基本信息
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职业迁徙
个人简介
Current Research
The scientist investigates interactions among human land use and management, forest vegetation, and natural disturbance processes (principally fire and defoliating insects) across large landscapes in time and space. Under this guiding theme, the scientist develops landscape models to synthesize information across scales and scientific disciplines, and applies those models to investigate the emergent consequences of these interacting phenomena. The cumulative effects of these interactions result in persistent spatial legacies that often constrain future management options and may impact ecosystem resilience to future change.
The scientist also designs field studies to address fundamental knowledge gaps limiting the understanding of disturbance processes and effects. Some focal areas include: 1. how landscape legacies from past forest management patterns can either buffer or amplify insect outbreaks; 2. how disturbance intensity or severity (e.g., fire or insect defoliation) many be scaled up using different remote sensing platforms; 3. how fuel loading and fire intensity relates to belowground soil heating, and its consequences for the restoration of fire-prone ecosystems.
The scientist investigates interactions among human land use and management, forest vegetation, and natural disturbance processes (principally fire and defoliating insects) across large landscapes in time and space. Under this guiding theme, the scientist develops landscape models to synthesize information across scales and scientific disciplines, and applies those models to investigate the emergent consequences of these interacting phenomena. The cumulative effects of these interactions result in persistent spatial legacies that often constrain future management options and may impact ecosystem resilience to future change.
The scientist also designs field studies to address fundamental knowledge gaps limiting the understanding of disturbance processes and effects. Some focal areas include: 1. how landscape legacies from past forest management patterns can either buffer or amplify insect outbreaks; 2. how disturbance intensity or severity (e.g., fire or insect defoliation) many be scaled up using different remote sensing platforms; 3. how fuel loading and fire intensity relates to belowground soil heating, and its consequences for the restoration of fire-prone ecosystems.
研究兴趣
论文共 167 篇作者统计合作学者相似作者
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ECOLOGICAL MODELLING (2024): 110657
JOURNAL OF ECOLOGYno. 1 (2024): 152-173
Ecological Modelling (2023): 110274-110274
Fire Ecologyno. 1 (2023): 1-29
Landscape and Urban Planning (2023): 104798-104798
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