The mission of the forage laboratory is to improve the understanding of forage quality and the means of producing quality forages to benefit dairy animal health, production and the dairy farm as an ecological system. The staff conducts research trials, demonstrates techniques to students, and collaborates with universities and national testing laboratories.
CORE LAB ANALYSES INCLUDE:
Dry matters (DM) are performed in either 55º or 105ºC gravity or forced air ovens. Large crop trials are done in industrial sized ovens. Samples are ashed using our muffle furnace. Loss on ignition (carbon content) can also be determined with the furnace.
Detergent Analyses and In Vitro Digestions
The Institute operates an Ankom fiber and digestion system to perform in vitro digestions, true and apparent digestibility (DMDa and DMDt) of dry matter (DM) and neutral detergent fiber (NDF), NDF, NDFd, ADF, lignin, and ash (combined) using fistulated cows.
Volatile Fatty Acid Analysis
Volatile fatty acids are products of rumen silage fermentation. Rumen fluid and water extracted silage samples are filtered and analyzed using a Varian 3800 Gas Chromatograph with FID detector. The output includes: acetic, lactic, valeric, isovaleric, propionic, and butyric acids.
Nitrogen (Crude Protein, Fractions)
FP428 nitrogen analyzer is used to determine nitrogen via Dumas combustion.
Adjacent to the dairy barn complex are 12 Midi Silos for forage fermentation studies. Each silo has a 1,000 pound feed storage capacity.
In our laboratories, samples are analyzed for research being conducted here at Miner Institute. We are a research lab and not a commercial lab. For further information on our forage laboratory, contact Kurt Cotanch at (518) 846-7121, ext. 123 or fax (518) 846-7774.
The environmental laboratory has been in operation since 1972, when the Applied Environmental Science Program (AESP) began at Miner Institute. Since that time, the lab has adapted to changing needs to fit its focus on education and research. The fall semester AESP utilizes this space for research in soil science, geology, and water quality modeling coursework, including tank reactor simulations and biochemical oxygen demand. Along with a complement of basic bench chemistry equipment, our newest additions allow for a detailed monitoring of silage effluent systems (biochemical oxygen demand and total phosphorus) and tile drained field export (phosphorus and pesticides) throughout the Little Chazy River watershed. The goal is to detail how farm-based best management practices really function to minimize environmental damage for sustainable agriculture.
ENVIRONMENTAL LAB ASSAYS:
Soluble Reactive Phosphorus
Raw water samples are filtered through a 0.45 um membrane and processed for available P using a Seal AA3 autoanalyzer (APHA 4500-P, E).
Raw water samples undergo a sulfuric acid/persulfate digestion before being processed for available P using a Seal AA3 autoanalyzer (APHA 4500-P, B, 5).
Raw water samples are filtered through a 0.45um membrane and processed for ammonia using a Seal AA3 autoanalyzer (APHA 4500-NH3, F).
Raw water samples are diluted and Dissolved Oxygen content determined with a YSI Model 58 stirring probe on Day 0 and Day 5 (APHA 5210-BOD5, B).
Raw water samples are filtered through a 0.45 um membrane and processed for Nitrates using a Seal AA3 autoanalyzer (APHA 4500-NO3-, I).
For additional information on our environmental laboratory, contact Steve Kramer at (518) 846-7121, ext. 127.