Edge Effects and the Population Structure of Humboldt Bay, California, Eelgrass ( Zostera marina

The physical structure of a habitat (e.g., fragmentation) may affect the distribution of genetic diversity within a population, and genetic diversity may alter ecological function. This study investigates the population genetics of Humboldt Bay, California, eelgrass in light of the habitat’s fragmented physical structure. Historical and ongoing dredging operations in the bay maintain channels between fragmented tidal mudflats that are inhabited by eelgrass. A sample of 469 individuals, from 11 discrete fragments, was genotyped using microsatellite analysis. Ramets were collected at multiple points located at the edge and in the interior of each fragment. The sampling scheme was designed to detect evidence of population structure within and between fragments, as well as between edge and interior bed positions. Genetic diversity is not shown to differ among fragments and is not consistent with widespread clonality. Heterozygosity levels indicate that Hardy-Weinberg equilibrium predominates across loci in most instances. Comparisons of edge and interior bed positions also reveal similarities between positions for the metrics described above. Results suggest efficient gene flow between fragments and between bed positions. Such findings, which indicate the unstructured nature of the population, can guide resource managers in making evolutionarily informed conservation decisions by discouraging assumptions of low genetic diversity and insignificant sexual reproduction

The adaptive markets hypothesis: evidence from the foreign exchange market

We analyze the intertemporal stability of excess returns to technical trading rules in the foreign exchange market by conducting true, out-of-sample tests on previously studied rules. The excess returns of the 1970s and 1980s were genuine and not just the result of data mining. But these profit opportunities had disappeared by the early 1990s for filter and moving average rules. Returns to less-studied rules also have declined but have probably not completely disappeared. High volatility prevents precise estimation of mean returns. These regularities are consistent with the Adaptive Markets Hypothesis (Lo, 2004), but not with the Efficient Markets Hypothesis.Foreign exchange market ; Foreign exchange

The Effects of Gibberellin on Dwarf Plants

In this study, conducted by the students above, gibberellic acid was added to both dwarf and wild-type Setaria Viridis seedlings. Applying gibberellic acid to the dwarf plants was testing to see if there was a direct effect on gibberellic acid to the heights (in cm) of the seedlings. The wild-type seeds were also tested in order to see if there is an effect of them also. Gibberellic acid was applied to a group of dwarf and wild-type seedling, there was an additional group of seedlings that were also just treated to normal conditions (simply just watering) as a control group. The main goal of this study was to identify whether certain dwarf mutants are unable to process and take up gibberellic acid or have a gibberellin deficit

Gibberellin Application on Dwarf Strains of Millets

Gibberellin is a plant hormone that stimulates cell growth. This hormone was added to three types of dwarf and normal millets, Setaria Viridis, in a 1,000-ppm gibberellic acid form. Dwarf millets are plants that grow at an abnormally shorter stature than the rest of their species. After this was added the dwarf height rate was taken and observed for any change in height. If the dwarf plants had an increase in growth, it is plausible that the dwarf mutation is due to its inability to produce gibberellin. While if there was no difference in plant growth it\u27s plausible that the plant produces gibberellin, however it\u27s not able to process it. This experiment is important in understanding the role gibberellin has in mutated dwarf plants

The Effect of Gibberellic Acid Treatment on the Growth of Dwarf Setaria Mutations

Dwarfism is a common mutation found in many organisms and Setaria (millets) is no different. In millets and other plants, a reduction or complete lack of production of necessary hormones such as Gibberellic acid (GA), auxin, or Brassinosteroid can cause a mutant’s vertical and sometimes outward growth to be significantly reduced when compared to a wild type of the same variety. A typical solution to this mutation is the application of a hormone solution to allow the plant’s cells and organs to have access to the hormones needed to continue growing at an average rate. We decided to test an application method by applying a solution of 15 ppm of GA in 1L of water, at three different rates to four different varieties of millet including one wild type and three different mutant types. Our experimental results come from measuring the plant’s growth (using centimeters) three times a week and recording that data to find the average growth of each group. We have been testing this experiment over the course of three weeks and will be presenting evidence to show that the application of Gibberellic acid solution improves the growth of all millets including Dwarf mutants

Plant Hormone Addition on Mutant Millets

In this experiment we tested the effects of adding plant hormones to dwarf mutant millet plants that were either non-responsive to this hormone or did not make the hormone naturally. Measurements were taken on a consistent basis to determine how much growth had been affected by the addition of the plant hormone gibberellins, as well as the growth on our control plants that did not receive this hormone addition. Based on prior research, this hormone as said above is crucial in stem elongation and primary growth of plants. The results of this experiment will help to determine which type of dwarf mutant each plant group is, since changes in growth will provide evidence as to whether the plants respond to hormone treatments or not

Dwarfism on Dwarf Millets

Our research team studied the effect of Dwarf mutations on Millet plant growth. To study these effects a plant hormone named Gibberellin was periodically added to the plants. Gibberellin is a hormone used in plants to grow, elongate, and flower the plant stems. With the addition of Gibberellin to millet plants, we compared the elongation of Millet stem length (cm) to the Millet wild-type generations. We hypothesized the implementation of Gibberellin would boost the growth rate and size of dwarf mutated millet

The Effect of Gibberellin on Millett

We are testing the effects of gibberellic acid on millet plants to determine if the mutation that caused them to be dwarf plants are gibberellin deficient or if the gibberellin response system is affected. In order to determine this, we will apply gibberellin solution to the millet plants and observe their growth or lack of growth. The dwarf mutant millet plants that are gibberellin would show growth like those with no mutation, and the millet plants that have a mutation in the gibberellin response system would not demonstrate any growth since they would be unable to process the gibberellin. The plants are measured weekly, and the data will determine the significance on the gibberellin application

Vulnerability assessment report and jurisdictional plan : South Carolina

The purpose of this report is threefold: first, to identify the South Carolina (SC) counties at the highest risk for injection drug use and resultant bloodborne infection outbreaks; second, to identify the resources SC currently has that could help reduce the burden of addiction and bloodborne infection outbreaks; and last, to present evidence-based interventions and identify preventative services both at the state- and county-level that may lead to reducing the risk of substance abuse and infection outbreaks resulting from unsafe injection drug use (IDU)