Many aquatic insectslose their mouthparts
as adults and some onlylive in that stage for a
few hours.
The waterstrider“walks” across the
surface of water, usinghydrophobic hairs on
the end of its legs.
Prehistoric dragonflieswere around 300 millionyears ago. The wingspan
of this creature wasoften wider than 3 feet!
Macro-invertebratesWhat are macros?
Macroinvertebrates are organisms that lack a spine and arelarge enough to be seen with thenaked eye. Examples of macro-invertebrates include flatworms,crayfish, snails, clams and insects,such as dragonflies. Many aquatic insects live as juveniles,called nymphs or larvae, in thewater, and become flying insects asadults.
Incomplete Metamorphosis
(3 stages)Complete
Metamorphosis(4 stages)
Egg
Larva
Pupa
Winged Adult(Flying or Aquatic)
macro life cycles
nymph
Flying Adult
egg
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Insects begin their life cycle as anegg, then go through physicalchanges with each stage in their lifecycle (metamorphosis). Some insects, likeCaddisflies, have four stages in their life cycle-called complete metamorphosis. The mayflies andstoneflies are examples of insects have only threestages in their life cycle. This is called incompletemetamorphosis. Insects look and exist differentlyat each stage.
TAILS
LEGS
anatomy and classification
Many aquatic insects you see are nymphs or larvae (juveniles).Some of the body parts of these creatures are similar to terrestrial (land-based) insects. They have three body parts (head,thorax and abdomen), three pairs of legs and a set of antennae.Some larvae will have unique structures, like gills, tails and distinctmouthparts. These structures can help you distinguish differentgroups of insects. For instance, most stoneflies have two tails andgills at the base of the legs and between the tails, while mostmayflies have three tails and gills on the abdominal segments.
ABDOMENTHORAX
ANTENNAE
HEAD
GILLS
GIANT STONEFLY
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Some macros have large gill surfaceareas to help them breath.
Some carry atmospheric oxygen withthem in tiny bubbles attached to the end
of their abdomen, like this riffle beetle.
Organisms found in fast movingwaters may have a flattened,
“streamlined” shape.
Caddisflies build protective casesaround their bodies out of stones,
leaf material, or sticks.
Where macros live
In its underwater environment, a macroinvertebrate must beable to navigate moving water as well as the substrate(stream bottom). Many macroinvertebrates found in riffles(fast, white water areas of the stream) stick to rocks withsuction devices. Organisms found in glides (smooth, flowingwater) may have a flat shape to prevent being swept down-stream. In slow moving pools, many organisms have adaptedto burrow in the sediments or developed bulky cases to provide protection from predators.
In addition to navigating, macroinvertebrates also need totake in oxygen from the water. Some have gills to breath oxygen dissolved in the water, others rise to the water’s surface to breath oxygen from the atmosphere.
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Examples of insect adaptationsto Their environments:
Macros and the Food Web
In addition to moving and breathing, a macroinvertebratemust also get food in its underwater environment in orderto survive. Macroinvertebrates can be separated into fourfeeding groups. Each group has specific adaptations forobtaining and eating food. What a macroinvertebrate eatsmay determine its role in the food web. For instance,plant life is eaten by a herbivorous mayfly, who is eatenby a predacious stonefly. A fish, in turn, eats thestonefly and an osprey eats the fish.
Collectors(caddisflies,
mayflies)
Dissolved organics, algae,bacteria, feces,and plants.
Physically gatherfood, or construct net-like structuresto catch food.
Shredders(mayflies, stoneflies,
caddisflies)
Leaves and vegetation thathave fallen intothe water.
Use chewingmouthpartsdesigned toshred, cut, bite,or bore.
Scrape algaeoff of rocks. Scrapers
(caddisflies,mayflies)
Predators(Stoneflies, beetles,dragonflies, alder-
flies)
Use specialrazor-likemouthparts toscape.
Bodies designedto chase, capture and killtheir prey.
Catch and eatlive organisms.
FEEDINGGROUPS
WHAT THEY EAT
HOW THEYEAT
HABITAT
Stream bottom
Areas in thestream withlots of treecanopy cover.
Areas in thestream withenough lightto makealgae grow.
All habitattypes.
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What macros tell us about the water
Scientists often use macroinvertebrate populations to learn more about a system.Macroinvertebrates are used as indicators of water conditions for several reasons:
1) They are easy to collect.
2) Many, called sensitive , cannot survive changes in stream conditions such as theintroduction of pollution, high levels of sediments, high water temperatures, or low levelsof dissolved oxygen (environmental stressors). Other species of macro-invertebrates, called tolerant , can survive in waters with changes in stream conditionsand environmental stressors.
3) Many stay in a small area most of their lives.
The sensitivity and feeding groups of macroinvertebrate samples offer clues to how the aquatic system is functioning. For example, a sample taken from a pool areawith a sandy substrate is usually rich in insects that shred organic materials. This sample may indicate that the pool area is functioning as a holding spot for organicdebris and sediments. The diversity of macroinvertebrates in a sample also informsaquatic biologists whether or not the ecosystem can support populations of amphibians, fish, birds, and other wildlife species.
Sensitive SomewhatTolerant
Tolerant
Caddisflies
Stoneflies
Mayflies
Dobsonflies
Alderflies
Craneflies
AquaticSowbug
Crayfish
Clams
Damselflies
Dragonflies
Midges
Black Flies
Riffle Beetles
Boatman
Backswimmers
Leeches
Aquatic Worms
Scud
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