Applying a hydrologic classification approach to low gradient boreal watersheds

This thesis / dissertation was completed and submitted at Nipissing University, and is made freely accessible through the University of Toronto’s TSpace repository The Attawapiskat River catchment makes up a ~57,000 km2 area in Ontario?s Far North extending from Precambrian Shield headwaters through...

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Main Author:	Rundle Germain, Brittany
Other Authors:	James, April, Branfireun, Brian, Nipissing University, Faculty of Arts and Science
Format:	Thesis
Language:	English
Published:	Nipissing University 2017
Subjects:	Watershed hydrology > Ontario > Canada Watersheds > Ontario > Canada Attawapiskat Attawapiskat River Canada Hudson Hudson Bay
Online Access:	http://hdl.handle.net/1807/92742

id	ftunivtoronto:oai:tspace.library.utoronto.ca:1807/92742
record_format	openpolar
spelling	ftunivtoronto:oai:tspace.library.utoronto.ca:1807/92742 2023-05-15T15:33:17+02:00 Applying a hydrologic classification approach to low gradient boreal watersheds Rundle Germain, Brittany James, April Branfireun, Brian Nipissing University, Faculty of Arts and Science 2017-03 application/pdf http://hdl.handle.net/1807/92742 en_ca eng Nipissing University http://hdl.handle.net/1807/92742 Watershed hydrology -- Ontario -- Canada Watersheds -- Ontario -- Canada Thesis 2017 ftunivtoronto 2021-10-31T18:16:46Z This thesis / dissertation was completed and submitted at Nipissing University, and is made freely accessible through the University of Toronto’s TSpace repository The Attawapiskat River catchment makes up a ~57,000 km2 area in Ontario?s Far North extending from Precambrian Shield headwaters through the Hudson Bay Lowlands (HBL) ecozone to the coast. The region is peatland dominated and the low gradient, large expanses require further analysis and study to address uncertainties about their variations in hydrologic response. Recent hydrologic or catchment classification studies aim to assess broad-scale hydrologic systems in terms of smaller ?building blocks? to help develop hypotheses of how hydrologic systems function within specific terrains, but few if any have focused on low gradient peatland dominated systems. This study applies Principal Component Analysis (PCA) to representative catchments within the HBL ecozone, the Boreal Shield and the transition between the two in the Attawapiskat River watershed to assess hydrologic similarity based on physical, climatic and hydrologic characteristics. Different assessments of hydrologic similarity between catchments were made based on the combination of metrics/characteristics included in seven scenarios. Physical and terrain-based characteristics grouped catchments by physiographic region (HBL, transition zone and Shield), while hydrologic characteristics (i.e. tracer and flow-based metrics) grouped catchments both by physiographic region and partly by groundwater influence. Physical and terrain-based characteristics were found to exhibit the most control on the PC-space while hydrologic characteristics provided additionally important details about source water contributions to overall catchment hydrology. This study illustrates the importance of tracer-based/flow metrics in hydrologic similarity analyses. M.Sc. Thesis Attawapiskat Hudson Bay University of Toronto: Research Repository T-Space Attawapiskat ENVELOPE(-82.417,-82.417,52.928,52.928) Attawapiskat River ENVELOPE(-82.300,-82.300,52.950,52.950) Canada Hudson Hudson Bay
institution	Open Polar
collection	University of Toronto: Research Repository T-Space
op_collection_id	ftunivtoronto
language	English
topic	Watershed hydrology -- Ontario -- Canada Watersheds -- Ontario -- Canada
spellingShingle	Watershed hydrology -- Ontario -- Canada Watersheds -- Ontario -- Canada Rundle Germain, Brittany Applying a hydrologic classification approach to low gradient boreal watersheds
topic_facet	Watershed hydrology -- Ontario -- Canada Watersheds -- Ontario -- Canada
description	This thesis / dissertation was completed and submitted at Nipissing University, and is made freely accessible through the University of Toronto’s TSpace repository The Attawapiskat River catchment makes up a ~57,000 km2 area in Ontario?s Far North extending from Precambrian Shield headwaters through the Hudson Bay Lowlands (HBL) ecozone to the coast. The region is peatland dominated and the low gradient, large expanses require further analysis and study to address uncertainties about their variations in hydrologic response. Recent hydrologic or catchment classification studies aim to assess broad-scale hydrologic systems in terms of smaller ?building blocks? to help develop hypotheses of how hydrologic systems function within specific terrains, but few if any have focused on low gradient peatland dominated systems. This study applies Principal Component Analysis (PCA) to representative catchments within the HBL ecozone, the Boreal Shield and the transition between the two in the Attawapiskat River watershed to assess hydrologic similarity based on physical, climatic and hydrologic characteristics. Different assessments of hydrologic similarity between catchments were made based on the combination of metrics/characteristics included in seven scenarios. Physical and terrain-based characteristics grouped catchments by physiographic region (HBL, transition zone and Shield), while hydrologic characteristics (i.e. tracer and flow-based metrics) grouped catchments both by physiographic region and partly by groundwater influence. Physical and terrain-based characteristics were found to exhibit the most control on the PC-space while hydrologic characteristics provided additionally important details about source water contributions to overall catchment hydrology. This study illustrates the importance of tracer-based/flow metrics in hydrologic similarity analyses. M.Sc.
author2	James, April Branfireun, Brian Nipissing University, Faculty of Arts and Science
format	Thesis
author	Rundle Germain, Brittany
author_facet	Rundle Germain, Brittany
author_sort	Rundle Germain, Brittany
title	Applying a hydrologic classification approach to low gradient boreal watersheds
title_short	Applying a hydrologic classification approach to low gradient boreal watersheds
title_full	Applying a hydrologic classification approach to low gradient boreal watersheds
title_fullStr	Applying a hydrologic classification approach to low gradient boreal watersheds
title_full_unstemmed	Applying a hydrologic classification approach to low gradient boreal watersheds
title_sort	applying a hydrologic classification approach to low gradient boreal watersheds
publisher	Nipissing University
publishDate	2017
url	http://hdl.handle.net/1807/92742
long_lat	ENVELOPE(-82.417,-82.417,52.928,52.928) ENVELOPE(-82.300,-82.300,52.950,52.950)
geographic	Attawapiskat Attawapiskat River Canada Hudson Hudson Bay
geographic_facet	Attawapiskat Attawapiskat River Canada Hudson Hudson Bay
genre	Attawapiskat Hudson Bay
genre_facet	Attawapiskat Hudson Bay
op_relation	http://hdl.handle.net/1807/92742
_version_	1766363742497406976

Applying a hydrologic classification approach to low gradient boreal watersheds

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