Add to ORKGThe influence of earthworms (Lumbricus terrestris and Aporrectodea tuberculata) on the rate of net N mineralization was studied, both in soil with intact soil structure (partly influenced by past earthworm activity) and in columns with sieved soi
The soil biota benefits soil productivity and contributes to the sustainable function of all ecosyst...
Earthworms were introduced into physically degraded soils restored after opencast coal mining. Their...
International audienceWith the forecasted dramatic growth of insect rearing in the near future, fras...
Knowledge of the effects of species diversity within taxonomic groups on nutrient cycling is importa...
The degree to which earthworms can affect the availability of plant nutrients depends on their distr...
Effects of earthworms especially with Lumbricus terrestris on nutrients dynamics and on plant growth...
Invasive earthworms can increase both pH and the nitrate concentrations in northern hardwood forests...
Earthworms play an important role in the nitrogen cycle in the soil. Through their activities they a...
We performed a greenhouse experiment to test how the functional diversity of earthworms, the dominan...
Earthworms can increase plant nitrogen (N) availability by stimulating mineralization of organic mat...
Earthworms contribute to N mineralisation directly, through consumption, digestion, respiration/ exc...
The formation of macropores and litter translocation into burrows by anecie earthworms [Lumbricus te...
Attempts to restore native biodiversity into agricultural landscapes in New Zealand appear to be com...
International audienceEarthworms are known to improve plant growth in a soil-dependent way, notably ...
Effects of earthworms in combination with soil heterogeneity and other soil organisms (mycorrhiza, p...
The soil biota benefits soil productivity and contributes to the sustainable function of all ecosyst...
Earthworms were introduced into physically degraded soils restored after opencast coal mining. Their...
International audienceWith the forecasted dramatic growth of insect rearing in the near future, fras...
Knowledge of the effects of species diversity within taxonomic groups on nutrient cycling is importa...
The degree to which earthworms can affect the availability of plant nutrients depends on their distr...
Effects of earthworms especially with Lumbricus terrestris on nutrients dynamics and on plant growth...
Invasive earthworms can increase both pH and the nitrate concentrations in northern hardwood forests...
Earthworms play an important role in the nitrogen cycle in the soil. Through their activities they a...
We performed a greenhouse experiment to test how the functional diversity of earthworms, the dominan...
Earthworms can increase plant nitrogen (N) availability by stimulating mineralization of organic mat...
Earthworms contribute to N mineralisation directly, through consumption, digestion, respiration/ exc...
The formation of macropores and litter translocation into burrows by anecie earthworms [Lumbricus te...
Attempts to restore native biodiversity into agricultural landscapes in New Zealand appear to be com...
International audienceEarthworms are known to improve plant growth in a soil-dependent way, notably ...
Effects of earthworms in combination with soil heterogeneity and other soil organisms (mycorrhiza, p...
The soil biota benefits soil productivity and contributes to the sustainable function of all ecosyst...
Earthworms were introduced into physically degraded soils restored after opencast coal mining. Their...
International audienceWith the forecasted dramatic growth of insect rearing in the near future, fras...