about
Designing better frog call recognition models.Climatic control of tracheid production of black spruce in dense mesic stands of eastern Canada.Occurrence of an invasive coral in the southwest Atlantic and comparison with a congener suggest potential niche expansionClimate variability and malaria epidemics in the highlands of East AfricaMaximum species richness at intermediate frequencies of disturbance: consistency among levels of productivity.Accommodating environmental variation in population models: metaphysiological biomass loss accounting.Climate effects and feedback structure determining weed population dynamics in a long-term experimentRegression with empirical variable selection: description of a new method and application to ecological datasets.Large dam reservoirs are probably long-period oscillators of fish diversity.Determining when to change course in management actions.Buried Alive: The Behavioural Response of the Mussels, Modiolus modiolus and Mytilus edulis to Sudden Burial by Sediment.Farmers' Willingness to Adopt Conservation Agriculture: New Evidence from Lebanon.Maternal effects mechanism of population cycling: a formidable competitor to the traditional predator-prey viewDrivers of seabird population recovery on New Zealand islands after predator eradication.Using experimentation to understand the 10-year snowshoe hare cycle in the boreal forest of North America.Physiological models of the lateral superior olive.Selecting predictors for discriminant analysis of species performance: an example from an amphibious softwater plant.Early stages of bone fracture healing: formation of a fibrin-collagen scaffold in the fracture hematoma.Predicting abundances of plants and pollinators using a simple compartmental mutualistic model.The implicit assumption of symmetry and the species abundance distribution.A direct, experimental test of resource vs. consumer dependence: comment.Spread of an introduced parasite across the Hawaiian archipelago independent of its introduced hostOn Theory in EcologyAn efficient protocol for the global sensitivity analysis of stochastic ecological modelsWarming effects in the western Antarctic Peninsula ecosystem: the role of population dynamic models for explaining and predicting penguin trendsSelecting food web models using normalized maximum likelihoodInformation theory and hypothesis testing: a call for pluralismANIMAL SEARCH STRATEGIES: A QUANTITATIVE RANDOM-WALK ANALYSISThe species-area-energy relationshipChanging philosophies and tools for statistical inferences in behavioral ecologyClimate-related adaptive genetic variation and population structure in natural stands of Norway spruce in the South-Eastern AlpsBalancing multiple constraints in model-data integration: Weights and the parameter block approachA Caveat Note on Tuning in the Development of Coupled Climate ModelsCumulative impacts of seabed trawl disturbance on benthic biomass, production, and species richness in different habitatsPhase dependence in winter physiological condition of cyclic volesBone remodeling: A tissue-level process emerging from cell-level molecular algorithms
P2860
Q30357113-9EFBCD0D-DB8F-46A4-B98C-728A6FC23D16Q30586374-D41710C0-E119-4817-9BAC-876FBD22BFF3Q30972719-60BC16D2-ABEC-4F28-9145-767B6EEB4D5FQ30981138-3E9DD45E-FD40-4287-9D36-4DDE534B6A05Q33286156-9D9E8F8E-3FDF-4016-ACDC-835CF148ABD9Q33924198-1F03F03F-6690-4775-8393-2ECC6CC0358EQ34137823-0AE3D05F-0CA0-4C06-B6E0-4863E60C4A9FQ34222431-3391F9DB-A909-4FCB-8D50-7C947034D760Q34253612-95B0AF34-55F3-449B-A1DE-386684ADCB72Q35231420-694C3042-2EAB-4858-BEC7-51E889A07CD2Q35959587-74AC6F3B-1395-4AAB-A7C6-C08E4FD835DEQ36410887-F086153A-641D-44C6-B764-985141EBF756Q37153046-61874F8B-D708-4748-96D5-30D6CA3956A4Q38188026-01884F74-C032-4C3B-BC3A-F322192FB0D6Q38668446-26D2876F-83E4-4347-A594-973BB1BF9AE8Q47243234-828104FE-77C6-4B60-A1DC-1F4B79CCDA9EQ49046017-AFEAD319-CAD1-4FA0-B768-BB58A7CC298FQ50990202-C1EE863F-28AC-4A48-90B4-EA97B8D771CCQ51357230-A9864DF0-E87F-44A4-955F-A50979C84DF6Q51698725-2ED36094-2F5C-4EBF-9182-6EC630AA34D5Q51706234-2ED503EF-24F1-477A-AA5B-BA22007B366BQ56439910-ADE997BA-88D6-4B5C-998C-CFFF16165A0FQ56568183-8B168DF6-F7B1-49FE-80F9-A3584AF0F8D1Q56959948-3A819193-EAA6-4AF9-A0CE-78CABD7265E8Q57002105-F42FFF82-101C-4584-A91A-0C096C81B4ABQ57016455-98C93D31-F8EC-43A0-83F9-5205E1577D93Q57193795-BAF4DD4C-FC50-4679-B39E-98371974BC72Q57230684-7FC6BFAC-D0AD-44C7-ADE2-BBE41F80C014Q57236255-EFF40D10-759A-412F-BDA3-190BE3182E43Q57260814-4B11206B-D576-4280-A9ED-4D932C906D61Q57848011-0C59F512-D64B-4B27-9303-261A66E6C773Q58014799-66154C5C-5541-46CD-A215-774ADB9C140DQ58308891-68D00EF9-DD8E-435B-9E36-7F5BB7F771FCQ58383458-EE7F3026-DEF9-452F-844B-11F4ABF5F880Q58461289-3E36A813-155A-44E0-9DFB-DE855A6B3C49Q58720245-5917D507-CCD2-44B3-9CEA-A8D3906D1BCA
P2860
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh-hant
name
Rules of thumb for judging ecological theories.
@en
Rules of thumb for judging ecological theories.
@nl
type
label
Rules of thumb for judging ecological theories.
@en
Rules of thumb for judging ecological theories.
@nl
prefLabel
Rules of thumb for judging ecological theories.
@en
Rules of thumb for judging ecological theories.
@nl
P1476
Rules of thumb for judging ecological theories.
@en
P2093
Christopher X J Jensen
Lev R Ginzburg
P304
P356
10.1016/J.TREE.2003.11.004
P577
2004-03-01T00:00:00Z