Data from: UAS imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient
<p>This dataset consists of point intercept data, sampled with a point frame, from three 1 ha sites along an elevation and precipitation gradient within Reynolds Creek Experimental Watershed collected between late May and mid July, 2019. The lowest elevation site ('wbs1', 1,425 m) was vegetated by shrub steppe dominated Wyoming big sage (<em>Artemisia tridentata</em> ssp. <em>wyomingensis</em>). Vegetation at the middle elevation site ('los1', 1,680 m) was shrub steppe dominated by low sage (<em>Artemisia arbuscula</em>). Shrub steppe at the highest elevation site ('mbs1', 2,110 m) was dominated by mountain big sage (<em>Artemisia tridentata</em> ssp. <em>vaseyana</em>) and Utah snowberry (<em>Symphoricarpos oreophilus utahensis</em>). At each site 30 randomly located square 1 m^2 plots were sampled. The plots were oriented with one axis randomly chosen from 45, 90, 135, 180, 225, 270, 315 and 360 degrees north azimuth. A point frame of 20 pins was orientated perpendicular to the azimuth and each pin was lowered through the canopy and each contact was recorded to species or other plant material category. Whether the contacted material was photosynthetic (coded as a '+') or non-photosynthetic (coded as '-') was also recorded. Last seasons senesced plant material that is alive but not photosynthetic is coded as '.'. There may be 0, 1, 2 or more canopy hits for each pin (numbered 1 through n with 1 being the top-most canopy hit). A final basal hit is recorded for each pin and coded as hit 0. The point frame was moved so that a total of 5 rows were recorded for a total of 100 pins for each plot. The plant species codes used follow the USDA Plants Database. </p><div><br>Resources in this dataset:</div><br><ul><li><p>Resource Title: Data from: UAS imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient .</p> <p>File Name: point_frame_2019_reynoldscreek.xlsx</p><p>Resource Description: This dataset consists of point frame data from three 1 ha sites along an elevation and precipitation gradient within Reynolds Creek Experimental Watershed collected between late May and mid July, 2019. The lowest site's ('wbs1', 1,425 m) characteristic dominant shrub is Wyoming big sage (<em>Artemisia tridentata</em> ssp. <em>wyomingensis</em>). The middle elevation site's ('los1', 1,680 m) dominant shrub is low sage (<em>Artemisia arbuscula</em>). The highest elevation site's ('mbs1', 2,110 m) dominant shrubs are mountain big sage (<em>Artemisia tridentata</em> ssp. <em>vaseyana</em>) and Utah snowberry (<em>Symphoricarpos oreophilus utahensis</em>). At each site 30 randomly located square 1 m^2 plots were sampled. The plots were oriented with one axis randomly chosen from 45, 90, 135, 180, 225, 270, 315 and 360 degrees north azimuth. A point frame of 20 pins was orientated perpendicular to the azimuth and each pin was lowered through the canopy and each contact was recorded to species or other plant material category. Whether the contacted material was photosynthetic (coded as a '+') or non-photosynthetic (coded as '-') was also recorded. Last seasons senesced plant material that is alive but not photosynthetic is coded as '.'. There may be 0, 1, 2 or more canopy hits for each pin (numbered 1 through n with 1 being the top-most canopy hit). A final basal hit is recorded for each pin and coded as hit 0. The point frame was moved so that a total of rows rows were recorded for a total of 100 pins for each plot. The plant species codes used follow the USDA Plants Database.</p><p>Resource Software Recommended: Microsoft Excel,url: <a href="https://www.microsoft.com/en-us/microsoft-365/excel">https://www.microsoft.com/en-us/microsoft-365/excel</a> </p></li><br><li><p>Resource Title: GeoJSON.</p> <p>File Name: ReynoldsCrkExpWtrshdGeoJSON.json</p></li></ul><p></p>
| Main Author: | |
|---|---|
| Format: | Dataset biblioteca |
| Published: |
2022
|
| Subjects: | Land use and environmental planning, Physical geography and environmental geoscience, Photogrammetry and remote sensing, Environmental sciences, basal cover, leaf area index, NP215, sagebrush, Canopy Cover, point frame, Reynolds Creek Experimental Watershed, data.gov, ARS, |
| Online Access: | https://figshare.com/articles/dataset/Data_from_UAS_imagery_protocols_to_map_vegetation_are_transferable_between_dryland_sites_across_an_elevational_gradient/24668214 |
| Tags: |
Add Tag
No Tags, Be the first to tag this record!
|
| id |
dat-usda-us-article24668214 |
|---|---|
| record_format |
figshare |
| institution |
USDA US |
| collection |
Figshare |
| country |
Estados Unidos |
| countrycode |
US |
| component |
Datos de investigación |
| access |
En linea |
| databasecode |
dat-usda-us |
| tag |
biblioteca |
| region |
America del Norte |
| libraryname |
National Agricultural Library of USDA |
| topic |
Land use and environmental planning Physical geography and environmental geoscience Photogrammetry and remote sensing Environmental sciences basal cover leaf area index NP215 sagebrush Canopy Cover point frame Reynolds Creek Experimental Watershed data.gov ARS |
| spellingShingle |
Land use and environmental planning Physical geography and environmental geoscience Photogrammetry and remote sensing Environmental sciences basal cover leaf area index NP215 sagebrush Canopy Cover point frame Reynolds Creek Experimental Watershed data.gov ARS Patrick Clark (17362651) Data from: UAS imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient |
| description |
<p>This dataset consists of point intercept data, sampled with a point frame, from three 1 ha sites along an elevation and precipitation gradient within Reynolds Creek Experimental Watershed collected between late May and mid July, 2019. The lowest elevation site ('wbs1', 1,425 m) was vegetated by shrub steppe dominated Wyoming big sage (<em>Artemisia tridentata</em> ssp. <em>wyomingensis</em>). Vegetation at the middle elevation site ('los1', 1,680 m) was shrub steppe dominated by low sage (<em>Artemisia arbuscula</em>). Shrub steppe at the highest elevation site ('mbs1', 2,110 m) was dominated by mountain big sage (<em>Artemisia tridentata</em> ssp. <em>vaseyana</em>) and Utah snowberry (<em>Symphoricarpos oreophilus utahensis</em>). At each site 30 randomly located square 1 m^2 plots were sampled. The plots were oriented with one axis randomly chosen from 45, 90, 135, 180, 225, 270, 315 and 360 degrees north azimuth. A point frame of 20 pins was orientated perpendicular to the azimuth and each pin was lowered through the canopy and each contact was recorded to species or other plant material category. Whether the contacted material was photosynthetic (coded as a '+') or non-photosynthetic (coded as '-') was also recorded. Last seasons senesced plant material that is alive but not photosynthetic is coded as '.'. There may be 0, 1, 2 or more canopy hits for each pin (numbered 1 through n with 1 being the top-most canopy hit). A final basal hit is recorded for each pin and coded as hit 0. The point frame was moved so that a total of 5 rows were recorded for a total of 100 pins for each plot. The plant species codes used follow the USDA Plants Database. </p><div><br>Resources in this dataset:</div><br><ul><li><p>Resource Title: Data from: UAS imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient .</p> <p>File Name: point_frame_2019_reynoldscreek.xlsx</p><p>Resource Description: This dataset consists of point frame data from three 1 ha sites along an elevation and precipitation gradient within Reynolds Creek Experimental Watershed collected between late May and mid July, 2019. The lowest site's ('wbs1', 1,425 m) characteristic dominant shrub is Wyoming big sage (<em>Artemisia tridentata</em> ssp. <em>wyomingensis</em>). The middle elevation site's ('los1', 1,680 m) dominant shrub is low sage (<em>Artemisia arbuscula</em>). The highest elevation site's ('mbs1', 2,110 m) dominant shrubs are mountain big sage (<em>Artemisia tridentata</em> ssp. <em>vaseyana</em>) and Utah snowberry (<em>Symphoricarpos oreophilus utahensis</em>). At each site 30 randomly located square 1 m^2 plots were sampled. The plots were oriented with one axis randomly chosen from 45, 90, 135, 180, 225, 270, 315 and 360 degrees north azimuth. A point frame of 20 pins was orientated perpendicular to the azimuth and each pin was lowered through the canopy and each contact was recorded to species or other plant material category. Whether the contacted material was photosynthetic (coded as a '+') or non-photosynthetic (coded as '-') was also recorded. Last seasons senesced plant material that is alive but not photosynthetic is coded as '.'. There may be 0, 1, 2 or more canopy hits for each pin (numbered 1 through n with 1 being the top-most canopy hit). A final basal hit is recorded for each pin and coded as hit 0. The point frame was moved so that a total of rows rows were recorded for a total of 100 pins for each plot. The plant species codes used follow the USDA Plants Database.</p><p>Resource Software Recommended: Microsoft Excel,url: <a href="https://www.microsoft.com/en-us/microsoft-365/excel">https://www.microsoft.com/en-us/microsoft-365/excel</a> </p></li><br><li><p>Resource Title: GeoJSON.</p> <p>File Name: ReynoldsCrkExpWtrshdGeoJSON.json</p></li></ul><p></p> |
| format |
Dataset |
| author |
Patrick Clark (17362651) |
| author_facet |
Patrick Clark (17362651) |
| author_sort |
Patrick Clark (17362651) |
| title |
Data from: UAS imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient |
| title_short |
Data from: UAS imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient |
| title_full |
Data from: UAS imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient |
| title_fullStr |
Data from: UAS imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient |
| title_full_unstemmed |
Data from: UAS imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient |
| title_sort |
data from: uas imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient |
| publishDate |
2022 |
| url |
https://figshare.com/articles/dataset/Data_from_UAS_imagery_protocols_to_map_vegetation_are_transferable_between_dryland_sites_across_an_elevational_gradient/24668214 |
| work_keys_str_mv |
AT patrickclark17362651 datafromuasimageryprotocolstomapvegetationaretransferablebetweendrylandsitesacrossanelevationalgradient |
| _version_ |
1802722161587126272 |
| spelling |
dat-usda-us-article246682142022-08-16T00:00:00Z Data from: UAS imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient Patrick Clark (17362651) Land use and environmental planning Physical geography and environmental geoscience Photogrammetry and remote sensing Environmental sciences basal cover leaf area index NP215 sagebrush Canopy Cover point frame Reynolds Creek Experimental Watershed data.gov ARS <p>This dataset consists of point intercept data, sampled with a point frame, from three 1 ha sites along an elevation and precipitation gradient within Reynolds Creek Experimental Watershed collected between late May and mid July, 2019. The lowest elevation site ('wbs1', 1,425 m) was vegetated by shrub steppe dominated Wyoming big sage (<em>Artemisia tridentata</em> ssp. <em>wyomingensis</em>). Vegetation at the middle elevation site ('los1', 1,680 m) was shrub steppe dominated by low sage (<em>Artemisia arbuscula</em>). Shrub steppe at the highest elevation site ('mbs1', 2,110 m) was dominated by mountain big sage (<em>Artemisia tridentata</em> ssp. <em>vaseyana</em>) and Utah snowberry (<em>Symphoricarpos oreophilus utahensis</em>). At each site 30 randomly located square 1 m^2 plots were sampled. The plots were oriented with one axis randomly chosen from 45, 90, 135, 180, 225, 270, 315 and 360 degrees north azimuth. A point frame of 20 pins was orientated perpendicular to the azimuth and each pin was lowered through the canopy and each contact was recorded to species or other plant material category. Whether the contacted material was photosynthetic (coded as a '+') or non-photosynthetic (coded as '-') was also recorded. Last seasons senesced plant material that is alive but not photosynthetic is coded as '.'. There may be 0, 1, 2 or more canopy hits for each pin (numbered 1 through n with 1 being the top-most canopy hit). A final basal hit is recorded for each pin and coded as hit 0. The point frame was moved so that a total of 5 rows were recorded for a total of 100 pins for each plot. The plant species codes used follow the USDA Plants Database. </p><div><br>Resources in this dataset:</div><br><ul><li><p>Resource Title: Data from: UAS imagery protocols to map vegetation are transferable between dryland sites across an elevational gradient .</p> <p>File Name: point_frame_2019_reynoldscreek.xlsx</p><p>Resource Description: This dataset consists of point frame data from three 1 ha sites along an elevation and precipitation gradient within Reynolds Creek Experimental Watershed collected between late May and mid July, 2019. The lowest site's ('wbs1', 1,425 m) characteristic dominant shrub is Wyoming big sage (<em>Artemisia tridentata</em> ssp. <em>wyomingensis</em>). The middle elevation site's ('los1', 1,680 m) dominant shrub is low sage (<em>Artemisia arbuscula</em>). The highest elevation site's ('mbs1', 2,110 m) dominant shrubs are mountain big sage (<em>Artemisia tridentata</em> ssp. <em>vaseyana</em>) and Utah snowberry (<em>Symphoricarpos oreophilus utahensis</em>). At each site 30 randomly located square 1 m^2 plots were sampled. The plots were oriented with one axis randomly chosen from 45, 90, 135, 180, 225, 270, 315 and 360 degrees north azimuth. A point frame of 20 pins was orientated perpendicular to the azimuth and each pin was lowered through the canopy and each contact was recorded to species or other plant material category. Whether the contacted material was photosynthetic (coded as a '+') or non-photosynthetic (coded as '-') was also recorded. Last seasons senesced plant material that is alive but not photosynthetic is coded as '.'. There may be 0, 1, 2 or more canopy hits for each pin (numbered 1 through n with 1 being the top-most canopy hit). A final basal hit is recorded for each pin and coded as hit 0. The point frame was moved so that a total of rows rows were recorded for a total of 100 pins for each plot. The plant species codes used follow the USDA Plants Database.</p><p>Resource Software Recommended: Microsoft Excel,url: <a href="https://www.microsoft.com/en-us/microsoft-365/excel">https://www.microsoft.com/en-us/microsoft-365/excel</a> </p></li><br><li><p>Resource Title: GeoJSON.</p> <p>File Name: ReynoldsCrkExpWtrshdGeoJSON.json</p></li></ul><p></p> 2022-08-16T00:00:00Z Dataset Dataset 10.15482/usda.adc/1527856 https://figshare.com/articles/dataset/Data_from_UAS_imagery_protocols_to_map_vegetation_are_transferable_between_dryland_sites_across_an_elevational_gradient/24668214 CC0 |