Denitrification and nitrous oxide emissions from riparian forests soils exposed to prolonged nitrogen runoff

Compared to upland forests, riparian forest soils have greater potential to remove nitrate (NO3) from agricultural run-off through denitrification. It is unclear, however, whether prolonged exposure of riparian soils to nitrogen (N) loading will affect the rate of denitrification and its end products. This research assesses the rate of denitrification and nitrous oxide (N2O) emissions from riparian forest soils exposed to prolonged nutrient run-off from plant nurseries and compares these to similar forest soils not exposed to nutrient run-off. Nursery run-off also contains high levels of phosphate (PO4). Since there are conflicting reports on the impact of PO4 on the activity of denitrifying microbes, the impact of PO4 on such activity was also investigated. Bulk and intact soil cores were collected from N-exposed and non-exposed forests to determine denitrification and N2O emission rates, whereas denitrification potential was determined using soil slurries. Compared to the non-amended treatment, denitrification rate increased 2.7- and 3.4-fold when soil cores collected from both N-exposed and non-exposed sites were amended with 30 and 60 μg NO3-N g-1 soil, respectively. Net N2O emissions were 1.5 and 1.7 times higher from the N-exposed sites compared to the non-exposed sites at 30 and 60 μg NO3-N g-1 soil amendment rates, respectively. Similarly, denitrification potential increased 17 times in response to addition of 15 μg NO3-N g-1 in soil slurries. The addition of PO4 (5 μg PO4–P g-1) to soil slurries and intact cores did not affect denitrification rates. These observations suggest that prolonged N loading did not affect the denitrification potential of the riparian forest soils; however, it did result in higher N2O emissions compared to emission rates from non-exposed forests

Dietary fibre in the management of gastrointestinal symptoms

Dietary fibre in the management of gastrointestinal symptoms

Gastric output of pancreatic secretory trypsin inhibitor is increased by misoprostol.

Pancreatic secretory trypsin inhibitor (PSTI) is a potent protease inhibitor that also has growth promoting activity. It has recently been identified in the foveolar cells of the stomach, which secrete mucus. We examined the effects of the prostaglandin E1 analogue misoprostol on gastric PSTI output. Seven normal volunteers took part. An initial period of gastric aspiration was followed by four 40 minute periods of gastric perfusion at 5 ml/minute of: 0.14 mol/l saline, 0.17 mmol/l bicarbonate, bicarbonate with misoprostol 400 micrograms, and then bicarbonate again. All perfusates contained polyethylene glycol 4000 as a marker. Misoprostol increased median gastric secretion of PSTI from 11 to 33 micrograms/hour (p less than 0.05), producing concentrations in gastric juice six times higher than those found in jejunal juice and about 1/30 of the values seen in pancreatic juice. Median mucus secretion increased to a lesser extent from 29 to 38 mg/hour during misoprostol. There was no change in intragastric concentrations of protein or of epidermal growth factor during infusion of misoprostol. Infusion of pentagastrin (6 micrograms/kg/hour) had no effect on gastric secretion of mucus, PSTI, or protein. Human gastric mucus was degraded on incubation with trypsin in vitro and this was prevented by the addition of PSTI. These results suggest that gastric PSTI may protect the gastric mucus layer against refluxed pancreatic proteases. Increased output of PSTI during microprostol may contribute to the protective effect of this drug

Fault Detection Structures of the S-boxes and the Inverse S-boxes for the Advanced Encryption Standard

Fault detection schemes for the Advanced Encryption Standard are aimed at detecting the internal and malicious faults in its hardware implementations. In this paper, we present fault detection structures of the S-boxes and the inverse S-boxes for designing high performance architectures of the Advanced Encryption Standard. We avoid utilizing the look-up tables for implementing the S-boxes and the inverse S-boxes and their parity predictions. Instead, logic gate implementations based on composite fields are used. We modify these structures and suggest new fault detection schemes for the S-boxes and the inverse S-boxes. Using the closed formulations for the predicted parity bits, the proposed fault detection structures of the S-boxes and the inverse S-boxes are simulated and it is shown that the proposed schemes detect all single faults and almost all random multiple faults. We have also synthesized the modified S-boxes, inverse S-boxes, mixed S-box/inverse S-box structures, and the whole AES encryption using the 0.18 μ CMOS technology and have obtained the area, delay, and power consumption overheads for their fault detection schemes. Furthermore, the fault coverage and the overheads in terms of the space complexity and time delay are compared to those of the previously reported ones