Controlling established invaders: integrating economics and spread dynamics to determine optimal management.
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General rules for managing and surveying networks of pests, diseases, and endangered speciesEffective control of aquatic invasive species in tropical Australia.Modeling population dynamics, landscape structure, and management decisions for controlling the spread of invasive plants.Landscape epidemiology and control of pathogens with cryptic and long-distance dispersal: sudden oak death in northern Californian forestsEvaluation of potential responses to invasive non-native species with structured decision making.Optimal surveillance and eradication of invasive species in heterogeneous landscapes.Population dynamics and control of invasive Spartina alterniflora: inference and forecasting under uncertainty.Identifying highly connected counties compensates for resource limitations when evaluating national spread of an invasive pathogenIncentivizing the public to support invasive species management: eurasian milfoil reduces lakefront property valuesA suite of models to support the quantitative assessment of spread in pest risk analysisEvolution of dispersal and life history interact to drive accelerating spread of an invasive species.Timing of favorable conditions, competition and fertility interact to govern recruitment of invasive Chinese tallow tree in stressful environmentsUsing economic instruments to develop effective management of invasive species: insights from a bioeconomic model.Dispersal and the design of effective management strategies for plant invasions: matching scales for success.Optimal Strategies for Interception, Detection, and Eradication in Plant Biosecurity.Optimal dynamic control of invasions: applying a systematic conservation approach.Integrating spread dynamics and economics of timber production to manage Chinese tallow invasions in southern U.S. forestlandsUsing counterfactuals to evaluate the cost-effectiveness of controlling biological invasions.Placing invasive species management in a spatiotemporal context.Modeling when, where, and how to manage a forest epidemic, motivated by sudden oak death in California.Timescales and the management of ecological systems.The Robert H. MacArthur Award Lecture. Timescales, dynamics, and ecological understanding.Optimal control of population recovery--the role of economic restoration threshold.Simulations indicate that scores of lionfish (Pterois volitans) colonized the Atlantic Ocean.Control fast or control smart: When should invading pathogens be controlled?An assessment of the evolution, costs and effectiveness of alien plant control operations in Kruger National Park, South AfricaAn assessment of the benefits of yellow Sigatoka (Mycosphaerella musicola) control in the Queensland Northern Banana Pest Quarantine AreaDoublethink and scale mismatch polarize policies for an invasive tree.The genetic backburn: using rapid evolution to halt invasions.Bioeconomic synergy between tactics for insect eradication in the presence of Allee effects.Decision tools for managing biological invasions: existing biases and future needsThe economic benefit of time-varying surveillance effort for invasive species managementEvaluating wild hog preferences to guide control strategies in the Great Smoky Mountains National ParkEconomic effects and the efficacy of intervention: exploring unintended effects of management and policy on the spread of non-indigenous speciesReconstructing the invasion history of a spreading, non-native, tropical tree through a snapshot of current distribution, sizes, and growth ratesPrioritizing Management of the Invasive Grass Common Reed (Phragmites australis) in Great Salt Lake WetlandsSpatial-Dynamic Complexities of Climate Challenge for Rural Areas: Integrating Resource and Regional Economic InsightsTarget the Source: Optimal Spatiotemporal Resource Allocation for Invasive Species ControlUsing geographic profiling to compare the value of sightings vs trap data in a biological invasionDisentangling the four demographic dimensions of species invasiveness
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Controlling established invaders: integrating economics and spread dynamics to determine optimal management.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on April 2010
@en
vedecký článok
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vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
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name
Controlling established invade ...... determine optimal management.
@en
Controlling established invade ...... determine optimal management.
@nl
type
label
Controlling established invade ...... determine optimal management.
@en
Controlling established invade ...... determine optimal management.
@nl
prefLabel
Controlling established invade ...... determine optimal management.
@en
Controlling established invade ...... determine optimal management.
@nl
P2860
P1433
P1476
Controlling established invade ...... determine optimal management.
@en
P2093
Alan Hastings
Rebecca S Epanchin-Niell
P2860
P304
P356
10.1111/J.1461-0248.2010.01440.X
P407
P577
2010-04-01T00:00:00Z