Relations between trophic state indicators and plant biomass in Florida lakes

We collected quantitative data on macrophyte abundance and water quality in 319 mostly shallow, polymictic, Florida lakes to look for relationships between trophic state indicators and the biomasses of plankton algae, periphyton, and macrophytes. The lakes ranged from oligotrophic to hypereutrophic with total algal chlorophylls ranging from 1 to 241 mg m^–3. There were strong positive correlations between planktonic chlorophylls and total phosphorus and total nitrogen, but there were weak inverse relationships between the densities of periphyton and the trophic state indicators total phosphorus, total nitrogen and algal chlorophyll and a positive relationship with Secchi depth. There was no predictable relationship between the abundance of emergent, floating-leaved, and submersed aquatic vegetation and the trophic state indicators. It was only at the highest levels of nutrient concentrations that submersed macrophytes were predictably absent and the lakes were algal dominated. Below these levels, macrophyte abundance could be high or low. The phosphorus–chlorophyll and phosphorus–Secchi depth relationships were not influenced by the amounts of aquatic vegetation present indicating that the role of macrophytes in clearing lakes may be primarily to reduce nutrient concentrations for a given level of loading. Rather than nutrient concentrations controlling macrophyte abundance, it seems that macrophytes acted to modify nutrient concentrations.     

Sediment removal by the Lake Apopka marsh flow-way

We review the evidence showing that the high turbidity levels of Lake Apopka are due primarily to resuspended sediments rather than phytoplankton, and that this situation is likely to persist unless there is a fundamental change in the lake. We discuss the reasons why reductions in phosphorus inputs, the gizzard shad removal program, and macrophyte plantings would not bring about such a change. Potentially the marsh flow-way could remove the flocculent sediments because of a unique combination of a very large surface area (125 km²), a mean depth of only 1.7 m, a layer of easily resuspended fluid mud, and a marsh flow-way that is designed to filter the lake volume about 2 times a year. Using several different estimates of the rate of sediment formation in the lake, our model calculates that it would take from 275 to 502 years to remove the sediments, so the lake could not attain clear water in a reasonable length of time. The model is mathematically correct but will give nonsense results if one tries to calculate removal times when the lake is accumulating sediments rather than losing them.     

Effects of prostaglandin E2 (PGE2) on estradiol-17β-induced luteolysis in the nonpregnant ewe

Fifteen ewes were assigned as they came into estrus to the following randomized treatment groups: 1) Vehicle (1 ml corn oil + vehicle Na₂CO₃ buffer), 2) Estradiol-17β + vehicle and 3) Estradiol-17β + PGE₂ (500 μg) in Na₂CO₃ buffer (5 ewes/treatment group). Prostaglandin E₂ was given through an intrauterine cannula every four hours from days 8 through 15 postestrus. PGE₂ prevented a luteolytic dose of estradiol-17β given on days 9 and 10 from causing a precious luteolysis. PGE₂ maintained concentrations of progesterone in peripheral blood (days 8 through 15) and weights and concentrations of progesterone in corpora lutea on day 15 postestrus of ewes receiving estradiol-17β. It is concluded that chronic intrauterine infusions of PGE₂ can prevent an estradiol-17β-induced premature luteolysis.     

Studies on the rat glomerular basement membrane: Age-related changes in composition

To examine the effect of age on the glomerular basement membrane, compositional analyses were performed on membranes isolated in highly purified form from rats at different stages of their growth (35 to 200 days old). Substantial age-related changes were observed in the amino acid composition of the basement membranes. A significant correlation with age (P < 0.01) was evident in the contents of 3- and 4-hydroxyproline, threonine, serine, alanine, valine, half-cystine, hydroxylysine, and lysine. Of these amino acids, hydroxylysine and both isomers of hydroxyproline demonstrated a progressive increase with age, while the others were found to decline. The direct relationship of hydroxylysine content with age (P < 0.001) was associated with an inverse correlation of lysine with age (P < 0.001) so that the ratio of hydroxylysine to lysine increased in a highly significant manner from 0.92 at 35 days to 1.33 at 200 days. This elevation in the hydroxylysine content was accompanied by an augmentation in the number of saccharide units linked to it so that the percentage glycosylation of this amino acid was not significantly affected by age. The relative differences in the hydroxylysine and lysine levels between young and older rats were maintained in sodium dodecyl sulfateextracted membranes. These results suggest that the compositional changes observed during the aging process reflect an alteration in the subunit makeup of the basement membrane, possibly due to an increased synthesis or decreased degradation of the more collagen-like polypeptide components.     

Influence of agents that affect intracellular calcium regulation on progesterone secretion in small and large luteal cells of the sheep

Enriched fractions of small and large luteal cells were incubated for 2 h with 1 or 10 microM calcium ionophore, A23187: unstimulated secretion of progesterone and viability in small cells were not affected but these measures were decreased (P less than 0.01) for unstimulated large cells and were significantly correlated (P less than 0.05). This effect in large cells was independent of extracellular calcium. Therefore, incubations of the two cell types were made in the presence of increasing concentrations of a protein kinase C activator, phorbol 12-myristate 13-acetate (TPA). Secretion of progesterone and viability were not augmented in unstimulated small cells, but TPA prevented (P less than 0.05) the full stimulation of secretion of progesterone by LH. Secretion of progesterone in unstimulated large cells was inhibited (P less than 0.01) by TPA (100 nM and 10 microM), although viability was unaffected. The non-tumour promoting phorbol ester, 4 alpha-phorbol didecanoate, had no effect on large cells. Extracellular calcium was not required for the observed effect of TPA. Sphingosine, an agent inhibitory to protein kinase C activity, inhibited (P less than 0.01) secretion of progesterone in small and large cells, and also reduced (P less than 0.01) cell viability. These values were significantly correlated (P less than 0.05) in both cell types. The above observations suggest that protein kinase C may invoke negative regulation on progesterone production in unstimulated large and hormone-stimulated small luteal cells of sheep. Since sphingosine significantly reduced viability in small and large cells and ionophore selectively inhibited viability in large cells, the ability of these agents to influence calcium-mediated intracellular regulation of steroidogenesis is still uncertain.     

Factors related to gizzard shad and the threadfin shad occurrence and abundance in Florida lakes

Gizzard shad Dorosoma cepedianum were collected in 23 and threadfin shad D. petenense were collected in 22 of the 60 Florida lakes sampled. Logistic regression equations were 94% effective for predicting gizzard shad occurrence from chlorophyll and lake surface area, and 84% effective for predicting threadfin shad occurrence from lake surface area and lake volume inhabited (PVI). Occurrence of both shad species was related positively to lake size. In lakes where gizzard shad or threadfin shad were collected, shad density and biomass of both shad species were related positively to chlorophyll. Gizzard shad populations were generally vulnerable to predation in lakes, with the per cent of gizzard shad ≤200mm L _T values exceeding 60% with few exceptions. Effects of gizzard shad and threadfin shad on fish community dynamics may be confined to relatively large (>100 ha) and fertile (chlorophyll >20–30μg l⁻¹) Florida lakes.