Application of LANDSAT data to agricultural resource problems with emphasis on the North American Great Plains

There are no author-identified significant results in this report

Application of digital analysis of MSS data to agro-environmental studies

There are no author-identified significant results in this report

Eucken's Philosophy

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Application of digital analysis of MSS data to agro-environmental studies

There are no author-identified significant results in this report

Response of cottonseed to audio frequency gas-plasma

The objectives of the study were: 1. To determine the effects of radiations from gas-plasma on the early and total germination of machine delinted cottonseed. 2. To determine the effects of radiations from gas-plasma on the radicle development of machine delinted cotton-seed. 3. To determine what effects the different excitation fre-quencies have on early and total germination and on radicle development of machine delinted cottonseed. 4. To determine what effects varying the current intensity have on early and total germination and on radicle development of machine delinted cottonseed

Analysis and identification of specialized sounds possibly used by the Caribbean fruit fly, Anastrepha suspensa (Loew), for communication purposes

Investigations were made to isolate, analyze, and identify the specialized sound produced by the male Caribbean fruit fly, Anastrepha suspensa (Loew), before pair formation and to determine if this sound is used as one mode of communication in the fly\u27s sexual behavior. Three other sounds were identified and related to specific behavioral activities, These experimental data were to provide information on one of several factors that is needed to develop effective control methods for this and other closely related insect species. These sounds were recorded with the flies located in an anechoic chamber. Calibrated condenser microphones were used as the transducers to detect these sounds, to convert them to electrical signals, and to transfer them to instrumentation located outside of the anechoic chamber. After the sound pressure level was recorded, the data were stored on magnetic tape for later analysis and identification. The data were analyzed for frequency, waveform, and pulsed information. A power spectral density or a frequency spectrum was calculated and plotted for each sound signal on a real—time spectrum analyzer and an x—y recorder. The power spectral density and the frequency spectrums were compared for each sound signal for similarities and differences. A bioassay test system was designed and constructed to measure the response of both the males and the females to the reproduced calling sound alone or in combination with pheromone extract. The test insects were allowed to move toward the treatment, away from the treatment, or to remain in the entrance cell. Four sounds from the male flies were isolated and identified and each related to a specific behavioral activity; these activities are flight, aggression, premating, and calling. Each of these sounds was found to contain different information and each has its own distinct frequency signature. The calling sound was the only one to contain pulsed information. The pulse duration ranged from 0.04 to 21 seconds, with 60 percent of the pulse durations less than 0.50 seconds and 85 percent less than 0.75 seconds. The males did not respond to other calling males or to the reproduced calling sound either alone or in combination with pheromone extract. The females, eight to thirteen days old, responded to calling males, pheromone extract, and reproduced calling sound plus pheromone extract, but did not respond to sound alone. The response of the younger flies, six to eight days old, was significantly greater to sound plus pheromone extract than to pheromone extract alone. The techniques developed in the research for obtaining frequency signatures of the acoustical properties for specific insect activities show promise of becoming a very important tool for measuring insect quality. Such a tool would be a true asset to research scientist as a measure of quality control for both laboratory reared and mass reared insects. These frequency signatures could also be useful as a taxonomic tool in identifying other species of Tephritid fruit flies

Multiplexed communication over a high-speed quantum channel

In quantum information systems it is of particular interest to consider the best way in which to use the non-classical resources consumed by that system. Quantum communication protocols are integral to quantum information systems and are amongst the most promising near-term applications of quantum information science. Here we show that a multiplexed, digital quantum communications system supported by comb of vacuum squeezing has a greater channel capacity per photon than a source of broadband squeezing with the same analogue bandwidth. We report on the time-resolved, simultaneous observation of the first dozen teeth in a 2.4 GHz comb of vacuum squeezing produced by a sub-threshold OPO, as required for such a quantum communications channel. We also demonstrate multiplexed communication on that channel