Persistence, spread and the drift paradox We derive conditions for persistence and spread of a population where indi-viduals are either immobile or dispersing by advection and diffusion through a one-dimensional medium with a unidirectional flow. Reproduction occurs only in the stationary phase. Examples of such systems are found in rivers and streams, marine currents, and areas with prevalent wind direction. In streams, a long-standing question, dubbed ‘the drift paradox’, asks why aquatic insects faced with downstream drift are able to persist in upper stream reaches. For our two-phase model, persistence of the population is guaranteed if, at low population densities, the local growth rate of the stationary component of the population exc...
The study of population persistence in river ecosystems is key for understanding population dynamics...
AbstractWe consider a single species population obeying a saturated growth model with spatial diffus...
© The Author(s) 2014. This article is published with open access at Springerlink.com Abstract To ful...
We derive conditions for persistence and spread of a population where individuals are either immobil...
Many populations live in ‘advective’ media, such as rivers, where flow is biased in one direction. I...
A wide variety of organisms inhabit streams, rivers, and estuaries where they are continually subjec...
Many populations live and disperse in advective media. A fundamental question, known as the “drift p...
Abstract The question how aquatic populations persist in rivers when individuals are constantly lost...
Streams and rivers are examples of vital ecosystems that frequently undergo various environmental an...
The colonization cycle hypothesis predicts that adults of stream-dwelling insects preferentially dis...
1. Recent explanations for the persistence of freshwater invertebrates in the face of downstream dri...
River networks define ecological corridors characterised by unidirectional streamflow, which may imp...
The question how aquatic populations persist in rivers when individuals are constantly lost due to d...
Organisms inhabiting river systems contend with downstream biased flow in a complex tree-like networ...
consider a single species population obeying a saturated growth model with spatial diffusion taken i...
The study of population persistence in river ecosystems is key for understanding population dynamics...
AbstractWe consider a single species population obeying a saturated growth model with spatial diffus...
© The Author(s) 2014. This article is published with open access at Springerlink.com Abstract To ful...
We derive conditions for persistence and spread of a population where individuals are either immobil...
Many populations live in ‘advective’ media, such as rivers, where flow is biased in one direction. I...
A wide variety of organisms inhabit streams, rivers, and estuaries where they are continually subjec...
Many populations live and disperse in advective media. A fundamental question, known as the “drift p...
Abstract The question how aquatic populations persist in rivers when individuals are constantly lost...
Streams and rivers are examples of vital ecosystems that frequently undergo various environmental an...
The colonization cycle hypothesis predicts that adults of stream-dwelling insects preferentially dis...
1. Recent explanations for the persistence of freshwater invertebrates in the face of downstream dri...
River networks define ecological corridors characterised by unidirectional streamflow, which may imp...
The question how aquatic populations persist in rivers when individuals are constantly lost due to d...
Organisms inhabiting river systems contend with downstream biased flow in a complex tree-like networ...
consider a single species population obeying a saturated growth model with spatial diffusion taken i...
The study of population persistence in river ecosystems is key for understanding population dynamics...
AbstractWe consider a single species population obeying a saturated growth model with spatial diffus...
© The Author(s) 2014. This article is published with open access at Springerlink.com Abstract To ful...
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