高分辨率无人机影像与野外调查相结合的海岸带沙丘生境探测建模方法

IF 3.9 2区 环境科学与生态学 Q1 ECOLOGY
E. Agrillo, F. Filipponi, R. Salvati, Alice Pezzarossa, L. Casella
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引用次数: 1

摘要

近年来,基于遥感和无人机的地球观测数据已被证明是生态系统监测和栖息地测绘的重要工具,结合了应用生态学的高技术和方法程序。然而,基于观测数据分析的研究往往侧重于图像处理技术,而忽视了详尽的栖息地检测所需的详细采样设计方案的发展。本文展示了一种新的方法,通过结合植被样地采样方案,协同使用多传感器光谱图像(UAV - VHR)和环境预测器(如LiDAR),基于目标的图像分析和景观指标分析,使用监督机器学习模型,在精细尺度上绘制海岸沙丘栖息地的结果。提议的方法在一个保护区进行了测试,该保护区是为了保护意大利第勒尼安海岸著名的栖息地而建立的。在2019年春夏两季,设计并实施了详细的采样方案,将无人机飞行采集与高精度定位采集的野外植被调查数据相结合。校正后的分类模型总体精度达到78.6%(标准误差4.33),使我们能够根据欧洲自然信息系统(EUNIS)分类准确地分类和绘制5种沿海栖息地,并通过完全独立的验证实地调查进一步验证。结果表明,VHR图像与特定的野外调查方案相结合,可以用于训练用于局部尺度植物群落(即中生境)和植物物种检测的分类模型。我们的研究结果表明,无人机- VHR数据是在沙滩生态系统中产生高空间分辨率信息的有效工具,为生态学研究提供了一种响应性、及时性和成本效益高的生态系统监测新方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modeling approach for coastal dune habitat detection on coastal ecosystems combining very high‐resolution UAV imagery and field survey
Earth observation (EO) data, derived from remote sensing and unmanned aerial vehicle (UAV), have been recently demonstrated to be essential tools for the ecosystem monitoring and habitat mapping, combining high technological and methodological procedures for applied ecology. However, research based on EO data analyses often tend to focus on image processing techniques, neglecting the development of a detailed sampling design scheme needed for an exhaustive habitat detection. This paper shows the results of a novel approach for mapping coastal dune habitats at a fine scale, using a supervised machine learning model, through the combination of vegetation plot sampling scheme, synergic use of multi‐sensor spectral imagery (UAV‐VHR) and environmental predictors (e.g., LiDAR), object‐based image analysis, and landscape metrics analysis. Proposed approach was tested in a protected area, established to preserve notable habitats along the Italian Tyrrhenian coast. A detailed sampling scheme was designed and carried out during spring and summer of 2019, combining simultaneously UAV flight acquisition and field vegetation survey data, collected at high precision positioning. The calibrated classification model achieved an overall accuracy of 78.6% (standard error 4.33), allowing us to accurately classify and map five coastal habitats, according to EUNIS (European Nature Information System) classification, which were further verified through a fully independent validation field survey. Results demonstrate that VHR imageries, combined with specific field survey schemes, can be exploited to train classification models used for the detection of plant communities (i.e., meso‐habitat) and plant species at local scale. Our findings demonstrate that UAV‐VHR data is a valid tool to produce high spatial resolution information in sand beach ecosystems, giving ecology research a new way for responsive, timely, and cost‐effective ecosystem monitoring.
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来源期刊
Remote Sensing in Ecology and Conservation
Remote Sensing in Ecology and Conservation Earth and Planetary Sciences-Computers in Earth Sciences
CiteScore
9.80
自引率
5.50%
发文量
69
审稿时长
18 weeks
期刊介绍: emote Sensing in Ecology and Conservation provides a forum for rapid, peer-reviewed publication of novel, multidisciplinary research at the interface between remote sensing science and ecology and conservation. The journal prioritizes findings that advance the scientific basis of ecology and conservation, promoting the development of remote-sensing based methods relevant to the management of land use and biological systems at all levels, from populations and species to ecosystems and biomes. The journal defines remote sensing in its broadest sense, including data acquisition by hand-held and fixed ground-based sensors, such as camera traps and acoustic recorders, and sensors on airplanes and satellites. The intended journal’s audience includes ecologists, conservation scientists, policy makers, managers of terrestrial and aquatic systems, remote sensing scientists, and students. Remote Sensing in Ecology and Conservation is a fully open access journal from Wiley and the Zoological Society of London. Remote sensing has enormous potential as to provide information on the state of, and pressures on, biological diversity and ecosystem services, at multiple spatial and temporal scales. This new publication provides a forum for multidisciplinary research in remote sensing science, ecological research and conservation science.
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