Many plant seeds and invertebrates can survive passage through the digestive system of birds, which may lead to long distance dispersal (endozoochory) in case of prolonged retention by moving vectors. Endozoochorous dispersal by waterbirds has nowadays been documented for many aquatic plant seeds, algae and dormant life stages of aquatic invertebrates. Anecdotal information indicates that endozoochory is also possible for fully functional, active aquatic organisms, a phenomenon that we here address experimentally using aquatic snails. We fed four species of aquatic snails to mallards (Anas platyrhynchos), and monitored snail retrieval and survival over time. One of the snail species tested was found to survive passage through the digestive ...
Waterbirds disperse plant species via ingestion and egestion of seeds (endozoochory). However, our u...
Dispersal is key to plant population dynamics and adaptation to environmental changes. In discrete, ...
1. Long-distance dispersal (LDD) is important in plants of dynamic and ephemeral habitats. For plant...
Many plant seeds and invertebrates can survive passage through the digestive system of birds, which ...
Many plant seeds and invertebrates can survive passage through the digestive system of birds, which ...
<div><p>Many plant seeds and invertebrates can survive passage through the digestive system of birds...
The widespread distributions of aquatic species often contrast with their limited ability to dispers...
Many small organisms in various life stages can be transported in the digestive system of larger ver...
Plant populations in fragmented ecosystems rely largely on internal dispersal by animals. To unravel...
English abstract Passive dispersal is a fundamental mode of land snail dispersal as their ability of...
Plant populations in fragmented ecosystems rely largely on internal dispersal by animals. To unravel...
It is commonly assumed that waterbirds act as dispersal vectors of aquatic organisms. In this paper ...
Many plants and invertebrates rely on internal transport by animals for long-distance dispersal. The...
Field collections during November of green-winged teal (Anas crecca), mallard (Anas platyrhynchos), ...
Waterbirds disperse plant species via ingestion and egestion of seeds (endozoochory). However, our u...
Dispersal is key to plant population dynamics and adaptation to environmental changes. In discrete, ...
1. Long-distance dispersal (LDD) is important in plants of dynamic and ephemeral habitats. For plant...
Many plant seeds and invertebrates can survive passage through the digestive system of birds, which ...
Many plant seeds and invertebrates can survive passage through the digestive system of birds, which ...
<div><p>Many plant seeds and invertebrates can survive passage through the digestive system of birds...
The widespread distributions of aquatic species often contrast with their limited ability to dispers...
Many small organisms in various life stages can be transported in the digestive system of larger ver...
Plant populations in fragmented ecosystems rely largely on internal dispersal by animals. To unravel...
English abstract Passive dispersal is a fundamental mode of land snail dispersal as their ability of...
Plant populations in fragmented ecosystems rely largely on internal dispersal by animals. To unravel...
It is commonly assumed that waterbirds act as dispersal vectors of aquatic organisms. In this paper ...
Many plants and invertebrates rely on internal transport by animals for long-distance dispersal. The...
Field collections during November of green-winged teal (Anas crecca), mallard (Anas platyrhynchos), ...
Waterbirds disperse plant species via ingestion and egestion of seeds (endozoochory). However, our u...
Dispersal is key to plant population dynamics and adaptation to environmental changes. In discrete, ...
1. Long-distance dispersal (LDD) is important in plants of dynamic and ephemeral habitats. For plant...