The Disappearance of Butterflies. Josef H. Reichholf

The Disappearance of Butterflies - Josef H. Reichholf


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I assumed that all the caterpillars in their various stages that I had collected for my research would continue to develop without any problems, pupate and produce moths. The penny only dropped, as the saying goes, years later, when I had already become involved with a quite different type of species, the small ermine moth. There is a separate chapter devoted to them. Through them, the advantage of life in the water became suddenly apparent: I had had no losses, because the caterpillars and pupae of my aquatic moths had not been attacked by parasites. For practically all the butterflies and moths that live on dry land, parasites are among the main factors that determine their abundance and their development from one stage to the next. With around 96–98 per cent of 694 caterpillars from several breeding groups, the hatching success of my aquatic moths was phenomenally high. I only recorded higher losses for the eggs. I did not discover who or what caused the losses under outdoor conditions, but I considered the egg-eating water mites and the rotting sludge build-up in the heavily silted pools to be the likely causes. With 100 or more eggs per clutch and per female moth, such losses prevent the caterpillars from consuming all the available floating leaves too soon, which can easily happen where brown china-marks exist in large numbers.

      The dispersal behaviour of the aquatic moths is therefore very particular. As insects, they probably belong to the group of pioneering species that is familiar to us through many land-based plants and that quickly colonizes newly created environments. On the other hand, maybe we are dealing with specialists that need a specific, longer-lasting ‘life zone’: that of floating leaves at the edges of large bodies of still water. Closer to the centre of the body of water there are plants that grow entirely under water, described by specialists as ‘submerged’. The moths seek out shore plants that stand in the water but protrude above it, away from the centre of the pool. These are plants that are ‘emerged’ (in the ecological sense). In order to understand my aquatic moth and to be able to place it properly among its relatives, I would need to deal with the environment of small waterbodies and shores in far greater detail. Was it a pioneer species or was it specially adapted to the specific environment of bodies of water?

      The abundance of a species is, in a general sense, an indication of its biological success. The caterpillars of Nymphula stagnata live to a greater or lesser degree on the banks, above the water surface. They are the rarest species in our series. Cataclysta lemnata, whose caterpillars use the small leaves of the duckweed plant to construct their cocoons and for nutrition, usually becomes considerably more common as one moves towards the centre of the body of water, but its occurrence is limited to small waterbodies that are carpeted in duckweed plants, which are also known as ‘water lentil’, or Lemna. The occurrence of my little nymph, Nymphula nymphaeata, is much more widespread and frequent. In order to build their leaf cases, its caterpillars cut out a pair of oval leaf sections, up to 3 centimetres in length. This can be readily seen from land.

      With a delicate rocking motion, the caterpillars of the ringed china-mark pump water through the loose cocoon, in which they sit under water, eating aquatic plants – in Germany, this is principally water-milfoil, Myriophyllum sp. To do this, they have adapted to survive in warm, oxygen-poor water. In the tropics, these aquatic moths, whose caterpillars develop spiracular gills, have a species-rich network of relationships. However, the non plus ultra of our aquatic moths spends its life as a caterpillar in the depths, among the massive stands of underwater plants that can grow as far as the water surface to flower. It is the tiny water veneer, Acentropus niveus (Acentria ephemerella), which the lepidopterists of the nineteenth century did not even recognize as a moth, taking it instead for an unusual species of caddis fly.

      The males will swoop around just above the water surface as if entranced until they encounter the abdomen tip of a female that is ready to mate. In the course of the coupling, they are almost pulled into the water by the larger female, but their wings prevent them from


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