Annual population dynamics and production ecology of Testacea (Protozoa, Rhizopoda) in an aspen woodland soil

Abstract

The population studies of Testacea in an aspen woodland soil revealed 28 taxa of living Testacea, 14 of which were considered constant. The 14 species, while comprising 98 and 96% of the mean annual density and total annual production numbers respectively, accounted for only 80% of the mean annual biomass and 86% of the total annual production biomass. All 14 species had a peak in abundance in autumn, immediately or soon after leaf litter fall. While most species maintained small, active and reproducing populations over the winter period, some maintained higher than normal densities, had seasonal peaks in abundance and biomass, or higher than normal rates of production and turnover. All species had an increase in reproduction and usually in abundance also during the late winter-early spring period before spring thaw. The annual mean weekly density and biomass and the annual production totals tor numbers and biomass were highest in the H layer and lowest in the L. The F layer produced the highest numbers of generations per year and the highest annual mean weekly biomass turnover rate for most of the species. The majority of the periods of high intrinsic rate of natural increase, biomass production and turnover occurred during or after an increase, a decrease or a stabilization in soil moisture content. Mean annual biomass and total annual production were estimated as 0.72 and 206 g wet weight m −2 respectively. The aspen woodland soil Testacea (in a mor humus) had a much higher production and number of generations per year than Testacea from mull and moder humus forms. Total annual ingestion, respiration losses and egestion losses for testate amoebae in an aspen woodland soil were calculated as 1377, 344 and 826 g wet weight of biomass m −2, respectively. The annual secondary production of Testacea was about 250–300 times the standing crop of Testacea in all the soil layers. The dry weight of carbon respired per year by the Testacea was estimated as 16.2 g m −2, which amounted to about 6% of the total carbon input.