Add to ORKGAbstract Many predator–prey systems are found in environments with a predominantly unidirectional flow such as streams and rivers. Alterations of natural flow regimes (e.g., due to human management or global warming) put biological populations at risk. The aim of this paper is to devise a simple method that links flow speeds (currents) with population retention (persistence) and wash-out (extinction). We consider systems of prey and specialist, as well as generalist, predators, for which we distinguish the following flow speed scenarios: (a) coexistence, (b) persistence of prey only or (c) predators only (provided they are generalists), and (d) extinction of both populations. The method is based on a reaction–advection–diffusion model and t...
A prey-predator system with disease in prey is proposed. The proposed system is an extension of the ...
The study of population persistence in river ecosystems is key for understanding population dynamics...
Water resources worldwide require management to meet industrial, agricultural, and urban consumption...
Streams and rivers are examples of vital ecosystems that frequently undergo various environmental an...
Abstract The question how aquatic populations persist in rivers when individuals are constantly lost...
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...
One key issue for theory in stream ecology is how much stream flow can be changed while still mainta...
We are concerned with the persistence of both predator and prey in a diffusive predator-prey system ...
The question how aquatic populations persist in rivers when individuals are constantly lost due to d...
Water resources worldwide require management to meet industrial, agricultural, and urban consumption...
Temporal variations in the configuration of the flowing portion of stream networks are observed in t...
Persistence, spread and the drift paradox We derive conditions for persistence and spread of a popul...
© The Author(s) 2014. This article is published with open access at Springerlink.com Abstract To ful...
Organisms inhabiting river systems contend with downstream biased flow in a complex tree-like networ...
A prey-predator system with disease in prey is proposed. The proposed system is an extension of the ...
The study of population persistence in river ecosystems is key for understanding population dynamics...
Water resources worldwide require management to meet industrial, agricultural, and urban consumption...
Streams and rivers are examples of vital ecosystems that frequently undergo various environmental an...
Abstract The question how aquatic populations persist in rivers when individuals are constantly lost...
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...
One key issue for theory in stream ecology is how much stream flow can be changed while still mainta...
We are concerned with the persistence of both predator and prey in a diffusive predator-prey system ...
The question how aquatic populations persist in rivers when individuals are constantly lost due to d...
Water resources worldwide require management to meet industrial, agricultural, and urban consumption...
Temporal variations in the configuration of the flowing portion of stream networks are observed in t...
Persistence, spread and the drift paradox We derive conditions for persistence and spread of a popul...
© The Author(s) 2014. This article is published with open access at Springerlink.com Abstract To ful...
Organisms inhabiting river systems contend with downstream biased flow in a complex tree-like networ...
A prey-predator system with disease in prey is proposed. The proposed system is an extension of the ...
The study of population persistence in river ecosystems is key for understanding population dynamics...
Water resources worldwide require management to meet industrial, agricultural, and urban consumption...