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A LIDAR‐DERIVED EVALUATION OF WATERSHED‐SCALE LARGE WOODY DEBRIS SOURCES AND RECRUITMENT MECHANISMS: COASTAL MAINE, USA
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In‐channel large woody debris (LWD) promotes quality aquatic habitat through sediment sorting, pool scouring and in‐stream nutrient retention and transport. LWD recruitment occurs by numerous ecological and geomorphic mechanisms including channel migration, mass wasting and natural tree fall, yet LWD sourcing on the watershed scale remains poorly constrained. We developed a rapid and spatially extensive method for using light detection and ranging data to do the following: (i) estimate tree height and recruitable tree abundance throughout a watershed; (ii) determine the likelihood for the stream to recruit channel‐spanning trees at reach scales and assess whether mass wasting or channel migration is a dominant recruitment mechanism; and (iii) understand the contemporary and future distribution of LWD at a watershed scale. We utilized this method on the 78‐km‐long Narraguagus River in coastal Maine and found that potential channel‐spanning LWD composes approximately 6% of the valley area over the course of the river and is concentrated in spatially discrete reaches along the stream, with 5 km of the river valley accounting for 50% of the total potential LWD found in the system. We also determined that 83% of all potential LWD is located on valley sides, as opposed to 17% on floodplain and terrace surfaces. Approximately 3% of channel‐spanning vegetation along the river is located within one channel width of the stream. By examining topographic and morphologic variables (valley width, channel sinuosity, valley‐ side slope) over the length of the stream, we evaluated the dominant recruitment processes along the river and often found a spatial disconnect between the location of potential channel‐spanning LWD and recruitment mechanisms, which likely explains the low levels of LWD currently found in the system. This rapid method for identification of LWD sources is extendable to other basins and may prove valuable in locating future restoration projects aimed at increasing habitat quality through wood additions.
key words: large woody debris; lidar; river restoration; habitat
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AppLCC Riparian Restoration Tool for Climate Change Resiliency Webinar
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Part of the Safeguarding Wildlife from Climate Change web series hosted by USFWS and National Wildlife Federation, this presentation will highlight an innovative riparian planting and restoration decision support tool, funded by the Appalachian Landscape Conservation Cooperative that is now available to the conservation community.
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Applying LCC Tools to Issues Impacting the Keystone State
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Pennsylvania is a landscape filled with abundant forests and wildlife, thousands of miles of rivers and streams, and home to a productive energy industry that includes the emergence of natural gas and alternative energy sources. Natural resource agencies and conservation organizations increasingly see the value for proactive science and tools that help inform decisions both locally and regionally in order to best protect and conserve the lands, waters, and wildlife of the state while harnessing resources that benefit society and the economy.
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Beaver (Castor canadensis) mitigate the effects of climate on the area of open water in boreal wetlands in western Canada
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Shallow open water wetlands provide critical habitat for numerous species, yet they have become increasingly vulnerable to drought and warming temperatures and are often reduced in size and depth or disappear during drought. We examined how temperature, precipitation and beaver (Castor canadensis) activity influenced the area of open water in wetlands over a 54- year period in the mixed-wood boreal region of east-central Alberta, Canada. This entire glacial landscape with intermittently connected drainage patterns and shallow wetland lakes with few streams lost all beaver in the 19th century, with beaver returning to the study area in 1954. We assessed the area of open water in wetlands using 12 aerial photo mosaics from 1948 to 2002, which covered wet and dry periods, when beaver were absent on the landscape to a time when they had become well established. The number of active beaver lodges explained over 80% of the variability in the area of open water during that period. Temperature, precipitation and climatic variables were much less important than beaver in maintaining open water areas. In addition, during wet and dry years, the presence of beaver was associated with a 9-fold increase in open water area when compared to a period when beaver were absent from those same sites. Thus, beaver have a dramatic influence on the creation and maintenance of wetlands even during extreme drought. Given the important role of bea- ver in wetland preservation and in light of a drying climate in this region, their removal should be considered a wetland disturbance that should be avoided.
Beaver
Castor canadensis
Drought East-central Alberta Elk Island National Park Mixed-wood boreal Wetland conservation
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Demonstrating Value of Riparian Restoration Tool to Riparian Forest Buffer Advisory Committee
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On October 27, Jessica Rhodes of the Appalachian LCC provided a demonstration of the Riparian Prioritization for Climate Change Resilience (RPCCR) decision support tool for the most recent meeting of the Riparian Forest Buffer Advisory Committee.
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Effect of fine wood on juvenile brown trout behaviour in experimental stream channels
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In-stream wood can increase shelter availability and prey abundance for stream-living fish such as brown trout, Salmo trutta, but the input of wood to streams has decreased in recent years due to harvesting of riparian vegetation. During the last decades, fine wood (FW) has been increasingly used for biofuel, and the input of FW to streams may therefore decrease. Although effects of in-stream FW have not been studied as extensively as those of large wood (LW), it is probably important as shelter for small-sized trout. In a laboratory stream experiment, we tested the behavioural response of young-of-the-year wild brown trout to three densities of FW, with trout tested alone and in groups of four. Video recordings were used to measure the proportion of time allocated to sheltering, cruising and foraging, as well as the number of aggressive interactions and prey attacks. Cruising activity increased with decreasing FW density and was higher in the four-fish groups than when fish were alone. Foraging decreased and time spent sheltering in FW increased with increasing FW density. Our study shows that juvenile trout activity is higher in higher fish densities and that trout response to FW is related to FW density and differs from the response to LW as reported by others.
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Ensuring Climate Resilient Aquatic Communities
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Partners of the Appalachian LCC presented the “Riparian Restoration Climate Change Resilience Tool” to the aquatic management and research community at the Annual Eastern Brook Trout Joint Venture (EBTJV) meeting in early September.
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Federal Programs Offer Opportunities for Wildlife, Forestry Improvements
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For persons interested in performing active management on their property to establish or improve wetlands, riparian (streamside) areas, forest lands, or other upland habitats for wildlife and pollinators, now is the time to request a plan and apply for financial assistance if desired.
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FY2015 Brook Trout Conservation Funding Opportunity
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The Eastern Brook Trout Joint Venture (EBTJV) is seeking project proposals focused on conserving the habitats needed to support healthy and productive wild Brook Trout populations.
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LCC Science Helping to Target Restoration Sites to Improve Water Quality in the Susquehanna and Potomac Watersheds
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The Natural Resources Conservation Service, the EPA, and the Commonwealth of Pennsylvania are investing $28 million in restoration activities – from wetlands to riparian buffers to floodplain reconnection - in the Susquehanna and Potomac watershed to improve water quality.
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