Evaluation of an active mating disruption concept against codling moth (Cydia pomonella) under the aspects of different application systems and varieties

Beside standard systems of mating disruption the activity of the product Exosex CM and Exosex 2 CM under the aspect of different application systems and several varieties were tested at the research station of the Federal College and Institute for Viticulture and Pomology Klosterneuburg. Male insects were attracted into the Exosex dispenser by using the appropriate pheromone, which acts on the pheromone receptive sensors on the male so that they cannot locate calling females. Standard mating disruption techniques usually rely on the introduction of amounts of pheromone emitted by natural populations of pest species into the atmosphere. Exosex CM significantly reduces deployment time and labour costs in the orchards, additionally the flexibility to fit in with IPM programmes was tested. The assessments were done visually on windfall fruits, fruits on the tree and on all fruits at harvest followed by statistical evaluation. Among the fruits sprayed with the IPM system there was an infestation rate of the first (Cydia pomonella) generation at the variety Idared of 0,8%, the second generation treated with Exosex showed an infestation of 13%. In the biological trial however the infestation by the first generation was about 4% and the infestation of the second generation about 31%

The Integration of Cadastral Base Mapping with Cadastral Parcel Attribution

A cadastre is a parcel-based, up-to-date land information system containing a record of interests in land. Creation and maintenance of a cadastre usually involves coordination between different public and private organizations that are responsible for the various data. The U.S. Bureau of Land Management (BLM) has built a Geographic Coordinate Data Base (GCDB) that currently provides cadastral base map data for more than 38,000 townships across the country, with many of the western states nearly complete. The GCDB strategy is that the coordinates can and do change as more recent and accurate information becomes available. The locational reliability of the GCDB as a digital representation of the Public Lands Survey System is widely recognized. This thesis examines issues in building upon this framework for the depiction of the local parcels as a core component of the national cadastre, maintainable at the local government level, such as a municipality or county. As new data in the federal base framework are provided, the local parcel fabric may need to be updated without creating gaps and overlaps. The measurement management methodology has been expanded to provide this maintenance capability. This ultimately leads to the desired political outcome of a consistent, reliable, spatial representation of legal land objects. The legal land descriptions encoded in the GCDB framework can be extracted and utilized to provide consistent parcel attribution of aliquot part parcels. As most states have external databases that maintain an index of real property parcels. Experimentation identifies that integration with these external databases is an extremely accurate, expedient, and cost-effective method of cadastral parcel attribution at the state or local government level, depicted on a uniform parcel-based map. The methodology presented yields great success in automatic identification and interpretation of encoded legal land descriptions of aliquot part parcels. Building upon the FGDC Cadastral Data Content Standard, expansion of this can lead to automatic parcel identification and attribution as high as 96% in some areas

Noise characterization of an atomic magnetometer at sub-millihertz frequencies

Noise measurements have been carried out in the LISA bandwidth (0.1 mHz to 100 mHz) to characterize an all-optical atomic magnetometer based on nonlinear magneto-optical rotation. This was done in order to assess if the technology can be used for space missions with demanding low-frequency requirements like the LISA concept. Magnetometry for low-frequency applications is usually limited by $1/f$ noise and thermal drifts, which become the dominant contributions at sub-millihertz frequencies. Magnetic field measurements with atomic magnetometers are not immune to low-frequency fluctuations and significant excess noise may arise due to external elements, such as temperature fluctuations or intrinsic noise in the electronics. In addition, low-frequency drifts in the applied magnetic field have been identified in order to distinguish their noise contribution from that of the sensor. We have found the technology suitable for LISA in terms of sensitivity, although further work must be done to characterize the low-frequency noise in a miniaturized setup suitable for space missions.Comment: 11 pages, 12 figure

COMPARISON OF JUMP HEIGHT VALUES DERIVED FROM A FORCE PLATFORM AND VERTEC

This study simultaneously assessed jump heights derived from a force platform and a Vertec as well as the reliability of each instrument. Twenty-one recreationally active adults performed 3 maximal countermovement jumps reaching to a Vertec that was placed above the force platform. A repeated measures ANOVA was used to assess differences between Vertec jump height and force platform derived jump height. Results revealed a 27% higher jump height when assessed by the Vertec, compared to the force platform. Intra-class correlations were used to assess trial-to-trial reliability. Both instruments displayed excellent reliability. Practitioners could use the following regression equation to interpret measurements from the force platform: Vertec jump height = force platform height (1.024) + 0.142m

ECCENTRIC MUSCLE ACTIONS PRODUCE 36% TO 154% LESS ACTIVATION THAN CONCENTRIC MUSCLE ACTIONS

This study evaluated the differences in eccentric and concentric phase muscle activation of variety of muscles during lower body resistance training exercises. Surface electromyography data (EMG) from 12 subjects was analyzed for the eccentric and concentric phases of the squat, deadlift, step-up, and lunge. Data from the test exercises were averaged for the eccentric and concentric phase for each muscle group to produce a comprehensive measure of activation differences between the eccentric and concentric phases. A paired samples t-test revealed differences between eccentric and concentric phase activation for all muscles assessed (p ≤ 0.05). Results demonstrated that during lower body multi-joint exercises the eccentric phase produced 36% to 154% less muscle activation that the concentric phase

Interfaces Within Graphene Nanoribbons

We study the conductance through two types of graphene nanostructures: nanoribbon junctions in which the width changes from wide to narrow, and curved nanoribbons. In the wide-narrow structures, substantial reflection occurs from the wide-narrow interface, in contrast to the behavior of the much studied electron gas waveguides. In the curved nanoribbons, the conductance is very sensitive to details such as whether regions of a semiconducting armchair nanoribbon are included in the curved structure -- such regions strongly suppress the conductance. Surprisingly, this suppression is not due to the band gap of the semiconducting nanoribbon, but is linked to the valley degree of freedom. Though we study these effects in the simplest contexts, they can be expected to occur for more complicated structures, and we show results for rings as well. We conclude that experience from electron gas waveguides does not carry over to graphene nanostructures. The interior interfaces causing extra scattering result from the extra effective degrees of freedom of the graphene structure, namely the valley and sublattice pseudospins.Comment: 19 pages, published version, several references added, small changes to conclusion

HAMSTRINGS, QUADRICEPS, AND GLUTEAL MUSCLE ACTIVATION DURING RESISTANCE TRAINING EXERCISES

This study evaluated hamstrings, quadriceps, and gluteal muscles activation during the back squat, deadlift, step-up, and lunge. Root mean square electromyographical data were analyzed for the eccentric and concentric phases during each exercise. Subjects included 16 women who performed 2 repetitions of each of the exercises at a 6 repetition maximum load. A repeated measures ANOVA revealed significant main effects (P≤0.05) representing differences in muscle activation between the resistance training exercises all muscle groups (P≤0.05) except for the rectus femoris, during the concentric phase (P=0.22). Based on these results, resistance training exercises can be prescribed based on how they best train the desired musculature

GROUND REACTION FORCE AND RATE OF FORCE DEVELOPMENT DURING LOWER BODY RESISTANCE TRAINING EXERCISES

This study quantified the differences in the kinetic profiles of the back squat, deadlift, step-up, and lunge. Eleven subjects performed 2 repetitions of their 5 repetition maximum in each of the 4 exercises. Kinetic data were collected using a force platform. The exercises were compared based on their peak vertical ground reaction force (GRFP) and rate of force development (RFD) in both the eccentric and concentric phase. A repeated measures ANOVA indicated differences (p ≤ 0.001) in GRFP attained for the different exercises in both the eccentric and concentric phase. No significant differences (p ≥ 0.05) were found for RFD for any of the exercises in either the eccentric or concentric phase. Results can guide the development of training programs that are specific to strength, explosiveness, or osteogenesis