General Biology I

🔬General Biology I Unit 28 – Invertebrates

Invertebrates, animals without backbones, make up over 95% of all animal species on Earth. From microscopic zooplankton to giant squids, they inhabit diverse environments and display a wide range of body plans and adaptations. Major invertebrate groups include sponges, jellyfish, worms, mollusks, arthropods, and echinoderms. These animals have evolved various strategies for survival, such as exoskeletons, camouflage, and regeneration, and play crucial ecological roles as decomposers, pollinators, and keystone species.

What Are Invertebrates?

  • Animals that lack a vertebral column or backbone
  • Comprise over 95% of all animal species on Earth
  • Includes a wide variety of organisms such as insects, spiders, crabs, snails, and jellyfish
  • Can be found in nearly every habitat on the planet from the deepest oceans to the driest deserts
  • Range in size from microscopic zooplankton to giant squids measuring over 40 feet long
  • Many invertebrates have a hard exoskeleton made of chitin for protection and support
  • Some invertebrates like jellyfish and worms have soft bodies without a hard external covering

Major Invertebrate Groups

  • Porifera (sponges): Aquatic, sessile animals with porous bodies and no true tissues
  • Cnidaria (jellyfish, corals, sea anemones): Radially symmetrical with stinging cells called nematocysts
  • Platyhelminthes (flatworms): Soft, flattened worms with bilateral symmetry and no body cavity
  • Nematoda (roundworms): Unsegmented worms with a pseudocoelom and complete digestive system
  • Annelida (segmented worms): Includes earthworms and leeches with segmented bodies and a true coelom
  • Mollusca (snails, clams, octopuses): Soft-bodied animals, often with a hard shell and a muscular foot
    • Classes include Gastropoda (snails and slugs), Bivalvia (clams and oysters), and Cephalopoda (octopuses and squids)
  • Arthropoda (insects, spiders, crabs): Segmented bodies, jointed appendages, and a hard exoskeleton
    • Subphyla include Chelicerata (spiders and horseshoe crabs), Crustacea (crabs and shrimp), and Hexapoda (insects)
  • Echinodermata (sea stars, sea urchins, sea cucumbers): Spiny-skinned marine animals with radial symmetry and a water vascular system

Invertebrate Body Plans

  • Asymmetry: No symmetry, irregular shape (some sponges)
  • Radial symmetry: Body parts arranged around a central axis (cnidarians and echinoderms)
    • Advantages include equal exposure to the environment and efficient movement in any direction
  • Bilateral symmetry: Mirror image halves, anterior (head) and posterior (tail) ends, dorsal (back) and ventral (belly) surfaces (most invertebrates)
    • Allows for cephalization (concentration of sensory organs and nervous tissue in the head)
    • Facilitates directed movement and more complex behaviors
  • Coelomate: Body cavity (coelom) completely lined with mesoderm (annelids, mollusks, arthropods)
    • Provides space for organ development and efficient circulation
  • Pseudocoelomate: Body cavity not completely lined with mesoderm (nematodes)
  • Acoelomate: No body cavity (flatworms)

Adaptations and Survival Strategies

  • Exoskeletons provide protection, support, and prevent water loss (arthropods)
  • Shells offer protection and can be closed to avoid predation (mollusks)
  • Camouflage helps animals blend in with their surroundings to avoid detection (many invertebrates)
  • Mimicry involves resembling another organism to deceive predators or prey (some insects and spiders)
  • Bioluminescence produces light for communication, attraction, or deterrence (some jellyfish and squid)
  • Regeneration allows for the regrowth of lost body parts (some flatworms and echinoderms)
  • Venomous stings or bites can immobilize prey or deter predators (spiders, scorpions, some mollusks)
  • Jet propulsion enables rapid escape from predators (squid and octopuses)

Ecological Roles

  • Decomposers break down dead organic matter and recycle nutrients (many worms and insects)
  • Filter feeders strain small particles from the water (sponges, clams, some crustaceans)
  • Herbivores consume plants and algae (many snails, sea urchins, and insects)
  • Carnivores prey on other animals (spiders, octopuses, some insects)
  • Parasites live on or in a host organism and obtain nutrients at the host's expense (some flatworms and nematodes)
  • Pollinators transfer pollen between flowers, enabling plant reproduction (many insects)
  • Keystone species have a disproportionately large impact on their ecosystem (corals, sea stars)
  • Ecosystem engineers modify their environment, creating habitats for other species (beavers, termites)

Invertebrate Evolution

  • Invertebrates first appeared during the Ediacaran Period, about 600 million years ago
  • The Cambrian Explosion (541 million years ago) saw a rapid diversification of invertebrate phyla
  • Key innovations such as exoskeletons, shells, and segmentation allowed for the exploitation of new niches
  • Invertebrates were the first animals to colonize land during the Silurian Period (444-419 million years ago)
  • The evolution of flight in insects (Carboniferous Period, 359-299 million years ago) led to their widespread success
  • Mass extinctions, such as the End-Permian (252 million years ago), significantly impacted invertebrate diversity
  • Coevolution with flowering plants during the Cretaceous Period (145-66 million years ago) led to the diversification of pollinating insects

Key Invertebrate Systems

  • Nervous system: Ranges from simple nerve nets (cnidarians) to complex brains (cephalopods)
    • Ganglia are concentrations of nerve cells that control specific functions
    • Some invertebrates have well-developed sensory organs (eyes, antennae, statocysts)
  • Circulatory system: Open (hemolymph bathes organs directly) or closed (blood confined to vessels)
    • Some have a heart that pumps hemolymph or blood
  • Respiratory system: Gas exchange through body surface, gills, book lungs, or tracheal systems
    • Tracheal systems (insects) are a network of tubes that deliver oxygen directly to tissues
  • Digestive system: Ranges from incomplete (one opening) to complete (separate mouth and anus)
    • Specialized structures for feeding include the radula (mollusks) and mandibles (arthropods)
  • Excretory system: Removes metabolic wastes through structures like nephridia (annelids) and Malpighian tubules (insects)
  • Reproductive system: Asexual reproduction (budding, fragmentation) and sexual reproduction (gonads, external or internal fertilization)
    • Hermaphroditism (having both male and female reproductive organs) is common in some groups (snails, earthworms)

Cool Invertebrate Facts

  • Tardigrades (water bears) can survive extreme conditions like the vacuum of space and temperatures close to absolute zero
  • The box jellyfish has 24 eyes, including two complex eyes with lenses and retinas
  • The giant squid has the largest eyes in the animal kingdom, measuring up to 10 inches in diameter
  • The peacock mantis shrimp can strike with a force of 1,500 Newtons, accelerating faster than a .22 caliber bullet
  • The immortal jellyfish (Turritopsis dohrnii) can revert to its juvenile stage after reaching maturity, essentially becoming biologically immortal
  • The Antarctic krill (Euphausia superba) is one of the most abundant species on Earth, with an estimated biomass of 500 million tons
  • The silk produced by the Darwin's bark spider is one of the strongest biological materials known, ten times stronger than Kevlar
  • The Japanese spider crab has the longest leg span of any arthropod, reaching up to 12 feet from claw to claw


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AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.
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