Exotic earthworms and soil microbial community composition in a northern hardwood forest

Dempsey, Mark A.

11 December 2009

No description available.

Ecology

exotic earthworms

ratio of bacteria to fungi

soil microbial community composition

direct counts

phospholipid fatty acid

The Combined Effects of White-tailed Deer and Exotic Earthworms on Understory Plant Communities in Northeast Ohio

Trimbath, Ryan John

17 September 2014

No description available.

Ecology

Forestry

Biology

exotic earthworms

white-tailed deer

understory

plant communities

biotic homogenization

FQAI

Amynthas

Lumbricus

Fire, Exotic Earthworms and Plant Litter Decomposition in the Landscape Context

Giai, Carla

27 August 2009

No description available.

Ecology

Forestry

fire

exotic earthworms

plant litter decomposition

terrestrial ecosystems

hardwood forests

restoration ecology

nutrient dynamics

Exotic earthworms and soil microbial community composition in a northern hardwood forest

Dempsey, Mark Austin.

January 2009

Title from first page of PDF document. Includes bibliographical references (p. 22-27).

Do Invasive Earthworms Affect the Functional Traits of Native Plants?

Thouvenot, Lise, Ferlian, Olga, Beugnon, Rémy, Künne, Tom, Lochner, Alfred, Thakur, Madhav P., Türke, Manfred, Eisenhauer, Nico

05 April 2023

As ecosystem engineers, invasive earthworms are one of the main drivers of plant community changes in North American forests previously devoid of earthworms. One explanation for these community changes is the effects of earthworms on the reproduction, recruitment, and development of plant species. However, few studies have investigated functional trait responses of native plants to earthworm invasion to explain the mechanisms underlying community changes. In a mesocosm (Ecotron) experiment, we set up a plant community composed of two herb and two grass species commonly found in northern North American forests under two earthworm treatments (presence vs. absence). We measured earthworm effects on above- and belowground plant biomass and functional traits after 3 months of experiment. Our results showed that earthworm presence did not significantly affect plant community biomass and cover. Furthermore, only four out of the fifteen above- and belowground traits measured were affected by earthworm presence. While some traits, such as the production of ramets, the carbon and nitrogen content of leaves, responded similarly between and within functional groups in the presence or absence of earthworms, we observed opposite responses for other traits, such as height, specific leaf area, and root length within some functional groups in the presence of earthworms. Plant trait responses were thus species-specific, although the two grass species showed a more pronounced response to earthworm presence with changes in their leaf traits than herb species. Overall, earthworms affected some functional traits related to resource uptake abilities of plants and thus could change plant competition outcomes over time, which could be an explanation of plant community changes observed in invaded ecosystems.

info:eu-repo/classification/ddc/570

ddc:570