You're offline — cached pages and worlds still work
Drishti Innovations logo
Drishti Innovations

How Animals Digest and Absorb Food

Nutrition in Animals: How Animals Digest and Absorb Food

How Animals Digest and Absorb Food

Nutrition in Animals

What you'll learn

  • Why animals need nutrition and how they differ from plants.
  • The human digestive system — organs and their functions.
  • Digestion in different animals — amoeba, grasshopper, ruminants.
  • What absorption and assimilation mean.

Key concepts

Why animals need to eat

  • Animals are heterotrophs — cannot make their own food.
  • Must eat plants (herbivores), animals (carnivores), or both (omnivores).
  • Food provides: energy (carbohydrates, fats), building materials (proteins), regulation (vitamins, minerals).

The human digestive system

Food travels through the alimentary canal (mouth → anus), a ~9 m long tube.

Mouth

  • Teeth: incisors cut, canines tear, premolars and molars crush and grind.
  • Tongue: mixes food with saliva; taste buds detect sweet, sour, salty, bitter, umami.
  • Salivary glands (3 pairs): produce saliva containing:
    • Salivary amylase (ptyalin): enzyme that begins digesting starch → maltose.
    • Water and mucus: lubricates food.
  • Bolus: soft ball of chewed, saliva-moistened food.

Oesophagus (Food pipe)

  • Muscular tube (~25 cm) connecting mouth to stomach.
  • Peristalsis: wave-like muscular contractions push food downward — works even upside down (gravity not needed).
  • No digestion here; only transport.

Stomach

  • J-shaped muscular bag; can hold ~1.5 litres.
  • Gastric glands in stomach wall produce gastric juice containing:
    • Hydrochloric acid (HCl): kills bacteria in food; makes acidic environment (pH ~2).
    • Pepsin: enzyme that digests proteins → smaller peptides (works only in acidic environment).
    • Mucus: protects stomach wall from acid.
  • Chyme: semi-liquid mixture of food + gastric juice after churning (~3–4 hours in stomach).

Small intestine

  • Longest part (~6–7 m); three sections: duodenum, jejunum, ileum.
  • Main site of digestion and absorption.

Duodenum receives:

  • Bile from liver (stored in gall bladder): emulsifies fats (breaks large fat droplets into small ones for easier enzyme action); no enzymes in bile.
  • Pancreatic juice from pancreas containing:
    • Pancreatic amylase: digests remaining starch → maltose.
    • Lipase: digests fats → fatty acids + glycerol.
    • Trypsin and chymotrypsin: digest proteins/peptides → amino acids.
    • Sodium bicarbonate: neutralises acid from stomach (makes intestine alkaline — pH ~8).

Intestinal juice (from intestine wall itself):

  • Maltase, sucrase, lactase: complete carbohydrate digestion → glucose.
  • Peptidases: complete protein digestion → amino acids.

Final products of digestion:

NutrientEnzyme(s)End product
Starch/carbohydratesAmylase, maltaseGlucose
ProteinsPepsin, trypsin, peptidasesAmino acids
FatsLipase (+ bile)Fatty acids + Glycerol

Absorption in small intestine:

  • Inner wall has villi (finger-like projections) and microvilli (on villi cells) → greatly increase surface area (~200 m²).
  • Glucose and amino acids: absorbed into blood capillaries inside villi → transported to liver via portal vein.
  • Fatty acids + glycerol: absorbed into lacteals (lymph vessels inside villi) → enter lymph → eventually bloodstream.

Large intestine

  • ~1.5 m long; colon + rectum.
  • Absorbs water and minerals from undigested matter.
  • Bacteria here produce some vitamins (K, B12) — beneficial.
  • Undigested matter becomes faeces; stored in rectum; expelled through anus (egestion/defecation).

Liver — largest gland

  • Produces bile (stored in gall bladder).
  • Detoxifies blood (removes alcohol, drugs, toxins).
  • Stores glycogen (glucose reserve).
  • Makes blood proteins (albumin, clotting factors).

Pancreas — dual function

  • Exocrine: produces digestive enzymes (pancreatic juice → duodenum).
  • Endocrine: produces insulin and glucagon (hormones that regulate blood sugar).

Summary: what happens where

OrganDigestion of
MouthStarch (amylase)
StomachProteins (pepsin)
Small intestineStarch (amylase), Proteins (trypsin), Fats (lipase + bile) — ALL complete here
Large intestineNo digestion; water absorption only

Digestion in other animals

Amoeba

  • No digestive system.
  • Engulfs food particle by pseudopodia (false feet) → forms food vacuole.
  • Digestive enzymes secreted into food vacuole → food digested inside → nutrients absorbed into cytoplasm.
  • Undigested remains expelled.
  • This process = phagocytosis.

Grasshopper

  • Mouth → oesophagus → crop (stores food temporarily) → gizzard (grinds food mechanically with hard teeth-like plates) → stomach → intestine → anus.

Ruminants (cow, goat, sheep, buffalo)

  • Herbivores that eat grass (high in cellulose — very hard to digest).
  • Have 4 stomach chambers: rumen, reticulum, omasum, abomasum.
  • Process called rumination ("chewing the cud"):
    1. Grass swallowed quickly → stored in rumen.
    2. Microorganisms in rumen partially digest cellulose.
    3. Food returned to mouth as cud → chewed thoroughly (second chewing).
    4. Re-swallowed → omasum → abomasum (true stomach) → further digestion.
  • Humans cannot digest cellulose (no cellulase enzyme) → cellulose passes as dietary fibre.

Quick check

  • Name the enzyme in saliva and what it digests.
  • What does HCl do in the stomach? Which enzyme works there?
  • Name three enzymes in pancreatic juice and what each digests.
  • What are villi? Why do they exist in the small intestine?
  • What is rumination? Which animals do it and why?

Open the Practice tab for graded questions on Nutrition in Animals.

Key Takeaways (TL;DR)

  • What you'll learn
  • Key concepts
  • Quick check

Master this topic with Drishti OS

Get unlimited mock tests, AI-powered mentorship, and complete video courses when you join.

Start Free Practice