Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine organisms. Rapid environmental fluctuations and phenotypic plasticity through optimization of fitness-related traits in organisms play important roles in shaping intraspecific divergence. The coastal systems experience strong variations in multiple abiotic environmental factors, especially the temperature. We used a typical intertidal species, Pacific oyster (Crassostrea gigas), to investigate the interaction between plasticity and adaptive evolution. We collected intertidal and subtidal oysters from two ecological niches and carried out common garden experiments for one generation. We identified fine-scale vertical adaptive divergence betwee...
Understanding the interaction between phenotypic plasticity and evolutionary processes is important ...
Understanding the interaction between phenotypic plasticity and evolutionary processes is important ...
Crassostrea hongkongensis, a commercially valuable aquaculture species dwelling in estuaries along t...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Understanding the interaction between phenotypic plasticity and evolutionary processes is important ...
Understanding the interaction between phenotypic plasticity and evolutionary processes is important ...
Understanding the interaction between phenotypic plasticity and evolutionary processes is important ...
Crassostrea hongkongensis, a commercially valuable aquaculture species dwelling in estuaries along t...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Fine-scale adaptive evolution is always constrained by strong gene flow at vertical level in marine ...
Understanding the interaction between phenotypic plasticity and evolutionary processes is important ...
Understanding the interaction between phenotypic plasticity and evolutionary processes is important ...
Understanding the interaction between phenotypic plasticity and evolutionary processes is important ...
Crassostrea hongkongensis, a commercially valuable aquaculture species dwelling in estuaries along t...