Paleolimnology and trends in the phosphorus and iron budgets of an old man‐made lake, Barton Broad, Norfolk

SUMMARY. Barton Broad, Norfolk is a shallow, eutrophic lake. During the last 30 years submerged macrophytes have declined and phytoplankton numbers have increased. This change is traced through the stratigraphy of a 60‐cm mud core. Diatom frustule counts of 1‐cm sections of the core showed that an epiphyte‐dominated diatom community was replaced by a planktonic community. From chemical analysis and radio‐isotope dating of the core, sedimentation rates and past phosphorus and iron loadings are estimated. Sedimentation rates were between 1.2 mm and 3.1 mm year −1 during the early part of the core but doubled in the 1950s to 5 mm year −1 , doubled again in the 1960s and have increased to 12 mm year −1 in the 1970s. Retention of phosphorus in the sediment increased from 0.5 g m −2 year −1 to 18–21 g m −2 year −1 in two steps. A similar trend is shown for iron. The diatom species composition and chemistry of the core sections are correlated with increased nutrient loading and the decline of macrophytes. Contemporary phosphorus and iron budgets are calculated from inflow–outflow data and balanced using sediment retentions estimated from the core data. It is believed a large proportion of phosphorus and iron enters the Broad by movement of sediment along the river bed. A reduction of 25% of the 1975 phosphorus loadings would probably permit re‐establishment of some macrophytes. The present chemistry and algal communities of Barton Broad and the River Ant are described.