Original Articles: Nitrogen Availability and Old-Field Succession in a Shortgrass Steppe |
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Authors: | Mark W Paschke Terry McLendon Edward F Redente |
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Institution: | (1) Colorado State University, Fort Collins, Colorado 80523, USA , US |
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Abstract: | The relationship between soil nitrogen (N) availability and plant community structure was investigated in old-fields in the
shortgrass steppe of Colorado. Nitrogen availability was manipulated by N or sucrose additions for 4 years at three old-fields
(early-seral, mid-seral, and late-seral) and at an uncultivated control site. The addition of N generally resulted in increased
abundance of annual forbs and grasses relative to perennials at all of the previously cultivated sites. Conversely, experimental
reduction of N availability generally increased the relative abundance of perennials. Despite a lack of detectable differences
in N mineralization between sites and treatments, ion-exchange resin bags confirmed that sucrose additions reduced plant-available
N and that N additions increased plant-available N. This was evidenced further by similar observations for plant tissue N
content. The degree to which N additions increased N availability at the various sites supported the idea that late-seral
plant communities are less effective at N capture relative to earlier-seral communities. The mid-seral old-field had the lowest
rates of litter decomposition and a relatively large accumulation of litter on the soil surface. This mid-seral old-field
was dominated by an exotic annual grass (Bromus tectorum), which appears to be a major hindrance to redevelopment of the plant-soil system. By experimentally reducing N availability
at this stage, we were able, in 4 years, to change the plant community into one that more closely resembled the late-seral
community. We also observed that the natural recruitment of weedy annual species on the uncultivated site during an unusually
wet year was suppressed by reducing N availability. Our results suggest that available N is an important factor controlling
the rate and course of plant and soil community redevelopment on abandoned croplands in the shortgrass steppe, and that manipulation
of N availability might be useful in restoration of rangeland vegetation.
Received 19 May 1998; accepted 27 August 1999. |
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Keywords: | : old-field succession nitrogen availability plant-soil system semiarid rangeland restoration |
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