Jump to Main Content
Seasonal storage of nutrients by perennial herbaceous species in undisturbed and disturbed deciduous hardwood forests
- Mabry, Cathy M., Gerken, Michaeleen E., Thompson, Janette R.
- Applied vegetation science 2008 v.11 no.1 pp. 37-44
- aboveground biomass, agricultural land, belowground biomass, eutrophication, hardwood forests, leaching, nitrogen, nutrient content, nutrients, perennials, phosphorus, plant tissues, pollution, potassium, soil nutrients, spring, summer, surface water, woodlands
- Question: Pollution and eutrophication of surface water is increasingly a problem in agricultural landscapes. Do intact (relatively undisturbed) and degraded forests differ in seasonal nutrient storage and therefore potential to ameliorate nutrient pollution?Location: United States, Midwestern region.Methods: We used three sets of paired plots, where intact plots were located close to disturbed woodlands. Herbaceous perennials located in eight 0.25 m² quadrats in the plots were harvested (in spring and mid-summer), dried, separated into above- and below-ground plant parts, and weighed to determine biomass. Nitrogen, phosphorus and potassium content of the plant tissues were then determined, and these data combined with biomass to estimate nutrient storage.Results: In spring, intact sites had 62%% greater above-ground biomass than disturbed sites and 75%%greater below-ground biomass. In summer, below-ground biomass of intact plots was still much greater than that of disturbed plots (73 percent), but above-ground biomass was similar. Nutrient tissue concentration generally did not differ, nor did soil nutrient levels. The disturbed sites were largely missing one group of species, the spring ephemerals, and this accounted for the difference in biomass and nutrient storage between sites.Conclusions: Relatively undisturbed woodlands in our study had a much greater capacity to store nutrients, and therefore ameliorate nutrient pollution, in early spring. This is significant because spring is also the time of highest potential leaching of nutrients into surface water.Nomenclature: Anon. (1993++, 2005).