The ecological requirements of Agapetus fuscipes Curtis (Glossosomatidae), a characteristic species in unimpacted streams
| Autor: | R.C. Nijboer |
|---|---|
| Rok vydání: | 2004 |
| Předmět: |
life history
substratum growth Population netherlands STREAMS Aquatic Science Biology water quality Population density nederland indicator species waterlopen vegetation life-cycle indicatorsoorten life cycle biologische monitoring pollution ecologie Wageningen Environmental Research caddis larvae dispersal education fauna algae education.field_of_study Ecology Agapetus fuscipes waterkwaliteit streams trichoptera Centrum Ecosystemen Centre for Ecosystem Studies monitoring Habitat Indicator species biomonitoring Stream Biological dispersal Water quality ecology verontreiniging Stream restoration autecology levenscyclus |
| Zdroj: | Limnologica 34 (2004) 3 Limnologica, 34(3), 213-223 |
| ISSN: | 0075-9511 |
| DOI: | 10.1016/s0075-9511(04)80046-x |
| Popis: | Agapetus fuscipes is a caddisfly that only seems to occur in unimpacted streams and therefore can be a suitable indicator species for natural conditions. The species has decreased in the Netherlands because of human activities which caused organic pollution and hydromorphological degradation. Literature was reviewed to study the autecology and life cycle of A. fuscipes in order to reveai the ecological requirements of this species. By taking Agapetus fuscipes as an example, it is shown that the autecology and life cycle of an indicator species can give important clues for its presence in unimpacted and absence in impacted streams Agapetus fuscipes is a caddisfly that only seems to occur in unimpacted streams and therefore can be a suitable indicator species for natural conditions. The species has decreased in the Netherlands because of human activities which caused organic pollution and hydromorphological degradation. Literature was reviewed to study the autecology and life cycle of A. fuscipes in order to reveal the ecological requirements of this species. By taking Agapetus fuscipes as an example, it is shown that the autecology and life cycle of an indicator species can give important clues for its presence in unimpacted and absence in impacted streams. A. fuscipes is very susceptible to organic pollution and to a lesser degree to discharge dynamics (dropping water level and discharge peaks). The species copes with dynamic discharge events by maintaining a high population density and recolonisation of disturbed habitats from refuges. However, the vulnerability of the species strongly depends on the life stage of the animals (e.g., the ability to migrate, the oxygen demand and the habitat requirements differ between instars). Although several adaptations to dynamic conditions, a high frequency of discharge peaks or a long period of drought can cause the population to decline. Once a population has totally disappeared from a stream it will take the species a long time to recolonise the stream because of its low dispersion capacity. To protect this species stream restoration should focus on water quality (avoid organic pollution and agricultural run off) and on stabilising the discharge by taking care of natural infiltration in the catchment area instead of fast removal of rain water by drainage systems. |
| Databáze: | OpenAIRE |
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