Fire meets inland water via burned wood: and then what?

Vaz, Pedro G.; Merten, Eric C.; Warren, Dana R.; Durscher, Kelsie; Tapp, Megan; Robinson, Christopher T.; Rego, Francisco C.; Pinto, Paulo

Citeable URL: https://ir.library.oregonstate.edu/concern/articles/3f462b16j

Descriptions

Attribute Name	Values
Creator	Vaz, Pedro G. Merten, Eric C. Warren, Dana R. Durscher, Kelsie Tapp, Megan Robinson, Christopher T. Rego, Francisco C. Pinto, Paulo
Abstract	Wood is a key structural element in aquatic ecosystems. Wood provides habitat complexity, alters geomorphology, retains organic and inorganic material, promotes hyporheic flow, and acts as substrate for biofilms and invertebrates. Fire is an important disturbance promoting wood recruitment into inland waters, but most studies have focused on streams in western North America. Less is known about fire-derived wood dynamics on other continents or in lake environments. Here, we review fire effects on the recruitment, distribution, and function of in-stream wood, with emphasis on a series of studies from the Euro-Mediterranean. The amount of large wood in these streams was low and is expected to decline in the future because of wildfire. Wildfire engendered inputs of wood with low structural complexity, probably reducing habitat heterogeneity for aquatic organisms. Fire also provided wood with greater diameter than wood recruited by other means, but its longevity may be shorter because burned wood was more decayed and less anchored in the channel than unburned wood. Wood delivery processes are important because macroinvertebrate colonization differed between fire-derived wood that fell directly into the river and wood conditioned first on the forest floor. We present a case study describing wood dynamics in a lake after a wildfire in northern Minnesota, USA. In this study, wildfire created an area of lake shoreline with disproportionately more wood than areas unaffected by wildfire. In contrast to streams, burned wood was more complex than unburned wood in the lake system. One of the explanations may be greater scouring, abrasive action by stream flows, which breaks down burned wood faster than in lakes. Given the expected increase in the probability and severity of fire around the world, information in our review can be used to help manage riparian zones of streams and lakes. This is the publisher’s final pdf. The article is copyrighted by the Society for Freshwater Science and published by The University of Chicago Press. It can be found at: http://www.freshwater-science.org/Journal/Access-FWS.cfm Keywords: eucalyptus, large woody debris, forest management, community structure, cork oak, disturbance, maritime pine, macroinvertebrates, stream restoration
Resource Type	Article
DOI	https://doi.org/10.1086/684095
Date Available	2016-12-31T09:00:08+00:00
Date Issued	2015-12
Citation	Vaz, P. G., Merten, E. C., Warren, D. R., Durscher, K., Tapp, M., Robinson, C. T., ... & Pinto, P. (2015). Fire meets inland water via burned wood: and then what?. Freshwater Science, 34(4), 1468-1481. doi:10.1086/684095
Journal Title	Freshwater Science
Journal Volume	34
Journal Issue/Number	4
Rights Statement	Copyright Not Evaluated
Funding Statement (additional comments about funding)	Financial support by the Portuguese Foundation for Science and Technology (SFRH/BD/45490/2008 and PEst-OE/AGR/UI0520/2011) to PV is gratefully acknowledged. We thank the US Department of Agriculture Forest Service and Wartburg College for funding and materials to assist with sampling Lake Isabella.
Publisher	University of Chicago Press
Peer Reviewed	Yes
Language	English [eng]
Replaces	http://hdl.handle.net/1957/57924

ScholarsArchive@OSU

Fire meets inland water via burned wood: and then what?

Descriptions

Relationships

Items

ScholarsArchive@OSU

Fire meets inland water via burned wood: and then what?

Downloadable Content

Descriptions

Relationships

Items