Classifying connectivity to guide aquatic habitat management in an arctic coastal plain watershed experiencing land use and climate change

Habitat connectivity supports life history requirements of many arctic fish species during periods of flowing water. However, aquatic habitat connectivity is susceptible to change due to climate factors and land use, particularly in the 4,600 km2 Fish Creek Watershed (FCW) located in National Petrol...

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Bibliographic Details
Published in:Arctic, Antarctic, and Alpine Research
Main Authors: Taylor M. Johaneman, Christopher D. Arp, Matthew S. Whitman, Allen C. Bondurant, Hillary B. Hamann, Michael W. Kerwin
Format: Article in Journal/Newspaper
Language:English
Published: Taylor & Francis Group 2020
Subjects:
arctic
hydrology
geomorphology
connectivity
catchment
envir
geo
Arctic
Antarctic and Alpine Research
Climate change
Alaska
Online Access:https://doi.org/10.1080/15230430.2020.1805848
https://doaj.org/article/bc60b7abbdeb4dbd9a9c700e40e7f8c7
Description
Summary:Habitat connectivity supports life history requirements of many arctic fish species during periods of flowing water. However, aquatic habitat connectivity is susceptible to change due to climate factors and land use, particularly in the 4,600 km2 Fish Creek Watershed (FCW) located in National Petroleum Reserve in Alaska. Varying degrees and mechanisms of connectivity between overwintering habitat and summer foraging habitat motivated us to assess and classify aquatic habitat connectivity to help inform management. Using geospatial analysis and field methods we classified processes affecting connectivity within riparian corridors and upstream channels. Results show the dominant geomorphic process affecting connectivity varied among river systems, providing general and catchment-specific guidance as to the distribution of important migratory fish habitat. Barriers to fish passage caused by subsurface flow were more common along river corridors with high channel migration rates, whereas wetland flowthrough was the most common barrier in upstream catchments throughout the FCW. Coupling both riparian and catchment connectivity showed that 28 percent of catchments were classified as having fish-passable connectivity, indicated by no barriers present in the riparian zone or upstream channels. Future work should evaluate how well this classification predicts fish habitat, is useful to resource management, and is applicable to other arctic watersheds.

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