about
The reaction of European lobster larvae (Homarus gammarus) to different quality food: effects of ontogenetic shifts and pre-feeding history.Interactions between temperature and nutrients across levels of ecological organization.Successional change in phosphorus stoichiometry explains the inverse relationship between herbivory and lupin density on Mount St. Helens.Stoichiometric constraints do not limit successful invaders: zebra mussels in Swedish lakes.The coupling of biodiversity and productivity in phytoplankton communities: consequences for biomass stoichiometry.Ecological Stoichiometry beyond Redfield: An Ionomic Perspective on Elemental Homeostasis.Consumer-resource dynamics: quantity, quality, and allocation.Environmental and organismal predictors of intraspecific variation in the stoichiometry of a neotropical freshwater fish.Phosphorus limitation enhances parasite impact: feedback effects at the population levelEcological stoichiometry and density responses of plant-arthropod communities on cormorant nesting islands.Intermediate coupling between aboveground and belowground biomass maximises the persistence of grasslands.Bridging the gap between theoretical ecology and real ecosystems: modeling invertebrate community composition in streams.Stoichiometric flexibility in diverse aquatic heterotrophic bacteria is coupled to differences in cellular phosphorus quotas.Plant fertilization interacts with life history: variation in stoichiometry and performance in nettle-feeding butterflies.Strong interactions between stoichiometric constraints and algal defenses: evidence from population dynamics of Daphnia and algae in phosphorus-limited microcosmsEnhanced leaf nitrogen status stabilizes omnivore population density.Carbon:Nitrogen:Phosphorus Stoichiometry in Fungi: A Meta-AnalysisDynamics of a mechanistically derived stoichiometric producer-grazer model.Species sorting and stoichiometric plasticity control community C:P ratio of first-order aquatic consumers.Early Cambrian food webs on a trophic knife-edge? A hypothesis and preliminary data from a modern stromatolite-based ecosystem.Metabolomic responses to sublethal contaminant exposure in neonate and adult Daphnia magna.Effects of taxonomy, sediment, and water column on C:N:P stoichiometry of submerged macrophytes in Yangtze floodplain shallow lakes, China.Variable nutrient stoichiometry (carbon:nitrogen:phosphorus) across trophic levels determines community and ecosystem properties in an oligotrophic mangrove system.Biological control of toxic cyanobacteria by mixotrophic predators: an experimental test of intraguild predation theory.Genotype-specific relationships among phosphorus use, growth and abundance in Daphnia pulicaria.Enrichment in a stoichiometric model of two producers and one consumer.Quantifying chaos for ecological stoichiometry.Quasi-equilibrium reduction in a general class of stoichiometric producer-consumer models.Multiple resource limitation theory applied to herbivorous consumers: Liebig's minimum rule vs. interactive co-limitation.Transient dynamics of pelagic producer-grazer systems in a gradient of nutrients and mixing depths.Too much of a good thing: on stoichiometrically balanced diets and maximal growth.Does dietary P affect feeding and performance in the mixed-feeding grasshopper (Acrididae) Melanoplus bivitattus?Optimal feeding under stoichiometric constraints: a model of compensatory feeding with functional responseSTOICHIOMETRIC RESPONSES OF PHYTOPLANKTON SPECIES TO THE INTERACTIVE EFFECT OF NUTRIENT SUPPLY RATIOS AND GROWTH RATES(1).Mechanistic modelling for predicting the effects of restoration, invasion and pollution on benthic macroinvertebrate communities in riversIntegrating elements and energy through the metabolic dependencies of gross growth efficiency and the threshold elemental ratioThe elemental stoichiometry of aquatic and terrestrial ecosystems and its relationships with organismic lifestyle and ecosystem structure and function: a review and perspectivesThe importance of biotic interactions for the prediction of macroinvertebrate communities under multiple stressorsThe Role of Ecological Stoichiometry in Outbreaks of Insect HerbivoresImpacts of Nitrogen and Phosphorus: From Genomes to Natural Ecosystems and Agriculture
P2860
Q30670384-6F568A43-3FF4-43FE-8693-B010D73C25CEQ30870042-7A752C4F-E753-4A7B-902F-EE02C052AD86Q30883001-D3F7F4B4-5F28-4805-A0E0-6E74C1542C2CQ33436221-960EF473-02EC-4C4A-A54B-01738F27D5A6Q33501279-866A199D-2555-4F1F-8822-62F981EA1EE6Q33600205-3F90435A-1FCA-4AF0-998D-B7F29C294130Q33809254-DB7BFD50-3EBD-4BD2-8922-3820E03C8EA8Q34193346-879D6E20-7439-4E69-BC5C-24298ACC7B80Q34466876-71495426-CEF0-41DC-AAE4-2B8FA3686068Q34692342-E0979376-EBF8-4F61-891C-79523AB5FC29Q34700110-D6FA8BE8-BF70-425B-91A7-63EC80DA45D2Q34732179-527A16F7-442A-498B-8570-820E6F68FF57Q35128516-0B1015C5-ED89-4D83-8A80-A3FEAB7FA7F5Q35560908-A49B9521-C06E-4C6C-8483-03EF4AAF47A1Q36511838-76C1BD94-D2E2-4C70-80AE-A2FA4500EA5BQ37588642-EA6ECB8B-3403-43DD-BEE6-71D77DE3FE80Q38656339-AA78D5B5-0056-4507-B11A-802900A7037AQ42716603-19D9BEFB-440D-4940-861F-0DB9AD1B9CBEQ46367824-BA7C54FA-7847-48FC-90DE-C7A0B2F4D4A3Q46475889-45C6E90A-C701-4006-BACA-4D8A7C2F62C7Q46495887-BF98AE62-3A1E-4FBE-B67E-C35805C0C9A0Q46497397-100861C2-7965-4484-974A-C2DF822B73C1Q46699554-31B2F222-99AA-43D1-96C5-D1808E14401CQ46847973-560A555D-A654-4EE6-A5FE-BF0D227C6E70Q48297937-6D854F93-BFFE-4E6A-9378-A8425F5EEB36Q48771067-321E3144-F15D-444C-96BD-3E8263864AF5Q51174336-D925273F-71CF-411A-8BB2-C7CF8E2E92CAQ51333572-CF2A0BC5-32B8-4984-9546-03FA1D9FE744Q51575407-2BF1D6F6-577E-48F0-816C-0A5154046003Q51686263-DF9AEF44-60CF-4091-8D3C-44D20C3C2E65Q51725883-D347B3CF-7683-4EC1-BF16-B6FFD6847D75Q51959303-5D4EEA8F-6BED-4693-969E-27F3887DA33DQ53210713-3206C6C7-C202-478C-BE99-9AF42AE4FD6FQ54341881-111D7CDB-2C62-495E-AB10-DD418455F221Q56332532-164C1B02-A3E6-4EE0-A643-7EDEFC79861FQ56972737-3C384B67-BB79-4FB4-BF05-46C7BB0529A8Q56991101-7749BBEE-C8D0-4ED4-84EA-64956DDF141FQ57240827-799D24AE-E3BC-495C-BFB3-9AFD97303CCFQ57262211-035DB5CF-5FDE-47C6-8995-5A0BCF6D99F0Q57262387-48B9D837-224D-4BC1-B08D-A07EC6B141D7
P2860
description
article
@en
im August 2004 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в серпні 2004
@uk
name
Stoichiometry and population dynamics
@en
Stoichiometry and population dynamics
@nl
type
label
Stoichiometry and population dynamics
@en
Stoichiometry and population dynamics
@nl
prefLabel
Stoichiometry and population dynamics
@en
Stoichiometry and population dynamics
@nl
P1433
P1476
Stoichiometry and population dynamics
@en
P2093
Tom Andersen
P304
P356
10.1111/J.1461-0248.2004.00646.X
P407
P577
2004-08-02T00:00:00Z