摘要
放牧是草原生态系统的重要干扰,是草原氮循环的重要影响因素。为了揭示放牧对土壤N储量的影响,在内蒙古典型草原,基于单位草原面积草原载畜量和单位草原生产力,建立了放牧压力评价模型,并利用1990—2011年以县为单位统计的放牧牲畜数据和2001—2011每年合成的MODIS-NDVI_(max)影像数据评估了放牧压力的空间分布。基于2011年野外调查的95个样点和2010年调查的41个样点数据,对处于低放牧压力(LG),中放牧压力(MG)和高放牧压力(HG)的样点数据进行了统计分析。结果表明:放牧压力对土壤容重(BD),土壤全碳(TC)含量和土壤全氮(TN)含量具有显著影响,特别在土壤表层(0—10cm),土壤容重、TC含量和TN含量在LG,MG和HG之间存在显著差异。TC含量和TN含量随放牧压力增加而降低,BD随放牧压力增加而增加;黏粒含量(CC)在3个放牧压力梯度上不存在显著差异;土壤N储量表现出和TN含量相似的变化特征,随土壤深度增加而降低,随放牧压力增加而减少,在0—50cm范围内,土壤N储量在LG、MG和HG之间存在显著差异(2011,P<0.05;2010,P<0.1)。重度放牧是草原生态系统氮损失的主要因素之一,降低放牧压力有助于降低草原氮损失和恢复植被生产力。
Nitrogen is one of the important constraining factors affecting vegetation growth, especially in arid and semi-arid areas of natural grasslands. In a natural grassland ecosystem without fertilizer inputs, the vegetation nutrients mainly come from plant litter decomposition and the mineralization of organic nutrients. Soil nitrogen storage is the result of the historical accumulation of plant litter and the long-term weathering of parent rock in the nutrient source for vegetation growth, is closely related to vegetation productivity, grassland ecosystem. It is an important and is an indicator of ecological service function change. In recent years, the ecological and economic problems caused by grassland degradation and grassland soil nutrient depletion have become the focus of governments and researchers due to climate change and human activity disturbance. Although climate change has important effects on grassland ecosystems, it is difficult to control and manage at the smaller spatial-temporal scales. Human activity is one of the main influencing factors affecting grassland ecologicalsystems. Therefore the control and management of human activities can effectively protect grassland ecosystems and promote sustainable grassland utilization. Grazing is a significant human disturbance of grassland ecosystems, and is one of the important factors affecting the grassland nitrogen cycle. In order to examine the impact of grazing on soil N storage, we created a grazing pressure index model using the statistical annual grazing livestock data (1990--2011) from counties and MODIS-NDVI (1000 m resolution, 2001--2011 ), which combined grazing capacity and vegetation productivity per unit area. We used the pressure index model to assess the spatial distribution of grazing pressure in typical steppe of Inner Mongolia, China, and used field sampling point data in 2010 and 2011 across study area to analyze soil N storage and other several related soil properties at low grazing pressures ( LG), moderate grazing pressures (MG) and high grazing pressures (HG). The results showed that grazing pressure had a significant effect on soil bulk density (BD), soil total carbon content (TC) and soil total nitrogen content(TN), especially in the surface soil layer (0--10cm). The BD, and TC and TN contents significantly differed between LG, MG, and HG. The TC and TN contents decreased with increasing grazing pressure, and the BD increased as the grazing pressure increased. Clay content (CC) did not significantly differ between the three grazing pressures. Soil N storage showed similar variation characteristics with TN content, but decreased with increasing of soil depth and grazing pressure. In the surface soil, in 2010 and 2011, the soil N storage showed significant differences among LG, MG, and HG. Within the range of 0 to 50 cm, the soil N storage decreased with increasing grazing pressure, and significantly differed among LG, MG and HG (2011, P〈 0.05; 2010, P〈 0.01). Therefore, grazing has no significant impact on the clay content, and the clay content variation is not the reason for the reduction in soil N storage in the study area. Heavy grazing is one of the main influence factors affecting nitrogen loss in the steppe ecosystem, and thus, reducing grazing pressure helps to reduce the loss in soil N storage and restores vegetation productivity.
出处
《生态学报》
CAS
CSCD
北大核心
2016年第3期758-768,共11页
Acta Ecologica Sinica
基金
国家重点基础研究发展计划(973计划
2014CB138803)
国家自然科学基金重点项目(41030535)
地表过程与资源生态国家重点实验室项目(2011-TDZY-102)
关键词
NDVI
载畜量
放牧压力梯度
土壤N储量
内蒙古
NDVI
rate of stocking
grazing pressure gradient
soil N storage
Inner Mongolia
