6,037 research outputs found
SUPPLY RESPONSE OF U.S. SORGHUM ACREAGE TO GOVERNMENT PROGRAMS
Get PDFAgricultural and Food Policy, Crop Production/Industries,
Food and Poetry: Words That Eat, Plant, and Grow
Get PDFThe English Department proposes a poetry reading for the conference, a reading of poetry that focuses on food in various ways. The authors will vary from faculty, to current students, to students who have graduated from Winthrop and are returning for this conference
Regulatory Improvement Legislation: Risk Assessment, Cost-Benefit Analysis, and Judicial Review
Get PDFDetermination and Occurrence of Phenoxyacetic Acid Herbicides and Their Transformation Products in Groundwater Using Ultra High Performance Liquid Chromatography Coupled to Tandem Mass Spectrometry
Get PDFThis research is funded by the National Development Plan, through the Research Stimulus Fund, administered by the Department of Agriculture, Food and Marine (RS-544) and the Teagasc Walsh Fellowship Scheme.peer-reviewedA sensitive method was developed and validated for ten phenoxyacetic acid herbicides, six of their main transformation products (TPs) and two benzonitrile TPs in groundwater. The parent compounds mecoprop, mecoprop-p, 2,4-D, dicamba, MCPA, triclopyr, fluroxypr, bromoxynil, bentazone, and 2,3,6-trichlorobenzoic acid (TBA) are included and a selection of their main TPs: phenoxyacetic acid (PAC), 2,4,5-trichloro-phenol (TCP), 4-chloro-2-methylphenol (4C2MP), 2,4-dichlorophenol (DCP), 3,5,6-trichloro-2-pyridinol (T2P), and 3,5-dibromo-4-hydroxybenzoic acid (BrAC), as well as the dichlobenil TPs 2,6-dichlorobenzamide (BAM) and 3,5-dichlorobenzoic acid (DBA) which have never before been determined in Irish groundwater. Water samples were analysed using an efficient ultra-high performance liquid chromatography (UHPLC) method in an 11.9 min separation time prior to detection by tandem mass spectrometry (MS/MS). The limit of detection (LOD) of the method ranged between 0.00008 and 0.0047 Âľg¡Lâ1 for the 18 analytes. All compounds could be detected below the permitted limits of 0.1 Âľg¡Lâ1 allowed in the European Union (EU) drinking water legislation [1]. The method was validated according to EU protocols laid out in SANCO/10232/2006 with recoveries ranging between 71% and 118% at the spiked concentration level of 0.06 Âľg¡Lâ1. The method was successfully applied to 42 groundwater samples collected across several locations in Ireland in March 2012 to reveal that the TPs PAC and 4C2MP were detected just as often as their parent active ingredients (a.i.) in groundwater
The Ursinus Weekly, December 8, 1905
Get PDFMeeting of the Board of Directors ⢠Reserves football season ⢠Schaff anniversary ⢠Alumni ⢠School of Theology ⢠Intercollegiate Oratorical Union ⢠Beginning of the American Thanksgiving Day ⢠Personalshttps://digitalcommons.ursinus.edu/weekly/2960/thumbnail.jp
High spectral resolution remote sensing of canopy chemistry
Get PDFNear infrared laboratory spectra have been used for many years to determine nitrogen and lignin concentrations in plant materials. In recent years, similar high spectral resolution visible and infrared data have been available via airborne remote sensing instruments. Using data from NASA's Airborne visible/Infrared Imaging Spectrometer (AVIRIS) we attempt to identify spectral regions correlated with foliar chemistry at the canopy level in temperate forests
DIRECT ESTIMATION OF ABOVEGROUND FOREST PRODUCTIVITY THROUGH HYPERSPECTRAL REMOTE SENSING OF CANOPY NITROGEN
Get PDFThe concentration of nitrogen in foliage has been related to rates of net photosynthesis across a wide range of plant species and functional groups and thus represents a simple and biologically meaningful link between terrestrial cycles of carbon and nitrogen. Although foliar N is used by ecosystem models to predict rates of leafâlevel photosynthesis, it has rarely been examined as a direct scalar to standâlevel carbon gain. Establishment of such relationships would greatly simplify the nature of forest C and N linkages, enhancing our ability to derive estimates of forest productivity at landscape to regional scales. Here, we report on a highly predictive relationship between wholeâcanopy nitrogen concentration and aboveground forest productivity in diverse forested stands of varying age and species composition across the 360â000âha White Mountain National Forest, New Hampshire, USA. We also demonstrate that hyperspectral remote sensing can be used to estimate foliar N concentration, and hence forest production across a large number of contiguous images. Together these data suggest that canopyâlevel N concentration is an important correlate of productivity in these forested systems, and that imaging spectrometry of canopy N can provide direct estimates of forest productivity across large landscapes
- âŚ
