Switchgrass and other perennial grasses have been promoted as biomass crops for production of renewable fuels. The objective of this study was to evaluate the effect of biomass removal on soil biogeochemical processes. A 3-year field study consisting of three levels of net primary productivity (NPP; low, medium, and high growing season precipitation) and two biomass crops (winter wheat and switchgrass) was conducted near Pendleton, Oregon. Switchgrass increased soil carbon (C)-nitrogen (N) ratio, but the effect varied with net primary productivity (NPP) and soil depth. In situ soil respiration (carbon dioxide; CO2) rate from switchgrass increased with NPP level but switchgrass had greater cumulative flux than wheat in medium and low NPP. Nitrogen mineralization and microbial biomass carbon were significantly greater under switchgrass than under wheat at high and medium NPP. Introduction of switchgrass initiates major changes in soil nutrient dynamics through organic-matter input.
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机译:柳枝and和其他多年生禾草已被用作生产可再生燃料的生物量作物。这项研究的目的是评估生物量去除对土壤生物地球化学过程的影响。在俄勒冈州彭德尔顿附近进行了为期三年的田间研究,包括三个水平的净初级生产力(NPP;低,中和高生长季降水量)和两种生物量作物(冬小麦和柳枝switch)。柳枝increased增加了土壤碳(C)-氮(N)的比率,但影响随净初级生产力(NPP)和土壤深度的变化而变化。中,低NPP条件下,柳枝switch的原地土壤呼吸(二氧化碳; CO 2 )速率随NPP水平的升高而增加,但柳枝cumulative的累积通量却高于小麦。在高和中等NPP条件下,柳枝under的氮矿化和微生物生物量碳含量明显高于小麦。柳枝的引入通过有机物的投入引发了土壤养分动态的重大变化。
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