Habitat fragmentation is modifying landscapes and the distribution of floral resources, possibly shaping pollinator resource acquisition, which is an issue of global concern for pollinator health and urbanization sustainability. Here, in different urban parks contrasting in terms of local features and surrounding urban matrix, we aimed to clarify how fragmentation and local flower availability shape bumblebee foraging dynamics by characterizing several components: the nutritional content and plant composition of collected pollen pellets, the trip length and the plant-nutrition association along a fragmentation gradient. We found mostly negative linear or non-linear relationships between nutritional quality and fragmentation, tight plant composition-nutrition associations interpretable as low access to alternative resources, and longer foraging time in smaller green areas, showing that urban green area fragmentation limits nutritional resource accessibility. However, flower local richness improved the collection of beneficial nutrients as proteins and polyphenols, thus potentially rescuing negative landscape effects. This study illuminates the link between landscape and local features and the nutritional ecology of pollinators, a key aspect for understanding pollinator foraging dynamics. The findings of the study can provide valuable guidelines for policy makers and stakeholders involved in the management and ecological restoration planning for urban green areas and even for outlining mitigation measures in urban contexts.

Pioltelli, E., Guzzetti, L., Ouled Larbi, M., Labra, M., Galimberti, A., Biella, P. (2024). Landscape fragmentation constrains bumblebee nutritional ecology and foraging dynamics. LANDSCAPE AND URBAN PLANNING, 247(July 2024), 1-10 [10.1016/j.landurbplan.2024.105075].

Landscape fragmentation constrains bumblebee nutritional ecology and foraging dynamics

Pioltelli, E.
Primo
;
Guzzetti, L.
Secondo
;
Ouled Larbi, M.;Labra, M.;Galimberti, A.
Penultimo
;
Biella, P.
Ultimo
2024

Abstract

Habitat fragmentation is modifying landscapes and the distribution of floral resources, possibly shaping pollinator resource acquisition, which is an issue of global concern for pollinator health and urbanization sustainability. Here, in different urban parks contrasting in terms of local features and surrounding urban matrix, we aimed to clarify how fragmentation and local flower availability shape bumblebee foraging dynamics by characterizing several components: the nutritional content and plant composition of collected pollen pellets, the trip length and the plant-nutrition association along a fragmentation gradient. We found mostly negative linear or non-linear relationships between nutritional quality and fragmentation, tight plant composition-nutrition associations interpretable as low access to alternative resources, and longer foraging time in smaller green areas, showing that urban green area fragmentation limits nutritional resource accessibility. However, flower local richness improved the collection of beneficial nutrients as proteins and polyphenols, thus potentially rescuing negative landscape effects. This study illuminates the link between landscape and local features and the nutritional ecology of pollinators, a key aspect for understanding pollinator foraging dynamics. The findings of the study can provide valuable guidelines for policy makers and stakeholders involved in the management and ecological restoration planning for urban green areas and even for outlining mitigation measures in urban contexts.
Articolo in rivista - Articolo scientifico
Bee; Habitat fragmentation; Plant-pollinator interactions; Pollen DNA metabarcoding; Pollinators diet; Urban greening;
English
6-apr-2024
2024
247
July 2024
1
10
105075
open
Pioltelli, E., Guzzetti, L., Ouled Larbi, M., Labra, M., Galimberti, A., Biella, P. (2024). Landscape fragmentation constrains bumblebee nutritional ecology and foraging dynamics. LANDSCAPE AND URBAN PLANNING, 247(July 2024), 1-10 [10.1016/j.landurbplan.2024.105075].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/470578
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