A new process-based dynamic occupancy model with dispersal-pressure colonization and sparse matrices enables large-scale study of range dynamics and disentangles dispersal from habitat effects in non-equilibrium conditions.
H ow plants benefit from providing food to predators even when it is also edible to herbivores
2 Pith papers cite this work. Polarity classification is still indexing.
2
Pith papers citing it
fields
q-bio.PE 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Derives global stability conditions for coexistence equilibria in generalized additional food predator-prey models, demonstrates codim-3 BT bifurcation in Holling IV variant, and shows via CRNT that additional food increases deficiency with possible link to complex bifurcations.
citing papers explorer
-
A process-based dynamic occupancy model to study range dynamics under non-equilibrium conditions
A new process-based dynamic occupancy model with dispersal-pressure colonization and sparse matrices enables large-scale study of range dynamics and disentangles dispersal from habitat effects in non-equilibrium conditions.
-
An Investigation of Additional Food Models with Generalised Functional Response
Derives global stability conditions for coexistence equilibria in generalized additional food predator-prey models, demonstrates codim-3 BT bifurcation in Holling IV variant, and shows via CRNT that additional food increases deficiency with possible link to complex bifurcations.