Phenotypic plasticity is important for organisms to adjust to a new environment. Therefore, the transplantation success of an organism to a new environment can be increased with knowledge of its capacity for phenotypic plasticity in different life stages, and the phenotypic adjustments it needs to make in specific environmental situations. Both the capacity for phenotypic plasticity and the necessary phenotypic adjustments for transplantation were tested in a mesocosm experiment using blue mussels Mytilus edulis as a model organism. This study tested (1) to what extent mussel seed coming from collectors in the water column are still capable of adjusting their phenotype, and (2) whether exposure to air or wave action is more important as a d...
1. Environmental stress can influence species traits and performance considerably. Using a seaweed-s...
The Greenshell™ mussel, Perna canaliculus, is New Zealand’s most important aquaculture species and h...
This paper reports on experimental restoration of mussel beds in the Wadden Sea and the processes th...
Phenotypic plasticity is important for organisms to adjust to a new environment. Therefore, the tran...
Phenotypic plasticity is important for organisms to adjust to a new environment.Therefore, the trans...
Phenotypic plasticity is important for organisms to adjust to a new environment. Therefore, the tran...
This dataset contains the experimental data presented in the paper “Mussel seed is highly plastic to...
Restoration of coastal ecosystem engineers that trap sediment and dampen waves has proven to be diff...
Environmental gradients play an important role in shaping geographic variability in coastal marine p...
Environmental stress can influence species traits and performance considerably. Using a seaweed–snai...
Ecosystem engineers typically exert positive feedback on their environment, which enhances their per...
Transplantation of bivalves between culture areas or systems that vary in environmental conditions i...
Blue mussels create extensive aggregations on intertidal and low subtidal shores in the Gulf of Main...
1. Environmental stress can influence species traits and performance considerably. Using a seaweed-s...
The Greenshell™ mussel, Perna canaliculus, is New Zealand’s most important aquaculture species and h...
This paper reports on experimental restoration of mussel beds in the Wadden Sea and the processes th...
Phenotypic plasticity is important for organisms to adjust to a new environment. Therefore, the tran...
Phenotypic plasticity is important for organisms to adjust to a new environment.Therefore, the trans...
Phenotypic plasticity is important for organisms to adjust to a new environment. Therefore, the tran...
This dataset contains the experimental data presented in the paper “Mussel seed is highly plastic to...
Restoration of coastal ecosystem engineers that trap sediment and dampen waves has proven to be diff...
Environmental gradients play an important role in shaping geographic variability in coastal marine p...
Environmental stress can influence species traits and performance considerably. Using a seaweed–snai...
Ecosystem engineers typically exert positive feedback on their environment, which enhances their per...
Transplantation of bivalves between culture areas or systems that vary in environmental conditions i...
Blue mussels create extensive aggregations on intertidal and low subtidal shores in the Gulf of Main...
1. Environmental stress can influence species traits and performance considerably. Using a seaweed-s...
The Greenshell™ mussel, Perna canaliculus, is New Zealand’s most important aquaculture species and h...
This paper reports on experimental restoration of mussel beds in the Wadden Sea and the processes th...