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Exam Tuesday. x pages, x questions Natural flow regime: Hydrology of streams: RCC; FPC; RES Arthropod taxonomy / evolution: Insect physiology: Lab quiz: x general invert ID x insects to order Label a diagram. Assigned readings. Natural flow regime.
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Exam Tuesday • x pages, x questions • Natural flow regime: • Hydrology of streams: • RCC; FPC; RES • Arthropod taxonomy / evolution: • Insect physiology: • Lab quiz: • x general invert ID • x insects to order • Label a diagram
Assigned readings Natural flow regime
Poff et al. 1997 Natural flow regime River management not working New paradigm is importance of natural flow = five components
Human alterations of flow Dams Urbanization, tiling, drainage Levees Groundwater pumping
Ecological functions of flow regime High flows, low flows Duration, timing
Ecological responses to altered flow regime Mortality of fishes below dams Loss of habitat Loss of flooded habitat
Solution to hydrologic alteration? Manage toward natural flow regime Controlled releases by dams Dam removal Alternative ag practices
Riverine Ecosystem Synthesis Thorp, Thoms, Delong
Review of River Ecosystem Concepts RCC Flood Pulse Concept FPZs
Creates new predictions about river functions Stochastic processes different in different patches? Communities distributed among FPZs. S highest at transition zones. % Autochthonous productivity varies among FPZs.
Exoskeleton • Arthropods are supported by exoskeletons • Skeleton on outside • Muscles attach to inside • Exoskeleton is like medieval suit of Armor • Articulating plates = sclerites • Membranes connect sclerites
Respiration • Terrestrial animals must supply O2 to cells without drying out • Insect solution relies on waterproof cuticle that allows air to enter at only a few places = spiracles
Respiration • Spiracles are invaginations of the epidermis • Cuticle lined air conducting tubes = tracheae • Tracheae branch and end close to tissues as tracheoles
Breathe air or water? • Atmospheric breathers: • Spiracles covered with hairs to prevent water from entering.
Breathe air or water? • Plant breathers: • Spiracles modified to pierce plant air channels • Some dipteran larvae, beetle larvae.
Breathe air or water? • Temporary air stores • Bring bubble underwater • Belostoma spp. • Dytiscus spp. • Permanent air stores • Hairs or meshworks hold gas film = plastron • E.g., riffle beetles (Elmidae)
Breathe air or water? • Closed tracheal systems • = no spiracles • Tracheal gills = outgrowths • In every aquatic insect order, in some species
Circulatory System • Open circulatory system • Blood leaves dorsal blood vessel; percolates through body cavity (hemocoel) • Thoracic portion of dorsal blood vessel conducts hemolymph to head • Small pumps move hemolymph into legs, wings and antennae
The Alimentary Canal • Gut of an insect is tube that runs from mouth to anus • Gut functions include: • Digestion of food • Absorption of nutrients across gut wall to hemocoel • Gut = integumental invaginations from mouth and anus (foregut and hindgut) • Midgut = nonintegumental connection between foregut and hindgut
The Alimentary Canal • As food moves through gut it will travel from: • Mouth->Pharynx->Crop->Proventriculus & Gastric caeca->midgut->Ileum->Rectum
Excretion • Excretion is removal of waste products of cellular metabolism • Malpighian tubules = principle excretory organs of insects • At junction of Midgut and Hindgut • Absorb waste from hemocoel and deposit in hind gut
Exoskeleton Exoskeleton = series of tubes • Hollow tubes stronger then rods • Size limited, mammal-sized arthropods require prohibitively thick exoskeleton • larger animals subject to stress related injuries; endoskeleton protected by surrounding tissue
Hydrostatic Skeleton • Relaxed membranous areas can be extended when muscles compress blood-filled body • Hydrostatic skeleton maintains shape of soft-bodied larvae, and freshly-molted insect
Integument • Exoskeleton = noncellular covering • Cuticle – noncellular outermost layer • Epidermis – single layer, secretes cuticle • Epidermis and cuticle separated by subcuticular space • Cuticle + Epidermis = Integument
Integument: The cuticle • Insect cuticles are diverse: • Permeability • Transparency • Rigidity • Cuticle is laminate • Two major portions: • Epicuticle • Procuticle
Integument: The Epicuticle • May be smooth or sculpted • Rich in lipid and protein • High wax production • If epicuticle is intact, insects lose little moisture
Integument: The Procuticle • Divided into layers • Exocuticle – hard dark outer portion • Endocuticle – softer and lighter in color • Made of chitin, protein and lipid • Chitin is: • colorless polysaccharide • clumped into microfibrils • microfibril orientation compensates for stress forces
Epidermis • Epidermis = continuous layer that seals hemocoel from subcuticular space • Secretes cuticle
Molting • Arthropods periodically shed exoskeleton to allow for growth and/or metamorphosis • 7 steps during each molt cycle
1. Apolysis • Retraction of epidermal cells from endocuticle • Formation of subcuticular space • Molting gel secreted • New cuticle laid down
2. Epicuticle formation • Epicuticle laid down • It is extensively wrinkled
3. Procuticle deposition • Formation of chitin microfibrils • Endocuticular layers of old cuticle digested • Enzymes in molting gel initially inactive
4. Ecdysis • Old cuticle splits along middorsal suture • Cast skin = epicuticle and exocuticle • Endocuticle recovered and recycled into new procuticle
5. Expansion • Insect swallows air • Insect swells, removes wrinkles in epicuticle
6. Hardening and darkening • New procuticle stabilized • Exocuticle formed
7. Endocuticle deposition • Depositing chitin and protein takes time • Some insects deposit one lamina of endocuticle every 24 hours Note: Ecdysis under hormonal control
