about
Persistence and change in community composition of reef corals through present, past, and future climatesThe differential effects of increasing frequency and magnitude of extreme events on coral populations.Fitting state-space integral projection models to size-structured time series data to estimate unknown parameters.Symbiont diversity may help coral reefs survive moderate climate change.Refuge-mediated apparent competition in plant-consumer interactions.Integrating mechanistic organism--environment interactions into the basic theory of community and evolutionary ecology.Evolution of dispersal and life history interact to drive accelerating spread of an invasive species.Propensity of marine reserves to reduce the evolutionary effects of fishing in a migratory speciesAssessing strategies to minimize unintended fitness consequences of aquaculture on wild populations.When is dispersal for dispersal? Unifying marine and terrestrial perspectives.Response diversity can increase ecological resilience to disturbance in coral reefs.Recruitment facilitation can drive alternative states on temperate reefs.Disturbance facilitates the coexistence of antagonistic ecosystem engineers in California estuaries.Marine reserves can enhance ecological resilience.Exploring the effect of the spatial scale of fishery management.Quantifying the balance between bycatch and predator or competitor release for nontarget species.Evaluating alternative strategies for minimizing unintended fitness consequences of cultured individuals on wild populations.Local adaptation when competition depends on phenotypic similarity.Economic value of ecological information in ecosystem-based natural resource management depends on exploitation history.The evolution of dispersal in reserve networks.Predicting evolutionary rescue via evolving plasticity in stochastic environments.Spatial interplay of plant competition and consumer foraging mediate plant coexistence and drive the invasion ratchet.Linking models with monitoring data for assessing performance of no-take marine reservesPredation, competition, and the recovery of overexploited fish stocks in marine reservesProtected areas buffer against harvest selection and rebuild phenotypic complexityDisturbance size and frequency mediate the coexistence of benthic spatial competitors
P50
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P50
description
hulumtuese
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researcher
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հետազոտող
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name
Marissa L. Baskett
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Marissa L. Baskett
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Marissa L. Baskett
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Marissa L. Baskett
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Marissa L. Baskett
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type
label
Marissa L. Baskett
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Marissa L. Baskett
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Marissa L. Baskett
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Marissa L. Baskett
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Marissa L. Baskett
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prefLabel
Marissa L. Baskett
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Marissa L. Baskett
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Marissa L. Baskett
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Marissa L. Baskett
@nl
Marissa L. Baskett
@sl
P1053
P-1762-2014
P106
P1153
8567472900
P21
P31
P3829
P496
0000-0001-6102-1110