Ecological strategies of Al-accumulating and non-accumulating functional groups from the cerrado sensu stricto

The cerrado's flora comprises aluminum-(Al) accumulating and non-accumulating plants, which coexist on acidic and Al-rich soils with low fertility. Despite their existence, the ecological importance or biological strategies of these functional groups have been little explored. We evaluated the leaf flushing patterns of both groups throughout a year; leaf concentrations of N, P, K, Ca, Mg, S, Al, total flavonoids and polyphenols; as well as the specific leaf area (SLA) on young and mature leaves within and between the groups. In Al-accumulating plants, leaf flushed throughout the year, mainly in May and September; for non-accumulating plants, leaf flushing peaked at the dry-wet seasons transition. However, these behaviors could not be associated with strategies for building up concentrations of defense compounds in leaves of any functional groups. Al-accumulating plants showed low leaf nutrient concentrations, while non-accumulating plants accumulated more macronutrients and produced leaves with high SLA since the juvenile leaf phase. This demonstrates that the increase in SLA is slower in Al-accumulating plants that are likely to achieve SLA values comparable to the rest of the plant community only in the wet season, when sunlight capture is important for the growth of new branches.A flora do cerrado é composta por espécies acumuladoras e não acumuladoras de alumínio (Al), coexistentes em solos ácidos, ricos em Al e com baixa fertilidade. Apesar da coexistência desses grupos funcionais, sua importância ecológica e suas estratégias biológicas são pouco conhecidas. Nós estudamos os padrões fenológicos de brotação foliar de ambos os grupos ao longo do ano, as concentrações foliares de N, P, K, Ca, Mg, S, Al, flavonoides totais e polifenóis e a área foliar específica (AFE) em folhas jovens e maduras, dentro e entre os grupos. Para as espécies acumuladoras de Al as brotações foliares foram distribuídas ao longo do ano, com maior intensidade entre maio e setembro; para as espécies não acumuladoras de Al observamos um pico de brotação durante a transição das estações seca e chuvosa. No entanto, estes comportamentos não podem ser associados às estratégias ligadas ao acúmulo foliar de metabólitos secundários por estes grupos funcionais. As espécies acumuladoras de Al apresentaram menores concentrações de nutrientes foliares, enquanto que as não acumuladoras concentraram mais macronutrientes e produziram folhas com alta AFE desde a fase juvenil. Isso demonstra que o aumento de AFE é mais lento nas espécies acumuladoras de Al, que devem atingir valores de AFE comparáveis ao resto da comunidade apenas na estação úmida, quando a captação de luz é importante para o crescimento de novos ramos.Coordenação de Aperfei çoamento de Pessoal de Nível Superior (CAPES)Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)Universidade Estadual Paulista Instituto de Biociências Departamento de BotânicaUniversidade de São Paulo Faculdade de Ciências Farmacêuticas de Ribeirão Preto Departamento de Ciências FarmacêuticasUniversidade Estadual Paulista Instituto de Química Departamento de Química OrgânicaUniversidade Estadual Paulista Instituto de Biociências Departamento de BotânicaUniversidade Estadual Paulista Instituto de Química Departamento de Química OrgânicaFAPESP: 2010/07809-1FAPESP: 2012/13762-3FAPESP: 2007/59779-6FAPESP-VALE: 2010/51307-

Herbivory among habitats on the Neotropical tree Cnidoscolus quercifolius Pohl. in a seasonally deciduous forest

Our goal was to identify herbivory patterns from two insect guilds associated with Cnidoscolus quercifolius in a tropical deciduous forest in northeastern Brazil. We sampled four different habitats: (1) forest edge, (2) mesic (near to the perennial water source), (3) forest interior and (4) rupestrian fields. Habitat edge had lower leaf damage than rupestrian, mesic and forest interior habitats. Nevertheless, abundance of galls at the edge habitat was higher than at mesic, forest interior and/or rupestrian habitats. There was no difference in gall mortality by natural enemies among the four habitats sampled, demonstrating the absence of any influence of top-down controls related to abundance of galls. Trophic relationships were not related to the patterns of distribution among habitats of two insect herbivorous guilds associated with C. quercifolius. Our results demonstrated that environmental heterogeneity of dry forests can significantly alter important ecological interactions and experimental studies are needed to better understand the mechanisms responsible for differences in herbivory among habitats

A meta-analysis of the effects of galling insects on host plant secondary metabolites

The idea that galling insects actively manipulate host plant chemistry has been previously documented but has not been quantified across a range of galler and host plant taxa. We present the first quantitative review of the relationship between insect galling and levels of secondary metabolites in host plants. Using meta-analytic techniques, we examined this relationship across 40 galler and host plant species combinations. We found that galling insects are associated with significantly higher levels of tannins and phenolics; however, no difference was found for volatiles. Hymenoptera, Diptera and Hemiptera were associated with higher levels of secondary metabolites; however, only Hymenoptera was significant. The climatic zone of the study area did not explain significant differences in gall-induced secondary metabolites. Overall the results show that the ability of galling insects to manipulate host plant secondary chemistry is widespread across insect and plant taxa. The evolutionary success of galling insects may be in part due to this unique ability