Street trees in Paris are sensitive to spring and autumn precipitation and recent climate changes

David, Ambre; Boura, Anaïs; Lata, Jean‐Christophe; Rankovic, Aleksandar; Kraepiel, Yvan; Charlot, Coralie; Abbadie, Luc; Ngao, Jérôme

doi:10.1007/s11252-017-0704-z

Cited by 21 publications

(16 citation statements)

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“…It is thus hardly known how the nitrogen budget of urban lawns is balanced and the respective influence of soil micro-organisms and atmospheric deposits on this budget. Similarly, while street trees are seen as providing services (reduction in the heat island effect) and disservices (roots may damage buildings and pavement) (Mullaney et al, 2015) the ecophysiology of these trees is poorly known (but see David et al, 2018).…”

Section: Implementing the Research Agendamentioning

confidence: 99%

Urban ecology, stakeholders and the future of ecology

Barot

Abbadie

Auclerc

et al. 2019

Science of The Total Environment

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The goal of our work is fourfold: to describe the diversity of scientific questions in urban ecology, show how these questions are organized, to assess how these questions can be built in close interactions with stakeholders, to better understand the role urban ecology can play within ecological sciences. A workshop with scientists from all relevant fields (from ecology to sociology) and stakeholders was organized by the Foundation for Research on Biodiversity (FRB). Three types of scientific issues were outlined about (1) the biodiversity of organisms living in urban areas, (2) the functioning of urban organisms and ecosystems, (3) interactions between human societies and urban ecological systems. For all types of issues we outlined it was possible to distinguish both fundamental and applied scientific questions. Overall, the human population is more and more urban. Cities have a strong impact on the biosphere and increasing the share of Nature within towns is more and more viewed as crucial for the well-being of town dwellers. Moreover, as all types of ecological and evolutionary questions can be asked in urban areas, urban ecology will likely be more and more influential in the development of ecology. The future of towns, their biodiversity and the life of city dwellers is at stake. Depending on research and the way its results are taken into account, very different towns could emerge. Urban areas can be viewed as a test and a laboratory for the future of the interactions between human and ecological systems.

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Section: Implementing the Research Agendamentioning

confidence: 99%

Urban ecology, stakeholders and the future of ecology

Barot

Abbadie

Auclerc

et al. 2019

Science of The Total Environment

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“…In Paris, Rankovic (2016) found that urban conditions result in an enrichment of soil and tree δ 13 C and A. Rankovic, et al hypothesized that it was linked to the response of trees to urban drought (documented by David et al, 2018) and the subsequent transfer of 13 C-enriched tree root organic matter to soil. The urbanization effects on δ 13 C observed for wild bees are of a similar order of magnitude as the hypothesized drought effect reported for plants.…”

Section: A Significant Effect Of Urbanization On the δ 13 C And δ 15 N Of Wild Beesmentioning

confidence: 99%

Urbanization effects on wild bee carbon and nitrogen stable isotope ratios in the Paris region

Rankovic

Geslin²,

Perrard³

et al. 2020

Acta Oecologica

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Urban environments have been shown to have profound, yet still poorly understood effects on key ecosystem processes such as carbon (C) and nitrogen (N) cycling, as well as for key aspects of organism ecology, such as community assembly and network interactions. The study of natural abundances of C and N stable isotopes, 13 C and 15 N, can help infer mechanistic hypotheses on ecosystem processes at play in urban environments. No existing study has investigated whether a visible urban effect on soil and plant C and N biogeochemistry is being transferred to the animal compartment of urban ecosystems through trophic interactions. Here, we report 13 C and 15 N natural abundance values measured on three pollinating species of wild bees (Lasioglossum laticeps, Lasioglossum morio, and Lasioglossum nitidulum) sampled in 12 locations along an urbanization gradient in the Ilede-France region (Paris area, France). Our objective was to test whether already recorded isotopic patterns in urban soils and plants in the Paris area would also be visible in pollinators, and to reflect on whether this would be indicative of an urban isotopic signal being transferred to pollinators. Results indicate a significant effect of urbanization on the δ 13 C and δ 15 N for all three bee species, with enrichment for both 13 C and 15 N linked to increased urbanization. This could be linked to an urban imprint on the diverse plants on which pollinating insects forage on in the Paris area, or to other factors linked to the physiology and foraging strategies of insects. A better understanding of the drivers influencing pollinator δ 13 C and δ 15 N could help better understand urban biogeochemistry and trophic chains, as well as elucidate the origin of specimens and the migratory capacities of bee species, an important yet still elusive question considering the increase of habitat fragmentation.

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“…Тим не менш, побудова хронологічних серій радіального приросту T. cordata ускладнена як особливостями анатомічної будови річних кілець, так і частою наявністю ушкоджених порожніх стовбурів, через що дендрокліматологічні дослідження цього виду є дуже рідкісними. Наразі нам відомі лише дві опубліковані роботи з дендрохронології T. cordata -з лісових біотопів Присамар'я (Lovelius, Grytsan, 1998) та гірських лісів південної Польщі (Barniak et al, 2014); ще в кількох працях досліджено дерева міських насаджень (Moser et al, 2017;David et al, 2018;Moser-Reischl et al, 2019;Helama et al, 2020). На жаль, дані з алейних насаджень та скверів у містах не можуть бути повною мірою застосовані до лісових біотопів, а досліджень, проведених в Польщі та на межі ареалу в Присамар'ї, недостатньо для розуміння, як T. cordata в лісах Києва реагує на зміни факторів середовища.…”

Section: Festuco-brometeaunclassified

“…Для дерев T. × europaea та T. platyphyllos із паркового комплексу Хемптон-Корта в Лондоні найбільш важливими виявилися опади в травні-липні в сезон росту деревини та в листопаді попереднього року, при цьому вплив коливань температури був незначущим (Moir, Leroy, 2013). Приріст T. tomentosa у міських насадженнях Парижа позитивно корелював із опадами жовтня попереднього сезону та травня поточного й негативно -із температурою повітря в травні (David et al, 2018). Tilia cordata в міських насадженнях Мюнхена виявилася чутливою до посушливих умов (Moser et al, 2017), проте велика кількість опадів у березні мала неочікуваний негативний вплив на приріст (Moser-Reischl et al, 2019).…”

Section: обговоренняunclassified

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2020

Ukr. Bot. J.

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https://ukrbotj.co.ua UKRAINIAN BOTANICAL JOURNAL is а scientific journal publishing articles and contributions on all aspects of botany and mycology, including general issues, taxonomy, floristics, vegetation science, ecology, evolutionary biology, geography, history of flora and vegetation as well as morphology, anatomy, physiology, biochemistry, cell and molecular biology of plants and fungi. Original articles, short communications and other contributions are published in sections General Issues,

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Street trees in Paris are sensitive to spring and autumn precipitation and recent climate changes

Cited by 21 publications

References 76 publications

Urban ecology, stakeholders and the future of ecology

Urban ecology, stakeholders and the future of ecology

Urbanization effects on wild bee carbon and nitrogen stable isotope ratios in the Paris region

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