亚利桑那州东南部覆盖变化遥感评估。

O. Wallace, J. Qi, P. Heilma, R. Marsett
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引用次数: 5

摘要

了解景观转换对于评估区域和全球尺度上的生态和人为干扰的影响至关重要。由于牧场覆盖了全球近一半的陆地表面,而且很大一部分牧场位于半干旱生态系统中,因此它们是决定区域生物多样性、全球生物地球化学循环以及能源和气体通量的关键土地覆盖类型。对于如此庞大的生态系统,卫星图像通常用于盘点地球表面的生物物理材料和人造特征。遥感卫星影像覆盖面积大、采集周期长,对地观测数据可用于监测不同空间尺度的土地转换率。通过提供配套的牧场健康指标,遥感还可用于半干旱生态系统的时间评估。本文利用多时相卫星数据,对土地利用和土地覆盖变化进行量化,并将空间配置和组成与景观结构和格局联系起来。研究结果与火灾的作用相关联,以更好地了解在亚利桑那州东南部快速发展的半城市人口普查区产生环境压力的生态功能和人类和/或自然活动。结果表明:原生地火烧还原区的转换具有2个空间分量;在农村地区,草正在被日益同质的灌木和牧豆树为主的地区所淘汰,而在城市和郊区,草以及灌木和牧豆树正在被破碎和扩大的建筑景观所淘汰。DOI: 10.2458 / azu_jrm_v56i5_wallace
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Remote sensing for cover change assessment in southeast Arizona.
Understanding landscape conversion is vital for assessing the impacts of ecological and anthropogenic disturbances at regional and global scales. Since rangelands cover nearly half of the global land surface, and because a large part of rangelands is located in semi-arid ecosystems, they serve as critical land cover types for determining regional biodiversity, global biogeochemical cycles, and energy and gas fluxes. For such vast ecosystems, satellite imagery is often used to inventory biophysical materials and man-made features on Earth's surface. The large area coverage and frequent acquisition cycle of remotely sensed satellite images make earth observation data useful for monitoring land conversion rates at different spatial scales. Remote sensing could also be used for temporal assessment of semi-arid ecosystems by providing complimentary sets of rangeland health indicators. In this paper, temporal satellite data from multiple sensors were examined to quantify land use and land cover change, and to relate spatial configuration and composition to landscape structure and pattern. The findings were correlated with the role of fire to better understand ecological functionality and human and/or natural activities that are generating environmental stressors in a rapidly developing, semi-urban census division located in southeastern Arizona. Results indicate that conversion of a fire-suppressed native grassland area has 2 spatial components; in the rural areas, grass is being eliminated by increasingly homogeneous shrub and mesquite-dominated areas, whereas in the urban and suburban areas, grass as well shrubs and mesquite are being eliminated by a fragmented and expanding built landscape. DOI:10.2458/azu_jrm_v56i5_wallace
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