. 150-168.).
There are several methodologies to evaluate the diet of primates, among them, the analysis of fecal samples (Moreno-Black 1978MORENO-BLACK G. 1978. The Use of Scat Samples in Primate Diet Analysis. Primates 19: 215-221., Mikich et al. 2015MIKICH SB, LIEBSCH D, DE ALMEIDA A & MIYAZAKI RD. 2015. O papel do macaco-prego Sapajus nigritus na dispersão de sementes e no controle potencial de insetos pragas em cultivos agrícolas e florestais. In: Paron LM, Garcia JR, Oliveira EB, Brown GG & Prado RB. (Eds), Serviços Ambientais em Sistemas Agrícolas e Florestais do Bioma Mata Atlântica. Brasília: Embrapa, p. 250-258., Ludwig et al. 2005LUDWIG G, AGUIAR LM & ROCHA VJ. 2005. Uma Avaliação da Dieta, da Área de Vida e das Estimativas Populacionais de Cebus nigritus (Goldfuss, 1809) em um Fragmento Florestal no Norte do Estado do Paraná. Neotrop Primates 13: 12-18.), direct observation of individuals foraging behavior (Gonçalves 2019GONÇALVES BA. 2019. A diversidade da dieta de macacos-prego (Sapajus spp.) em um fragmento urbano no Sul do Brasil. Thesis. Foz do Iguaçu: Universidade Federal da Integração Latino-Americana. (Unpublished)., Moreno-Black 1978MORENO-BLACK G. 1978. The Use of Scat Samples in Primate Diet Analysis. Primates 19: 215-221., Bione 2011BIONE CBC. 2011. Comportamento de forrageio e utilização de ferramentas pelo Cebus flavius (Primates: Cebidae) na natureza. Thesis. Recife: Universidade Federal de Pernambuco. (Unpublished).), and metagenomic studies (Pickett et al. 2012PICKETT SB, BERGEY CM & DI FIORE A. 2012. A metagenomic study of primate insect diet diversity. Am J Primatol 74: 622-631.). The first type of analysis can be done from samples obtained during captures for different research purposes and even in the case of samples found in resting places of primate groups (Pickett et al. 2012PICKETT SB, BERGEY CM & DI FIORE A. 2012. A metagenomic study of primate insect diet diversity. Am J Primatol 74: 622-631.).
Our objective was to identify by light microscopy the taxonomic order of insects found in the diet of S. nigritus through fecal samples collected during the capture of individuals in five Conservation Units of the Atlantic Forest in the state of Rio de Janeiro. We will seek to advance to the maximum in identification. We hypothesized that there are a variety of insect species in the diet of Sapajus nigritus that inhabit preserved forested areas. Additionally, we aim to estimate the percentage of each taxon of insects found in feces.
MATERIALS AND METHODS
Sampling areas
Sampling was conducted in the following five Conservation Units in Rio de Janeiro state: Itatiaia National Park (IT), Marambaia Island (MI), Tijuca National Park (TI) Poço das Antas Biological Reserve (PA) and Serra dos Órgãos National Park (SO) (Figure 1). IT is located in Serra da Mantiqueira (22°27’S/44°36’W) with 280 km2 (Morim & Barroso 2007MORIM MP & BARROSO GM. 2007. Leguminosae arbustivas e arbóreas da floresta atlântica do Parque Nacional do Itatiaia, sudeste do Brasil: subfamílias Caesalpinioideae e Mimosoideae. Rodriguésia 58: 423-468.) covering the municipalities of Resende and Itatiaia in the Southwest of Rio de Janeiro state and South of Minas Gerais state. The area has mountainous relief with the Pico das Agulhas Negras (the fifth highest point in the country), and it is the first National Park in Brazil by state decree 1.173/37 (Brasil 1937BRASIL. 1937. Decreto no 1.173, de 14 de junho de 1937. Cria o Parque Nacional de Itatiaia.). MI is in the municipality of Mangaratiba in the South of the state of Rio de Janeiro (23°04’S/43°53’W), has 42 km2 of area with mountainous relief and is included in the Environmental Protection Area of Mangaratiba by state decree 9.802/87 (Brasil 1987BRASIL. 1987. Decreto no 9.802, de 12 de março de 1987. Cria a Área de Proteção Ambiental de Mangaratiba e dá outras providências.). TI is part of Serra da Carioca (22°57’S/43°14’W) located in Rio de Janeiro city, comprising an area of 32 km2 (Freitas et al. 2006FREITAS SR, NEVES CL & CHERNICHARO P. 2006. Tijuca National Park: two pioneering restorationist initiatives in Atlantic Forest in southeastern Brazil. Braz J Biol 66: 975-982.) and was categorized as a National Park by federal decree 50.923/61 (Brasil 1961BRASIL. 1961. Decreto no 50.923, de 6 de julho de 1961. Cria o Parque Nacional do Rio de Janeiro, no estado da Guanabara.). PA in Casimiro de Abreu and Silva Jardim municipalities (22°30’S/42°15’W), has 50 km2 and was the first Biological Reserve in Brazil by decree 73.791/74 (Brasil 1974BRASIL. 1974. Decreto no 73.791, de 11 de março de 1974. Cria a Reserva Biológica Nacional de Poço das Antas, no estado do Rio de Janeiro com os limites que especifica e dá outras providências.). SO (22°23’S/43°10’W) covers four municipalities (Petrópolis, Magé, Guapimirim and Teresópolis) in the state of Rio de Janeiro with 200 km2 of area (Guimarães et al. 2009GUIMARÃES RF, GOMES RAT, DE CARVALHO JÚNIOR OA, MARTINS É ES, DE OLIVEIRA SN & FERNANDES NF. 2009. Análise temporal das áreas susceptíveis a escorregamentos rasos no Parque Nacional da Serra dos Órgãos (RJ) a partir de dados pluviométricos. Rev Bras Geo 39: 190-198., Aximoff et al. 2015AXIMOFF I, CRONEMBERGER C & PEREIRA F DE A. 2015. Long-term survey by camera traps of non-volant mammals in two national parks in Rio de Janeiro State. Oecol Aust 19: 215-231.) and was created by decree 1.822/39 (Brasil 1939BRASIL. 1939. Decreto no 1.822, de 30 de novembro de 1939. Cria o Parque Nacional da Serra dos Órgãos.).
Sapajus nigritus fecal samples collection sites in five Conservation Unities in the state of Rio de Janeiro, Brazil. (1) Itatiaia National Park; (2) Marambaia Island; (3) Tijuca National Park; (4) Serra dos Órgãos National Park; (5) Poço das Antas Biological Reserve.
Sample collection and fecal analysis
Ten individuals of Sapajus nigritus were captured at different times in five Conservation Unities in Rio de Janeiro state, with some degree of environmental protection: Marambaia Island (MI), Tijuca National Park (TI), Itatiaia National Park (IT), Poço das Antas Biological Reserve (PA) and Serra dos Órgãos National Park (SO) in 2015, 2017 and 2019. The fecal samples were collected from five adult males (three from MI and two from TI), one sub-adult male (SO), that has intermediate characteristics between the adult and young (Izawa 1980IZAWA K. 1980. Social Behavior of the wild black-capped Capuchin (Cebus apella). Primates 21: 443-467.), one young male (MI), two adult females (from MI and PA), and one young female (IT), that did not have marked tufted hair on the crown (Izawa 1980IZAWA K. 1980. Social Behavior of the wild black-capped Capuchin (Cebus apella). Primates 21: 443-467.).
The animals were captured with Tomahawk traps (70 x 40 x 40 cm and 115 x 45 x 45 cm, being CxLxA) set up on top of bamboo platforms. The individuals were sedated with intramuscular injection of Ketamine hydrochloride (15 mg/kg) and Midazolam (0.05/kg), in the thigh for collection of blood and morphological measurements for population genetic analysis. The feces were collected during these procedures and each one was stored in 70% ethanol solution in Falcon tubes of 15 mL, kept refrigerated. After recovering from sedation, the individuals were released at the same place of capture. All procedures were approved by the Ethic Committee of Animal Use from the Instituto de Ciências Biológicas e da Saúde of the Universidade Federal Rural do Rio de Janeiro (013/2018) authorized by SISBIO/ICMBio (license 57417-6).
The fecal screening was performed with a NOVAXTX-5C stereomicroscopic with a 20x magnification. The samples were placed in a Petri dish and with the aid of fine-tipped tweezers, fruit remains, seeds and invertebrates body fragments were separated and stored under refrigeration. The invertebrates found were photographed at different angles with a Leica M205C stereomicroscope, obtaining photographs for staking performed in LAS Suite V2.0 software aiming to achieve the most accurate taxonomic identification.
RESULTS
Insect fragments were found in the eight fecal samples of ten different individuals of Sapajus nigritus captured from five Conservation Unities in the state of Rio de Janeiro, Brazil. The insect body parts found were legs, heads, antenna, and abdomen.
Insect fragments of Hymenoptera order were evidenced by ambulatory legs with basitarsus represented by the first article of tarsus enlarged (Figure 2a). An intact prey composed of a head with geniculate antenna represented by an elongated scape and pedicel with flagellum forming a 90-degree angle characteristic of ants of the genus Solenopsis from the Formicidae family (Figure 2b). Beyond this, two pointy tubular abdomens with absence of appendages named as gaster, observed in insects of suborder Apocrita of the Hymenoptera family (Figure 2c and 2d), was observed. This order was found in five fecal samples, two from MI, two from TI and one from PA (Table I).
Classification of insects (CI) found in fecal samples of Sapajus nigritus that inhabit Conservation Units in the state of Rio de Janeiro. (a) Hymenoptera leg; (b) Ant of the genus Solenopsis (Formicidae: Hymenoptera); (c) and (d) Two gasters of suborder Apocrita (Hymenoptera); (e) Leg with arolium of order Orthoptera; (f) and (g) Tibias with the presence of thorns of order Hymenoptera; (h) A beetle leg of the Scarabaeidae family, Coleoptera; (i) Beetle leg of order Coleoptera; (j) Beetle body (Coleoptera); (k) A beetle leg of the family Curculionidae, Coleoptera; (l) Antenna of suborder Heteroptera, Hemiptera; (m) Blattodea antenna.
Number of insect fragments (NIF) from fecal samples of Sapajus nigritus (Primates), collected in five Conservation Units (CU) in the state of Rio de Janeiro, Brazil, taxonomic orders identified and date of collection.
A leg with the presence of sensory structures of locusts which characterize an arolium (Figure 2e), many tibias with the presence of thorns, the salter leg of the third pair of legs, with thorns facing back (Figure 2f and 2g) were found indicating the presence of insects of the order Orthoptera. Insect fragments of this order were found in four samples, two samples from MI, one from TI and one from PA, among the food items of Sapajus nigritus (Table I).
From the order Coleoptera it was possible to identify two families based on the fragments of insects found among the diet of S. nigritus. One leg of beetle with dilated tibias and jagged or wavy margin (Figure 2h) of the family Scarabaeidae was found in a sample of MI (Table I). A leg with the bilobate tarsomere, probably being of the Curculionidae family (Figure 2k), a dorsal part of a beetle body with a rigid wing named elytra (Figure 2j) and a beetle leg (Figure 2i) were found in TI samples (Table I).
A part of a setaceous antenna with an escape, pedicel and the first flagellomere, judging by the length of this last segment is characteristic, probably, of bedbugs, order Hemiptera and suborder Heteroptera (Figure 2l). This fragment was found in a fecal sample of MI (Table I).
From the order Blattodea just one beaded antenna with rounded antennomeres (Krishna et al. 2013KRISHNA K, GRIMALDI DA, KRISHNA V & ENGEL MS. 2013. Treatise on the Isoptera of the world. New York: AMNH 377(1-7): 1-2704.) (Figure 2m) was found in one sample of MI (Table I).
In 50% of the fecal samples analyzed from Sapajus nigritus, the order Hymenoptera was found and identified, including the suborder Apocrita, family Formicidae, down to the genus Solenopsis. In 40%, the order Orthoptera was identified. The order Coleoptera, including the families Scarabaeidae and Curculionidae, was identified in 37.5% of the samples. The orders Hemiptera, including the suborder Heteroptera, and the order Blattodea were found in 12.5%. In 10% of the samples, it was not possible to identify any taxonomic level. In 20% of the samples, no insect fragments were found (Figure 3).
Percentage of fecal samples from Sapajus nigritus in which insect orders were found and identified, samples where insects were found but remained unidentified, and samples where no insects were found.
DISCUSSION
In 80% of the fecal samples at least one insect order was found. Among these, it was possible to identify insects in 90%. In the only sample of IT, two insect fragments were found, but they could not be identified. Despite being insect body parts, confirmed by their stiffness and appearance, they were broken, making it difficult to identify them. In one sample of MI and in the only one of SO, the presence of insects in the diet was not detected. Out of the total of 57 insect fragments, the highest number was detected in MI (19), followed by PA (12), from three orders in both cases: Hymenoptera and Orthoptera in both, and Hemiptera and Coleoptera in each, respectively.
The fecal sample with the highest quantity of insect fragments was collected in May from Marambaia (MI04), which corresponds to a dry season. This finding supports the hypothesis that insect consumption is expected to increase during this season (Gonçalves 2019GONÇALVES BA. 2019. A diversidade da dieta de macacos-prego (Sapajus spp.) em um fragmento urbano no Sul do Brasil. Thesis. Foz do Iguaçu: Universidade Federal da Integração Latino-Americana. (Unpublished)., Galetti & Pedroni 1994GALETTI M & PEDRONI F. 1994. Seasonal diet of capuchin monkeys (Cebus apella) in a semideciduous forest in south-east Brazil. J Trop Ecol 10: 27-39., Fragaszy et al. 2004FRAGASZY D, VISALBERGHI E & FEDIGAN L. 2004. The Complete Capuchin: The Biology of the Genus Cebus, 1st ed, New York: Cambridge University Press, 345 p.) as capuchin monkeys tend to adopt a more generalist diet (Gonçalves 2019GONÇALVES BA. 2019. A diversidade da dieta de macacos-prego (Sapajus spp.) em um fragmento urbano no Sul do Brasil. Thesis. Foz do Iguaçu: Universidade Federal da Integração Latino-Americana. (Unpublished).).
All the orders found in this study have already been described in the diet of primates, including Sapajus spp. (Gonçalves 2019GONÇALVES BA. 2019. A diversidade da dieta de macacos-prego (Sapajus spp.) em um fragmento urbano no Sul do Brasil. Thesis. Foz do Iguaçu: Universidade Federal da Integração Latino-Americana. (Unpublished)., Ludwig et al. 2005LUDWIG G, AGUIAR LM & ROCHA VJ. 2005. Uma Avaliação da Dieta, da Área de Vida e das Estimativas Populacionais de Cebus nigritus (Goldfuss, 1809) em um Fragmento Florestal no Norte do Estado do Paraná. Neotrop Primates 13: 12-18., Jesus et al. 2022), with the predominance of the orders Orthoptera, Hymenoptera and Coleoptera (Mikich et al. 2015MIKICH SB, LIEBSCH D, DE ALMEIDA A & MIYAZAKI RD. 2015. O papel do macaco-prego Sapajus nigritus na dispersão de sementes e no controle potencial de insetos pragas em cultivos agrícolas e florestais. In: Paron LM, Garcia JR, Oliveira EB, Brown GG & Prado RB. (Eds), Serviços Ambientais em Sistemas Agrícolas e Florestais do Bioma Mata Atlântica. Brasília: Embrapa, p. 250-258., Moreno-Black 1978MORENO-BLACK G. 1978. The Use of Scat Samples in Primate Diet Analysis. Primates 19: 215-221., Ludwig et al. 2005LUDWIG G, AGUIAR LM & ROCHA VJ. 2005. Uma Avaliação da Dieta, da Área de Vida e das Estimativas Populacionais de Cebus nigritus (Goldfuss, 1809) em um Fragmento Florestal no Norte do Estado do Paraná. Neotrop Primates 13: 12-18.). Furthermore, the consumption of insects from the order Blattodea has also been described predominantly in the diet of Sapajus sp. (Jesus et al. 2022).
The diversity of consumed insects tends to vary according to the location and primate species. Regarding studies with Sapajus spp., investigating the diet of 60 individuals of Sapajus nigritus from an urban forest remnant by identifying insect fragments through direct observation and fecal sample analysis, five orders of insects were found, including Coleoptera, Hemiptera, Hymenoptera, Diptera and Lepidoptera (Ludwig et al. 2005LUDWIG G, AGUIAR LM & ROCHA VJ. 2005. Uma Avaliação da Dieta, da Área de Vida e das Estimativas Populacionais de Cebus nigritus (Goldfuss, 1809) em um Fragmento Florestal no Norte do Estado do Paraná. Neotrop Primates 13: 12-18.). Whereas in a preserved area, examining 29 stomach samples from Sapajus spp., nine insect orders were identified, including Hymenoptera with the Formicidae family, as well Coleoptera, Orthoptera, Hemiptera, Blattodea, Diptera, Lepidoptera, Arachnida and Myriapod orders (Jesus et al. 2022). The identification of five insect orders in ten fecal samples from S. nigritus, is suggestive of a good state of conservation in the areas where our samples were collected. It is important to highlight that in areas with high degrees of conservation, primates tend to frequently consume insects (Pickett et al. 2012PICKETT SB, BERGEY CM & DI FIORE A. 2012. A metagenomic study of primate insect diet diversity. Am J Primatol 74: 622-631., Jesus et al. 2022).
In forest fragments surrounded by plantations, wild species need to adapt their diet to survive (Lowry et al. 2013LOWRY H, LILL A & WONG BBM. 2013. Behavioral responses of wildlife to urban environments. Biol Rev Camb Philos Soc 88: 537-549.). Sapajus nigritus, a resident of these locations, is considered an agricultural pest by rural producers, as they invade the plantations while foraging (Ludwig et al. 2006). However, it has been demonstrated that they provide an environmental service by controlling insects, which are also considered pests to the crops (Mikich et al. 2015MIKICH SB, LIEBSCH D, DE ALMEIDA A & MIYAZAKI RD. 2015. O papel do macaco-prego Sapajus nigritus na dispersão de sementes e no controle potencial de insetos pragas em cultivos agrícolas e florestais. In: Paron LM, Garcia JR, Oliveira EB, Brown GG & Prado RB. (Eds), Serviços Ambientais em Sistemas Agrícolas e Florestais do Bioma Mata Atlântica. Brasília: Embrapa, p. 250-258.). So, despite the decrease in insect diversity in fragmented areas due to natural disturbances (Thomazini & Thomazini 2002), capuchin monkeys still consume this food item in these areas to supplement their diet.
Finally, the identification of insects found in fecal samples of S. nigritus through light microscopy was an efficient method, allowing for identification at the genus level, Solenopsis sp. (Formicidae: Hymenoptera). Typically, when using this method, the identification of insects is limited to the order, suborder, and family (Ludwig et al. 2005LUDWIG G, AGUIAR LM & ROCHA VJ. 2005. Uma Avaliação da Dieta, da Área de Vida e das Estimativas Populacionais de Cebus nigritus (Goldfuss, 1809) em um Fragmento Florestal no Norte do Estado do Paraná. Neotrop Primates 13: 12-18., Mikich et al. 2015MIKICH SB, LIEBSCH D, DE ALMEIDA A & MIYAZAKI RD. 2015. O papel do macaco-prego Sapajus nigritus na dispersão de sementes e no controle potencial de insetos pragas em cultivos agrícolas e florestais. In: Paron LM, Garcia JR, Oliveira EB, Brown GG & Prado RB. (Eds), Serviços Ambientais em Sistemas Agrícolas e Florestais do Bioma Mata Atlântica. Brasília: Embrapa, p. 250-258., Gonçalves 2019GONÇALVES BA. 2019. A diversidade da dieta de macacos-prego (Sapajus spp.) em um fragmento urbano no Sul do Brasil. Thesis. Foz do Iguaçu: Universidade Federal da Integração Latino-Americana. (Unpublished).).
ACKNOWLEDGMENTS
We thank the Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro (FAPERJ) for the research support. We thank to Vinícius da Rocha Miranda and Gustavo Henrique Soares Guedes, Ph.D. students from the Universidade Federal Rural do Rio de Janeiro/UFRRJ for the assistance with the insect photographs, to the graduates Carolina Penha da Silva Branco and Fernanda Soares Nogueira, as well as to José Francisco Santos da Silva, laboratory technician, for their support at various stages of the analysis, and to Vinícius Siqueira Gazal e Silva, agronomist and professor in the Department of Entomology and Plant Pathology at UFRRJ, for the assistance in identifying the insect fragments.
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Publication Dates
-
Publication in this collection
09 Sept 2024 -
Date of issue
2024
History
-
Received
01 Dec 2023 -
Accepted
31 May 2024