10.3 Threat: Invasive crustaceans
p. 574-578
Texte intégral
10.3.1 Ponto-Caspian gammarids
Likely to be beneficial
Change salinity of the water
1One of two replicated studies, including one controlled study, in Canada and the UK found that increasing the salinity level of water killed the majority of invasive shrimp within five hours. One found that increased salinity did not kill invasive killer shrimp. Assessment: likely to be beneficial (effectiveness 40 %; certainty 50 %).
2https://www.conservationevidence.com/actions/1091
Change water temperature
3A controlled laboratory study from the UK found that heating water in excess of 40°C killed invasive killer shrimps. Assessment: likely to be beneficial (effectiveness 80 %; certainty 50 %).
4https://www.conservationevidence.com/actions/1092
Dewatering (drying out) habitat
5A replicated, controlled laboratory study from Poland found that lowering water levels in sand (dewatering) killed three species of invasive freshwater shrimp, although one species required water content levels of 4 % and below before it was killed. Assessment: likely to be beneficial (effectiveness 60 %; certainty 50 %).
6https://www.conservationevidence.com/actions/1094
Exposure to parasites
7A replicated, controlled experimental study in Canada found that a parasitic mould reduced populations of freshwater invasive shrimp. Assessment: likely to be beneficial (effectiveness 50 %; certainty 50 %).
8https://www.conservationevidence.com/actions/1089
Unlikely to be beneficial
Add chemicals to water
9A controlled laboratory study from the UK found that four of nine substances added to freshwater killed invasive killer shrimp, but were impractical (iodine solution, acetic acid, Virkon S and sodium hypochlorite). Five substances did not kill invasive killer shrimp (methanol, citric acid, urea, hydrogen peroxide and sucrose). Assessment: unlikely to be beneficial (effectiveness 35 %; certainty 60 %).
10https://www.conservationevidence.com/actions/1095
Change water pH
11A controlled laboratory study from the UK found that lowering the pH of water did not kill invasive killer shrimp. Assessment: unlikely to be beneficial (effectiveness 0 %; certainty 50 %).
12https://www.conservationevidence.com/actions/1093
Control movement of gammarids
13Two replicated studies, including one controlled study, in the USA and UK found that movements of invasive freshwater shrimp slowed down or were stopped when shrimp were placed in water that had been exposed to predatory fish or was carbonated. Assessment: likely to be beneficial (effectiveness 20 %; certainty 40 %).
14https://www.conservationevidence.com/actions/1088
No evidence found (no assessment)
15We have captured no evidence for the following interventions:
- Biological control using predatory fish
- Cleaning equipment
- Exchange ballast water
- Exposure to disease-causing organisms.
10.3.2 Procambarus spp. crayfish
Likely to be beneficial
Add chemicals to the water
16One replicated study in Italy found that natural pyrethrum at concentrations of 0.05 mg/l and above was effective at killing red swamp crayfish both in the laboratory and in a river, but not in drained burrows. Assessment: likely to be beneficial (effectiveness 80 %; certainty 50 %; harms 0 %).
17https://www.conservationevidence.com/actions/1036
Sterilization of males
18One replicated laboratory study from Italy found that exposing male red swamp crayfish to X-rays reduced the number of offspring they produced. Assessment: likely to be beneficial (effectiveness 50 %; certainty 40 %; harms 0 %).
19https://www.conservationevidence.com/actions/1032
Trapping and removal
20One controlled, replicated study from Italy found that food (tinned meat) was a more effective bait in trapping red swamp crayfish, than using pheromone treatments or no bait (control). Baiting with food increased trapping success compared to trapping without bait. Assessment: likely to be beneficial (effectiveness 40 %; certainty 60 %; harms 0 %).
21https://www.conservationevidence.com/actions/1029
Trapping combined with encouragement of predators
22One before-and-after study in Switzerland and a replicated, paired site study from Italy found that a combination of trapping and predation was more effective at reducing red swamp crayfish populations than predation alone. Assessment: likely to be beneficial (effectiveness 50 %; certainty 50 %; harms 0 %).
23https://www.conservationevidence.com/actions/1031
Unknown effectiveness (limited evidence)
Create barriers
24One before-and-after study from Italy found that the use of concrete dams across a stream was effective at containing spread of the population upstream. Assessment: unknown effectiveness (effectiveness 30 %; certainty 30 %; harms 0 %).
25https://www.conservationevidence.com/actions/1037
Unlikely to be beneficial
Encouraging predators
26Two replicated, controlled studies in Italy found that eels fed on the red swamp crayfish and reduced population size. One replicated, controlled study found that pike predated red swamp crayfish. Assessment: unlikely to be beneficial (effectiveness 30 %; certainty 60 %; harms 0 %).
27https://www.conservationevidence.com/actions/1030
No evidence found (no assessment)
28We have captured no evidence for the following interventions:
- Draining the waterway
- Food source removal
- Relocate vulnerable crayfish
- Remove the crayfish by electrofishing.
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