Exotic garden plants partly substitute for native plants as resources for pollinators when native plants become seasonally scarce

Urban green spaces such as gardens often consist of native and exotic plant species, which provide pollen and nectar for flower-visiting insects. Although some exotic plants are readily visited by pollinators, it is unknown if and at which time of the season exotic garden plants may supplement or su...

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Veröffentlicht in:	Oecologia 2020-11, Vol.194 (3), p.465-480
Hauptverfasser:	Staab, Michael, Pereira-Peixoto, Maria Helena, Klein, Alexandra-Maria
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Sprache:	eng
Schlagworte:	Biomedical and Life Sciences Ecology Flowering Flowers Flowers & plants Gardens Gardens & gardening Green infrastructure Growing season Hydrology/Water Resources Indigenous plants Indigenous species Insects Introduced plants Introduced species Life Sciences Native species Nectar Open spaces Plant Sciences Plant species PLANT-MICROBE-ANIMAL INTERACTIONS – ORIGINAL RESEARCH Plants (botany) Pollen Pollinators Population decline Resources Risk management Seasonal variation Seasonal variations Seasons Species richness Substitutes Urban planning
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description	Urban green spaces such as gardens often consist of native and exotic plant species, which provide pollen and nectar for flower-visiting insects. Although some exotic plants are readily visited by pollinators, it is unknown if and at which time of the season exotic garden plants may supplement or substitute for flower resources provided by native plants. To investigate if seasonal changes in flower availability from native vs. exotic plants affect flower visits, diversity and particularly plant–pollinator interaction networks, we studied flower-visiting insects over a whole growing season in 20 urban residential gardens in Germany. Over the course of the season, visits to native plants decreased, the proportion of flower visits to exotics increased, and flower-visitor species richness decreased. Yet, the decline in flower-visitor richness over the season was slowed in gardens with a relatively higher proportion of flowering exotic plants. This compensation was more positively linked to the proportion of exotic plant species than to the proportion of exotic flower cover. Plant–pollinator interaction networks were moderately specialized. Interactions were more complex in high summer, but interaction diversity, linkage density, and specialisation were not influenced by the proportion of exotic species. Thus, later in the season when few native plants flowered, exotic garden plants partly substituted for native flower resources without apparent influence on plant–pollinator network structure. Late-flowering garden plants support pollinator diversity in cities. If appropriately managed, and risk of naturalisation is minimized, late-flowering exotic plants may provide floral resources to support native pollinators when native plants are scarce.
doi_str_mv	10.1007/s00442-020-04785-8
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Although some exotic plants are readily visited by pollinators, it is unknown if and at which time of the season exotic garden plants may supplement or substitute for flower resources provided by native plants. To investigate if seasonal changes in flower availability from native vs. exotic plants affect flower visits, diversity and particularly plant–pollinator interaction networks, we studied flower-visiting insects over a whole growing season in 20 urban residential gardens in Germany. Over the course of the season, visits to native plants decreased, the proportion of flower visits to exotics increased, and flower-visitor species richness decreased. Yet, the decline in flower-visitor richness over the season was slowed in gardens with a relatively higher proportion of flowering exotic plants. This compensation was more positively linked to the proportion of exotic plant species than to the proportion of exotic flower cover. Plant–pollinator interaction networks were moderately specialized. Interactions were more complex in high summer, but interaction diversity, linkage density, and specialisation were not influenced by the proportion of exotic species. Thus, later in the season when few native plants flowered, exotic garden plants partly substituted for native flower resources without apparent influence on plant–pollinator network structure. Late-flowering garden plants support pollinator diversity in cities. 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Although some exotic plants are readily visited by pollinators, it is unknown if and at which time of the season exotic garden plants may supplement or substitute for flower resources provided by native plants. To investigate if seasonal changes in flower availability from native vs. exotic plants affect flower visits, diversity and particularly plant–pollinator interaction networks, we studied flower-visiting insects over a whole growing season in 20 urban residential gardens in Germany. Over the course of the season, visits to native plants decreased, the proportion of flower visits to exotics increased, and flower-visitor species richness decreased. Yet, the decline in flower-visitor richness over the season was slowed in gardens with a relatively higher proportion of flowering exotic plants. This compensation was more positively linked to the proportion of exotic plant species than to the proportion of exotic flower cover. Plant–pollinator interaction networks were moderately specialized. Interactions were more complex in high summer, but interaction diversity, linkage density, and specialisation were not influenced by the proportion of exotic species. Thus, later in the season when few native plants flowered, exotic garden plants partly substituted for native flower resources without apparent influence on plant–pollinator network structure. Late-flowering garden plants support pollinator diversity in cities. If appropriately managed, and risk of naturalisation is minimized, late-flowering exotic plants may provide floral resources to support native pollinators when native plants are scarce.</description><subject>Biomedical and Life Sciences</subject><subject>Ecology</subject><subject>Flowering</subject><subject>Flowers</subject><subject>Flowers & plants</subject><subject>Gardens</subject><subject>Gardens & gardening</subject><subject>Green infrastructure</subject><subject>Growing season</subject><subject>Hydrology/Water Resources</subject><subject>Indigenous plants</subject><subject>Indigenous species</subject><subject>Insects</subject><subject>Introduced plants</subject><subject>Introduced species</subject><subject>Life Sciences</subject><subject>Native species</subject><subject>Nectar</subject><subject>Open spaces</subject><subject>Plant Sciences</subject><subject>Plant species</subject><subject>PLANT-MICROBE-ANIMAL INTERACTIONS – ORIGINAL RESEARCH</subject><subject>Plants 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Although some exotic plants are readily visited by pollinators, it is unknown if and at which time of the season exotic garden plants may supplement or substitute for flower resources provided by native plants. To investigate if seasonal changes in flower availability from native vs. exotic plants affect flower visits, diversity and particularly plant–pollinator interaction networks, we studied flower-visiting insects over a whole growing season in 20 urban residential gardens in Germany. Over the course of the season, visits to native plants decreased, the proportion of flower visits to exotics increased, and flower-visitor species richness decreased. Yet, the decline in flower-visitor richness over the season was slowed in gardens with a relatively higher proportion of flowering exotic plants. This compensation was more positively linked to the proportion of exotic plant species than to the proportion of exotic flower cover. Plant–pollinator interaction networks were moderately specialized. Interactions were more complex in high summer, but interaction diversity, linkage density, and specialisation were not influenced by the proportion of exotic species. Thus, later in the season when few native plants flowered, exotic garden plants partly substituted for native flower resources without apparent influence on plant–pollinator network structure. Late-flowering garden plants support pollinator diversity in cities. 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subjects	Biomedical and Life Sciences Ecology Flowering Flowers Flowers & plants Gardens Gardens & gardening Green infrastructure Growing season Hydrology/Water Resources Indigenous plants Indigenous species Insects Introduced plants Introduced species Life Sciences Native species Nectar Open spaces Plant Sciences Plant species PLANT-MICROBE-ANIMAL INTERACTIONS – ORIGINAL RESEARCH Plants (botany) Pollen Pollinators Population decline Resources Risk management Seasonal variation Seasonal variations Seasons Species richness Substitutes Urban planning
title	Exotic garden plants partly substitute for native plants as resources for pollinators when native plants become seasonally scarce
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