Taxonomic definitions by Food SourcesDichotomous Key to functional definitionsTypes of herbivoryEcological Stoichiometry 2002. R.W.Sterner and J.J. Elser. Princeton Univ. Press, Princeton NJHerbivore Solutions to N limitationDiet ChoiceTaxonomic definitions by Food Sources• Autotrophs -- fix their own organic carbon, e.g. plants, or chemosynthetic bacteria– Photosynthetic plants, cyanobacteria: use light for energy to reduce CO2and inorganic nitrogen phosphorus to make organic molecules (e.g., carbohydrates, lipids, proteins, nucleic acids)– Chemosynthetic bacteria: use chemical bond energy for this purpose• Heterotrophs -- eat carbon that other organisms have fixed – Detritivores – eat nonliving tissues (dead organisms or material they shed or excrete)–Herbivores –eat plants– Carnivores – eat animals– Omnivores – eat from several of the categories above•Taxonomic definitions offour heterotrophs –Detritivores – eat nonliving organic matter (dead organisms or material they shed or excrete)–Herbivores – eat livingplants–Carnivores – eat animals–Omnivores – eat severalof the categories aboveFunctional definitions:Dichotomous Key to functional definitions1. Consumed resources mainly derived from other organisms? Yes…2 ( = Heterotroph) No…..Autotroph Autotroph (Photoautotroph (Photoautotroph (use photons to reduce (use photons to reduce COCO22););Chemoautotroph Chemoautotroph (derive energy from reduced (derive energy from reduced inorganic chemical bonds)inorganic chemical bonds)2. Consumed organisms eaten while alive? Yes….3 No….Detritivore or decomposer3. Prey individuals usually killed immediately upon successful attack? Yes….Predator No….44. Many prey attacked by consumer over its lifetime? Yes…Grazers, browsers, itinerant suckers,“partial predators” No…55. Eggs lain by mothers near or on individual prey, whose death is then inevitable? Yes…Parasitoids No….66. Consumers spend much of their lives in association with one or few hosts, consuming parts of host which is usually not killed, at least in the short term? Parasites, pathogensTypes of herbivory• Grazing (sensu strictu) eat down to substrate)• Browsing (nip tips)• Root feeding• Leaf mining• Stem boring (high damage per mass removed)• Gall formationphytolithEcological Stoichiometry 2002. R.W.Sterner and J.J. Elser. Princeton Univ. Press, Princeton NJ• Study of balance of energy and multiple chemical elements in living systems• Redfield Ratio (atoms in phytoplankton and seston (suspended organic matter): C (106): N (16): P(1)• Plants: C:N and C:P generally higher than in animals (varies among taxa, tissues, age groups)• Detritus even worseRedfield RatioPlant C:N = 6.6Animal C:N:PSterner and Elser 2002Sterner and Elser 2002Animals show more strict stoichiometric homeostasis than plants Problem for herbivores anddetritivores: to get enough N (and sometimes P)Scenedesmus (green alga (desmid))Non-homeostaticFungi-partially homeostaticBacteriaDaphniaStrongly homeostaticHerbivore Solutions to N limitation•High throughput (aphids, zebras (cecal digestors))• Selectivity (stem borers, Thomson’s gazelles)•Symbiotic partnerships (termites, pikas, cows (ruminants))Some termites have cellulolytic protozoans in their hindgut that allow them to digest wood. Other termites with their own cellulase still need microbial symbionts to decrease C:N of their food…Option—either reduce C in diet or increase NSpecies that separate their nests from their feeding habitats grow fungi, eliminating C via fungal respirationHigashi and Abe 1996: Termite symbiosesSpecies that eventually eat the wood that supports them have anaerobic bacteria in hindguts that fix atmospheric N2: 30-50% termite nitrogen derives from atmosphere. (Don’t burn down their homes as quickly as they would if they burned off carbon.)Higashi and Abe 1996Diet Choice• Specialists (monophagous)– Increased efficiency of food detection, handling, assimilation…– Other fitness advantages associated with one type of food (shelter, mate finding)• Generalists (polyphagous)– Nutritional balance– Avoid over-dosing on one toxin….– Increase probability of surviving periods of food shortages…Or dangerousnessQuickTime™ and aTIFF (Uncompressed) decompressorare needed to see this picture.Optimal Foraging Theory (Schoener 1971)To maximize rate of energy intake,should consume an item ifEi/hi≥ avg E/(avg s + avg h)h = handling times = search time (depends on prey density)Diets get broader when food is scarce, so search time between encounters increases…Why switch?Experience: search image, handling practice, enzyme inductionResource is patchy, and consumer concentrates on more profitable patches until they are depleted…p.281Somatic growth rates of pre-reproductive Ancistrus similar among pools in dry and rainy season (also survivorship. Power 1984. J. Animal Ecol. 53: 357-374.)Ideal Free Catfish:could track pool-to-pool variationin food availability;free to settle in best pool at any timeconsequently:catfish density tracked productivity;algal standing crops uniformly scant over 16x range in renewal rate(productivity);catfish fitness similar in sunny,crowded pools, and in dark,uncrowded pools.(Fretwell and Lucas