Introduction to Large Animal Nutrition

Rumen Physiology

Carbohydrates & Fermentation

Protein & Nitrogen

Energy Systems

Production Applications

100

This microbial population allows cattle to digest cellulose.

Anaerobic rumen microbes (bacteria, protozoa, fungi)

100

The primary VFA produced on high-forage diets.

Acetate

100

Dietary nitrogen source used by rumen microbes to synthesize amino acids.

Rumen degradable protein (RDP)

100

TDN primarily estimates this nutritional component.

Energy

100

Energy balance state of early lactation cows.

Negative energy balance

200

The primary site of VFA absorption in the ruminant stomach.

Rumen (via ruminal papillae)

200

High-grain diets increase this VFA, predisposing to milk fat depression.

Propionate

200

Non-protein nitrogen commonly added to cattle diets.

Urea

200

Net energy for lactation accounts for losses via feces, urine, and this process.

Heat increment

200

Excessive early-lactation BCS loss predisposes to this liver disorder.

Fatty liver disease

300

Low rumen pH favors proliferation of this bacterial group.

Lactic acid–producing bacteria (e.g., Streptococcus bovis)

300

Physically effective fiber is required to stimulate this reflex.

Rumination (chewing and saliva production)

300

Another term for bypass protein.

Rumen undegradable protein (RUP)

300

Primary gluconeogenic VFA in ruminants.

Propionate

300

Ideal BCS at calving (1–5 scale).

3.0–3.5

400

Hypocalcemia reduces rumen motility because calcium is required for this process.

Smooth muscle contraction

400

Excessive production of this acid is central to acute ruminal acidosis.

Lactic acid

400

Excess rumen ammonia is converted in the liver to this compound.

Urea

400

Elevated NEFA are converted in the liver into this ketone body.

Beta-hydroxybutyrate (BHB)

400

DCAD diets manipulate these minerals to prevent hypocalcemia.

Calcium and phosphorus (via cation–anion balance)

500

Explain how rapid grain introduction can lead to laminitis.

Rapid fermentation → excess lactic acid → ↓ rumen pH → rumen epithelial damage → endotoxin/histamine release → vasoconstriction in the corium → laminitis

500

Describe how subacute ruminal acidosis decreases milk fat percentage.

↓ rumen pH alters biohydrogenation → ↑ trans-fatty acids → inhibit mammary fat synthesis → milk fat depression

500

Why can milk production be limited despite adequate crude protein intake?

Inadequate RDP limits microbial protein synthesis → reduced metabolizable protein supply

500

Describe the endocrine changes driving negative energy balance postpartum.

↓ insulin, ↑ growth hormone → increased lipolysis → ↑ NEFA → hepatic ketogenesis

500

Why are overconditioned cows predisposed to fatty liver?

Excess adipose → increased NEFA mobilization → hepatic triglyceride accumulation