Understanding and predicting ecological dynamics: are major surprises inevitable?
about
Why infectious disease research needs community ecologyFrom Darwin's Origin of Species toward a theory of natural historyBiology in the Anthropocene: Challenges and insights from young fossil recordsOptions for national parks and reserves for adapting to climate changePacific Walrus and climate change: observations and predictions.Model-free forecasting outperforms the correct mechanistic model for simulated and experimental data.Combining genetic and demographic data for prioritizing conservation actions: insights from a threatened fish speciesSwimming against the tide: resilience of a riverine turtle to recurrent extreme environmental events.Climate warming mediates negative impacts of rapid pond drying for three amphibian species.Modelling marine community responses to climate-driven species redistribution to guide monitoring and adaptive ecosystem-based management.Woodland-to-forest transition during prolonged drought in Minnesota after ca. AD 1300.Improved probability of detection of ecological "surprises".Thermal regimes of Rocky Mountain lakes warm with climate changeEnergetic conditions promoting top-down control of prey by predators.The influence of coral reef benthic condition on associated fish assemblagesTrophic tangles through time? Opposing direct and indirect effects of an invasive omnivore on stream ecosystem processes.Unintended consequences of management actions in salt pond restoration: cascading effects in trophic interactions.The Potential for Long-Term Sustainability in Seminatural Forestry: A Broad Perspective Based on Woodpecker Populations.Episodic Disturbance from Boat Anchoring Is a Major Contributor to, but Does Not Alter the Trajectory of, Long-Term Coral Reef Decline.Moving forward in circles: challenges and opportunities in modelling population cycles.Do citations and impact factors relate to the real numbers in publications? A case study of citation rates, impact, and effect sizes in ecology and evolutionary biology.Testing predator-prey theory using broad-scale manipulations and independent validationSimple prediction of interaction strengths in complex food webs.Black-swan events in animal populationsLong-term resource addition to a detrital food web yields a pattern of responses more complex than pervasive bottom-up control.Ensemble ecosystem modeling for predicting ecosystem response to predator reintroduction.Hydroclimatic variability drives episodic expansion of a floating peat mat in a North American kettlehole basin.Temporal scale dependent interactions between multiple environmental disturbances in microcosm ecosystems.Ability of matrix models to explain the past and predict the future of plant populations.Experimental moose reduction lowers wolf density and stops decline of endangered caribou.Predicting community responses to perturbations in the face of imperfect knowledge and network complexity.Trophic interaction modifications: an empirical and theoretical framework.Algal blooms and the nitrogen-enrichment hypothesis in Florida springs: evidence, alternatives, and adaptive management.An assessment of the benefits of yellow Sigatoka (Mycosphaerella musicola) control in the Queensland Northern Banana Pest Quarantine AreaEvolution mediates the effects of apex predation on aquatic food webs.Local vs regional effects of substratum on early colonization stages of sessile assemblages.Identifying a common backbone of interactions underlying food webs from different ecosystems.Stressor intensity determines antagonistic interactions between species invasion and multiple stressor effects on ecosystem functioningGeneric ecological impact assessments of alien species in Norway: a semi-quantitative set of criteriaIncorporating uncertainty and social values in managing invasive alien species: a deliberative multi-criteria evaluation approach
P2860
Q24277673-2DFADACC-EB86-4E9C-B527-D787906EDA2DQ28082132-875330FB-7539-49F4-8C94-5D9EA3EB1C70Q28648275-ADEC3FF3-2184-4F71-AA8D-1EA59DEF6AE4Q28749587-E3B9092E-2BA1-4723-8EA4-0EFA252F52A3Q30563018-23C7FD6E-86F1-4C56-8D03-3D505D81023BQ30594216-B97A8870-DC5F-4078-8AD9-4B311CA09059Q30764343-DEE2F668-95D1-42E7-9E60-B5B2983DBAC3Q30775943-027E48DE-ABC2-4F75-AC56-DF4FEFBB0644Q30831453-F27A08E5-7DF7-4836-BFC2-25C046EC3EFBQ31060463-5BD8ECC2-F860-469C-BE28-200D1098EC60Q33514712-1EF832E0-C6BC-4BAB-B437-51754279BD58Q33753685-07359500-830F-4253-A2F6-41CA5A5E5550Q33880378-700A1352-0C74-406A-877D-9181C2ABA779Q34117895-01DBE7D3-5C6E-437D-8ADA-0D8D6106DEC7Q34369319-EBBB87FF-8C90-4550-8453-2A900A028C4CQ34500620-FF3DB250-B977-4A31-85A9-6D8D8C3F682DQ35647967-2C34C41E-9FC9-4A14-A04B-CA01C0BD9EA0Q35856134-65087745-66C7-48F0-8398-FAA48DA5B1A6Q35881807-9148FB0C-5826-4BBC-9671-FDD442F8FB9CQ36410558-846E9E1A-14A1-48F2-B0D9-15C016BD9AA2Q36540220-F7406175-24DD-40DF-8861-ED6C62F08860Q36555245-102A077E-DFD7-457B-BEBE-C4AB24A275E6Q37068423-29B77824-0B27-4499-9790-22186A7EADE8Q37730117-5BB5FEDC-C51E-4A55-9B5C-FFBEDEFD068DQ38663264-E0C0EDE2-EAD0-4AE0-9410-CD58346051F3Q38835819-1C03C8E8-D9FF-4808-8216-BF0BBF0BF358Q39094994-A04CE237-8327-4361-B0BB-1FCD7A68FB29Q39308398-797A9981-2011-4C24-A249-EF85B563C890Q39438347-402C63DB-DA1C-423A-A2DA-F7883BE56EEFQ41588854-B1E5E628-12D2-4F30-ACFE-CAC4FFA17435Q43892272-00149C49-2D99-478F-8984-822E78D5D417Q46305122-578470D7-9305-4C84-9406-2101AF951E33Q47391743-8B28CA30-851E-4CB3-AF50-A3AC237F5EABQ51146355-258B226C-818E-478E-B8D0-051E23465B36Q51529230-835A9D18-0890-4946-AD0F-9068F35DC6E4Q51636791-4562822F-B9BF-47A8-96D7-744B60F1271BQ55484599-B6398C0E-FE0B-40F6-99FC-C6291B6E97DFQ56429871-82BE1594-4B0B-4A91-9CDF-0E204ECEAD27Q56526413-13BE3342-C12A-409F-9659-53614DB2C77AQ56741366-BBF9E3B1-2697-44FF-823C-24F600D1BBB2
P2860
Understanding and predicting ecological dynamics: are major surprises inevitable?
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Understanding and predicting ecological dynamics: are major surprises inevitable?
@en
type
label
Understanding and predicting ecological dynamics: are major surprises inevitable?
@en
prefLabel
Understanding and predicting ecological dynamics: are major surprises inevitable?
@en
P2093
P2860
P356
P1433
P1476
Understanding and predicting ecological dynamics: are major surprises inevitable?
@en
P2093
Benjamin S Halpern
Daniel F Doak
Daniel H Monson
David R Lindberg
Fiorenza Micheli
Ian Carroll
J Timothy Wootton
James A Estes
James Lovvorn
M Timothy Tinker
P2860
P304
P356
10.1890/07-0965.1
P407
P577
2008-04-01T00:00:00Z