GÊNERO Cryptostegia: FITOQUÍMICA, ATIVIDADES BIOLÓGICAS E APLICAÇÕES INDUSTRIAIS

CRYPTOSTEGIA GENUS: PHYTOCHEMISTRY, BIOLOGIAL ACTIVITIES AND INDUSTRIAL APPLICATIONS. The genus Cryptostegia comprises two species, C. madagascariensis (Bojer) and C. grandiflora (Roxb. Ex R. Br) that belong to the Apocynaceae family and are widely distributed in the tropics, as in Australia, New Zealand, India and Brazil, where they cause great socioeconomic and environmental damage, as they are invaders causing damage, mainly in the cultivation of carnaúba, a native plant of great importance in the wax and derivatives industry in Northeast Brazil. Both are perennial shrubs, native to the island of Madagascar, have abundant latex and are known as rubber vine. The plants have the potential for pharmacological, biological and industrial applications. This is due to a rich source of chemical compounds (proteins, phenols, flavonoids, steroids, triterpenoids, cardiac glycosides, etc.) resulting from primary and secondary metabolism. The plants of the Cryptostegia genus showed many activities against bacteria, fungi, insects, Ae. aegypti larvae, Shistosoma sp., as well as for human health as analgesic, anti-inflammatory, antioxidant and antitumoral, and for industrial purposes acting as fibrinogenolytic, hydrolytic, anticorrosive, coagulant and depilatory for leather. Nevertheless, the toxicity is a limitation for the plant use then in order to stand out the economic potential a detailed research on toxicity and management of growing conditions is necessary.

Explaining Intricate Morphometric Variability with Environmental Predictors: The Case of Globularia cordifolia Species Complex

Globularia is a genus of small evergreen and perennial shrubs that are widespread in Europe. Globularia section Empetron includes a group of three species, G. cordifolia, G. meridionalis, and G. neapolitana, that have been taxonomically disputed for more than 150 years. Many morphological features have been proposed to discriminate these species. Nevertheless, evidence from both past and recent literature suggest that these differences among species are not consistent. In order to shed new light in this long-disputed group, we investigated 10 populations of the G. cordifolia species complex with both classical and geometric morphometrics and used environmental predictors in multivariate regression to explain patterns of variation. Our results showed that bract area and calyx teeth length are correlated with solar radiation and annual precipitation, whereas leaf dry mass per unit area can be explained by temperature seasonality. Leaf shape can be explained by temperature seasonality as well, although with a lower amount of explanatory and predictive power. Despite a comparatively low sample size in terms of populations, our results were based on a large number of individuals and were supported by a robust statistical approach. We can conclude that differences among the three species of Globularia could be related to the combined effects of several ecological variables and might not have taxonomical value. Our novel approach provided an ecological interpretation on a species complex that makes up a continuum of forms within the environmental framework of the Mediterranean basin.

Plant bugs, plant interactions and the radiation of a species rich clade in south-western Australia: Naranjakotta, gen. nov. and eighteen new species (Insecta : Heteroptera : Miridae : Orthotylinae)

New surveys from the Bush Blitz and Planetary Biodiversity Inventory programs has revealed a largely unknown biota of plant bugs in Australia. The mirid subfamily Orthotylinae has exploded in Australia, in association with perennial shrubs in arid and semi-arid Australia. This work documents the discovery of a new clade of 18 new species of the plant bug subfamily Orthotylinae. These new species belong to Naranjakotta, gen. nov., which was analysed phylogenetically and found to be monophyletic. The distribution of Naranjakotta and included species are documented, and analysed in reference to the distribution of all other orthotylines across continental Australia. A paralogy-free subtree analysis was conducted based on a recent phytogeographic classification, which resulted in the recognition of eastern and western subclades, with Tasmania and the Eyre Peninsula unresolved. The host plant associations were optimised at generic and ordinal levels to the Naranjakotta phylogeny and an ancestral Lamiales association for Naranjakotta and an ancestral Acacia association for a subclade of Naranjakotta were found. The eighteen new species described in this work are: N. bicolorata, sp. nov., N. chinnocki, sp. nov., N. cryptandraphila, sp. nov., N. dimorpha, sp. nov., N. graphica, sp. nov., N. hakeaphila, sp. nov., N. hibbertiaphila, sp. nov., N. hyalina, sp. nov., N. keraudrenia, sp. nov., N. lochada, sp. nov., N. macfarlanei, sp. nov., N. minor, sp. nov., N. myrtlephila, sp. nov., N. rosa, sp. nov., N. splendida, sp. nov., N. unicolorata, sp. nov., N. wanarra, sp. nov. and N. watheroo, sp. nov. Orthotylus sidnicus (Stål) is transferred to Naranjakotta.

A direct benefit of native saltbush revegetation for an endemic lizard (Tiliqua rugosa) in southern Australia

Land alteration for intensive agriculture has been a major cause of species decline and extinction globally. In marginal grazing regions of southern Australia, native perennial shrubs are increasingly being planted to supplement pasture feeding of stock. Such revegetation has the benefits of reducing erosion and salinity, and importantly, the potential provision of habitat for native fauna. We explored the use of revegetated native saltbush by the sleepy lizard (Tiliqua rugosa) an endemic Australian species common in the region. We repeatedly sampled revegetated saltbush throughout 2010 and 2011 for adults (n = 55) and juveniles (n = 26). Using genotypes from eight microsatellite loci, parents were assigned to half of all juveniles with high statistical confidence. Parents were sampled in the same patch of revegetated saltbush as their offspring, thus supporting the observation that juvenile sleepy lizards remain within the home range of their parents before dispersal. Most importantly, our findings indicate that revegetated saltbush provides important habitat for T. rugosa at significant life stages – before and during breeding for adults, and before dispersal for juveniles. We conclude that revegetation using simple, monoculture plantations provides beneficial habitat for T. rugosa and may also be beneficial habitat for other native species in human-altered agricultural landscapes.