Showing 1-30 of 151 results for "agriculture"
Stable Isotopes in Agriculture
Tracer techniques using isotopic N have been employed since the 1940s to investigate such topics as N transformations and cycling in agricultural and other soils, N sources for crop uptake, the fate and behavior of fertilizer N applied to soils...
Agricultural Contaminants
Supelco air sampling and analysis products for agricultural contaminants - pesticides, herbicides, fungicides, animal emissions, gases, volatile organics and inorganics.
GC Analysis of Agricultural Pesticides (Standard) on SLB®-5ms
GC Analysis of Agricultural Pesticides (Standard) on SLB®-5ms
Extraction and Analysis of Agricultural Pesticides from Oranges Using the “QuEChERS” Method
Extraction and Analysis of Agricultural Pesticides from Oranges Using the “QuEChERS” Method
Country Regulations for Food and Beverage
While there are global regulatory bodies that can be followed, different regions can also have country specific regulations for the food and beverages that is imported and produced in the country. Here you will find a non-exhaustive overview...
Industry Regulations by Food Group
Learn more about food and beverage regulations by food group, including dairy, meat, plant-based meat, and beverages for different regions throughout the world.
Maximizing Read Length Output in Next-Generation Sequencing
Customer-generated data from the test lot demonstrated that our adapters significantly outperformed other vendor's material.
Michael Thomas
Michael Thomas tells us about his research to replace synthetic fertilizers with sustainable alternatives to help solve the problem of rising global food demand.
American College of Veterinary Internal Medicine (ACVIM)
Attend the virtusl American College of Veterinary Internal Medicine (ACVIM) Forum 2021.
Cannabinoid Analysis of Hemp: Developing an Efficient HPLC Method Workflow
Several different HPLC method options are explored for the efficient and time effective analysis of cannabinoids in a sample of hemp flower. The differences between gradient and isocratic analyses are explored, and the two methods are compared in determining the...
Pharmacopeia & Metrological Institutes Standards
Discover our extensive selection of pharmacopeia and national metrology institute standards belonging to USP, EP, British Pharmacopoeia, BAM, NIST, NMIA, and IRMM/BCR for quality control in pharma laboratories and industries.
US EPA Method 632: HPLC Analysis of Pesticides on Ascentis® C18
-methylcarbamate 10 μg/mL; Diuron; Propham; Siduron; Methiocarb, analytical standard; Linuron 10 μg/mL; Swep 10 μg/mL; Chlorpropham 10 μg/mL; Barban; Neburon
Clean Meat – How an Emerging Technology Will Be Regulated
A discussion of the regulation of cultured meat.
GC Analysis of cis/trans C18:1, C18:2, and C18:3 FAME Isomers on SP™-2560
Technical article on GC Analysis of cis/trans C18:1, C18:2, and C18:3 FAME Isomers on SP™-2560
GC Analysis of a 37-Component FAME Mix on SP™-2560, Slower Oven Ramp
GC Analysis of a 37-Component FAME Mix on SP™-2560, Slower Oven Ramp
HPLC Analysis of Atrazine Herbicides on Ascentis® Express C18
Separation of Atrazine-desethyl; Metoxuron; Hexazinone; Simazine; Cyanazine; Methabenzthiazuron; Atrazine; Monolinuron; Diuron; Isoproturon; Metobromuron; Metazachlor; Sebuthylazin; Linuron; Metolachlor
GC Analysis of FAMEs in Soybean Oil on SLB-IL111
GC Analysis of FAMEs in Soybean Oil on SLB-IL111
GC Analysis of a 37-Component FAME Mix on SLB®-IL100
Protocol discussing GC Analysis of a 37-Component FAME Mix on SLB®-IL100
GC Analysis of C2-C7 Free Fatty Acids on Nukol™
Separation of Propionic acid; Acetic acid; Heptanoic acid; Isobutyric acid; Valeric acid; Isocaproic acid; Butyric acid; Isovaleric acid
GC Analysis of FAMEs in Palm Oil on SLB-IL111
GC Analysis of FAMEs in Palm Oil on SLB-IL111
GC Analysis of FAMEs in Rapeseed Oil on SUPELCOWAX® 10
Separation of Methyl erucate; Methyl palmitate; Methyl stearate; Methyl linolenate; Methyl eicosenoate; Methyl behenate; Methyl myristate; Methyl oleate; Methyl arachidate
GC Analysis of FAMEs in Five Edible Oils (Canola, Lard, Palm, Soybean, and Sunflower Seed) on SLB®-IL111
GC Analysis of FAMEs in Five Edible Oils (Canola, Lard, Palm, Soybean, and Sunflower Seed) on SLB<sup>®</sup>-IL111
GC Analysis of a 37-Component FAME Mix on Omegawax®
This technical article will discuss GC Analysis of a 37-Component FAME Mix on Omegawax.
GC Analysis of a 37-Component FAME Mix on SP™-2560
A protocol for GC Analysis of a 37-Component FAME Mix on SP™-2560.
Reduce Matrix Background and Improve Overall Analyte Recovery for the Analysis of Pesticides in Beef Kidney
Supel QuE Z-Sep+ was successfully demonstrated for cleanup of beef kidney matrix, providing reduced background and less interference in the GC-MS analysis of the target pesticides
GC Analysis of C2-C22 Free Fatty Acids on Nukol™
Separation of Methyl oleate; Caprylic acid; Heptanoic acid; Methyl decanoate; Methyl dodecanoate; Myristic acid; Methyl palmitate; Methyl palmitoleate; Methyl stearate; Methyl linoleate; Methyl linolenate; Acetic acid; Arachidic acid; Behenic acid; Propionic acid; Isobutyric acid; Valeric acid; Isovaleric acid; Isocaproic acid;...
GC Analysis of a Grain Fatty Acid Methyl Ester (FAME) Mix on SP™-2560
-11-eicosenoate; Methyl elaidate; Methyl linoleate; Methyl myristate; Methyl myristoleate; Methyl palmitate; Methyl palmitoleate; Methyl oleate; Methyl pentadecanoate; Methyl tridecanoate; Methyl behenate; Methyl caprylate; Methyl erucate; Methyl heptadecanoate; Methyl arachidate

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