RESUMO
ABSTRACT Bruggmannia capixaba, sp. n., Bruggmannia gaucha, sp. n., and Bruggmannia marambaiensis sp. n. are described and illustrated. All species were collected in Atlantic forest areas. They induce galls on Guapira (Nyctaginaceae), a plant genus native to Brazil, the first on G. pernambucensis and the others on G. opposita. Furthermore, the male and larva of Bruggmannia monteiroi are described for the first time, based on specimens collected in the type locality.
RESUMO
Abstract Cerciplanus maricaensis, a new species of gall midge (Diptera, Cecidomyiidae) that induces galls on leaves of Ouratea cuspidata (A.St.-Hil.) Engl. (Ochnaceae) is described in the larval, pupal and adult stages (of both sexes), illustrated and compared with the other congeneric species. The host plant is endemic to Brazil and known only from the Atlantic Forest. A key to segregate them is presented. Data on the geographical distribution of Cerciplanus maricaensis based on gall records retrieved from the literature are given.
RESUMO
Abiotic factors can affect plant performance and cause stress, which in turn affects plant-herbivore interactions. The Environmental Stress Hypothesis (ESH) predicts that gall-inducing insect diversity will be greater on host plants that grow in stressful habitats. We tested this hypothesis, considering both historical and ecological scales, using the plant Copaifera langsdorffii Desf. (Fabaceae) as a model because it has a wide geographic distribution and is a super-host of gall-inducing insects. According to the ESH, we predicted that 1) on a historical scale, the diversity of gall-inducing insects will be higher in habitats with greater environmental stress and 2) on an ecological scale, gall-inducing insect diversity will be greater on plants that possess greater levels of foliar sclerophylly. We sampled gall-inducing insects on plants of C. langsdorffii in five sites with different levels of water and soil nutrient availability and separated from each other by a distance of up to 470 km. The composition, richness, and abundance of gall-inducing insects varied among study sites. Plants located in more stressful habitats had higher levels of foliar sclerophylly; but richness and abundance of gall-inducing insects were not affected by host plant sclerophylly. Habitat stress was a good predictor of gall-inducing insect diversity on a regional scale, thus corroborating the first prediction of the ESH. No relationship was found between plant sclerophylly and gall-inducing insect diversity within habitats. Therefore, on a local scale, we did not find support for our second prediction related to the ESH.