MEM INST OSWALDO CRUZ, RIO DE JANEIRO, 97(1) January 2002
PAGES: 37-41 DOI: Full paper
Cattle Dung Breeding Diptera in Pastures in Southeastern Brazil: Diversity, Abundance and Seasonallity

Júlio Mendes, Arício Xavier Linhares* +

Departamento de Patologia, Universidade Federal de Uberlândia, Uberlândia, MG, Brasil
*Departamento de Parasitologia, IB, Universidade Estadual de Campinas, Caixa Postal 6109, 13083-970 Campinas, SP, Brasil

Abstract

Diptera that breed in undisturbed cattle droppings in pastures present great diversity and abundance, and several species are of veterinary importance and may cause economic losses. To survey the diversity, abundance and seasonality of Diptera associated to this microhabitat, 83 samples of 10 dung pats each were taken from April 1992 to April 1994 in the vicinity of São Carlos, State of São Paulo, Southeastern Brazil. A total of 46,135 Diptera belonging to 20 families and at least 51 species were found to breed in the pats. The most abundant and diverse families were Sepsidae, Muscidae, Sarcophagidae and Sphaeroceridae. In general, the abundance was higher from October to March, the warm and wet months. The importance of some Diptera, both as horn fly enemies and as cattle dung decaying agents, is discussed.

Cattle dung pats naturally dropped in pastures are the microhabitat for an abundant and diversified arthropod fauna (Merrit & Anderson 1977, Anderson et al. 1984, Blume 1985, Cervenka & Moon 1991). The coprophagous community is represented mainly by Scarabaeidae (Coleoptera) and Diptera that are the most important decaying agents of the dung pats (Laurence 1955, Nibaruta 1982, Anderson et al. 1984, Cervenka & Moon 1991). Dung breeding Diptera are generally the most diverse group in cattle dung pats (Poorbaugh et al. 1968, Nibaruta 1982, Blume 1985, Cervenka & Moon 1991), and several species, such as the face fly Musca autumnalis (De Geer 1776) and Haematobia spp. (Diptera: Muscidae) are of veterinary importance (Lancaster & Meish 1986).

The recent introduction of the horn fly Haematobia irritans (Linnaeus 1758) into Northern Brazil, and its quick dispersion to practically the entire country, stimulated investigations on the arthropod community of cattle dung pats in pastures (Valério & Guimarães 1983, Fava et al. 1994, Flechtmann et al. 1995a,b, Mendes & Linhares 1999). Such community plays an important role in the dung pat decay process and in the natural control of dung breeding pests (MacQueen & Beirne 1975, Merrit & Anderson 1977, Roth et al. 1983, Anderson et al. 1984, Harris & Blume 1986, Hanski 1987, Fay et al. 1990). Information on arthropod dung community is important not only to biological and integrated control programs, but also to the implementation of control programs of pests that breed in cattle droppings. However, there are very few studies published on this subject in Brazil, restricted to a few localities (Oliveira et al. 1993, Souza e Silva 1993, Flechtmann et al. 1995a,b, Mendes & Linhares 1999). This paper presents data on diversity, abundance and seasonality of cattle dung breeding Diptera in the vicinity of São Carlos city, State of São Paulo, Southeastern Brazil.

 

MATERIALS AND METHODS

The experimental sites were pastures of Brachiaria decumbens Saft. and Andropogon gayanus Kunth at Fazenda Canchim, a farm belonging to Empresa Brasileira de Pesquisa Agropecuária (Embrapa), located about 10 km northeast from São Carlos city. Ten naturally dropped cattle dung pats, approximately 24 h old, and the substract 5 cm underneath them were collected weekly during morning hours, placed in individual plastic containers and taken to the Entomology Laboratory of the Department of Parasitology, Campinas State University (Unicamp), about 150 km southeast of São Carlos. A total of 83 samples, yielding 830 pats, was collected from April 1992 to April 1993. In each sample, a quarter of four dung pats and the underlying substrate were placed into Berlese funnels to extract the Coleoptera and Macrochelidae mites, and the results will be published elsewhere. The remaining of the dung pats in the containers were covered with organza and kept at room temperature until the complete emergence of all Diptera. This procedure took approximately 30-40 days in the warm months and 40-50 days in the cooler months. Emerging Diptera and other arthropods were collected daily and placed in 70% alcohol for identification. The substract was then placed in water to extract, by flotation, any remaining viable pupa from which adults had not yet emerged. The collected pupae were kept in transparent gelatin capsules for adult emergence. Diptera identification were done using the identification keys of McAlpine (1981, 1987). The species were grouped into trophic groups following Valiela (1974) and Hanski (1987). To test for any correlation among family's abundances, the Pearson's correlation analysis was done using SASâ PROC CORR procedure (SAS 1987).

 

RESULTS

A total of 46,135 Diptera was obtained, belonging to 20 families and to at least 51 species. The most diverse and abundant families were Muscidae, Sepsidae, Sarco-phagidae and Sphaeroceridae (Table). The oscillations in temperature and rainfall during the two experimental years determined a warm and humid period from October to March, and a cool and dry period from April to September (Fig. 1). When compared to the warm months, the emergence time during the cool period lasted 5 to 10 days longer. The majority of the Diptera emerged within the first 20 days during the warm months and within the first 25 days in the dry period. The most abundant Diptera can be divided into three groups according to emergence time: (1) Sepsidae; BrontaeadebilisCalythea sp., Haematobia irritans (Muscidae); Sarcophagula occidua (Sarcophagidae) and part of the Sphaeroceridae that emerged during the first 10 days after the dung pats were collect from pastures; (2) the remaining Muscidae, Sarcophagidae and Sphaeroceridae that emerged between the 11th and the 20th days (3) Tipulidae, Sciaridae and Stratiomyidae that began to emerge after the 20th day. In general, the species presented greater abundance during the warm and humid period (Figs 2-5). The exceptions were Biopyrellia bipuncta (Fig. 2), Calythea sp. (Fig. 3) and Coproica sp. (Fig. 4)that were also abundant during the cold and dry period. The correlation coefficient was positive and significant for the most abundant families: Sepsidae vs. Sarcophagidae (r = +0.56; p < 0.0001); Sepsidae vs. Sphaeroceridae (r = +0.53; p < 0.0001); Muscidae vs. Sarcophagidae (r = +0.73; p < 0.0001).

 

DISCUSSION

As reported by other authors (Cervenka & Moon 1991, Souza e Silva 1993), some loss of small sized specimens occurred, mainly during the extraction from the pats, but apparently, this fact did not influence the results, because of the great abundance of these insects in the samples. Although many authors state that Diptera species usually visit and lay eggs in dung pats within the first 24 h of dung exposition, results of Barth et al. (1994) indicate that low abundance or absence of some species would be the result of breeding preference by such species for older dung pats. In addition, some species of Sphaeroceridae and Sepsidae may have more than one generation in the dung pat (Laurence 1955, Souza e Silva 1993). The successional pattern of adult emergence was similar to that found by Nibaruta (1982) and Souza e Silva (1993). However, our results on emergence times differed from those of Nibaruta (1982). The low abundanceof H. irritans may be attributed to the genetic resistance of the host, cattle breeding management procedures, and to its natural enemies found in the dung. The significant Muscidae and Sepsidae diversities were also recently verified in this country by Oliveira et al. (1993), Souza e Silva (1993), and Flechtmann et al. (1995). Although the Sepsidae are generally abundant, they are not considered to be important H. irritans competitors or dung decaying agents. Their larvae are considered dung tunnelers, contributing to pat aeration, which can help dung colonization by other arthropods, and to dung loss of water. Therefore, they aid in the natural control of H. irritans. The correlation analysis suggests that the observed abundances of Sarcophagidae and Brontaea spp. may be enough to promote a statistically significant reduction in the abundances of other analyzed groups. Larvae of these two groups are known to be facultative predators in some situations (Harris & Blume 1986, Ferrar 1987, Hanski 1987). It is also important to point out the possibility that some adults of Diptera may act as transporters of Dermatobia hominis (Diptera: Cuterebridae) eggs (Artigas & Serra 1965, Oliveira 1986).

 

ACKNOWLDGEMENTS

Diptera identification was done partly with the help of Dr Denise Pamplona, Dr Marcia Souto Couri and Dr Rita Tibana from Museu Nacional do Rio de Janeiro.

 

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