Mirror carp by Jack Perks
Analysis of Suffolk Wildlife Trust’s pond survey data has re-inforced the message that fish – even small numbers of tiny stickleback – can significantly reduce the wildlife value of a pond.
Data from more than 900 Suffolk ponds has showed that 17% contained fish, with different species affecting amphibians, plants and insects in different ways. By not introducing fish or carefully managing them when they are already present you can help protect valuable wildlife habitats.
Predatory fish
Most fish, even if omnivorous, are also predatory, eating insect larvae, worms, crustacean, molluscs, other fish, and the eggs and larvae of amphibians. However, some wildlife species are more sensitive and vulnerable than others.
Data from the Trust's survey has shown that whilst smooth newts can survive and breed in healthy ponds with a few small fish (such as three-spined stickleback, goldfish, rudd and roach), the protected great crested newt rarely does so and the introduction of these fish can lead to population declines and extinction in great crested newts.
Invertebrate-feeding fish (bream, carp, pike, perch, trout) can deplete insect populations, such as dragonflies and daphnia that feed on algae, and lead to an increase in algae.
Both rudd and roach feed on filamentous algae, plant fragments and insects among the beds of aquatic plants (roach) and from the surface and mid-water (rudd).
However, they hybridise between themselves in small ponds and over-breed creating large populations where there is a real pressure on all food items – including amphibian eggs and larvae.
Given the conservation priority and stronghold that the internationally protected great crested newts have in Suffolk, it is therefore undesirable to introduce fish to ponds where the newts may be breeding or have potential to colonise from nearby.
Effect of fish on plant community
Several fish species can effectively kill off plant and animal communities by their feeding behaviour rather than by actually preying on the insects and amphibians directly. The cyprinids, especially the large carp, tench and bream, have an omnivorous feeding habit of sifting and stirring the bottom mud which causes turbidity which inhibits aquatic plant growth and destabilises the pond substrate to the point where the behaviour can completely eliminate aquatic plant growth.
Removing these macrophytes (larger plants) also removes food, shelter and breeding habitat for invertebrates, molluscs and amphibians – thus adversely affecting the pond community.
Common pond fish species and their bad habits
| Fish | Lifestyle | Adverse impact on wildlife |
| Carp (Mirror, common) |
Grow huge up to 40lb, live up to 30 yrs in dense weedy water with silty substrate feeding on inverts, worms, molluscs & vegetation; spawn in dense weed and bulrushes laying thousands of eggs |
As well as directly feeding on invertebrates, they stir the water making it very muddy – too muddy for aquatic plants to grow, thus removing food, cover and egg-laying opportunities for many species. |
| Crucian carp |
Rarely grow over 4lb; live up to 20yrs in ponds and lakes in dense weed, feeding on molluscs, crustacean, worms, spawn in dense weed laying thousands of eggs. |
|
| Tench | Rarely grow over 12lb; live up to 14yrs in lakes (and rivers) in shallow still water, dense weed and silty substrate, feeding on zooplankton and benthic invertebrates such as molluscs |
|
| Roach | Rarely grow over 3.5lb; live up to 18yrs in lakes, ponds (rivers and drains) in variable depth water; spawns in dense weed. |
Mid-surface feeders so they stir the pond substrate less but when their shoals build up to large numbers, their impact on insect larvae must reduce general biodiversity in pond. |
| Rudd | Rarely grow over 4lb; live up to 17 yrs in lakes, ponds (and rivers) in shallow still water, reeds, sand or silt substrate, feeding on zooplankton, insect larvae and filamentous algae; spawns in common reed. Shoals in large numbers. |
|
| 3-spined stickleback |
Rarely exceeds 8cm; lives up to 4yrs in ponds (and rivers) in shallow, dense weed, sand and silt substrate; feeding actively at dawn and dusk on zooplankton and insect larvae. |
Voracious predators eating invertebrates and amphibian larvae inc great crested newt. |
Fish free ponds
Ideally avoid introducing fish to ponds where it is known that great crested newts breed or where fish are not already present.
If you have a fish-free pond that can be easily accessed by footpaths it is worth putting up signs explaining the adverse effect on wildlife of fish to prevent the well-intentioned, but misguided stocking of ponds with unwanted garden pond fish.
Ponds with unwanted fish
If you do have an unwanted fish population there are some steps you can take to remove them. However in deeper ponds, which are less likely to dry out and kill off fish populations, it can be very hard to get rid of them altogether.
Fish can be removed by draining the pond in early autumn, but permission from the Environment Agency may be required to do so.
Fish can also be removed by netting or electro-fishing – there are companies that will do so for free as they sell on the fish to others.
Fish and wildlife compromise ponds
It is worth recognising that it is very hard to strike a compromise between fish stock and wildlife populations. In some situations, such as when a pond contains great crested newts, such a compromise would also be inappropriate.
In a farm situation where there are several ponds, try and keep coarse fish to one pond.
In ponds where fish are established, you can still create fish-free refuge zones such as faggots made from bundles of branches. Also try to establish some duck-resistant marginal vegetation such as the rhizomatous pond sedge, flag iris and reedmace, which are normally quite invasive and help to protect pond margins and create small backwaters where a few invertebrates can escape.
Try and remove fish periodically to reduce population build-up and take the pressure off plants, invertebrates and amphibians.
If you are introducing fish, consider rudd and roach, which are less damaging surface/mid-water feeders and can be seen (bottom feeders are more damaging and cannot be seen).