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Uninvited and welcomed guests in museums – biological management of clothes moths and woodworms
(2020)
In museums and historic houses clothes, moths (Tineola bisselliella, Tinea pellionella) and the furniture beetle (Anobium punctatum) are the most economically important pests on textiles or wooden artifacts, respectively. Their management is essential to protect cultural ethnological heritage and natural history collections for future generations.
Pest management strategies have changed over time. Today, intensive knowledge on pest biology and overall material science are key cornerstones in IPM concepts - also for the Museum environment. The important first steps for sustainable pest management are risk assessment, early pest detection and identification of pathways of infestation. These steps are followed by physical and biological means of control, which have lately gained more importance than applying biocides. Several potentially effective biological enemies of clothes moths and woodworm have been known for a long time, but their promotion for pest control in Museums and historic houses is just beginning.
This short review summarizes current concepts of pest life cycle interruption by applying good quarantine and very specific biological measures. The lessons learned from recent faunistic surveys, life-history studies as well as behavioral observations of parasitoids and predators of clothes moths and woodworm may supplement the pest management tool box. The need for further research in this field is addressed.
Uninvited and Welcomed Guests in Museums – Biological management of
clothes moths and woodworms
(2019)
In museums and historic houses clothes, moths (Tineola bisselliella, Tinea pellionella) and the furniture beetle (Anobium punctatum) are the most economically important pests on textiles or wooden artifacts, respectively. Their management is essential to protect cultural ethnological heritage and natural history collections for future generations.
Pest management strategies have changed over time. Today, intensive knowledge on pest biology and overall material science are key cornerstones in IPM concepts - also for the museum environment. The important first steps for sustainable pest management are risk assessment, early pest detection and identification of pathways of infestation. These steps are followed by physical and biological means of control, which have lately gained more importance than applying biocides.
Several potentially effective biological enemies of clothes moths and woodworm have been known for a long time, but their promotion for pest control in museums and historic houses is just beginning.
This short review summarizes current concepts of pest life cycle interruption by applying good quarantine and very specific biological measures. The lessons learned from recent faunistic surveys, life-history studies as well as behavioral observations of parasitoids and predators of clothes moths and woodworm may supplement the pest management tool box. The need for further research in this field is addressed.
Two species of parasitoid wasps, Apanteles carpatus (Hymenoptera: Braconidae) and Baryscapus tineivorus (Hymenoptera: Eulophidae), are known to successfully parasitize larvae of tineid moths. We have evaluated each species potential impact on suppressing the pest Tineola bisselliella (Lepidoptera: Tineidae). Both parasitoids have shown high potential for biological control of webbing clothes moth larvae when tested on different host instars in the laboratory and field. Preferences for parasitizing older and larger host larval instars for egg largely overlap in both species. Apanteles carpatus is a solitary koinobiont and parthenogen, while B. tineivorus is a gregarious koinobiont, with a sex ratio of approximately 1:5 (male:female). Solitary reproduction in A. carpatus markedly suppressed the pest population early on but lagged large numbers of progeny in the F(-generation. Gregarious reproduction resulted in a faster build-up of the F1generation but lagged the immediate control effect. Combining the release of both parasitoid species for pest control seemed to be the logical conclusion. We tested the reproductive success of both species when experimentally forced into intensive intraguild competition. For this, parasitoids had either to compete simultaneously or slightly time shifted on the same preferred host resource. Reproductive success of A. carpatus was not significantly influenced by the presence of B. tineivorus. B. tineivorus reproductive output was significantly reduced in the presence of A. carpatus. Overall Suppression of host development was not significantly enhanced with both parasitoid species co-occurring when compared to their exclusive access to hosts. B. tineivorus does not significantly improve the control of webbing clothes moth hosts when occurring together with and having to compete against A. carpatus, at least in restricted laboratory conditions. Results show that B. tineivorus should be released with a temporal advantage of at least several days.
For inundative release, reproduction strategies and even competition between parasitoids is negligible, and a deferred release strategy would not be required.
Two species of parasitoid wasps, Apanteles carpatus (Hymenoptera: Braconidae) and Baryscapus tineivorus (Hymenoptera: Eulophidae), are known to successfully parasitize larvae of tineid moths. We have evaluated each species potential impact on suppressing the pest Tineola bisselliella (Lepidoptera: Tineidae). Both parasitoids have shown high potential for biological control of webbing clothes moth larvae when tested on different host instars in the laboratory and field. Preferences for parasitizing older and larger host larval instars for egg largely overlap in both species. Apanteles carpatus is a solitary koinobiont and parthenogen, while B. tineivorus is a gregarious koinobiont, with a sex ratio of approximately 1:5 (male:female). Solitary reproduction in A. carpatus markedly suppressed the pest population early on but lagged large numbers of progeny in the F(-generation. Gregarious reproduction resulted in a faster build-up of the F1generation but lagged the immediate control effect. Combining the release of both parasitoid species for pest control seemed to be the logical conclusion. We tested the reproductive success of both species when experimentally forced into intensive intraguild competition. For this, parasitoids had either to compete simultaneously or slightly time shifted on the same preferred host resource. Reproductive success of A. carpatus was not significantly influenced by the presence of B. tineivorus. B. tineivorus reproductive output was significantly reduced in the presence of A. carpatus. Overall Suppression of host development was not significantly enhanced with both parasitoid species co-occurring when compared to their exclusive access to hosts. B. tineivorus does not significantly improve the control of webbing clothes moth hosts when occurring together with and having to compete against A. carpatus, at least in restricted laboratory conditions. Results show that B. tineivorus should be released with a temporal advantage of at least several days. For inundative release, reproduction strategies and even competition between parasitoids is negligible, and a deferred release strategy would not be required.