Browsing School of Geography by Author "Wharton, G"
Now showing items 1-20 of 35
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After the peak water: the increasing influence of rock glaciers on alpine river systems
Brighenti, S; Tolotti, M; Bruno, MC; Engel, M; Wharton, G; Cerasino, L; Mair, V; Bertoldi, W (2019-10-15) -
Aquatic interfaces: a hydrodynamic and ecological perspective
Marion, A; Nikora, V; Puijalon, S; Bouma, T; Koll, K; Ballio, F; Tait, S; Zaramella, M; Sukhodolov, A; O'Hare, M (2014-11-02) -
Assessing river condition: A multiscale approach designed for operational application in the context of biodiversity net gain
Gurnell, AM; Scott, SJ; England, J; Gurnell, D; Jeffries, R; Shuker, L; Wharton, G (2020) -
Biomorphodynamics of alternate bars in a channelized, regulated river: An integrated historical and modelling analysis
Serlet, AJ; Gurnell, AM; Zolezzi, G; Wharton, G; Belleudy, P; Jourdain, C (2018-07) -
Celebrating the career of Angela Gurnell
Wharton, G; Bertoldi, W; Francis, RA (2024-07-01)This Special Issue arose from a 1-day international workshop on the theme of Fluvial Biogeomorphology to mark Professor Angela Gurnell's official retirement. As co-editors, we felt this Special Issue also afforded an ... -
Combined stable-isotope and fatty-acid analyses demonstrate that large wood increases the autochthonous trophic base of a macroinvertebrate assemblage
Cashman, MJ; Pilotto, F; Harvey, GL; Wharton, G; Pusch, MT (2016-04) -
Consideration of hydromorphology and sediment in the implementation of the EU water framework and floods directives: a comparative analysis of selected EU member states
Nones, M; Gerstgraser, C; Wharton, G (2017-08) -
Contrasting physical and chemical conditions of two rock glacier springs
Brighenti, S; Engel, M; Tolotti, M; Bruno, MC; Wharton, G; Comiti, F; Tirler, W; Cerasino, L; Bertoldi, W (2021-04-02) -
The contribution of citizen science volunteers to river monitoring and management: International and national perspectives and the example of the MoRPh survey
Gurnell, AM; England, J; Shuker, L; Wharton, G (2019-10) -
Dietary changes in predators and scavengers in a nocturnally illuminated riparian ecosystem
Manfrin, A; Lehmann, D; van Grunsven, RHA; Larsen, S; Syvaranta, J; Wharton, G; Voigt, CC; Monaghan, MT; Holker, F (2018-07) -
Diversification of stream invertebrate communities by large wood
Pilotto, F; Bertoncin, A; Harvey, GL; Wharton, G; Pusch, MT (2014-12) -
Ecosystem shifts in Alpine streams under glacier retreat and rock glacier thaw: A review
Brighenti, S; Tolotti, M; Bruno, MC; Wharton, G; Pusch, MT; Bertoldi, W (2019-07-20) -
Flood estimation from channel size: guidelines for using the channel-geometry method
Wharton, G (1992-10-01) -
Flow-divergence feedbacks control propagule retention by in-stream vegetation: the importance of spatial patterns for facilitation
Cornacchia, L; van der Wal, D; van de Koppel, J; Puijalon, S; Wharton, G; Bouma, TJ (2019-01) -
How large is a river? Conceptualizing river landscape signatures and envelopes in four dimensions
Gurnell, AM; Bertoldi, W; Tockner, K; Wharton, G; Zolezzi, G (2016) -
Landscapes of facilitation: how self-organized patchiness of aquatic macrophytes promotes diversity in streams
Cornacchia, L; van de Koppel, J; van der Wal, D; Wharton, G; Puijalon, S; Bouma, TJ (Wiley Periodicals, Inc., 2018-02-13) -
MoRPh: A citizen science tool for monitoring and appraising physical habitat changes in river
Shuker, L; Gurnell, A; Wharton, G; Gurnell, D; England, J; Finn-Leeming, B; Beach, E (Wiley, 2017-05-26)The MoRPh survey is designed to enable citizen scientists to monitor physical habitat mosaics and human pressures within short (up to 40 m) river reaches called modules. MoRPh underpins a multi-scale Modular River Survey, ... -
MoRPh: a citizen science tool for monitoring and appraising physical habitat changes in rivers
Shuker, LJ; Gurnell, AM; Wharton, G; Gurnell, DJ; England, J; Leeming, BFF; Beach, E (2017-08) -
A new conceptual framework for the erosion of fine sediments from a gravel matrix based on experimental analysis
STRADIOTTI, G; RIGHETTI, M; TAREKEGN, TH; Wharton, G; TOFFOLON, MAn experimental non-intrusive methodology is proposed to estimate the spatially averaged erosion rate of fine sediment from a gravel bed. The experiments performed in a laboratory flume show a progressive slow-down of the ... -
On the structure of turbulent gravel bed flow: Implications for sediment transport
Mohajeri, SH; Righetti, M; Wharton, G; Romano, GP (2016-06)