Productivity, detritus flux, and nutrient cycling in a Carex lyngbyeitidal marsh

Autor: Kistritz, R. U., Hall, K. J., Yesaki, I.
Zdroj: Estuaries and Coasts; September 1983, Vol. 6 Issue: 3 p227-236, 10p
Abstrakt: Net annual primary production of a sedge Carex lyngbyeidominated tidal marsh in the Fraser River estuary, British Columbia, Canada was 634 g ash-free dry weight (AFDW) per m2per yr (687 g dry weight per m2per yr). Mean maximum shoot elongation during the short (May to August) growing season was 1.88 cm per day from overwintering shoots. The maximum aboveground standing crop of 690 g AFDW per m2represented only 25% of the total below-ground biomass, which appears to be controlling most of the critical life history processes of the sedge marsh. An estimate of 14 percent of the aboveground standing crop was lost through leaching of dissolved organic carbon from the growting plant. Aboveground tissue losses, which were negligible during the growing season, occurred primarily via translocation in autumn and tidal export during the winter. In situmeasurements showed that of the original maximum standing crop, approximately 38%, 37%, and 25% were lost by downward translocation, tidal export, and sediment burial, respectively. Based on changes in above and belowground nutrient pools, rapid spring (May to late June) uptake rates of 109 mg N per m2per day and 23.0 mg P per m2per day by shoots were followed by downward translocation rates of 44.8 mg N per m2per day and 12.2 mg P per m2per day during late June to the end of August. Aboveground leaching rates were estimated as 23.9 mg N per m2per day and 7.8 mg P m2per day and belowground uptake rates as 100 mg N per m2per day and 26 mg P per m2per day; root uptake occurred primarily after late June. Nutrient levels in decomposing litter more than doubled over the winter period showing a pattern of nutrient enrichment characteristic of marsh ecosystems. *** DIRECT SUPPORT *** A01BY023 00004
Databáze: Supplemental Index