评估 GEDI 数据融合以绘制啄木鸟分布和生物多样性热点地区图

Lisa H. Elliott, J. Vogeler, Joseph D Holbrook, Brent R Barry, Kerri T Vierling
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摘要

在森林系统中,啄木鸟物种的丰富性与鸣禽的多样性有关,确定啄木鸟生物多样性热点地区可为保护规划提供重要信息。通过全球生态系统动态调查(GEDI)工具获得的全球森林结构数据为研究环境变量、森林结构和啄木鸟多样性热点之间的广泛关系提供了新的工具。在美国海洋西海岸森林生态区,我们利用 eBird 提供的 7 种啄木鸟数据,根据生物气候变量、过程数据(如调查持续时间和时机)、MODIS 森林土地覆盖数据和 GEDI 融合指标,建立了啄木鸟相遇率模型。GEDI 融合指标包括叶高多样性 (fhd)、rh98(代表树冠高度)和树冠覆盖率,这些指标是在随机森林建模框架内将 GEDI 数据与 Landsat、Sentinel-1、地形和气候信息相结合而创建的。物种特定模型的 AUC 在 0.77 - 0.98 之间,其中生物气候和过程预测因子是所有物种的最重要变量。GEDI 融合森林结构指标在所有物种中的排名都很靠前,其中 fhd 在所有物种中都是排名靠前的预测因子。对每个物种而言,作为最高预测因子的结构指标反映了已知物种特定的生境关联。该生态区域的热点地区往往位于内陆,且最常出现在私有土地上。确定热点地区是制定以生物多样性为重点的管理计划的第一步,了解所有权模式对未来的保护工作非常重要。GEDI 数据几乎遍布全球,而且最近有研究建议将啄木鸟作为地方和全球范围内多种森林类型的生物多样性指标,这表明将 GEDI 派生数据与啄木鸟探测信息相结合可能是识别生物多样性热点的有力方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessing GEDI data fusions to map woodpecker distributions and biodiversity hotspots
In forested systems, woodpecker species richness has been linked with songbird diversity, and identifying woodpecker biodiversity hotspots may contribute important information for conservation planning. The availability of global forest structure data via the Global Ecosystem Dynamics Investigation (GEDI) instrument provides a new tool for examining broad extent relationships amongst environmental variables, forest structure, and woodpecker diversity hotspots. Within the Marine West Coast Forest ecoregion, USA, we used eBird data for 7 woodpecker species to model encounter rates based on bioclimatic variables, process data (e.g. duration and timing of survey), MODIS forest land cover data, and GEDI-fusion metrics. The GEDI-fusion metrics included foliage height diversity (fhd), rh98 (a representation of canopy height), and canopy cover, which were created by combining GEDI data with Landsat, Sentinel-1, topographic, and climatic information within a random forest modeling framework. AUCs for the species-specific models ranged from 0.77 - 0.98, where bioclimatic and process predictors were amongst the most important variables for all species. GEDI-fusion forest structure metrics were highly ranked for all species, with fhd included as a highly ranked predictor for all species. The structural metrics included as top predictors for each species were reflective of known species-specific habitat associations. Hotspots in this ecoregion tended to be inland and occurred most often on privately-owned lands. Identification of hotspots is the first step towards management plans focused on biodiversity, and understanding ownership patterns is important for future conservation efforts. The near-global extent of GEDI data, along with recent studies that recommend woodpeckers as indicators of biodiversity across multiple forest types at local and global scales, suggest that synthesis of GEDI-derived data applied to woodpecker detection information might be a powerful approach to identifying biodiversity hotspots.  
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