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RESEARCH PRODUCT
Body size and population dynamics of enchytraeids with different disturbance histories and nutrient dynamics
Jari HaimiJouni K. Nieminensubject
education.field_of_studyEcologyChemistryPopulationWood ashMineralization (biology)Population densityHumusNutrientAnimal scienceDissolved organic carbonMicrocosmeducationEcology Evolution Behavior and Systematicsdescription
The population dynamics of the enchytraeid Cognettia sphagnetorum originating from an unmanaged forest (FP), a clear-cut area (CCP) or a plot treated with birch ash (APP) and the effects of population origin on labile C and N dynamics were investigated. Twenty individuals of C. sphagnetorum were introduced in microcosms containing humus from the unmanaged forest devoid of enchytraeids and amended with sucrose, and incubated for 14 weeks. Triplicate microcosms from FP, CCP and APP treatments were destructively sampled every second week and enchytraeid population density, individual length, nematode abundance and trophic structure, humus properties and dissolved organic C (DOC) and N (DON), and NH4–N in soil were determined. The enchytraeid body size was initially smaller in CCP and APP than in FP. The enchytraeid propagation rate was lower and individual size less variable in APP than in FP or CCP, and although enchytraeid size increased in all treatments, exponential population models indicated that APP was less stable. Nematode community was dominated by bacterial-feeders especially in the microcosms with APP. N mineralization rate was lower and DOC decomposition rate greater in APP systems. The results show that C. sphagnetorum is more sensitive to wood ash than clear-cutting, and its altered body size distribution has the potential to affect the dynamics of soluble nutrients.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2010-11-01 | Basic and Applied Ecology |