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<br />FOREST-FIRE DEVEGETATION AND DRAINAGE BASIN <br />ADJUSTMENTS IN MOUNTAINOUS TERRAIN <br /> <br />WILLIAM D. WHITE <br />STEVE G. WELLS <br /> <br /> <br />Department of Geology <br />University of New Mexico <br />Albuquerque. New Mexico <br /> <br />ABSTRACT <br /> <br />In 1977 the La Mesa fire burned forested portions of the Jemez Moun tains <br />and surrounding volcanic plateau in northcentral New Mexico. Fluvial systems <br />in the devegetated watersheds are adjusting to different sediment and water <br />discharge conditions. Instruments have been placed in six small watersheds <br />to measure these adjustments in areas of different burn intensity (a qualita- <br />tive estimate of devegetation). The amount of sediment delivered to the <br />stream systems is influenced by: 1) the amount of hillslope devegetation; 2) <br />seasonal variations in weathering and runoff; 3) protective post-fire forest <br />litteri and 4) sediment production from burrowing animals. Sediment source <br />areas in devegetated watersheds offer little resistance to erosional processes. <br />and. as a result, threshold conditions are frequently attained. The primary <br />source areas of individual watersheds are the basin headwaters and distal <br />portions. Mid-basin regions of the watersheds studied underwent very little <br />erosion during the period of measurement. Overland flow distances are grea- <br />ter in the mid-basin regions, requiring longer time periods to remove hill- <br />slope detritus. Extensive rilling in the basin headwaters and channel incision <br />near basin mouths are post-fire fluvial adjustments. Cut and fill cycles in <br />channel alluvium of the higher-order streams are related to seasonal variations <br />in sediment supply. Accelerated mechanical weathering during freeze-thaw <br />cycles and concomitant accelerated erosion increase the magnitude of sediment <br />delivery to the streams in extensively devegetated areaS. In areas of less <br />devegetation, variables such as post-fire vegetal litter (needlecast) reduce <br />rainsplash erosion and sheetwash erosion; however. accelerated sediment pro- <br />duction by burrowing animals yields unexpectedly high erosion rates. Syste- <br />matic adjustments between process and form in undisturbed watersheds of the <br />western United States occur. in part, because geomorphic processes are ad.. <br />ju.sted to watershed vegetational characteristics. In devegetated watersheds <br />s,ediment yield" is influenced more by accelerated mechanical weathering or" post- <br />fire vegetal litter than by 'drainage basin size or slope. <br /> <br />A process-response model is developed to illustrate the complexities of <br />fluvial adjustments in devegetated. mountainous terrain. This model differs <br />signiflcantly from the complex response model for alluvial valleys. In moun- <br />tainous areas, tributary streams will adjust independently of trunk drainage <br />lines where bedrock nickpoints separate the two. Thus. tributary streams <br />can be semi-closed systems which supply sediment and water to trunk streams <br />but do not adjust to any modifications made by the trunk streams. Revegeta- <br />tion and erosional stabilization of these semi-closed systems may occur before <br /> <br />,qq <br />