Shielded environments reduce stress in alien Asteraceae species during hot and dry summers along urban‐to‐rural gradients
Abstract Urban environments often host a greater abundance and diversity of alien plant species than rural areas. This is frequently linked to higher disturbance and propagule pressure, but could also be related to the additional establishment of species from warmer native ranges in cities, facilita...
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2021-08-01
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| Series: | Ecology and Evolution |
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| Online Access: | https://doi.org/10.1002/ece3.7872 |
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doaj-8dfe77cbaf104d4ebca96037145fcc6b2021-08-02T18:48:04ZengWileyEcology and Evolution2045-77582021-08-011115106131062610.1002/ece3.7872Shielded environments reduce stress in alien Asteraceae species during hot and dry summers along urban‐to‐rural gradientsCharly Géron0Jonas J. Lembrechts1Ivan Nijs2Arnaud Monty3Biodiversity and Landscape TERRA Research Centre Gembloux Agro‐Bio Tech University of Liège Gembloux BelgiumPlants and Ecosystems University of Antwerp Wilrijk BelgiumPlants and Ecosystems University of Antwerp Wilrijk BelgiumBiodiversity and Landscape TERRA Research Centre Gembloux Agro‐Bio Tech University of Liège Gembloux BelgiumAbstract Urban environments often host a greater abundance and diversity of alien plant species than rural areas. This is frequently linked to higher disturbance and propagule pressure, but could also be related to the additional establishment of species from warmer native ranges in cities, facilitated by the latter's higher air temperatures and drier soils. A hitherto unresolved question is how stressful the urban environments become during climate extremes such as heatwaves and droughts. Do such episodes still favor alien plant species, or set them back? We used in situ measured phenotypic leaf and development trait responses of the six most widespread alien Asteraceae species from various native climates along Belgian urban‐to‐rural gradients, measured during two unusually warm and dry summers. Urbanization was characterized by three factors: the percentage of artificially sealed surfaces (urbanity, measured at three spatial scales from in situ to satellite‐based), the vegetation cover and the sky view factor (SVF, fraction of the hemisphere not blocked by buildings or vegetation). Across species, either from colder or warmer native climates, we found a predominant protective effect of shielded environments that block solar radiation (low SVF) along the entire urban‐to‐rural gradient. Such environments induced lower leaf anthocyanins and flavonols indices, indicating heat stress mitigation. Shielded environments also increased specific leaf area (SLA), a typical shade response. We found that vegetated areas had a secondary importance, increasing the chlorophyll content and decreasing the flavonols index, but these effects were not consistent across species. Finally, urbanity at the organism spatial scale decreased plant height, while broader‐scale urbanity had no significant influence. Our results suggest that sealed surfaces constrain alien Asteraceae during unusually warm and dry summers, while shielded environments protect them, possibly canceling out the lack of light. These findings shed new light on alien plant species success along urban‐to‐rural gradients in a changing climate.https://doi.org/10.1002/ece3.7872Alien plant speciesphenotypic responsesky view factorurbanityurbanization |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Charly Géron Jonas J. Lembrechts Ivan Nijs Arnaud Monty |
| spellingShingle |
Charly Géron Jonas J. Lembrechts Ivan Nijs Arnaud Monty Shielded environments reduce stress in alien Asteraceae species during hot and dry summers along urban‐to‐rural gradients Ecology and Evolution Alien plant species phenotypic response sky view factor urbanity urbanization |
| author_facet |
Charly Géron Jonas J. Lembrechts Ivan Nijs Arnaud Monty |
| author_sort |
Charly Géron |
| title |
Shielded environments reduce stress in alien Asteraceae species during hot and dry summers along urban‐to‐rural gradients |
| title_short |
Shielded environments reduce stress in alien Asteraceae species during hot and dry summers along urban‐to‐rural gradients |
| title_full |
Shielded environments reduce stress in alien Asteraceae species during hot and dry summers along urban‐to‐rural gradients |
| title_fullStr |
Shielded environments reduce stress in alien Asteraceae species during hot and dry summers along urban‐to‐rural gradients |
| title_full_unstemmed |
Shielded environments reduce stress in alien Asteraceae species during hot and dry summers along urban‐to‐rural gradients |
| title_sort |
shielded environments reduce stress in alien asteraceae species during hot and dry summers along urban‐to‐rural gradients |
| publisher |
Wiley |
| series |
Ecology and Evolution |
| issn |
2045-7758 |
| publishDate |
2021-08-01 |
| description |
Abstract Urban environments often host a greater abundance and diversity of alien plant species than rural areas. This is frequently linked to higher disturbance and propagule pressure, but could also be related to the additional establishment of species from warmer native ranges in cities, facilitated by the latter's higher air temperatures and drier soils. A hitherto unresolved question is how stressful the urban environments become during climate extremes such as heatwaves and droughts. Do such episodes still favor alien plant species, or set them back? We used in situ measured phenotypic leaf and development trait responses of the six most widespread alien Asteraceae species from various native climates along Belgian urban‐to‐rural gradients, measured during two unusually warm and dry summers. Urbanization was characterized by three factors: the percentage of artificially sealed surfaces (urbanity, measured at three spatial scales from in situ to satellite‐based), the vegetation cover and the sky view factor (SVF, fraction of the hemisphere not blocked by buildings or vegetation). Across species, either from colder or warmer native climates, we found a predominant protective effect of shielded environments that block solar radiation (low SVF) along the entire urban‐to‐rural gradient. Such environments induced lower leaf anthocyanins and flavonols indices, indicating heat stress mitigation. Shielded environments also increased specific leaf area (SLA), a typical shade response. We found that vegetated areas had a secondary importance, increasing the chlorophyll content and decreasing the flavonols index, but these effects were not consistent across species. Finally, urbanity at the organism spatial scale decreased plant height, while broader‐scale urbanity had no significant influence. Our results suggest that sealed surfaces constrain alien Asteraceae during unusually warm and dry summers, while shielded environments protect them, possibly canceling out the lack of light. These findings shed new light on alien plant species success along urban‐to‐rural gradients in a changing climate. |
| topic |
Alien plant species phenotypic response sky view factor urbanity urbanization |
| url |
https://doi.org/10.1002/ece3.7872 |
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