Cassiano Sousa Rosa

Diet Segregation between Cohabiting Builder and Inquiline Termite Species.

How do termite inquilines manage to cohabit termitaria along with the termite builder species? With this in mind, we analysed one of the several strategies that inquilines could use to circumvent conflicts with their hosts, namely, the use of distinct diets. We inspected overlapping patterns for the diets of several cohabiting Neotropical termite species, as inferred from carbon and nitrogen isotopic signatures for termite individuals. Cohabitant communities from distinct termitaria presented overlapping diet spaces, indicating that they exploited similar diets at the regional scale. When such communities were split into their components, full diet segregation could be observed between builders and inquilines, at regional (environment-wide) and local (termitarium) scales. Additionally, diet segregation among inquilines themselves was also observed in the vast majority of inspected termitaria. Inquiline species distribution among termitaria was not random. Environmental-wide diet similarity, coupled with local diet segregation and deterministic inquiline distribution, could denounce interactions for feeding resources. However, inquilines and builders not sharing the same termitarium, and thus not subject to potential conflicts, still exhibited distinct diets. Moreover, the areas of the builder’s diet space and that of its inquilines did not correlate negatively. Accordingly, the diet areas of builders which hosted inquilines were in average as large as the areas of builders hosting no inquilines. Such results indicate the possibility that dietary partitioning by these cohabiting termites was not majorly driven by current interactive constraints. Rather, it seems to be a result of traits previously fixed in the evolutionary past of cohabitants.

New Records of Termite Hosts for Two Species of Hoplopyga, with Notes on the Life Cycle of Hoplopyga brasiliensis (Coleoptera: Scarabaeidae: Cetoniinae)

ABSTRACT We provide the first report of larvae of Hoplopyga brasiliensis (Gory and Percheron) and H. singuhris (Gory and Percheron) (Coleoptera: Scarabaeidae: Cetoniinae) in nests of Cornitermes cumulans (Kollar) (Isoptera: Termitidae: Syntermitinae) and Dwersitermes diversimiles (Silvestri) (Isoptera: Termitidae: Nasutitermitinae), respectively. We also provide new information on the life cycle of H. brasiliensis and the feeding behavior of adults of H. singularis. In total, 44 larvae of H. brasiliensis were found in a single nest of C. cumulans in apastureland in Coimbra, state of Minas Gerais, Brazil. Larvae of H. singularis were found under nests of D. diversimites at two urban parks in the state of Parana, Brazil. ≈15 larvae of H. singulis in different stages of development and some opened pupal cells were found in some nests of D. diversimiles. We increase the number of known termitophilous Hoplopyga species to three and discuss such relationships in light of published data and new information provided here.

First Record of the Leaf Chafer Beetle Leucothyreus suturalis (Coleoptera: Scarabaeidae: Rutelinae) Inhabiting Termite Nests, With Notes on Its Life History

ABSTRACT We provide the first record of the leaf chafer beetle Leucothyreus suturalis Castelnau (Coleoptera: Scarabaeidae: Rutelinae) associated with nests of Cornitermes cumulans (Kollar) and Silvestritermes holmgreni (Snyder) (Termitidae: Syntermitinae), including notes on the life cycle of the guest. We found 13 third-instar larvae in eight nests of C. cumulans and eight third-instar larvae in a single nest of S. holmgreni located in pasturelands or in forest edges of the Brazilian Atlantic Forest. In nests of both termite species, L. suturalis larvae were found imbedded in peripheral areas of nests. Larval development was similar regardless of the termite host nest. We supplement the knowledge of scarab—termite associations, report the first leaf chafer (Rutelinae) association with termite hosts, and provide life history comparisons of termitophile versus nontermitophile in the genus Leucothyreus MacLeay.

How to preserve termite samples in the field for carbon and nitrogen stable isotope studies

The measurement of stable isotopes of carbon (C) and nitrogen (N) is a powerful tool in ecological studies, since it can indicate food preferences of organisms. This is possible because these isotopes are available in the environment and are acquired during feeding. Thus, the isotopic composition of animal tissues reflects the diet gained and assimilated throughout the animal’s life. Particularly for termites, whose diets vary subtly within a decomposition continuous from sound wood to highly humified material, isotope analyses can be rather revealing. In such cases, carbon isotope signals indicate the source (e.g. C3 or C4 plants), whereas nitrogen isotopes generally reflect the decomposition degree of the diet (although this is not straightforward for wood-feeding termites which are able to fix N2 from the atmosphere). The analyses demand that specimens should be processed soon after collection to prevent deterioration and, therefore, isotopic changes. Termites, however, are highly prone to decompose due to their weakly chitinised and very fragile bodies. For this group, therefore, more attention to prevent deterioration and isotopic alteration is needed. Currently, for isotopic analysis, termites are immediately dried at 608C for 24 h or frozen after collection. Very often, however, collections occur in remote regions, away from wellequipped labs. In such places, fast processing is unfeasible, as this demands the availability of techniques for specimen preservation to avoid sample decomposition. The conventional technique for preserving termites is their immersion in ethanol 80%which maintains the morphological characteristics in the long term. Being an organic compound with liposolvent capabilities, ethanol could affect the carbon content and, hence, be unsuitable for preserving samples for carbon isotopic analyses. This theoretical unsuitability of ethanol, however, has not been always confirmed, for vertebrates and invertebrates. Ethanol-preserved tissues of quails, sheep, turtles and caddisflies, a Trichoptera, have shown no alteration in carbon isotopic signature. Alternatives would include inorganic (carbon-free) preserving substances, of which sodium chloride (NaCl) seems the cheapest, the best known, and also available worldwide. This work, therefore, aimed to establish a technique for preserving termites which would suit field work in remote regions while still allowing dC and dN isotopic analyses. To do so, the isotopic ratios and the C/N ratios of stored samples of Cornitermes cumulans termites were compared with values for samples analysed immediately after collection. The stored samples were kept in vials containing (i) NaCl solution and (ii) ethanol. Our rationale is that stored samples should vary in their carbon and nitrogen content, because (i) ethanol-preserved samples are subject to lipid loss, whereas (ii) NaCl-preserved samples should keep their original carbon and nitrogen content. Therefore, we hypothesise that freshly processed samples should not differ from NaCl-preserved samples and would differ in their carbon content from ethanol-preserved ones. The experiment was performed using worker termites (third instar and beyond) from three field colonies of Cornitermes cumulans (Kollar) (Isoptera, Termitidae), in Viçosa, state of Minas Gerais, in southeastern Brazil. Cornitermes spp. are Neotropical termite species occurring in several habitats, including forests, ’cerrados’ (Brazilian savannas) and man-modified habitats, such as pastures or even gardens within cities, where they feed on living and dead grass and herbs. As soon as mound fragments were taken to the laboratory, termite specimens were extracted and allocated to the appropriate treatments, as described below. Voucher specimens were preserved in 80% ethanol, labelled and identified by comparison with the collection of the Termite Section of the Entomological Museum (UFVB) of the Federal University of Viçosa, Viçosa, Brazil (UFV). This work was carried out from December/2009 to February/2010. From each termite mound, 30 samples of five workers each were collected to compose ten replicates for each of the processing techniques below. Freshly processed workers were placed in vials with distilled water, immediately frozen at –148C for about 2 h and then freeze-dried. This is thought to be the optimal procedure for isotopic analyses, as it avoids sample degradation. Preserved in ethanol workers were placed in vials with 80% ethanol, at room temperature, for 49 days until washed in distilled water and placed in vials with distilled water to be freeze-dried. The ethanol concentration was confirmed by an alcoholmeter, after adding distilled water to 92.88 GL commercial sugar cane ethanol (Miyako do Brazil Industria e Comercio Ltda, Guarulhos, Brazil). This is the traditional method for maintaining termite samples in collections, and it is expected to be only a partially suitable procedure, as it is bound to affect the dC isotopic signal, because the alcohol could leach lipids and add carbon to the sample. Preserved in NaClworkers were placed in vials containing a brine solution of table salt (300 g/L), at room temperature for 49 days, until freeze-dried. A brine solution was obtained by adding salt to distilled water, at room temperature, until the water could no longer dissolve any more salt. This is thought to be the best procedure to our aims, as it is cheap, straightforward, and prevents sample decomposition without masking the isotopic signals, as the compound contains no carbon or nitrogen. To proceed with the isotopic analyses, all the samples were freeze-dried for 48 h, ground, sieved (mesh1⁄4 100) and placed in tin capsules. The dC and dN isotopic ratios, and the C/N ratio in each sample (1.5mg), were determined in an isotope ratio mass spectrometer (ANCA-GSL 20–20, SerCon Ltd., Crewe, UK), at the Laboratory of Stable Isotopes, Soils Department, Federal University of Viçosa. Rapid Commun. Mass Spectrom. 2011, 25, 243–246 (wileyonlinelibrary.com) DOI: 10.1002/rcm.4820 Letter to the Editor

Primeiro registro do gênero Toxorhynchites Theobald (Diptera, Culicidae) em Mata Atlântica, Viçosa, Minas Gerais

The occurrence of the genus Toxorhynchites (Diptera, Culicidae) was evaluated during the months March and April 2007 in fragments of Atlantic Forest in the city of Vicosa, Minas Gerais State, Brazil. A total of 500 oviposition traps were used in the experiment. This is the first record of the genus Toxorhynchites in Vicosa and the first record of the species T. pusillus (Costa Lima, 193 1) and T. theobaldi (Dyar & Knab, 1906) in Minas Gerais State. In this scientific note, the species reported as first record and their distribution are described and discussed.