山艾草地鲍文比与冠室CO2通量的关系

Douglas A. Johnson, N. Saliendra, John W. Walker, J. Hendrickson
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引用次数: 7

摘要

由于它们的广布性,山艾草(Artemisia spp.)草原牧场可能对全球碳预算做出重大贡献。然而,重要的是确定在这些牧场上测定二氧化碳通量的方法之间是否存在差异。本研究的目的是比较鲍文比-能量平衡技术和冠层室技术在山艾草-草原生态系统中测量CO2通量的效果。Bowen比率-能量平衡系统安装在Ida Dubois附近的山艾草-草原站点。与相关的微气象特征相结合,连续测量气温、水蒸气和二氧化碳浓度的垂直梯度。树冠室技术采用1平方米(1020升)透明有机玻璃/塑料薄膜室与便携式气体交换系统相结合,在4年(1996-1999)的5月至8月期间定期使用,以在2分钟内获得3个重复块的二氧化碳通量的瞬时测量。测量周期。在4年的研究中,对于相同的测量日期和时间,Bowen比率-能量平衡技术的CO2通量范围为-0.22至0.55 mg m-2秒-1,冠层室技术的CO2通量范围为-0.18至0.48 mg m-2秒-1。在生长季的前期(5月)和中期(6 ~ 7月中旬),两种技术估算的CO2通量无统计学差异(P > 0.05);但在7月下旬至8月下旬,两种技术测量的通量差异有统计学意义(P < 0.05)。尽管在季末干热期存在差异,但两种技术估算的通量在季初(r2 = 0.71)、季中(r2 = 0.88)和季末(r2 = 0.72)均呈显著正相关。因此,在我们的山艾灌木-草原研究地点,两种技术在4年的研究中显示出相似的二氧化碳通量模式,尽管在炎热干燥的条件下使用冠层室技术时应谨慎。DOI: 10.2458 / azu_jrm_v56i5_johnson
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bowen ratio versus canopy chamber CO2 fluxes on sagebrush rangeland
Because of their expansiveness, sagebrush (Artemisia spp.)-steppe rangelands could contribute significantly to the global carbon budget. However, it is important to determine if there are differences between methods for determining CO2 fluxes on these rangelands. The objective of this study was to compare the Bowen ratio-energy balance and canopy chamber techniques for measuring CO2 fluxes in a sagebrush-steppe ecosystem. A Bowen ratio-energy balance system was installed at a sagebrush-steppe site near Dubois, Ida., U.S.A to continuously measure the vertical gradients of air temperature, water vapor, and CO2 concentration in conjunction with associated micrometeorological characteristics. The canopy chamber technique, which employed a 1-m2 (1,020 liter) clear plexiglass/plastic film chamber in combination with a portable gas exchange system, was used periodically during May through August across 4 years (1996-1999) to obtain instantaneous measurements of CO2 fluxes across 3 replicate blocks during a 2-min. measurement period. For the same measurement dates and times across the 4 years of study, CO2 fluxes ranged from -0.22 to 0.55 mg m-2 sec-1 for the Bowen ratio-energy balance technique and from -0.18 to 0.48 mg m-2 sec-1 for the canopy chamber technique. Estimates of CO2 fluxes by the 2 techniques were not statistically different (P > 0.05) for the early (May) and mid-season (June to mid-July) portions of the growing season; however, fluxes measured by the 2 techniques were significantly different (P < 0.05) for the late-season period (late-July to late-August). Despite this difference during the hot-dry, late-season period, flux estimates from the 2 techniques were significantly and positively correlated during the early (r2 = 0.71), mid- (r2 = 0.88), and late- (r2 = 0.72) season periods. Thus, both techniques showed similar patterns of CO2 fluxes at our sagebrush-steppe study site across 4 years of study, although caution should be used when the canopy chamber technique is used during hot, dry conditions. DOI:10.2458/azu_jrm_v56i5_johnson
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