12941758Edited by HilaryA.100021530data_sourceund1629908561162990943200162990943258<p>This study developed a deterministic river temperature model, driven by energy gains from solar radiation that are modified by water volume and residence time. The resulting output is a planting prioritisation metric that compares potential warming between scenarios with and without riparian woodland. The prioritisation metric has a reach scale spatial resolution, but can be mapped at large spatial scales using information obtained from a digital river network. The results indicate that water volume and residence time, as represented by river order, are a dominant control on the effectiveness of riparian woodland in reducing river temperature. Ignoring these effects could result in a sub-optimal prioritisation process and inappropriate resource allocation. Within river order, effectiveness of riparian shading depends on interactions between channel and landscape characteristics.</p>

filtered_html<p>This study developed a deterministic river temperature model, driven by energy gains from solar radiation that are modified by water volume and residence time. The resulting output is a planting prioritisation metric that compares potential warming between scenarios with and without riparian woodland. The prioritisation metric has a reach scale spatial resolution, but can be mapped at large spatial scales using information obtained from a digital river network. The results indicate that water volume and residence time, as represented by river order, are a dominant control on the effectiveness of riparian woodland in reducing river temperature. Ignoring these effects could result in a sub-optimal prioritisation process and inappropriate resource allocation. Within river order, effectiveness of riparian shading depends on interactions between channel and landscape characteristics.</p> 614https://doi.org/10.1002/hyp.14314A deterministic river temperature model to prioritise management of riparian woodlands to reduce summer maximum river temperatureshttps://doi.org/10.1002/hyp.14314Jackson, F.L., Hannah, D.M., Ouellet, V. and Malcolm, I.A. (2021) A deterministic river temperature model to prioritise management of riparian woodlands to reduce summer maximum river temperatures. https://doi.org/10.1002/hyp.14314Jackson, F.L., Hannah, D.M., Ouellet, V. and Malcolm, I.A. (2021) A deterministic river temperature model to prioritise management of riparian woodlands to reduce summer maximum river temperatures. https://doi.org/10.1002/hyp.14314https://doi.org/10.1002/hyp.14314https://doi.org/10.1002/hyp.143147582021-07-15 00:00:00Europe/LondonEurope/Londondatetimesioc:Itemfoaf:Documentdc:datedc:createdxsd:dateTimedate_iso8601dc:modifiedxsd:dateTimedate_iso8601content:encodedpropertysioc:has_creatorrelfoaf:namesioc:num_repliesxsd:integersioc:last_activity_datexsd:dateTimedate_iso8601https://marine.gov.scot/?q=data/deterministic-river-temperature-model-prioritise-management-riparian-woodlands-reduce-summerHilaryA0a:6:{s:7:"overlay";i:1;s:16:"ckeditor_default";s:1:"t";s:20:"ckeditor_show_toggle";s:1:"t";s:14:"ckeditor_width";s:4:"100%";s:13:"ckeditor_lang";s:2:"en";s:18:"ckeditor_auto_lang";s:1:"t";}12432712941721530draftpublished58162990943211162990943212432712941721530draftpublished58162990943211162990943212432712941721530draftpublished581629909432111629909432