ICAR: endoscopic skull‐base surgery

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Differences In Soil Characteristics Between Field And Forest May Influence The Distribution Of An Invasive Earthworm

In northern North America, invasive earthworms (including the nightcrawler Lumbricus terrestris) have been dispersing from points of introduction and dramatically affecting soil structure, soil food webs, and forest floor dynamics. However, little is known about the factors influencing the local distribution of invasive earthworms south of the Wisconsinan glaciation. Earthworms were sampled at suspected sites of introduction near Mountain Lake Biological Field Station, Virginia, USA. The density of invasive earthworms decreased as distance from suspected sites of introduction increased; native earthworms displayed the opposite relationship. However, the distance that L. terrestris was found into the forest was less than expected given dispersal rates calculated from more northern invasions. We also found correlations among population densities of L. terrestris and physical-chemical properties of the soil, and differences between field and forest soils in terms of temperature, moisture, and soil chemical properties. We conducted two experiments to analyze some factors possibly responsible for the observed distribution: (1) temperature and moisture, and (2) soil type (field vs. forest) and food resources. Our results suggest that L. terrestris may not disperse as far into forested habitats of the Southern Appalachians compared to northern forests due to local physical-chemical soil characteristics

The second wave of earthworm invasions in North America: biology, environmental impacts, management and control of invasive jumping worms

The invasion of jumping worms, a small group of pheretimoid earthworm species from Asia, has increasingly become an ecological, environmental and conservation issue in forest ecosystems and urban-suburban landscapes around the world. Their presence is often noticed due to their high abundance, distinctive “jumping” behavior, and prominent granular casts on the soil surface. Although they are known to affect soil carbon dynamics and nutrient availability, no single paper has summarized their profound impacts on soil biodiversity, plant community, and animals of all trophic groups that rely on soil and the leaf litter layer for habitat, food, and shelter. In this study, we summarize the biology, invasion, and ecological impacts of invasive jumping worms across North America. We highlight potential impacts of this second wave of earthworm invasion, contrast them with the preceding European earthworm invasion in temperate forests in North America, and identify annual life cycle, reproductive and cocoon survival strategies, casting behavior and co-invasion dynamics as the key factors that contribute to their successful invasion and distinct ecological impacts. We then suggest potential management and control strategies for practitioners and policy makers, underscore the importance of coordinated community science projects in tracking the spread, and identify knowledge gaps that need to be addressed to understand and control the invasion