Utilization of satellite data for inventorying prairie ponds and lakes. LANDSAT-1 data were used to discriminate ponds and lakes for waterfowl management

The author has identified the following significant results. The mapping of open water as an indicator of waterfowl habitat quality was carried out by using two different recognition techniques, a single waveband thresholding approach and a multiple waveband approach termed proportion estimation. The single waveband technique has proven simple to implement. Its computer algorithm was rapid and accurately recognized prairie lakes and large ponds. The resultant products of this processing technique were thematic maps and statistical tabulations describing open surface water conditions. The maps served to portray visually the location and frequency of surface water bodies but usually necessitated additional interpretation

Utilization of Skylab (EREP) system for appraising changes in continental migratory bird habitat

There are no author-identified significant results in this report

Application of LANDSAT system for improving methodology for inventory and classification of wetlands

The author has identified the following significant results. Processing of LANDSAT MSS data for detection of prairie ponds and lakes was completed. Data coverage included a 36,876 sq km area in southeastern North Dakota during May and July. Cloud coverage limited the May coverage to 87% of the total area. Data analysis was accomplished using three software programs. Wetland identification by MSS sensors were compared to visual counts obtained by observers in low flying aircraft. Pond numbers identified by LANDSAT averaged about 20% of those counted visually. The discrepancy was attributed to the fact that approximately 75% of the ponds in the glaciated prairie region are less than 0.4 ha in size. It is significant, however, that LANDSAT counts accurately reflect trends

Chesterfield County Parks and Recreation Sustainability Plan

The Chesterfield County Parks and Recreation Sustainability Plan seeks to develop a foundation for the first sustainability plan that will support the accreditation process and implementation of the Chesterfield County Parks and Recreation Master Plan. This plan focuses on long-term environmental sustainability practices, recommendations, park lands, and topics relevant to Parks and Recreation outreach and management. The main goal of this sustainability plan is to address department needs for long-term environmental sustainability by analyzing current best practices from the National Recreation and Parks Association (NRPA), benchmark cities with implemented sustainability plans, and others while proposing recommendations per the Chesterfield County 2018 Parks and Recreation Comprehensive Master Plan. In efforts to further reach and enhance the overall sustainable outcomes, this plan supports the Chesterfield County Parks and Recreation department\u27s environmental stewardship efforts to address conservation, environmental monitoring, health and wellness, and to promote sustainable practices to the community. The Chesterfield County Parks and Recreation Sustainability Plan is broken up into pillars of sustainability , which include Education and Community Outreach, Health and Wellness, and Infrastructure and Operations. These pillars follow alongside the NRPA\u27s three pillars: conservation, health and wellness, and social equity. Goals, objectives, and actions are covered within the recommendations of this plan including topics such as recycling/upcycling, park maintenance, energy independence, flood protection, urban tree canopy (UTC), and others. Overall, this plan is focused on a set of goals/elements that will help determine how Chesterfield County parks and recreation sites and facilities will look and function in the future according the a set of sustainable practices

Utilization of ERTS-1 for appraising changes in continental migratory bird habitat

The author has identified the following significant results. Information on numbers, distribution, and quality of wetlands in the breeding range of migratory waterfowl is important for the management of this wildlife resource. Using computer processing of data gathered by the ERTS-1 multispectral scanner, techniques for obtaining indices of annual waterfowl recruitment, and habitat quality are examined. As a primary task, thematic maps and statistics relating to open surface water were produced. Discrimination of water was based upon water's low apparent radiance in a single, near-infrared waveband. An advanced technique using multispectral information for discerning open water at a level of detail finer than the virtual resolution of the data was also successfully tested. In another related task, vegetation indicators were used for detecting conditions of latent or occluded water and upland habitat characteristics

Preliminary evaluation of ERTS-1 for determining numbers and distribution of prairie ponds and lakes

ERTS-1 and aircraft multispectral data collected over a North Dakota test site during July 1972, are compared to evaluate the capability of the satellite sensors to detect numbers and distribution of prairie ponds and lakes. Recognition maps using ERTS-1, MSS 7 data are generated using a level slicing technique. Surface water areas larger than two acres are recognized, but ponds in the one-to two-acre range are detected only at random. The proportion estimation technique will improve the accuracy of area determination and small pond detection

Aircraft aerodynamic prediction method for V/STOL transition including flow separation

A numerical procedure was developed for the aerodynamic force and moment analysis of V/STOL aircraft operating in the transition regime between hover and conventional forward flight. The trajectories, cross sectional area variations, and mass entrainment rates of the jets are calculated by the Adler-Baron Jet-in-Crossflow Program. The inviscid effects of the interaction between the jets and airframe on the aerodynamic properties are determined by use of the MCAIR 3-D Subsonic properties are determined by use of the MCAIR 3-D Subsonic Potential Flow Program, a surface panel method. In addition, the MCAIR 3-D Geometry influence Coefficient Program is used to calculate a matrix of partial derivatives that represent the rate of change of the inviscid aerodynamic properties with respect to arbitrary changes in the effective wing shape

Comet Kohoutek

A compilation of scientific observations (workshop) is presented. Topics discussed are: (1) tail form, structure, and evolution; (2) hydroxyl related observations; (3) molecules and atoms in the coma and tail; (4) photometry and radiometry; and (5) spacecraft and ground based observation data. Color photographs are shown