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11.
Small-scale vegetation dynamics were followed for ecotones and in uniform stands inArtemisia-dominated steppe vegetation under grazing and when recovering from heavy grazing. Species composition was followed annually for 5 years in 1 m2and 0·25 m2plots for (1) presence–absence; (2) density; and (3) biomass.More rapid vegetation dynamics, in terms of change of type of vegetation and distance moved in DCA species space between sampling occasions, were observed in smaller plots and in early seral stages, where species were few and alpha diversity low. Only the plots recently protected from grazing showed a directional vegetation change; those protected for more than 3 years and those under continued grazing showed, at this scale, non-directional dynamics. 相似文献
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松嫩平原西部草原生态环境专家系统开发与应用 总被引:1,自引:1,他引:1
我国草原生态环境日益恶化,要求加快研究进度,而培养专家周期长,寻找草原环境评价专家的替代或复制品就成了当务之急。笔者在听取大量专家意见并详细分析了相关资料后,通过快速原型与增量式开发建立了松嫩平原西部草原生态环境专家系统。本专家系统使用功能强大的VisualC++完成数据库的建立、知识的表示、推理机的设计、解释的给出和人机交互界面的形成,实现了数据信息的可视化、图形显示、结果输出以及其它系统功能。它包含大量的松嫩平原西部草原现状资料、遥感解译图及系统的环境现状评价、适宜性评价、土地退化程度评价等模块。通过在长岭县、大安市的应用测试,证明该系统运行稳定,结论正确,应用前景广阔。 相似文献
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内蒙古温带半干旱羊草草原N2O通量及其影响因素 总被引:5,自引:2,他引:5
利用静态箱 -气相色谱法于 2 0 0 1~ 2 0 0 3年对内蒙古锡林河流域羊草草原进行了连续 2年的野外定位试验 ,获得羊草草原原状群落与土壤N2 O年排放通量分别在 3 91~ 4 71μgm- 2h- 1以及 5 5 0~ 10 0 3μgm- 2 h- 1范围内变动 ,证明内蒙古温带半干旱羊草草原生态系统是大气中N2 O的源 ;系统分析了羊草草原N2 O通量的季节变化、源汇特征以及关键的环境因子对草地N2 O通量的影响等 ,建立了N2 O通量与环境因子间的回归方程 ;并利用两年连续完整的观测数据对羊草草原N2 O年排放量进行了估算 相似文献
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宁夏香山荒漠草原区植物群落多样性时空特征 总被引:10,自引:0,他引:10
采用多个多样性指数对宁夏香山荒漠草原区植物群落多样性时间、空间动态进行分析。结果表明,该地区群落时、空动态特征不明显。长期过度放牧导致环境恶化,生境碎化,这些作用的长期性、循环性是造成物种、群落格局与原有时、空动态规律相悖的主要因素,这些因素消除了物种或群落在时间梯度上应有的变化规律。干旱山地物种在长期进化过程中成功的发展了对环境的适应机制,环境的波动性强烈导致了群落多样性在原来消长动态基础上的复杂化,也使多样性动态机制复杂化。应用多种指数数学模型对研究对象进行综合评价,能够真实地反映群落多样性动态。 相似文献
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Experimental study on soil CO2 emission in the alpine grassland ecosystem on Tibetan Plateau 总被引:3,自引:1,他引:3
The Tibetan Plateau, the Roof of the World, is the highest plateau with a mean elevation of 4000 m. It is characterized by high levels of solar radiation, low air temperature and low air pressure compared to other regions around the world. The alpine grassland, a typical ecosystem in the Tibetan Plateau, is distributed across regions over the elevation of 4500 m. Few studies for carbon flux in alpine grassland on the Tibetan Plateau were conducted due to rigorous natural conditions. A study of soil respiration under alpine grassland ecosystem on the Tibetan Plateau from October 1999 to October 2001 was conducted at Pangkog County, Tibetan Plateau (31.23°N, 90.01°E, elevation 4800 m). The measurements were taken using a static closed chamber technique, usually every two weeks during the summer and at other times at monthly intervals. The obvious diurnal variation of CO2 emissions from soil with higher emission during daytime and lower emission during nighttime was discovered. Diurnal CO2 flux fluctuated from minimum at 05:00 to maximum at 14:00 in local time. Seasonal CO2 fluxes increased in summer and decreased in winter, representing a great variation of seasonal soil respiration. The mean soil CO2 fluxes in the alpine grassland ecosystem were 21.39 mgCO2 · m-2 · h-1, with an average annual amount of soil respiration of 187.46 gCO2 · m-2 · a-1. Net ecosystem productivity is also estimated, which indicated that the alpine grassland ecosystem is a carbon sink. 相似文献
19.
Mary Ann Cunningham 《The Professional geographer》2005,57(1):51-65
Midwestern states have invested extensively in grasslands for wildlife conservation, yet these public lands make up a minority of grassland habitat. How effective are public grasslands, relative to private lands, for conserving native songbird populations? I compare private and public lands in southern Minnesota using bird survey data from Conservation Reserve Program (CRP) fields and public lands and assessing fragmentation in a GIS. Bird abundance and diversity were greater on CRP lands. Vegetation composition, field isolation, and field size appear to explain differences in bird counts. Land cover data show that grassland habitat on public lands is scarce and widely scattered. The CRP provides more, and here better, habitat for grassland birds. Funding partly explains this disparity. Trends in farm set‐aside program rules and distribution, which can be vary greatly over time, will strongly influence the success or failure of biodiversity conservation in this region. 相似文献
20.
Situated in a climatically stressful environment, alpine grassland is sensitive to subtle climate changes in its productivity. We remedy the current deficiency in studying grassland productivity by taking the integrated effect of all relevant factors into consideration. The relative importance of temperature, rainfall and evaporation to the alpine grassland productivity in western China was determined through analysis of their relationship with the normalized difference vegetation index (NDVI) between 1981 and 2000. Climate warming stimulated grassland productivity in the 1980s, but hampered it in the 1990s. Temperature is more important than rainfall to grassland productivity early in the growing season. However, their relative importance is reversed late in the growing season. Monthly summer month rainfall modified by maximum monthly temperature is a good predictor of alpine grassland productivity at 62.0 per cent. However, the best predictor is water deficiency, which is able to improve the estimation accuracy to 78.3 per cent. Hence, the impact of temperature on grassland productivity is better studied indirectly through evaporation. 相似文献