Recent studies of fish distribution patterns highlight shifts in the spatial distributions of particular life-stages. Focus has thus far been on changes in habitat use and possible drivers for these changes. Yet, small-scale shifts in habitat use of certain life stages may have profound consequences on population dynamics through changes in resource use and competition. To explore this, a conceptual stage-structured model was developed with 3 stages and 2 resources and allowing a move of large juveniles from the shallow to the deep habitat. Large juveniles compete with small juveniles in shallow waters and with adults in deeper waters. Alternative stable states occur, with one state dominated by small juvenile biomass and the other dominate...
Exploited coastal-nursery-dependent fish species are subject to various stressors occurring at speci...
Juveniles of many fish and invertebrate species are able to select among a diverse port folio of nur...
Size-selective fishing may induce rapid evolutionary changes in life-history traits such as size at ...
Recent studies of fish distribution patterns highlight shifts in the spatial distributions of partic...
In this paper we study the consequences of habitat switching and the corresponding ontogenetic diet ...
Identification of critical habitat in estuarine nursery areas is an important conservation and manag...
Fish populations globally are susceptible to endangerment through exploitation and habitat loss. We ...
Understanding spatial distributions of fish species is important to those seeking to manage fisherie...
The importance of survival and growth variations early in life for population dynamics depends on th...
Understanding spatial distributions of fish species is important to those seeking to manage fisherie...
One common consequence of ontogenetic niche shifts is that juveniles and adults of the same species ...
International audienceSpatial distributions of organisms result from a complex interplay of processe...
Many fishes undergo ontogenetic habitat shifts to meet their energy and resource needs as they grow....
Coastal habitats (e.g., seagrass beds, shallow mud, and sand flats) strongly influence survival, gro...
Niche requirements and habitat resource partitioning by conspecific fishes of different sizes are si...
Exploited coastal-nursery-dependent fish species are subject to various stressors occurring at speci...
Juveniles of many fish and invertebrate species are able to select among a diverse port folio of nur...
Size-selective fishing may induce rapid evolutionary changes in life-history traits such as size at ...
Recent studies of fish distribution patterns highlight shifts in the spatial distributions of partic...
In this paper we study the consequences of habitat switching and the corresponding ontogenetic diet ...
Identification of critical habitat in estuarine nursery areas is an important conservation and manag...
Fish populations globally are susceptible to endangerment through exploitation and habitat loss. We ...
Understanding spatial distributions of fish species is important to those seeking to manage fisherie...
The importance of survival and growth variations early in life for population dynamics depends on th...
Understanding spatial distributions of fish species is important to those seeking to manage fisherie...
One common consequence of ontogenetic niche shifts is that juveniles and adults of the same species ...
International audienceSpatial distributions of organisms result from a complex interplay of processe...
Many fishes undergo ontogenetic habitat shifts to meet their energy and resource needs as they grow....
Coastal habitats (e.g., seagrass beds, shallow mud, and sand flats) strongly influence survival, gro...
Niche requirements and habitat resource partitioning by conspecific fishes of different sizes are si...
Exploited coastal-nursery-dependent fish species are subject to various stressors occurring at speci...
Juveniles of many fish and invertebrate species are able to select among a diverse port folio of nur...
Size-selective fishing may induce rapid evolutionary changes in life-history traits such as size at ...