Vulnerability to biological invasion of Hovenia dulcis Thunb. in green areas of Curitiba, Paraná, Brazil

Foram considerados seis fatores relacionados à presença de Hovenia dulcis: nove pontos de ocorrência da espécie; altitude e declive (métricas topográficas); e área, forma e isolamento entre fragmentos de habitat (métricas da paisagem). O método Analytic Hierarchy Process (AHP) foi utilizado para definir pesos para cada fator. A vulnerabilidade foi avaliada como muito baixa (0 – 0.2); baixa (0.21 – 0.4); moderada (0.41 – 0.6); alta (0.61 – 0.8); e muito alta (0.81 – 1). As análises espaciais foram realizadas no software QGIS® 3.10. Os pontos de ocorrência da espécie representaram 45% do modelo gerado, seguidos pelos fatores paisagísticos, principalmente a forma dos fragmentos (17,69% do modelo). Nas áreas verdes urbanas selecionadas, 995,15 ha corresponderam à classe de alta vulnerabilidade e 839,54 ha à classe de vulnerabilidade moderada à invasão pela espécie. As regiões oeste, sul e norte da cidade são as mais vulneráveis, e também as mais urbanizadas. O Parque Passaúna é a área verde mais suscetível à invasão pela espécie principalmente devido à forma irregular, mais propensa ao efeito de borda. Curitiba tem uma alta vulnerabilidade à invasão biológica por Hovenia dulcis em suas áreas verdes, principalmente naquelas localizadas em regiões mais urbanizadas.

Effect of Climate Change on Introduced and Native Agricultural Invasive Insect Pests in Europe

Climate change and invasive species are major environmental issues facing the world today. They represent the major threats for various types of ecosystems worldwide, mainly managed ecosystems such as agriculture. This study aims to examine the link between climate change and the biological invasion of insect pest species. Increased international trade systems and human mobility have led to increasing introduction rates of invasive insects while climate change could decrease barriers for their establishment and distribution. To mitigate environmental and economic damage it is important to understand the biotic and abiotic factors affecting the process of invasion (transport, introduction, establishment, and dispersal) in terms of climate change. We highlight the major biotic factors affecting the biological invasion process: diet breadth, phenological plasticity, and lifecycle strategies. Finally, we present alien insect pest invasion management that includes prevention, eradication, and assessment of the biological invasion in the form of modelling prediction tools.

Alien, Naturalized and Invasive Plants in China

Invasive species are a subset of naturalized species, and naturalized species are a subset of alien species. Determining the relationship among these three assemblages would be helpful in predicting and preventing biological invasion. Here, we reviewed the families, lifeforms, origins, introduction pathways and phylogenetic diversity of alien, naturalized and invasive vascular plants in China. The results show that species in the Asteraceae, Fabaceae and Poaceae families had a high dominance among alien, naturalized and invasive species. Moreover, almost all alien species in the Amaranthaceae, Solanaceae, Convolvulaceae and Euphorbiaceae families became naturalized species, and about 26.7% of the naturalized species became invasive species. Perennial herbs comprised a higher proportion of alien species than did annual herbs, though annual herbs were more suited to becoming invasive than perennial herbs. A considerable proportion (57.8%) of invasive species were introduced from America. More than half (56.5%) of alien species were introduced for their ornamental value, and half of these have become naturalized in China. Moreover, about half (55.2%) of all invasive species were introduced for their economic value (including ornamental, foraging and medicinal purposes). Invasive species were phylogenetically clustered and phylogenetically distant from alien and naturalized species, which indicates that phylogenetic differences could be helpful in becoming invasive. There is no doubt that human activity plays a significant role in biological invasion. This study suggests that when introducing alien species to a region, decision-makers should certainly consider the species’ phylogeny, beyond just its fundamental characteristics.