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Record Nr. |
UNISA996575138303316 |
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Titolo |
2022 International Conference on Dynamics and Vibroacoustics of Machines (DVM) : Samara, Russia, September 21-23, 2022 / / Institute of Electrical and Electronics Engineers |
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Piscataway, NJ : , : IEEE, , [2022] |
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©2022 |
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Descrizione fisica |
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1 online resource : illustrations |
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Monografia |
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The DVM2022 presents a forum for academics, scientists, and engineers to exchange ideas and research results in the area of machine dynamics, noise and vibration, fluid power systems design, energy transmission, and motion control in various industrial applications It provides constructive feedback from the scientific and industrial community It will be the sixth conference that conducts biennially since 2012 Its proceedings in 2014 and 2016 years were published in Procedia Engineering, the fourth conference DVM2018 was merged with the 2018 IEEE Global Fluid Power Society PhD Symposium (GFPS2018) The proceedings of the fifth conference DVM2020 were published in the IEEE digital library. |
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2. |
Record Nr. |
UNINA9910220054903321 |
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Autore |
Jane L. DeGabriel |
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Titolo |
Plant Silicon Interactions between Organisms and the Implications for Ecosystems |
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Descrizione fisica |
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1 online resource (84 p.) |
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Collana |
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Frontiers Research Topics |
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In this Frontiers topic, we explore how the functions and fates of plant silicon interact with other organisms and ecosystem processes. By bringing together new data from multiple disciplines and scales, we present a cross-section of novel explorations into how plants use silicon and the implications for agriculture and ecosystems. Key aims in this field are to understand the determinants of plant silicon uptake and cycling, and the benefits that silicon uptake confers on plants, including reducing the impacts of stresses such as herbivory. Current research explores inter-specific interactions, including co-evolutionary relationships between plant silicon and animals, particularly morphological adaptations, behavioural responses and the potential for plant silicon to regulate mammal populations. Another emerging area of research is understanding silicon fluxes in soils and vegetation communities and scaling this up to better understand the global silicon cycle. New methods for measuring plant silicon are contributing to progress in this field. Silicon could help plants mitigate some effects of climate change through alleviation of biotic and abiotic stress and silicon is a component of some carbon sinks. Therefore, understanding the role of plant silicon across ecological, agricultural and biogeochemical disciplines is increasingly important in the context of global environmental change. |
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